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English Pages [936] Year 1997
Albert Einstein B
I
O
ALBRECHT FOLSING
Ci
Canada $45.00
A fresh interpretation of the great thinker’s genius, set in the context of his time Albert Einsteins achievements are not just milestones in the history of science; decades ago they became an integral part of the twentieth-century world in which we
Like no other modern physicist, he altered and expanded our understanding of nature. Like few other live.
he stood fully in the public eye. In a world changing with dramatic rapidity he embodied the role of scholars,
H:
scientist by personal example.
Yet despite Einsteins
exceptional significance, both for physics and for our entire culaire, until
death— the
now— more than forty years after his
true breadth
and
variety of his scientific
achievements and his political, cultural, and social ests have not been documented in one volume.
inter-
Albrecht Folsing, relying on previously unknown sources and letters, brings Einstein’s “genius” into
Whereas former biographies, written in the tradition of the history of science, seem to describe a focus.
heroic Einstein
who fell to earth from heaven,
Folsing
attempts to reconstruct Einsteins thought in the context of the state of research at the turn of the century. 1 hus, perhaps for the first time, Einstein’s surroundings come to
Folsing describes in detail the environment in which the enormous burst of creativity occurred in 1905, when Einstein as a twentysix-year-old at the
light.
Swiss Patents Office in Bern began
making contributions to physics. Einstein’s profound knowledge of literature, his discussions with friends and colleagues, and even his handling of patents for machines proved to be a beneficial framework in which he brought the epoch of classical physics to a towering close with relativity theory and at the same electrical
time opened up
Einstein
new horizons in quantum theory
a searching and balanced work, both an extraordinary portrait of a genius in his time and a distillation
is
of scientific thought.
ALBERT EINSTEIN
Digitized by the Internet Archive in
2017 with funding from
Kahle/Austin Foundation
https://archive.org/details/alberteinsteinbiOOfols
A
BIOGRAPHY
ALBRECHT FOLSING Translated from the
German
EWALD OSERS
VIKING
by
VIKING
Published by the Penguin Group
Penguin Books USA Inc., 375 Hudson Street, New York, New York 10014, U.S.A. Penguin Books Ltd, 27 Wrights Lane, London W8 5TZ, England Penguin Books Australia Ltd, Ringwood, Victoria, Australia Penguin Books Canada Ltd, 10 Alcorn Avenue, Toronto, Ontario, Canada M4V 3B2 Penguin Books (N.Z.) Ltd, 182-190 Wairu Road, Auckland 10, New Zealand Penguin Books Ltd, Registered Offices: Harmondsworth, Middlesex, England First published in
1
3
1997 by Viking Penguin,
USA Inc.
of Penguin Books
a division
7
5
10
9
Translation copyright
4
6
8
2
© Ewald Osers,
1997
All rights reserved
Originally published in
Verlag.
Germany
as Albert Einstein:
© Suhrkamp Verlag Frankfurt am Main
Lucien Aigner,
The
Eine Biographie by Suhrkamp
1993.
PHOTOGRAPH CREDITS: Advanced Study, Princeton:
Institute for
29;
American
Insti-
tute of Physics, Emilio Segre Visual Archives: 7, 8, 12, 14, 18, 27, 34; Bibliothek
der Eidgenossischen Technische: Hochschule, Zurich:
2,
3, 4, 6, 9;
Bildarchiv
Preussischer Kulturbesitz, Berlin: 11, 17; Bildarchiv Preussicher Kulturbesitz, Berlin and Siiddentscher Verlag, Munich: 32, 33; Bundesarchiv Koblenz: 21; Ein-
The Jewish National and University Lotte Jacobi, Dimond Library, Durham: 1, 25,
stein Archives,
Library, Jerusalem:
24;
26, 28;
Howard
5, 15, 16,
E. Schrader,
Princeton University, Princeton: 31; Siiddeutscher Verlag, Munich: 13, 30; Ullstein Bilderdienst, Berlin: 10, 19, 20, 22, 23.
LIBRARY OF CONGRESS CATALOGING IN PUBLICATION DATA Folsing, Albrecht, 1940[Albert Einstein. English]
Albert Einstein
:
a
by Albrecht Folsing translated from the German by Ewald Osers.
biography
/
:
cm.
p.
Includes bibliographical references and index.
ISBN 0-670-85545-6 1.
Einstein, Albert. 1879-1955. I.
(alk.
2.
This book
—dc20
is
Physicists
—Biography.
Title.
QC16.E5F5913 5307092
paper)
1997 96-26341
printed on acid -free paper.
© Printed in the United States of America Set in Janson
Designed by Francesca Belanger
Without limiting the
under copyright reserved above, no part of this publibe reproduced, stored in or introduced into a retrieval system, or transmitted, in any form or by any means (electronic, mechanical, photocopying, cation
rights
may
recording or otherwise), without the prior written permission of both the copyright owner and the above publisher of this book.
This book would not have been possible without the work of those
who began
early
on
to collect
and deposit Albert Einstein’s
The
manuscripts, as well as other documents relating to him.
source
letters
central
the Albert Einstein Archive, formerly in Princeton and
is
and
now
maintained in the Jewish National and University Library in Jerusalem.
I
would
like to
thank
its
curator, Ze’ev Rosenkranz, and
Katzenstein for their generous support during
my
stay in Jerusalem,
and the Einstein Archive, Hebrew University of Jerusalem, its
kind permission to reprint unpublished material.
inspect sets of copies in the in
Mudd
Hanna
Israel, for
was able to
I
Library of Princeton University and
the Science and Engineering Library of Boston University. In
Zurich Beat Glaus was an invariably helpful guide through the history of science collections of the Library of the Swiss Technical University,
ETH.
In the archive of the
Max Planck
Society in Berlin
I
enjoyed the
kind assistance of Eckart Henning, Marion Kazemi, and Andreas K.
Walter. Bernhardt Schell of the Anschutz
enough
to put the correspondence
Anschiitz-Kaempfe I
am
at
my disposal
grateful to Professor
company
in Kiel
between Einstein and Hermann
before
its
publication.
A ehuda Elkana and the Van Leer Foun-
dation, Jerusalem, for enabling
me
to participate in a
workshop on
“Einstein in Context” in April 1990 in Jerusalem, and to
pants for I
many informative
greatly benefited
was good
its
partici-
suggestions.
from conversations with Anne
Renn, and Robert Schulmann of the project of The
J.
Kox, Jurgen
Collected Papers of
Acknowledgments
vi
Albert Einstein Robert Schulmann, especially, generously shared with ;
me
his I
knowledge about Albert Einstein’s early years.
owe
a
debt of gratitude to the publisher Siegfried Unseld for his
great confidence in this difficult project, and for his patience.
My wife, Ulla, patience
my
and our children, Philipp and Julia, had to bear with
prolonged preoccupation with
this
book; for this
I
not
only thank them sincerely but also ask their forgiveness. This apology
should also include our dog, Rufus, for
understand
my changed lifestyle
as I
whom
worked
at
it
was most
my desk.
difficult to
CONTENTS
Acknowledgments
v
Foreword
xi 4T
CHILDHOOD, YOUTH, STUDENT YEARS
I
1.
Family
2
School
1
3.
A “Child Prodigy”
32
4.
“Vagabond and Loner”: Student Days
5.
Looking for
.
3
in
Zurich
a Job
48 70
THE PATENT OFFICE
II
6.
Expert
7.
“Herr Doktor Einstein” and the Reality of Atoms
122
8
The “Very Revolutionary”
135
.
III
Class
95
Light Quanta
Movement: “My Life for Seven Years” The Theory of Relativity: “A Modification of the Theory of Space and Time”
155
11.
Acceptance, Opposition, Tributes
199
12.
Expert
221
9.
10.
Relative
II
Class
III
178
THE NEW COPERNICUS
13.
From “Bad Joke”
14.
Professor in Zurich
to
“Herr Professor”
235
258 vii
Contents
viii
Prague
—But Not for Long
15.
Full Professor in
16.
Toward the General Theory of Relativity From Zurich to Berlin
17.
IV
18. 19.
278 301
322
THE NOISE OF WAR AND THE SIZE OF THE UNIVERSE
A Pacifist in Prussia “The Greatest Satisfaction of My Life”:
“In a Madhouse”:
343
The Completion
3
of the General Theory of Relativity
69
20.
Wartime
2
Postwar Chaos and Revolution
417
Confirmation of the Deflection of Light: “The Suddenly Famous Dr. Einstein”
433
1
.
22.
V 23
.
394
in Berlin
Relativity
SPLENDOR AND BURDEN OF FAME
under the Spotlight
45 5
24.
“Traveler in Relativity”
472
25.
Jewry, Zionism, and a Trip to America
488
26.
More
Hustle,
and a
Little Physics
VI
Long Journeys,
UNIFIED THEORY
a
Lot of Politics, 510
IN
A TIME
OUT OF JOINT
Receives the Nobel Prize and in Consequence Becomes a Prussian
27. Einstein
535
552
29.
“The Marble Smile of Implacable Nature”: The Search for the Unified Field Theory The Problems of Quantum Theory
30.
Critique of Quantum Mechanics
578
28.
31. Politics, Patents, Sickness,
and a “Wonderful Egg”
566
593
32.
Public and Private Affairs
608
33.
Farewell to Berlin
633
Contents
IX
THE PACIFIST AND THE BOMB
VII
34.
Exile as Liberation
659
35.
Princeton
679
36.
Physical Reality and a Paradox, Relativity and Unified
Theory
693
Bomb
37.
War,
38.
Between Bomb and Equations
721
39.
“An Old Debt”
739
Notes
743
Bibliography and Abbreviations
82
Chronology
849
Index
861
a Letter,
and the
706
*
*
FOREWORD
Even four decades
death, an exceptional fascination
after his
evoked by the name of Albert Einstein.
It far
is
transcends the fact that
he was indisputably' the greatest physicist of our century, comparable
Newton
to Isaac
cialists in
—but Einstein
much more
is
is
a subject for spe-
the history of science.
which
Einstein’s legendary greatness,
today,
than
based on
a
still
multitude of factors; but
physics, in several respects.
touches
many
of us
primarily linked to
it is
His concepts of space and time, of the
“fourth dimension,” and of a finite but
unbounded universe
which
in
light travels along a curved path, are regarded as revolutionary,
parable, in their effect
on human understanding, only
com-
to those of
Copernicus. However, the results of his profound reflections on nature are also
— through
his
nected with the atom
legendary formula
bomb and
all
that
E = me —indirectly 2
it
meant
has
in
con-
terms of
destruction, fear, and terror. If ever a theory born of an innocent
search for knowledge
became
a material force,
then
it
was
in the
mush-
room cloud over Hiroshima.
The
creator of this theory lived not in an ivory tower but in a time
of wars and conflicts, and he faced this situation with a strong sense of
humanitarian responsibility and
a
need to intervene
humanism, which assigned greater importance all
to
in politics.
what was
His
common
to
people than to what divided them, gave him a “left-wing” identity.
However, he was not stamped by the the underdog.
tied to
any party doctrine but instead was
social ethics of
Judaism, which include sympathy for
He
put his fame
—he was already xi
a
legend at the age of
Foreword
xii
—
forty
of social
at the service
democratic freedoms, pacifism,
justice,
the welfare of the Jews, and a cosmopolitan internationalism, though rarely with success and frequently setting off controversy.
Einstein’s kindness if
he were
a saint.
was often praised and
There was some
his simplicity
justification for that,
admired
as
but he could
be rude and wounding, and below his modest surface there was
also
unfathomable complexity. Although his birth
was complicated,
unequivocal.
his attitude
his attitude
toward Nazi Germany was
him, despite his passionate pacifism, to write
It led
a
Roosevelt suggesting the development of an atom
letter to President
bomb. After Hiroshima, when he warned
many
toward the country of
regarded him
as
against a nuclear arms race,
wise old man, a personification of the world’s
conscience.
However,
his “excursions into politics,” as
—excursions.
that
physics. Physics
They were never was
nearly as important to
and
his passion
he called them, were
his
life.
No
one
just
him
as
else has ever
enriched a science as Einstein enriched physics during the two decades
between 1905 and 1925.
If asking
who was
the greatest physicist of the
century produces the answer “Einstein, for his theory of relativity,”
then asking
who was
the second-greatest physicist might justifiably
produce the answer “Einstein, for the last three decades of his physics.
His road led to no
life,
result,
all
his other achievements.”
Over
he searched for the foundations of but he never gave up; and right to
the end he remained addicted to physics. In addition, he was a husband (twice), lover, and father (at least
three times).
He
was
a
Jew.
offered the presidency of a
He
was
a citizen
fifth, Israel
of four nations and was
— but he
declined this honor
even though his deepest loyalty was to those he called his “tribal brethren.”
He
was born
in
Germany, and German remained
his first
language, the only language in which he wrote and in which he could
adequately express his feelings and ideas. After the Holocaust he called
German
his
guage even
“stepmother tongue,” displaying at a distance.
The depth and
He never
a fine feeling for his lan-
forgave the Germans.
variety of Einstein’s thinking about nature, the
scope and color of his
life,
and the complexity of
his character
about them something alarming to a biographer; and in
fact this
have
book
Foreword has turned out
have based
more voluminous than
my
I
writing on Einstein’s
xiii
Wherever
intended.
own
possible
testimony: his published
work, his unpublished manuscripts, his countless
letters,
and
his inter-
mittent diaries, so far as they are at present accessible. In addition,
have used firsthand sources that seemed to stories spread
there
reliable.
Some
will cast
I
of the as
in discussing freely invented or unattested,
to offer
much
that
new light on known
facts.
The most
fantastic assertions. Instead, I
manner which
me
about Einstein are not mentioned in these pages,
would be no point
I
hope
is
new, and in
a
important
aspect to me, always, was Einstein’s physics. Physics was at the core of his identity,
and only through physics can we get close to him
seeker after truth,
whose
like
we
shall
not see again.
as a
PART
I
CHAPTER ONE Family
He was born
on March
14, 1879, in
Ulm in
southern Germany, on
a
cold but sunny Friday, half an hour before the church bells rang out
midday. His parents and
relatives,
anxious to perpetuate the family
name, were no doubt pleased that the
who
happens with young couples time, their joy
“When
child
was
“Mother was alarmed first
—
his
But
a boy.
as often
are facing parenthood for the
was clouded by concern and even
he was born”
occiput and at
first
younger
at the sight
thought he was
sister
first
anxiety.
many years
wrote
later
of his exceptionally large angular
monster.”
a
1
The
physician reas-
sured the twenty-one-year-old mother, Pauline Einstein, that this peculiarity
would soon disappear, and
a
few weeks
later the size
of the
baby’s skull was indeed quite normal, though a rather square occiput
remained
The
a lifelong characteristic.
following morning the father,
frock coat and
boy was
went
to the
town
hall to
Hermann
Einstein, put
on
record the birth of his son.
to be called Albert, only faintly
his
The
echoing his grandfather’s
name, Abraham Einstein. Nothing, of course, suggested that the
motto of Ulm, dating from mathematici brilliantly
—“The
people of
confirmed by
for religion,
this
its
medieval prosperity, Ulmenses sunt
Ulm
are mathematicians”
—would
be
Albert Einstein. In the column provided
both parents and child were recorded
as “Israelitic.” 2
In spite of their Jewish origin, Albert Einstein’s ancestors could be
described as true Swabians. settled in the region for
On
the paternal side the family had been
more than two 3
centuries
—not
in
Ulm, but
Childhood, Youth, Student Years
4
some
on Lake
forty miles to the south, in Buchau, a small township
Feder in the
abbey
cratic
foothills of the Alps.
who was
1665
in
was joined by Baruch Moises
it
from the area of Lake Constance, the
originally
large lake separating stein’s
the patronage of an aristo-
Jewish community had been in existence there
a small
from the sixteenth century; Ainstein,
Under
Germany from
Austria and Switzerland. Ain-
descendants later changed the
producing the spelling familiar to
first letter
of their
last
name,
us.
In the Jewish cemetery of Buchau, dozens of tombstones,
now cov-
ered with overgrowth, are silent witnesses to the family history of the Einsteins over
many generations. The
was Siegbert Einstein,
a
great-nephew of the
camp and
Theresienstadt concentration
World War was opening
the
—not only the
for a while after the after the
Second
cemetery and
In 1968 he too was
visitors.
also Albert Ein-
entry in the council records of the then Reich
Town of Buchau,
stein’s last relative in
dated
few occasional
He survived the
Buchau but
buried there
An
its
inhabitant of Buchau
physicist.
mayor of Buchau, looking
gates for
its
last Jewish
March
on Jews
last
Jew
in
Germany.
16, 1665, records the restrictions
settling in the town. Against
and conditions imposed
payment of an annual
“sitting
charge” of twelve guilders, they were granted freedom to practice their religion and their trade
and
cloth.
Buying and
—
in
Moises Ainstein’s
selling
case, dealing in horses
were the only sources of livelihood per-
mitted to Jews until the nineteenth century. In 1806, Buchau was assigned to the southern
German kingdom
of Wiirttemberg, created
under Napoleon’s patronage. There, in 1828,
a
law was eventually
enacted allowing Jews freedom in their choice of trade. This marked the
first
temberg
step in their emancipation as citizens, even this
Some of craftsmen
—
town
in
old
were
still
was not
for instance, furriers
new
opportunities and
became
and bookbinders. They lived in the
respectability, but
its
limitations and poverty
reminiscent of the centuries following the Thirty Years’
War, and conditions much too in
in Wiirt-
fully attained until 1862.
the Einsteins seized the
modest
though
any way.
restrictive to allow
any of them to excel
Family
The tombstones tion of the tury.
5
Jewish cemetery also
testify to the assimila-
Buchau Jews and the Einstein family
in the nineteenth cen-
in the
The Hebrew
become
inscriptions
less
frequent
and soon
disappear altogether; and venerable biblical names, such as Samuel,
David, and Abraham,
come
by German names, such
to be replaced
German
August, Adolf, and Hermann. South
gradual loosening of the formerly strong
more
Buchau Jews
the
so as
Germany
southern
—were
—
which the
liberalism facilitated a
ties to
the synagogue, the
other Jewish communities in
like
strongly rooted in tradition than the
less
Jews of Eastern Europe, with their perity
as
shtetl culture.
Moreover, the pros-
brought to the bigger
industrial revolution
cities
tempted many to escape from the confines of the provincial towns.
The whose
were
walls
just
move
to
Ulm,
down to make room for a The first member of the Einstein family
city.”
in 1864,
was Jette Dreyfus, nee Einstein, with her
husband Kosman Dreyfus, who lowed
after
1
Ulm. According
came from Buchau. She was
who were hoping
1877,
to
who
without
when
southern tower
last,
munity demonstrated
solidarity with the city
its
fellow citizens by a generous
times;
it
seems
related to
much
the city festively observed the five-hundredth
the completion, at long
a local artist.
had
as fellow citizens.
anniversary of the laying of the foundation stone of the cathedral
by
fol-
make
to a census in 1875, the city then
thousand inhabitants, including 692 Jews,
ado were accepted In
also
869 by several male Einsteins
their fortunes in thirty
the Danube, an ancient city
then being pulled
“new
rapidly expanding to
Ulm on
nearest such center was
Among
of
its
gift: a
likely that, including the
moved from Buchau
to
— the Jewish com-
and with
its
Protestant
sculpture of the prophet Jeremiah
the donors, the
them by marriage,
—and
name
Einstein appears six
Dreyfus and
Moos
at least twelve Einsteins
families
had by then
Ulm. One of these was Hermann,
Albert’s
father.
Hermann chant,
Einstein was born in Buchau, in 1847, the son of a mer-
Abraham
Einstein.
Wiirttemberg, to attend
its
He
was sent to
Realschule
,
a
Stuttgart, the capital of
type of high school. Despite
Childhood, Youth, Student Years
6
Hermann’s
and some sign of mathematical
lively intelligence
no thought of his
there could, given the family’s financial position, be
going to
He
a university.
which
rity” certificate,
classes of society
“medium matu-
therefore left school with a
any rate provided an entree to the better
at
and carried the privilege of having to serve only one
year, instead of the usual three, of military service, officer cadet, with the prospect of a
commission
and of serving
as a lieutenant
However, Hermann evidently saw no point
reserve.
talent,
as
an
of the
in participating in
the two field exercises which were a condition of being commissioned,
and thus spared the royal Wurttembergian army the problem of having to accept a Jew
as a lieutenant
of the reserve.
Albert Einstein’s maternal ancestors also came from the Swabian
Jewry.
They
lived in
Jebenhausen, near Goppingen, on the northern
spurs of the Swabian Alb.
There Julius Dorzbacher,
supported his family with
ther,
name was changed
to
a small bakery. In
Albert’s grandfa-
1842 the family
Koch, and in 1852 Julius Koch moved to
Cannstatt, near Stuttgart. Together with his brother Heinrich he ran a profitable grain business, acquiring within a few years a considerable
fortune and even becoming a “Supplier to the Royal Wurttembergian
Court.” Clearly, the business entirely different class
more ried,
activities
of the
Koch
family were in an
from the small trade of the Einsteins
profitable, but also
more
extensive and worldly.
—not only
When
he mar-
Heinrich Einstein not only became the husband of a pretty young
woman
(she
was eleven years younger than himself) who was regarded
as efficient, well educated, and,
because of her piano playing, musical;
he also made what was called
a
In Einstein’s case, perhaps
more than with anybody
“good match.”
else,
one
is
tempted to engage in the popular game of asking what he might have inherited from
mathematical
he took
whom. One obvious answer would be
gifts
after his
he took
after his father
and with
that with his
his love
of music
mother. There have, of course, been attempts to
find the first indications of Albert Einstein’s exceptional talents
where
in his family tree.
speculations:
some-
But he himself refused to go along with such
Family
7
know virtually nothing about them, nor are there any people alive who could say a lot about them. If talents existed, First of
all, I
then they could not emerge under their restricted living condi-
know
tions. Besides, I talents. It
brought
was
me
perfectly well that I myself have
my
But
ideas.
as for
thinking power (“cerebral muscles”) ent, or
only on a modest
scale.
special
and sheer perseverance that
curiosity, obsession,
to
no
any especially powerful
—nothing
like that is pres-
Exploration of my ancestors there-
fore leads nowhere. 3
More
without any doubt,
significant,
father’s
and on
his
mother’s
side,
is
the fact that both on his
Albert Einstein was born into a large,
widely ramified family, whose members were soon settled in cities
and several countries of Europe.
relatives later.
and
They include an
his favorite uncle,
aunt in
Caesar Koch,
a
We
Italy,
will
meet some of these
who
financed his studies;
brother of his mother,
the grain business had taken as far afield as
Argentina, and sent
him
who
settled in
Antwerp
St.
whom
Petersburg and
—where Albert,
at
age sixteen,
for
young Ein-
his first scientific essay.
These family connections were not only stimulating stein;
many
they also helped him cope with
many
difficult
phases in his
life.
may have been no uncle, there would at least be a close friend of the family who looked after the young man. Much later, it was Professor Einstein, by then in America, who would try to help many of his relatives during the Nazis’ persecution of the Jews. And
if in a city like
Zurich there
After their marriage in 1876, first lived
moved
— thanks alarm.
Helene, on too
at
in the old part of
into a bigger apartment. Early in 1879, with Pauline six
comfortable apartment in
some
young wife
years, at the beginning of Pauline’s first pregnancy,
months pregnant, they moved
seen
Einstein and his
on Miinsterplatz, the cathedral square,
Ulm. After two they
Hermann
to the livelier Bahnhofstrasse 135B, to a
a three-story building.
to his sister’s notes
From
first
fat!” 4 Little
We
have already
—that Albert’s birth was not without
the same source,
we
learn that
seeing her grandson, exclaimed,
Albert seems to have been
a
“Much
Grandmother too
fat!
Much
quiet baby, causing
trouble to those charged with looking after him.
no
Childhood, Youth, Student Years
8
Albert Einstein did not develop any particular feeling for his birthplace, because a year later the family
to
Munich. When, on
photograph, he responded, not without some sarcasm: “For
be born
in,
the house
makes no great at one’s
his
owner of the building presented him with
birthday, the
fiftieth
moved
is
pleasant enough, because
aesthetic
demands
yet; instead
on
one
of
much about
dear ones, without bothering too
a place to
that occasion
first
a
one
screams
all
reasons and
circumstances.” 5 Still,
even though Einstein spent only the
Ulm— growing up
in Bavaria,
and
something Swabian clung to him
first
later in Italy
his
all
year of his
in
life
and Switzerland
For one thing, there was
life.
the soft Swabian dialect, which the family never dropped after leaving
Wiirttemberg and which Einstein,
He
himself became an object of
even
tives:
as a
second wife during his
remained
if less
markedly, kept to his old age.
peculiar tendency toward diminu-
its
grown man, he always remained,
(his
cousin Elsa), “der Alberti”
final years in
—
to his family
and
his
Even
“Little Albert.”
America, his English, which for him always
a foreign language,
seemed
to have
Swabian undertones.
In other respects, too, the Swabians would always have recognized
him
as
one of
their
own:
in his speculative brooding, in his often
roguish and occasionally coarse humor, and in his pronounced, individualistic obstinacy. It
most famous
son, he
comment, he
readily
attaches to one’s
one’s mother. ...
combines
just flattery
was asked by the editor of the
came up with
life as
I
was probably not
something
a
with
a
local
just as
unique
first
child
Ulm’s
paper for
Ulm
as one’s origin
a
from
with gratitude, because
it
simple and sound character.” 6
That Hermann Einstein planned another move so soon of his
as
compliment: “One’s place of birth
therefore think of
artistic tradition
when,
was due to the
initiative
after the birth
of his youngest brother,
Jakob. Jakob was the only one of the five brothers to have higher education. After leaving his Realschule Stuttgart,
had qualified
in the Franco-Prussian
Munich, where he ran
as
he had attended the Polytechnic in
an engineer, and
War
as
an engineer had served
of 1870-1871. In 1876 he had settled in
a small firm that did
water and gas installations.
Family
No
9
doubt Jakob convinced Hermann that there was
Hermann’s business
new
the
—dealing
in goose feathers for
industrial age held out greater
future in
little
bedding
—and
that
promise in more appropriate
fields.
Hermann Einstein moved to Munich with his wife and one-year-old son in the summer of 1880 and became a partner in the firm Jakob Einstein & Cie. The family took an apartment at MiillerAt any
rate,
strasse 3, close to the Sendlinger
Jakob, firm.
still
The
was
a bachelor,
living
division of labor
Tor, in the same building where
and which was
also the address of the
was determined by the
and
interests
abili-
of the two brothers: Jakob dealt with technical matters whereas
ties
Hermann concerned
himself with the commercial
&
boilers. In this
Hermann
way,
workshop and
Cie., a “mechanical-technical
name
boilermaking firm” which had earned a
years
by acquiring two-thirds of
later the brothers enlarged their business
the assets of Kiessling
Two
side.
for itself
making
gas
Einstein productively and profitably
invested the major portion of his wife’s dowry.
Jakob
saw to
also
it
extended to the relatively
new
almost at the same time
as
Cie.,
the
Technical
field
Cie. were
of electrical engineering. In 1882,
they acquired their share of Kiessling
two Einsteins took part
Show
&
that the activities of Einstein
organized in
the
in
International
Munich by Oskar von
&
Electro-
They
Miller.
exhibited dynamos, arc lamps, and lightbulbs, as well as a complete
telephone system. This side of the business developed so well that the brothers soon abandoned gas and water installations and boilermaking. In 1885, they sold their shares in Kiessling their capital, along with loans
from
erty
a
&
Cie.”
newly founded
To
this
end they
major piece of land in the suburb of Sendling, “prop-
No. 14” on what was then Rengerweg but
the unpronounceable residential building,
addition, and behind
with ancient
Cie. and invested
relatives, in a
“Electrical engineering factory J. Einstein
had acquired
&
trees.
name
in 1887
would be given
Adlzreiterstrasse. Facing the street
which was immediately enlarged by which was
The
a rather
factory was set
a
was
a
spacious
neglected but large garden
up
in buildings
on
property, Lindwurmstrasse 125, purchased for that purpose.
a
nearby
Childhood, Youth, Student Years
10
Thus
the Einsteins had established themselves in an innovative
They were what we would
industry with good prospects of growth.
now
A
describe as high-tech venture entrepreneurs.
photograph of Hermann Einstein from
this
time shows him
as a
typical patriarch of
Germany’s early
cropped short; he
clean-shaven, except for a precise mustache; he
is
gazes severely through a monocle, looks like a Prussian. But those
—
ferently
industrial period:
demanding respect
his hair
—
kind and friendly man, esteemed and loved by
as a
family and friends, especially those of the female sex.
He
he
in fact,
who knew him remembered him all
is
dif-
of his
certainly
was
hardworking, but not to an extent that would have interfered with the pleasanter side of
life.
He made
frequent excursions with his family to
the surroundings of Munich, and he enjoyed the ancient Bavarian pas-
time of visiting beer
He was
cellars.
exceedingly fond of his wife, Pauline, and “the character of
the couple harmonized so perfectly that throughout their whole lives
the marriage was not only never clouded, but in fact proved the only solid
and
reliable
been due to the
element
of fate .” 7 This
at all turns
may
also
have
views were in harmony. Both
fact that their religious
of them respected and declared their Jewish origins, and they probably
never considered Christian baptism, either for themselves or for their children, as a
way of assimilating
further.
longer played a role in their family
nor did they pray
at
life:
However, the synagogue no they did not go to a temple,
home. The precepts of kosher cooking were
ignored, and pork was eaten as a matter of course. thinker’s attitude
Hermann even
customs were not practiced in
his
prided himself that Jewish
house
8 .
were scarcely read, and the Talmud not his family
Hermann
With
The writings at
all.
his freerites
and
of the Prophets
Instead, in the circle of
Einstein recited Schiller and Heine 9
—
Schiller as a
Swabian national hero of the enlightened bourgeoisie and Heine a
popular Jewish poet writing in German. Comparing his
may indeed have Hermann Einstein
Heine’s tion:
to be accepted
life
with
buttressed his faith in the progress of civiliza-
—unlike Heine—did not have
by
own
as
his fellow citizens.
to be baptized
Family
1
This, then, was the environment in which Albert Einstein grew up to the pure joy of his parents
first
ization of his personality visited
Munich
in the
and
comes from
summer
grandson: “Little Albert
relatives.
his
earliest character-
of 1881 and said of her two-year-old
him
already not to be able to see
at
grandmother Jette Koch, who
good
so sweet and so
is
The
—
1
that
for such a long time.”
she wrote to Munich: “Little Albert
is
it
me
pains
A week later,
fondly remembered by us; he
was so sweet and good, and we have to repeat
amusing ideas again
his
and again.” 10 Unfortunately, the fond grandmother did not record any of those amusing ideas. Little Albert’s reaction to the birth of his sister
vember
18, 1881,
years and eight
was certainly amusing.
months
had been told of the
old,
new
the Riidele the wheels, of his ,
early hint of his later delight in a little
strikingly slow, as
,
a
where
may have been an or it may have been
making up rhymes,
a plaything. Actually, the
since Einstein’s speech
he himself would
parents were worried because so they consulted a doctor. less
Mddele
toy were. 11 This
was not
more probable,
is
arrival of a
boy’s mishearing and being disappointed to find
that the screaming bundle
explanation
doubt the boy, then two
future playmate, because he promptly inquired
little girl, as a
no more than
No
Maria on No-
I
I
can’t say
development was
later confirm: “It
began to speak
second
is
true that
much
relatively late, so
how old I was
my
then, certainly not
than three.” 12 However, the delay seems to have been due to an
early ambition to speak only in complete sentences. If
him
a question,
an undertone after
he would
—
first
form the answer
deliberately, with obvious lip
someone asked
in his head, try
movements
it
out in
— and
only
assuring himself that his formulation was correct would he
repeat the sentence aloud. This often gave the impression that he was
saying everything twice, and the maidservant therefore called “stupid.” 13
He
gave up this habit only in his seventh year, or perhaps
(according to some testimony) not until his ninth. sion not only of particular thoroughness later
gave for
him
—but
this peculiarity
critical acquisition
—the
One
has the impres-
explanation his sister
also of a boy’s laborious
and
self-
of language, in contrast to most children’s natural,
unproblematical learning.
Childhood, Youth, Student Years
12 Albert’s
younger
sister
—nicknamed Maja—recorded in her warm-
hearted biographical notes that he was fondest of engrossing himself in all
kinds of puzzles, making elaborate structures with building blocks
He
and constructing houses of cards of breathtaking height.
young
interested in playing in the garden with
came
visiting,
street.
and he was
who
relatives
If
less
often
boys in the
totally averse to the fights of the
These boys soon nicknamed him “the bore.”
was
he could not
avoid playing with other children, he deliberately sought the job of
umpire, which, because of his instinctive sense of
justice,
was gladly
assigned to him.
When Albert was five years
woman was
old, a
prepare him for the rigors of school
unequal to another
trait in
life.
the boy’s
engaged
as a tutor to
She, however, found herself
makeup
—one
that the family
believed he had inherited from his grandfather Julius Koch.
something was not to Albert’s
liking,
he was seized by
Whenever a
sudden
temper, his face paled, his nose turned white, and the consequences
were
terrible.
grabbed
On
a chair
and with
fied that she ran sister, too,
one occasion, when he did not
had to
away
it
struck the
“On
tutor,
who was
another occasion he threw
“he
so terri-
and was never seen again .” 14 His
in fear
suffer:
woman
like a lesson,
little
a large nine-
pin bowl at [her] head, and yet another time he used a child’s pickaxe to strike a hole in [her]
head .” 15 Fortunately, these tantrums receded
during his seventh year and disappeared completely during his
first
years at school.
One might
ask at this point
how
such
a child
—with conspicuously
delayed speech development, averse to play and social behavior appropriate to his age,
control
—would
and moreover with an occasional
fare in the tests
enrollment in school. Such
total lack
and examinations that
a child, in a
fit
now
of
self-
precede
of temper, might attack
a
teacher or a psychologist with a chair, just as occurred a century ago
with young Albert Einstein and his tutor. In the accepted view of child psychologists, a child like this should be diagnosed long before starting
school and given
some form of therapy or
other,
when,
as
with
little
Albert, there are speech problems suggesting defective development.
The
psychoanalyst Erik H. Erikson,
who
has ventured to
make
this
remote diagnosis on the strength of the records, believes that cases of
Family this
kind deserve or even
demand
careful attention. 16
he regards Albert Einstein’s example tendency to rather than
as a
At the same time,
warning against the present
children into the same mold; this could inhibit
all
fit
13
promote the development of talent. In the
grew up without the benefit of
a therapist
event, Einstein
and developed
tinctive character traits: his determination to apply his
brooding, and his profound
his intense
own
him throughout
to
own
dis-
yardstick,
way of wondering about
Einstein’s receptiveness to “wonders” and “wondering”
mous importance
his
things.
was of enor-
his life as a motivation for pro-
ductive thought, especially in scientific matters. This was a trait which
he
he could not explain to himself, but he commended “won-
felt
dering,” and slowness, in a letter to a colleague, the reate
James
Nobel Prize
lau-
Franckf:-
When
I
anyone
else,
ask myself
who
why
it
should have been me, rather than
discovered the relativity theory,
was due to the following circumstance:
on space-time problems. Anything
An
and time when
I
I
think that this
adult does not reflect
on
that needs reflection
matter he believes he did in his early childhood. hand, developed so slowly that
I
this
on the other
I,
only began to reflect about space
was grown up. Naturally
I
then penetrated more
deeply into these problems than an ordinary child would. 17 It is
clear therefore that Einstein’s notion of
ferent
common meaning
from the
inability to understand. In his
It
“wondering”
of that term
—
a
very
dif-
noncommittal
own view:
seems to occur whenever an experience comes into conflict
with a conceptual world sufficiently fixated within conflict
back
is
child of 4 or
in
manner upon our mental world.
development of that mental world
from “wonder.”
Thus
us. If
experienced strongly and intensively, then
in a decisive
sense, the
ary”
is
5,
—
I
when my father showed me
a
facetiously called his
—he
as Autobiograph isches
a
reacts
In a certain
a continual flight
experienced a wonder of just that kind as
what Einstein
—published
is
it
such
a
compass. 18 “
Nekrolog
recalls
” ,
his
“Obitu-
an experience which
Childhood, Youth, Student Years
14
he frequently related and which agreeing) versions.
He
brought him
his father
sion this instrument
The not
was a
compass
my
behaved in such
I
—the deep and
on me. There had that
lasting impres-
a definite
manner
did
of occurrences which had established
subconscious conceptual world (effects being con-
nected with “contact”).
member
—not suspecting the
would make:
at all into the pattern
itself in
when, no doubt to divert him,
sick in bed,
fact that the needle
fit
recorded in several (basically
is
to be
remember
to this
—or think
day
lasting impression this experience
something behind the
objects,
I
re-
made
something
was hidden. 19
—the
Although the subject matter of Einstein’s great accomplishment
essay Z,ur Elektrodynamik bewegter Korper (On the Electrodynamics of
Moving
Bodies) of 1905,
—seems
tivity
too
much
to be
which contains the
special theory of rela-
foreshadowed here, one should probably not read
into this experience.
A
lot
of children wonder about a
rainbow, and some no doubt will have wondered about a compass needle,
which seems
to be
moved by an
fracting light or an apple dropping
and clever questions. Altogether,
from as
invisible hand.
a tree
A
prism
dif-
may evoke wonderment
Sigmund Freud observed, the
intelligence of adults pales against the brilliant intelligence of five-
year-olds.
Still,
among
all
Newton and only one an
these children only one
became an
Isaac
Albert Einstein.
Einstein himself was unable to explain this powerful experience,
because “a person has
little
insight into
what goes on inside him.
may not produce a similar effect on a young dog, nor indeed on many a child. What then is it that determines a particular reaction from an individual? More or less plausible theories may be constructed about it, but one does not arrive at a Seeing
a
compass for the
deeper insight.” 20
first
time
We will have
to content ourselves with the sugges-
tion that a productive result probably depends both
and on the person “wondering.”
on the “wonder”
CHAPTER TWO School
When
Albert Einstein reached the
statutory school age,
parents were spared the problem of choosing a school.
six,
The
his
only
Jewish private school in Munich had been closed in 1872 for lack of pupils, 1 a clear indication of the readiness of its
(One
in fifty of
had remained
Jews to
Munich’s population was Jewish, and
fairly
constant during the
city’s
it
was
proportion
growth over the
decades of the nineteenth century. In the city center higher, and in suburbs like Sendling
this
assimilate.
it
was
last
two
slightly
distinctly lower.) In the
absence of any alternatives, therefore, beginning on October
1,
1885,
Albert attended the nearest school, the Petersschule on Blumenstrasse, a
big Catholic elementary school with
dents from
all
strata
Lindwurmstrasse
it
of the population. At a brisk walking pace
its
stu-
down
could be reached in about twenty minutes. Albert
was accepted into the second grade: despite
more than two thousand
disastrous end, cannot have
Albert was the only
his private tuition, therefore,
been entirely
Jew among some seventy
by the teacher. 2 “The teaching
were
liberal
classmates.
He
par-
and was
in fact particularly
staff in the
elementary school
ticipated in the Catholic religious studies liked
in vain.
and made no difference between denominations.” 3 Such
an attitude was
a result
of both the humanitarian educational reforms
of the time and the progressive views of a large part of the
Munich
bourgeoisie.
Nevertheless, that same teacher of religious studies clearly realize that
among
all
made
Einstein
those good Christians he must feel an
15
Childhood, Youth, Student Years
16 outsider:
“One day
that teacher brought a long nail to the lesson and
had been nailed
told the students that with just Such nails Christ
to the
Cross by the Jews.” 4 This macabre method of teaching the Gospel was an indication that even
from an
innate, if mild, anti-Semitism.
more outspoken dren
liberal teachers were, as Christians,
at the
Among
not free
the students this led to
“Among
aggression, as Einstein recollected:
the chil-
elementary school anti-Semitism was prevalent.
It
was
based on racial characteristics of which the children were strangely
aware and on impressions from religious teaching. Physical attacks and insults
on the way home from school were frequent, but
for the
most
part not too vicious. But they were sufficient to consolidate even in a child a lively sense of being an outsider.” 5
we have no
At the same time, though,
evidence that Einstein ever suffered from his “sense of
being an outsider,” either
as a child or in later years.
and “belonging” were both probably
“Being
a stranger”
most important personality
his
traits
from
Even
in elementary school, therefore, Einstein never stepped out of
his earliest years.
his characteristic isolation.
He
rarely played with coevals, not even
who had meantime been born to Uncle Jakob or boy and girl cousins, who frequently came to visit. In his
with the children with his
deliberate but usually reserved
manner he got on reasonably
What
them, but they gave him the nickname “Goody Goody.” bly helped to earn to finish his
him
homework
that reputation
was the
fact that
before being allowed to play:
well with
proba-
he always had
“No
excuse was
accepted by our parents for any infringement of that rule.” 6 Success followed, for on August
1,
1886, at the end of Albert’s
first
year at school in second grade, his mother wrote to her sister Fanny
was again top of the
Einstein: “Albert got his grades yesterday, he class,
he brought
home
a brilliant report
.” 7 .
.
Admittedly, he had an
ingrained dislike of physical training and games, “as he easily got vertigo
and got
tired quickly.” 8
Yet he did not get
tired at
engrossed with his beloved metal construction
set,
all
when he was
or with involved
fretsaw work, or with manipulating a small, hissing steam engine
which Uncle Caesar Koch had brought him
as a present.
School
17
Albert Einstein the schoolboy would thus have appeared to his parents
and teachers
as a
well-behaved child
who had
of routine and obedience,
inevitabilities
learned to submit to the
demanded by school and
as
the world of adults. But behind that facade of adjustment there was still
a
determination to preserve his individuality, though
manifested
more sublimated,
itself in a
this
now
socially acceptable form: a
dreamerlike, skeptical distancing from other people and things.
Now and
again, however, his dislike of
the facade of the well-adjusted
he was moved from
young man. Thus
class Ilia to Illb,
problems in the wake of one of also, for a
any coercion burst through in
probably because of disciplinary
his last outbursts of anger. 9
Unusual
become
a soldier
boy, was the fact that he wanted neither to
nor to play with toy
November 1886
southern
soldiers. In
German
states like Wiirt-
temberg and Bavaria, the army did not quite enjoy the same overriding prestige as in Prussia; nevertheless, even in see nothing
more wonderful than
Munich young boys could
the hope of one day wearing a uni-
form and serving king, emperor, and fatherland served in the war with France military
pomp. Albert
—
as
Uncle Jakob had
—and most children were fascinated by by
Einstein,
contrast, displayed a definite dis-
like.
On
that
someday he might march along with those men
one occasion, when he was watching
said to his parents:
“When
I
grow up
a
parade and was told in uniform,
he
don’t want to be one of those
I
poor people.” 10 Despite drill
many positive
features, schooling
was pervaded by military
and the principle of absolute obedience. There was an exagger-
on order and
ated emphasis
young Albert
make any
discipline. It
explicit criticism; in retrospect, a
at
was
felt
by the
the
to
however, he regarded his
mixture of anger and contempt: “The
teachers at the elementary school
and the teachers
this
At the age of eight or nine he was not ready
Einstein.
Munich schooldays with
tenants.” 11
seems that
seemed
Gymnasium
At the age of nine and
a half
to
[the
me
like drill sergeants,
high school]
like
lieu-
he completed his three years of
elementary school and moved over to the “lieutenants.”
The
Luitpold
Gymnasium
accepted on October
1,
in
Munich, where Albert Einstein was
1888, was by
no means one of the worst
insti-
Childhood, Youth, Student Years
18 tutions. It
was not
strasse, the street
from
far
his old
where he had
elementary school, on Miiller-
lived before the family
Greek were
Sendling. Although here, too, Latin and
education in the humanities, the school
Wolfgang Markwalder
—had
parents:
its
steadily
rate, it evidently
origin
also
had
their
When
Einstein
were 684 students; by 1894, when he severed
his (not
it
had increased to 1,330.
the students were Catholics, but five percent were of Jewish
—two and
purely
Dr.
enjoyed great respect
in education.
altogether easy) relations with the school,
Most of
of
growing number of students cannot have
been due solely to an increasing interest arrived, there
principal,
its
to
gained a reputation as an enlightened,
however modest. At any
among
at the center
where mathematics and the sciences
liberal institution,
place,
—under
moved
statistical
crowded:
a class
times
a half
more than one might have expected on
grounds. Classes, at least the lower ones, were very
photograph of Einstein’s
first
year shows
him with
Other than himself, only two were Jews.
fifty
classmates.
The
old story that Einstein was a bad pupil, or even failed altogether at
school, has been repeated time and again, presumably to console poor
students or their parents
—though low marks
antee of success in later
life.
reflects the a brilliant
In
fact,
the story
at is
school are no guar-
not true:
at
most
it
hope of parents that even the dumbest student might have mind.
as early as the 1920s, Einstein
Still,
was
cited as a
many other fanciful stories smile. Not so, however, a cer-
shining example of this thesis. As with so
about him, he probably
let it pass
with a
tain Dr. Wieleitner, the principal of the
Neues Realgymnasium, the
successor of Einstein’s school.
When, articles
in
1929, on the occasion of Einstein’s fiftieth birthday,
appeared in various journals, mentioning
approval
—Einstein’s
“total
—
if
anything, with
weakness in the ancient languages,” 12 Dr.
Wieleitner was evidently worried that the boy’s allegedly poor grades
might damage the school’s reputation more than that of the man who had meanwhile become
a
famous
physicist.
He
therefore searched the
school records and, in a letter to the editor of a Alunich paper, saved the honor of the Luitpold
had “always [received]
Gymnasium by
at least a 2 in Latin,
pointing out that Einstein
and in the
sixth grade
even
School a
1.
Greek he always had
In
‘secret reports’ there
is
a 2 in his
19
school reports.
no complaint anywhere of
a
.
World War,
.
Even
poor
languages.” 13 As the school records were destroyed in a
during the Second
.
in the
gift for
bombing
the raid
the doughty principal’s letter to the
editor remains the only evidence that Albert Einstein was a
good
stu-
dent in high school.
Despite his good reports, Albert Einstein would later remember his time at school as an almost traumatic experience. 14 While
still
a stu-
dent he suffered in silence; he never voiced any criticism of the school and, presumably, without any comparable experience, was unaware of its
shortcomings
at the time.
child scarcely complained,
“According to the family, the taciturn
nor did he seem too unhappy. Only much
he identify the tone and atmosphere of the high school with
later did
those of the barrack-square, which in his eyes were the negation of
everything human.” 15 Even at the age of forty he told his
biog-
first
rapher that at the Gymnasium, “though he grew fond of some individual teachers, he felt himself harshly touched
by the
spirit
of the
institution.” 16
However, there
exists
Luitpold Gymnasium.
some
rather different testimony about the
Thus Abraham
short time after Einstein and later
has entirely pleasant memories
dox Jew, he would have been
Fraenkel,
became
more of an
attended
it
a
famous mathematician,
a
— even though,
far
who
as a practicing
Ortho-
outsider than Einstein.
Indeed, Fraenkel referred to “nine happy years” 17 spent there. Einstein’s
experience cannot, therefore, have been the fault of the school
alone; there
must
also have
been powerful reasons within Einstein
himself which prevented harmonious integration.
A taste a
glance at the syllabi 18 shows that they were not exactly to the
of Albert Einstein’s “intellectual stomach.” 19 Eight hours of Latin
week
—
in
some grades even ten hours
—plus
much room someone who
six
hours of Greek from
the fourth year on, did not leave
for other subjects.
was not
admitted:
a favorable situation for
weakness was texts.” 20
a
bad memory, especially
There were only three periods
a
bad
for
memory
German,
This
“My principal for
words and
as well as, in the
upper grades, for French. Mathematics was taught only three or four
Childhood, Youth, Student Years
20
times a week; geography and science were taught only twice a week. Physics appeared only in the seventh year; but by then this was no
longer of any interest to Einstein, because “in mathematics and physics ^
I
was, through private study, far above the school requirements, also
with regard to philosophy in so
far as this has
anything to do with the
school program .” 21 Thanks to his private study and the self-assurance this
had given him, he eventually found
it
good
easy, despite
reports,
to leave school early.
Conflicts also
marked the development of young Albert Einstein ’s
reli-
gious sentiments and beliefs. In his elementary school he had partici-
pated in the Catholic religious lessons, while at the same time being
home by
instructed in the Jewish tradition “at
who was father
a distant relation ,” 22
better versed in these matters than Albert’s freethinker
—from
whom
heard
Albert
remarks about dogmatic
rituals .” 23
and unfriendly
only “ironical
At the Luitpold Gymnasium, unlike
the elementary school, there were a few Jewish classmates, for liberal
school
management provided
their
own Jewish
whom a
religious
instruction through Oberlehrer (senior teacher) Heinrich Friedmann.
Friedmann’s exegesis of the Prophets
initially
found
a
very receptive
and grateful listener in young Albert. Like so many adolescents in search of a meaning to
human
existence, Albert Einstein
acutely realized the vanity of hoping and striving, that drove
people restlessly through
life.
Everyone was condemned, by the
existence of his stomach, to participate in this race.
might well be
satisfied
by such participation, but
thinking and sentient being. There the
He a
no longer
ate
The stomach not man as a
way out
strictly
pork
25 .
is
religion
adhered to
He
24 .
ritual
even composed
few short hymns to the greater glory of God, which he sang with
great fervor at
home and
direction of Oberlehrer a
first
keenly studied the preacher Solomon,
precepts, and in consequence
most
as
he was walking in the street
Friedmann and
a rabbi
member on
Under
the
he prepared to become
bar mitzvah, to be solemnly accepted into the Jewish
full
26 .
community
the Sabbath following his thirteenth birthday.
as a
The
School
21
reason this never took place was his encounter with the natural sciences.
One
of the few Jewish customs
was inviting
a
observed in the Einstein
still
home
poor Talmudic scholar to lunch on the Sabbath. For the
Einsteins, admittedly, the Sabbath
had become Thursday, and the
poor student did not want to become
a rabbi:
Still,
his last
weekly
his
he was
a
medical student.
name was Talmud. Max Talmud was twenty-one when
visits
to the Einsteins in Sendling began, in 1889.
Albert, eleven years his junior, he seems to have
been something
For
like a
substitute father in a spiritual or intellectual sense, or at least a substitute uncle.
Max Talmud would
his hosts’ son. In
many
bring popular science books for
respectable families such books
have been considered suitable reading matter for
a
would not
youngster
—they
presented a scientific, materialist picture of the world that reeked suspiciously of atheism and revolutionary attitudes.
boy could engross
givings existed in the Einstein household, the himself, undisturbed, in Buchner’s Kraft
und Stojf (Force and Mat-
which presented the philosophy of the French
ter),
German
the
As no such mis-
also
public in a
studied
the
somewhat
diluted form.
With
great zeal he
twenty volumes of Aaron Bernstein’s Natunvis-
senschaftliche Volksbiicher (Science for the People series);
author of educational works in a
among emancipated Reform Alexander von Humboldt’s physische Weltbeschreihung
Physical
materialists to
(
spirit
Bernstein was an
of enlightenment,
much
read
Jews. In addition, Albert browsed in
five -volume classic,
Kosmos
—Entwurf
einer
—Attempt at a Description of the
The Cosmos
World), and read something by, or
at least about,
Charles
Darwin.
These books soon convinced the boy could not be true.
The
result
combined with the impression ately lied to
by the
state: it
was
was downright that
fanatical freethinking,
young people were being
deliber-
a shattering discovery.” 27
Albert Einstein therefore did not rabbinical standards was not a proper nity.
“that a lot in the Bible stories
become
a
member
of the Jewish
bar mitzvah, and by
commu-
His parents probably did not mind their son’s freethinking any
more than they had minded
his earlier religious fervor. Religious dis-
Childhood, Youth, Student Years
22
enchantment now
mask of the
tinder the
From
what had been hidden
also released
well-adjusted schoolboy:
experience grew a mistrust of any kind of authority, a
this
skeptical
approach to the convictions which were current in
whatever
social
never
left
nections,
For
was
from the
found myself
more than compensation
and was yet in
in mathematics.
Albert
While he
still
far
beyond the school curriculum
know one simply calls x and treats it as were known; one writes that context down and deterdoes not
mines x afterwards .” 30
On
another occasion Uncle Jakob drew his
The boy
nephew’s attention to Pythagoras’ theorem. a
” 29
a sense appropriate to Albert’s age, as “the art of lazy
What one
the context
youth
28 .
Uncle Jakob, the engineer, had intro-
duced him to algebra, which was
was
—an attitude which
“religious paradise of [his]
in elementary school,
calculation.
I
subsequently lost something of its original edge
it
his expulsion
still
environment
me, even though, with better insight into causal con-
Einstein found
if
few years
for a
need to prove
it,
there
felt that
“spent three weeks in strenuous reflection ,” 31
and without help from anyone found
a
proof which his
fondly
sister,
overestimating him, even claimed had been accomplished “in an
new way.” Needless to say, Albert’s proof, based on similar right- angle triangles, was new only to him, but he had worked it out for himself. Far more astonishing than even this achievement was entirely
surely his independent discovery that this was something that needed
proving
at
all,
and that
it
could be proved.
These mathematical preludes were the intellectual stimulation, also
coming from Max Talmud. Before Albert
started his fourth year at the
brought him
a
right tune-up for other
Gymnasium
at
textbook of plane geometry
came
to this subject at school,
simpler textbook. Albert began to
work
his
independently, and each Thursday he would
32 :
would be another two
Spieker’s Lehrbuch der ebenen Geometries It
years before he
Talmud had possibly Theodor
age twelve,
a
much
the
book
and then with
way through show
his
mentor,
Max
Talmud, the problems he had solved during the week. The boy’s astonishingly rapid progress left an indelible impression
“After a short time, a few months, he had
on Talmud:
worked through the whole
School
book of
He
Spieker.
matics, studying
These, too,
right.
Soon the
thereupon devoted himself to higher mathe-
by himself Liibsen’s excellent works on the sub-
all
ject. 34
23
I
had recommended to him
flight
if
memory
serves
me
of his mathematical genius was so high that
I
could no longer follow.” 35
While Max Talmud was amazed mainly by the
breathless speed
with which his young friend absorbed his scientific reading, Einstein’s
own
recollection, especially of his acquaintance with the “sacred
little
geometry book,” 36 had more to do with depth, with the mysterious regions of “wondering” that he had
first
experienced with the compass
needle:
At the age of twelve
I
different kind:^ over a
came
to
my
hands
were statements
in
experienced little
at the it,
such
a
second wonder of
book of Euclidian geometry which
beginning of the school year. There as for instance the intersection
three altitudes of a triangle at a single point, which
no means self-evident
of the
—though by
—could be proved with such certainty that
any doubt was ruled out. This scribable impression
a totally
clarity
and certainty made an inde-
on me. 37
Albert Einstein shared this awakening of an overwhelming love of
geometry with other great
made
intellects. Galileo Galilei at
age seventeen
the chance acquaintance of this branch of mathematics, instantly
dropped
his
medical studies, and from then on read nothing but
Euclid. Bertrand Russell wrote about his studies of geometry,
which he embarked
at
age eleven under the guidance of his brother,
“one of the great events of
my
life,
as dazzling as first love. I
imagined that there was anything so delicious.” 38 three
young
enthusiasts was not so
much
What
form by Euclid around 300
as
had not
impressed
all
the richness of geometry as
the certainty and beauty of the axiomatic-deductive in canonical
on
method described
b.c.
Unlike eleven-year-old Bertrand Russell, twelve-year-old Albert Einstein was not bothered by the fact that Euclidian geometry rests on a
foundation which cannot
known
as
accepted.
itself
be questioned.
The
basic statements,
“axioms,” are unproven and unprovable and must simply be
These axioms had been regarded
as self-evident for
more
Childhood, Youth, Student Years
24
than two thousand years, so that the direct application of that ge-
ometry to world.
was considered the most natural thing
real objects
Only in
in the
the course of developing his general theory of relativity
did Einstein realize that the relationship between geometry and reality
— and he succeeded in
can be more complex and far-reaching
eluci-
dating this only after great effort and within a framework of non-
Euclidian geometry.
thought
it
When he
“sufficiently
first
encountered
wonderful that
man is
degree of certainty and purity in thought, strated in
able at
as the
all
geometry, he
to attain such a
Greeks
first
demon-
geometry .” 39
These grand words
—
called the “sacred little
in
which Albert Einstein
He
in his old age re-
geometry book”— suggest that to him the
encounter with mathematics was delight.
classical
far
more than
purely intellectual
a
later interpreted his religious fervor as a boy’s first
to free himself
from “the
attempt
of the merely personal,” from an exis-
fetters
tence dominated by desires, hopes, and primitive emotions .” 40 After the disappointment of his experiment with traditional religion, he had
found in mathematics another road to the same destination, one to
which he could surrender himself with the same emotional
Through
intensity.
private study Einstein thus acquired the principal areas of
higher mathematics, from analytical geometry through infinite series to differential fascinating:
it
and integral
He
found
this
occupation “truly
contained high-points whose effect measured up entirely
to that of elementary
The
calculus.
fact that
geometry .” 41
most people around him
the few exceptions
—Uncle Jakob was one of
—were poor mathematicians and that most of
his
classmates and teachers tended to regard ignorance of mathematics as a virtue
probably confirmed him in the belief that he had made the
right choice for himself.
Although many of the other books given to him by Max a
deep impression on Einstein
freethinking”
“sacred
little
—
their
it
especially
by reinforcing
his “fanatical
impact could not be compared to that of the
geometry book.”
senschaftliche Volksbiicher
with
—
T almud made
He
read Aaron Bernstein’s Naturwis-
“with breathless suspense
” 42
but found fault
because the “presentation [was] almost entirely confined to the
School
No
qualitative aspect.”
25
doubt the theory of biological evolution and
the wealth of the “description of the physical world,” as presented by
Alexander von Humboldt in his Kosmos must have seemed interesting ,
to
young
Albert, but here, too, the presentation was inevitably re-
stricted to verbal argumentation.
was
less
marked
mathematical
“certainty and purity of thought”
in this wealth of detail than
Max Talmud
As
The
it
was
in mathematics.
was soon unable to follow Einstein’s soaring
flights, their
conversations increasingly turned to philo-
recommen-
sophical problems. At the age of thirteen, with Talmud’s
dation and guidance, the boy studied
Reason
Talmud
43 ,
memoirs
as
probably correct in characterizing
is
attempt
Critique of Pure this
work
in his
“incomprehensible to ordinary mortals,” and his statement
that Kant’s philosophy
probably
Immanuel Kant’s
was instantly
a glorified recollection. It
clear to the
seems
likely,
young Einstein
is
however, that Kant’s
formulation of the “conditions of the possibility of
at a strict
cognition” generally was perceived by Einstein as the same striving for “certainty and purity”
by which he himself was motivated.
Because of his feeling that others should share in there emerged, in Einstein, for the
first
to a small public if he could find one.
come back
to
neighborhood where we then that time
which
I
you were beginning
got quite a
lot.” 44
relieved to learn that the
experience
time, an inclination to preach
One
classmate recalled conversa-
tions of “such forcefulness that even today, after a
the actual words
this
me whenever
I
good
happen
thirty years,
to be in the
receiving.
At
to study the Critique of Pure Reason
of
strolled,
With
boy was
all
you
instructing,
this seriousness,
I
one
is
,
almost
also capable of behavior in line with
who was two years younger than Albert and and who became renowned as a musicologist and a
his age. Alfred Einstein,
not related to him,
reviewer for the Berliner Tageblatt once reminded the famous scientist ,
of their “old connection from 1894 or 1895, at the Luitpold
Gymna-
sium, where, in our joint singing lessons, you were fond of pulling
your younger namesake’s
It
was
at
about
this
hair.” 45
time that Albert Einstein discovered his second
great love, after mathematics
much
&
—music. At the Einstein home “there was
good music-making.” 46 Hermann was not
particularly keen
Childhood, Youth, Student Years
26
on music; but Pauline, an partner in her son. violin teacher.
hoped
excellent pianist,
When he was six,
to find a musical
she engaged a Herr Schmied as a
But the technical practice and the boring etudes seemed
to Albert to be merely a continuation of school
and no progress
drill,
was made. Other teachers were engaged and dismissed: Einstein believed that he had had did not go
In a
no luck with them because
them “music
beyond the mechanical aspect .” 47
way which was beginning to be
typical, Einstein’s love
awakened only when he himself became interested and replaced I
for
later
of music
in certain pieces
his lessons with self-teaching:
only began to learn something after
I
was
thirteen,
My
mainly with Mozart’s sonatas.
fallen in love
duce them to some degree in their
unique gracefulness forced
me
to
artistic
improve
when
I
had
wish to repro-
content and their
my
technique; this
I
acquired with those sonatas, without ever practicing systematically. I believe
of duty
—
altogether that love
at least for
me
is
a better teacher
than a sense
48 .
Thus Pauline saw her hopes of
playing duets with her son
fulfilled.
Their repertoire consisted primarily of Mozart and Beethoven sonatas for piano
and
violin: the
mother probably preferring Beethoven and
the son,* quite certainly, Mozart.
Albert Einstein had grown up to be a strikingly handsome young man,
with slightly wavy dark
hair; full,
sensuous
lips,
modified by the down-
turned corners of his mouth into something like skepticism; large
dark-brown gaze. “In
eyes;
all
and
a challengingly self-assured
these years,”
reading any light literature.
Max Talmud recalls, “I Nor did I ever see him in
schoolmates or other boys of his age .” 49 Even
showed the beginning,
at
describe himself as a “loner,
but often dreamy
least,
who
of those
at
never saw him the
company of
age fourteen Einstein
traits
which made him
never belonged with his whole heart
to the state, his country, his circle of friends, or even his closer family,
but
who
being
felt
with regard to
a stranger
all
those
ties a
with a need for solitude .” 50
never overcome sense of
School
Such
a
27
young man would not always be popular,
people in authority, such
German gymnasium. As men-
as teachers at a
them
tioned above, he saw
especially with
as “lieutenants.”
But there were
few
a
who in Albert’s fourth and sixth homeroom teacher. Dr. Ruess taught not
exceptions, like Dr. Ferdinand Ruess,
years was his ordinarius, or
only Latin and Greek but also history and German, and he his students
world.
.
.
.
with great enthusiasm for the beauty of the
The
boy’s fondness
[for] this
teacher,
to satisfy his students’ intellectual hunger,
who
“filled
classical
alone was able
was so great that even be-
ing kept in after school, under his supervision, was a pleasure.” 51 Ein-
had such fond memories of Dr. Ruess
stein
and
a
that, as a
newly appointed professor, he paid Ruess
man
a visit in
of thirty
Munich
presumably Einstein was en route from Bern to Salzburg, where in
Te
September 1909
participated in his
However, Ruess did not recognize afraid that this shabbily dressed
from him. After
a painfully
long
had no choice but to leave in It
his
first
former student and was even
man might want to borrow money moment of embarrassment, Einstein
a hurry. 52
probably never occurred to Einstein to
teachers.
At
sixty,
physicists’ conference.
visit
any of
he recollected that he had detested the “mindless
and mechanical method of teaching, which, because of
memory
for words, caused
pointless to overcome.
descend upon
me
I
me
great difficulties, which
would rather
than learn to
recollection, however,
rattle
let all
it
sters
—but
my
seemed
poor to
me
kinds of punishment
something off by heart.” 53 This
seems hardly compatible with Dr. Wieleitner’s
report about his good to very good marks in the classics. his teachers
his other
Of course,
all
monof Abraham
with the exception of Dr. Ruess might have been that
does not seem very likely in light
Fraenkel’s testimony.
The
conflict
between Einstein and
partly due to him. In his seventh year
new
his schoolteachers it
had reached
ordinarius, Dr. Joseph Degenhart, informed
never get anywhere in
life.” 54
To
Einstein’s
a
him
was no doubt
point where his that “he
would
remark that surely he
“had not committed any offence,” he replied: “Your mere presence here undermines the
class’s
respect for me.” 55 Both sides must have
Childhood, Youth, Student Years
28
wished to terminate
this disagreeable relationship.
was soon able to do so was due to
stein
a
change in
That Albert Einhis parents’ finan-
cial situation.
From
&
its
establishment in 1885, Electrotechnische Fabrik
Cie. speedily prospered.
Within
a
year
it
had gained
Einstein
J.
local
renown
by illuminating the Munich Oktoberfest on Theresenwiese by tricity for the first time. 56
Orders kept coming in for the
elec-
installation
of electric streetlights in Schwabing, a suburb which was then not yet part of Munich; and in the northern Italian cities of Varese and Susa. blatt
&
Favorable reports on Einstein
fur Elektrotechnik and in
Elettricita
57 ,
Cie. appeared in
Central-
In retrospect, the Einstein
brothers’ high-tech firm looks like something that could well have
developed into a
a giant
of the electronics industry, or at least into
sound large-scale enterprise, successful both commercially and
technologically.
The
innovative head of the firm was Jakob Einstein, the engineer.
Three of them were
Altogether, he held six patents.
(which were
still
in
common
use);
for arc
two of these provided
lamps for an
improved method of advancing the carbon electrode and the third was for an automatic circuit-breaker.
The
other three patents were for
meters capable of measuring ampere-hours or watt-hours
electric
vital prerequisite for
an electrified economy. 58
In addition to lamps and electric meters, the Einstein firm factured
dynamos of various
sizes,
gauges.
The
Show
lighting and
Twenty-one
as well
all
to
the equipment
as electrolysis plants
and
firm was important enough to be noticed at the spectacu-
lar International
on urban
electrification,
manu-
from small workshop models
power-plant generators, along with cables and
needed for urban
—
in Frankfurt in 1891, as well as at a
symposium
power transmission which preceded the show.
firms, including
one from America, had been invited
present their concepts of an electrified future. Einstein
&
to
Cie. and
Ingenieurbiiro Oskar von Miller were the only firms from Munich. 59
At
its
peak the firm had
just
under two hundred employees. 60
Its
turnover and profits must have been considerable, and although,
School mindful of
its
29
persistent undercapitalization, the brothers
withdrew
only modest sums for themselves, these were enough to ensure
com-
a
fortable existence for both families.
In 1893, however, the fortunes of the firm changed dramatically.
The
Einsteins had directed
tract for lighting the
factory fully
Munich
employed
their efforts toward
city center,
winning the con-
which would have kept the
for several years. 61 After
tough and
com-
bitter
Germany’s three biggest electrical-engineering firms
petition with
Siemens and
all
AEG from
Berlin,
and Schuckert from Nuremberg
—the
contract went to Schuckert in April 1893.
The modest volume
of business
left in
Germany was not enough
to
cover the Einsteins’ high overhead, and prospects for the future were represented only By a
number of lesser
projects in Italy. In
March 1894
the two brothers, with their Italian representative as a partner, there-
founded the firm of Einstein, Garrone e C.
fore
Italy; in
in Pavia, in
July they liquidated their firm in Munich.
Leaving Munich was painful, especially for the children, to the
northern
moment
who
“right
up
of moving had to watch from their windows the
destruction of their fondest memories.” 62
An
architect and a building
contractor took possession of the fine properties on Adlzreiterstrasse, cut
down
the splendid old trees, and began to construct four-story
residential blocks. 63 In the
summer of 1894
the Einsteins
moved
to
Milan, and the following year they went twenty miles farther south, to Pavia,
where the new factory was
Italy
with her parents. Albert was
some
distant relations, because he
with the Abitur, the
The and
German high
liquidation of a firm in its
effects
geois
life
in
left in
Maja, the daughter, went to
Munich under
was supposed to
the care of
finish school there
school graduation examination.
economic
on the family were
must have been painful
built.
difficulties is
inevitable.
always a sad
For Albert, then
affair,
fifteen,
it
to find that the comfortable security of bour-
Munich was now over
for his family.
referred to this upheaval at a formative time of his
Although he never life,
we may assume
Childhood, Youth, Student Years
30
that his biting remarks
on the vanity of
which
restless striving, to
everyone was “condemned to participate by the existence of his stomach,” 64 had their origin then.
We
may
assume that subliminal anti-Semitic sentiment had
also
played a part in the contract for the
Munich
awarded to an outside firm rather than to only major manufacturer of dynamos
Whatever caused the Einsteins
them
Munich
a
firm
it
—Munich’s
to lose this crucial business, they
as upstarts
was
—which happened to be Jewish.
have been plagued by a feeling that the leaders regarded
city center, since
who
economic and
city’s
down
should be cut
must social
to the petty
trade appropriate to Jews. It is
possible that in the
young Albert
Einstein,
who had
helplessly as his father’s firm folded, the conviction
ground that German society
may
well have
begun
citizenship
the year
No
1
his native country,
Gymnasium and
his
at least in part,
own
when of German
decisions
his renunciation
go back to the profound traumas of
894.
doubt the three years which, according to
was to spend in Munich on eternity.
even before
His negative, distorted
—soon to be followed by
—may,
his family of its
to develop then.
recollections of the Luitpold
the firm closed
was then gaining
whole had robbed
His very reserved attitude to
livelihood.
1933,
as a
watch
to
his
own must have seemed
Moreover, he cannot have wanted to
though he hated
it
—because
the
to
him
finish school
like
an
—even
gymnasium would then have been
followed by the real barrack square, a small boy,
he
his parents’ plans,
among people with whom, even
he had not wanted to march in
as
step. In this situation, the
request by his ordinarius, Dr. Degenhart, to do
him
the favor of
leaving the school must have looked like the benign hand of fate. For
once, Einstein was ready to please his teachers. However, he was not to be
provoked into
a rash decision: instead,
cumspection in order to limit the damage First of
give
him
a
all,
he got
a
doctor
he proceeded with
cir-
as far as possible.
—an elder brother of Max Talmud’s—
to
medical certificate attesting that he was suffering from
“neurasthenic exhaustion” and demanding a suspension of his schooling.
Next he persuaded
his
mathematics teacher, Joseph Ducrue, to
School
31
confirm to him in writing that he had mastered mathematics up to Abitur level and that he was altogether quite an excellent mathematician
65 .
release
Finally,
from
on the strength of the medical
his school.
When
before the Christmas vacations
these formalities were 66
,
certificate,
he applied for all
completed,
he went straight to Munich’s central
railway station and the next day faced his startled parents in Milan
young man of
fifteen,
his
—
schooling cut short, with no plans or
prospects for the future, but happy to have escaped the “lieutenants.”
CHAPTER THREE A “Child Prodigy
Milan at the turn gloomy
as
any
city
of the year can be every bit
as rainy
and
north of the Alps. But for Albert Einstein the skies
were brighter than they had been
for
him
in
Munich
for a long time.
Perhaps in Dr. Ruess’s lessons he had learned of the traditional
German longing for
the south and
now found
himself in the land of his
dreams, or perhaps he was simply happy to be with his family once
more. Certainly he must have been glad to have escaped the tions of his high-school
life
in
Munich and
things he regarded as typically
to have left behind
German. His
parents, of course,
horrified at their son’s decision: their hopes that he
from school, move on
now seemed
tation
to a university,
many were
might graduate
and thus acquire status and repu-
Young
jeopardized.
restric-
Albert, however, steadfastly
declared that he never wanted to return to Munich. that, in this situation, the family council
It
seems probable
was persuaded by Uncle
Jakob’s suggestion that the fugitive schoolboy be sent to the Eidgenossisches
Polytechnikum (Federal Swiss Polytechnic) in Zurich, an
advanced technological institution which did not
insist
on high-school
graduation as a condition for admission. Albert helped assuage his parents’ misgivings by “assuring
most resolutely
that,
by the
fall
them
of that year, he would have prepared
himself by private study for the Polytechnic’s entrance examination .”
His parents
may
also
have been somewhat appeased by the unofficial
testimonial he had brought with tional
knowledge and
1
ability in
him from Munich about
mathematics.
further: in a university bookstore in
32
He
his excep-
even went one step
Milan he purchased the
first
three
A "Child Prodigy”
33
volumes of the German edition of Jules Violle’s demanding Lehrbuch der Physik. Einstein’s notes and glosses in the extant copies of Violle’s physics texts
show
making
that he
was entirely serious about the promises he was
to his parents.
His method of private study, however, caused
some astonishment: His working method was rather strange: even
when
in
.
.
.
company,
there was quite a lot of noise, he could retire to the sofa,
pick up pen and paper, precariously balance the inkwell on the backrest, and engross himself in a
problem
to such an extent that
the many-voiced conversation stimulated rather than disturbed
him. 2
The
sofa
on which- Albert Einstein balanced
his inkwell originally
stood in a large apartment on Via Berchet 2 in Milan, which was also
Garrone
the business address of Einstein,
e C. In addition, offices
had
been established in Pavia and Turin. In view of their reasonable hope
would be commissioned
that the firm
to set
up
a hydroelectric plant,
along with the appropriate transmission lines and electric street lighting in Pavia, the Einsteins in the spring of 1895
an old city on the lower Ticino, just before
The two stein
and
families
his family
moved
the poet
Ugo
Foscolo, for
small factory was built
a floor at
Hermann
Ein-
with three reception rooms in
Via Foscolo
whom
to Pavia
runs into the Po.
into separate apartments;
occupied
magnificent ancient building
it
moved
1 1,
a
formerly the house of
the street was named. 3
on the bank of the Naviglio
connecting Pavia with Milan. In addition to the
A by no means
di Pavia, a canal
money
the Einsteins
Munich and an investment by Signor Garrone, considerable sums on credit came from a cousin, Rudolf Einstein, the husband of Pauline’s sister Fanny, whose affluence came had saved from the liquidation
from a
a textile mill at
reputation in
in
Hechingen
Italy, several
of
in its
Wiirttemberg. As the firm acquired craftsmen and technicians arrived
from Munich to work with the Einsteins
again.
For Albert Einstein, who
known only Munich and its Italy if we may so describe
immediate neighborhood,
until
then had
his flight to
—
Childhood, Youth, Student Years
34 it
—was
major journey. His experience of the southern land-
his first
of a different culture and
scape,
many Germans
impression on him, as on prised”
—he would say four decades how
Italy to see
uses
later
cultural history.
people
I
.
— “when
level
I
crossed the Alps to
.
The
man and woman,
of thought and cultural con-
from the ordinary German. This .
unforgettable
before him: “I was so sur-
the ordinary Italian, the ordinary
words and expressions of a high
tent, so different
made an
lifestyle,
is
due to their long
people of northern Italy are the most civilized
have ever met.” 4
This educational experience, however, was confined to northern Italy.
Trips to Florence and Rome, or farther south, were not possible,
and we do not even know
if
he would have greatly wished to undertake
them. His only longer journey, in the early to
Genoa, to see
traveled the
first
his uncle
Jakob Koch,
a
summer of
brother of his modier’s.
a vacation
As for terms in
which took
at
Airolo on the
new hometown
Gotthard
St.
of Pavia, he described
a letter to a girlfriend in Switzerland:
be defined in mathematical terms
ramrods the various gentlemen
&
as
roughly
ladies
“The
(1)
the
The
pass.
it
in rather rude
could
city’s soul
sum
have swallowed,
created in the observer by the uniformly filthy walls
where.
of some
foot, a hike
At the height of summer he spent
several days. 5
with his family his
He
twelve miles by local train, via Casteggio to Voghera,
and then crossed the Ligurian Alps to Genoa on sixty miles,
him
1895, took
&
of the
total
(2)
the
mood
streets every-
only beautiful aspects are the delightful, graceful
little
children.” 6
Nevertheless the land and
its
people,
an indelible impression on him.
left
its
culture,
When, two
and
decades
its
language
later,
he cor-
responded with the mathematician Tullio Levi-Civita about the gentheory of
eral
relativity,
he asked Levi-Civita to “write
next time.” Einstein profusely thanked in the familiar long-missed Italian.
sure
the
it
gives
most
me
him
in Italian
for the next letter “written
You can
hardly imagine the plea-
to receive such a genuine Italian letter. It revives in
beautiful
memories of my youth.” 7
courage to reply to the mathematician in
come out
me
He could not rally enough
Italian,
“because that would
rather too bumpily.” But in his old age he tried his
that beautiful language
when
me
skill in
writing to a “Cara Ernestina,” a friend of
A "Child Prodigy his sister’s in their
in Italy are
my
younger
most
35
“The happy months of my sojourn
years:
beautiful memories.
.
.
Days and weeks without
.
anxiety and without worries.” 8
Along with technic
main occupation
his
—preparing
for the Zurich Poly-
—Einstein seems to have done various jobs
in the factory
occasionally even to have helped in Uncle Jakob’s design office.
know,
this is quite fantastic
one of
said to
his assistants,
my
about
“where
I
and
“You
nephew,” Jakob Einstein once and
my
assistant engineer
have
racked our brains for days, this young fellow comes along and solves the whole business in a
mere quarter-hour.
He’ll go far one day.” 9
The
chronicler unfortunately does not relate the nature of the “business.”
As
a
spin-off of his private study Albert Einstein during the
summer months described as his standes
1895
'of
first
wrote what
also
is
somewhat grandly
physical essay, Uber die Untersuchung des Aetherzu-
im magnetischen Feld (Examination of the
State of the Ether in the
Magnetic Field). 10 This was probably intended
as a self-test
up
and perhaps
for his entrance examination in Zurich,
dence of his studies for the family. At any together with Brussels,
stand
it:
covering
“It deals
with
letter, to his favorite uncle,
young
a rather specialized subject
fellow like me,
you don’t read the
The
“stuff,”
five
stuff at
electricity,
it is still
also as evi-
this first essay,
Caesar Koch, in
all, I
medium
in
and moreover,
as
is
somewhat naive and imper-
won’t blame you in the
is
least.” 11
an examination of the relationships
magnetism, and the ether
—that nonmaterial sub-
stance which was then being postulated as filling
the
warm-
pages in the neat gothic handwriting he had
learned at the gymnasium,
among
he sent
a
though he could hardly expect that grain merchant to under-
natural for a fect. If
a
rate,
and
all
space and being
which electromagnetic waves, discovered
in
Heinrich Hertz, were thought to propagate themselves. thor announced his essay as “the
first
1888 by
The
modest utterance of
a
au-
few
simple thoughts on this difficult subject,” more of “a program than
a
dissertation.” 12
Albert Einstein argued entirely on the lines of the ether theory of his day, as
according to which the propagation of waves was understood
analogous to the mechanical theory of waves
—which he had come
Childhood, Youth, Student Years
36
across in Violle’s textbook.
He must
have heard something about
“Hertz’s wonderful experiments,” and on that basis he his ideas for
“measuring the
elastic
and the acting forces.”
ether]
He
phenomenon of
route, derived the
now
developed
deformations [occurring in the
by
certainly,
this rather strange
“self-induction”
—without, however, using that term.
—purely qualita-
tively
Some enthusiasts see this first essay come ,” 13 but that is overinterpreting
“harbinger of what was to
as a it.
Hertz’s epoch-making discovery a great
In the wake of Heinrich
many popular
accounts of
electromagnetic theory appeared in Germany, and Einstein would
have read
at least
some of
these. In fact, striking parallels have
found between passages in Einstein’s text and an
article,
been
Die Umwdl-
zungen unserer Anschauungen vom Wesen der elektrischen Wirkungen ( The Revolution in
Our
Concepts of the Nature of Electrical Effects), in a
popular-science monthly
As the
fine Italian
14 .
summer was drawing
Meanwhile
in Zurich inexorably approached.
that this examination stipulated a
to a close, the entrance
minimum
it
exam
had been discovered
age of eighteen.
A special
exemption had therefore to be requested for young Albert, then only sixteen.
To
this
end
a friend of the family,
Gustav Maier,
Zurich, was approached. Like the Einsteins, Maier
where he had been branch manager of the
A
successful career
managed liberal,
a
bank and
freethinking
had led him a
a resident of
came from Ulm,
Deutsche Reichsbank.
local
via Frankfurt to Zurich,
department
store,
where he
and where he was part of the
elite.
Maier must have recommended Albert Einstein
to the principal of
the Polytechnic as a “child prodigy” deserving of special provisions.
But the
principal, Professor Albin
Herzog, in
his
against “taking even so-called ‘child prodigies’ tion in
which they began
pleted .” 15
(still
extant) reply
away from the
that his “information
on the
the mental maturity of the applicant were confirmed in
by the principal of the
minimum-age
institu-
their studies before these studies are
Only on condition
institution
com-
talents
full in
was
and
writing
concerned” would he waive the
rule for Einstein. It appears that Professor
Herzog was
A "Child Prodigy” satisfied
37
with the unofficial testimonial of the mathematics teacher in
Munich, who praised Albert Einstein’s “mathematical knowledge and abilities,”
at the
describing
them
as
equivalent to graduation level. 16 Anyway,
beginning of October, Albert traveled by train to Zurich, where
the Maier family put
him
“With
up.
a sense
of well-founded
diffi-
dence” 17 he reported for the exam, choosing the engineering depart-
ment on
The
the strength of his father’s and uncle’s area of interest.
examination began on October 8 and probably extended over
several days. 18 It covered cific to
a
many
subjects,
character of
my
The
it
made me
realize painfully the
That they
failed
me seemed
to
a “child
—
gappy
me
entirely
were dealing
prodigy” was confirmed. Professor Heinrich Friedrich
so impressed
by the mathematical and physical knowledge
of the young candidate that he invited Einstein tions
was
negative outcome was due mainly to the verbal descriptive
subjects; otherwise, the examiners’ suspicion that they
Weber was
it
previous schooling, even though the examiners were
patient and understanding.
with
others spe-
the candidate’s chosen field of study. For Albert Einstein
disappointing experience, “for
just.” 19
some general and
—against
all
regula-
to attend his physics lectures for second-year students, pro-
vided he remained in Zurich. Einstein, however, followed the sensible advice of the principal that he should spend a year at the cantonal
school in Aarau in order to qualify for study at the Polytechnic. 20
The a
cantonal school in Aarau
— about
thirty miles west of Zurich
great reputation as a liberal, forward-looking institution.
ginally a classical
gymnasium,
languages and science.
It
it
for
its
school, to
ori-
“physical cabinet,” which
was extended, during Einstein’s time there, into
electrical
While
had been enlarged to include modern
was famous
laboratory with a dynamo, an
—had
AC
metering instruments. 21
a
superbly equipped
motor, batteries, switchboards, and
The
principal of this remarkable
which Albert Einstein was admitted on October 26, 1895,
was the physicist Dr. August Tuchschmid, formerly an
Weber at the Polytechnic. Though Einstein was placed in the
assistant to
Professor
noted “great gaps” in
his
third year, his admission report
knowledge of French,
as well as a
need to
Childhood, Youth, Student Years
38 “catch up”
him
on chemistry.
A
teachers’ conference urged
little later, a
to “take private coaching in French, natural science,
On
istry .” 22
and chem-
the other hand, he was exempted from singing, from
physical training, and
—
as a foreigner
—from military
instruction.
Although he was obliged to take additional instruction and was no longer receiving good grades in
all
his subjects, Albert Einstein’s recol-
lections of the cantonal school are very different
the Luitpold
By
its
liberal spirit
left
and by the simple seriousness of
its
unforgettable impressions on me. Comparison with six
clearly realize
German authoritarian Gymnasium made me how much superior an education towards free ,
action and personal responsibility
Of equal importance were
one relying on outward
to
is
True democracy
authority and ambition.
of Jost Winteler.
more than
found his
What a
own
is
no empty
illusion
23 .
Einstein’s domestic circumstances in Aarau.
Gustav Maier had arranged for him to be
—he
teachers,
they were by any outward authority, this school
as
years’ schooling at a
board
memories of
his
Gymnasium:
unsupported has
from
a
paying guest in the
he found there was
far
home
more than bed and
second home, one which probably molded him family had. All his
life
Einstein remained close to
the Wintelers.
Winteler taught Greek and Latin stein
was not one of
his students.
He
at the
cantonal school, so Ein-
had studied
Zurich and
first in
then in Jena, Germany, where he obtained his doctorate with guistic study of the
burg region
who was
24 .
Kerenz
dialect, the
In Jena he had
later always called Rosa.
daughters and four sons
speech of his native Toggen-
his future wife, Pauline Eckart,
With
their seven children
—plus one or two paying
have seemed to Albert Einstein literature.
met
a lin-
guests, they
like a family idyll straight
Before long the two Wintelers were
—three must
out of Swiss
“Mama” and “Papa”
to him.
Albert’s cousin Robert
house next door.
ond
class at the
The same
Koch from Hechingen was age as Albert, Robert was
living in the
still
in the sec-
gymnasium. Gustav Maier, who had arranged for both
boys to be placed in Jost Winteler ’s care, had informed him that Albert
A "Child Prodigy” Einstein
“is
much more mature
39
than his cousin and therefore
less in
need of supervision .” 25 Anna, the eldest of the Wintelers’ daughters,
was
a spoilsport.
he had
He
a great
member
of the household, and never
was fond of conducting
scientific conversations, yet
very respectable
a “pleasant,
recalls that Einstein
sense of humor and at times could laugh heartily. In the
evenings he very rarely went out, he often worked, but more often he
would
with the family around the table, where something was being
sit
read aloud or discussed .” 26
One
classmate claims to have realized even then that Albert Ein-
not
stein did
fit
“into any
mold even
young man ,” 27 but
as a
that the
“The
“sharp wind of skepticism” at the cantonal school suited him.
cheeky Swabian
fitted quite well into that
atmosphere, his original
self-
assurance setting hint apart from the rest.” This classmate painted a
romantically exaggerated portrait of Einstein:
The
grey
felt
hat pushed back over the silky mass of dark hair, he
along with vigor and assurance,
strode
tempted to say sweeping a
world within
it.
rapid
mind
—
A
mocking
protruding lower
lip
trait
I
am
that carried
Nothing escaped the acute gaze of the
superior personality. its
restless
Whoever approached him was
sun-bright eyes.
with
—tempo of the
the
at
large
captivated by his
around the fleshy mouth
did not encourage the Philistine to
tangle with him. Unconfined by conventional restrictions, he
confronted the world
spirit as a
laughing philosopher, and his
witty sarcasm mercilessly castigated
That may sound studies a
like
all
vanity and
artificiality.
dubious, overliterary idealization; yet
group photograph of ten graduates taken in Aarau, one
whom
spots the cheeky, exotic type to
Albert Einstein’s discovery of his
own
one
if
easily
the description would apply.
identity
first
of
all
entailed the
surrender of two identities almost universally regarded as matters of course: citizenship and, albeit to a lesser degree, religious tion. It
is
no longer
possible to discover exactly
he no longer wished to be
Munich, when he
realized that
a it
denomina-
when he decided
German. Perhaps
this
that
happened
in
was the only way of avoiding military
Childhood, Youth, Student Years
40
perhaps
service, or
it
did not happen until later, in Aarau, under the
influence of “Papa” Winteler.
The
records 28
show
by the merchant Hermann
that a “petition
Einstein in Pavia for the release of his son Albert Einstein from Wiirt-
temberg citizenship” was granted on January
28, 1896.
The
reason for
the application was given as “for the purpose of his emigration to
The
Italy.”
step is
—
actual date
on which Hermann Einstein had taken
as the legal representative
unknown, but the motive
however, under the law then in force,
would not be released from
when
there
the
a
still a
minor
avoidance of military ser-
fairly certain:
is
German Reich began
Conscription in the
vice.
of his son Albert, then
this
only
at
age twenty;
male applicant over seventeen
citizenship, to
make
sure he
would be
army wanted him. Albert Einstein must therefore have
been happy when the hoped-for document releasing him arrived parents’ house in Pavia six
weeks before
at his
his seventeenth birthday. In
the register of persons released from Wiirttemberg citizenship Albert Einstein’s assistants first
name
appears in the column headed “trade and business
and factory workers.” 29 In another column we
find, for the
time, the entry “no religious denomination.”
Initially,
ality
Albert Einstein’s decision to renounce
may have been
plied'
him with
nation-
emotional, but “Papa” Winteler must have sup-
rational arguments.
Winteler had watched the the Franco-Prussian
German
rise
War
of
While
German
still
a
student in Jena,
nationalism, especially after
of 1870-71. In his native Switzerland he
missed no opportunity to warn against pan-German expansionism.
own
political
later years Einstein frequently recalled his
mentor’s
Winteler drew Einstein so intensively into thought that in
amazing
political farsightedness. In a letter to his sister
in 1933 during a “I
am
his
summer
vacation in Old
Maja, written
Lyme, Connecticut, he
said:
often reminded of Papa Winteler and of the prophetic correct-
ness of his political views.
I
have always
felt this,
but not with
this
purity and intensity.” 30 Jost Winteler died in 1929 and thus did not see the Nazis’ seizure of
power
in
Germany. But from
about the “prophetic correctness” of his views teler, a
were
it is
Einstein’s
remark
clear that to
Win-
Swiss republican, the gathering clouds of the Nazi dictatorship
less
an incomprehensible disaster than an almost inevitable con-
A "Child Prodigy” sequence of
German
political pathology.
41
At any
rate, in
wrote from Princeton to his friend Michele Besso,
“human
Winteler’s:
mention the clowns
affairs in
in
Germany.
when he
rnind Prof. Winteler had in
our age are
Now
less
it is
1936 Einstein
son-in-law of Jost
a
than agreeable, not to
obvious what
a
prophetic
perceived this grave danger so early
magnitude.” 31
its full
Einstein’s decision, after having
renounced German
nationality, to
apply for Swiss citizenship was surely due largely to the example of this
The
upright Swiss. ticular
prescribed five-year waiting period was no par-
problem. Before World
passports.
With
War I
people were not yet tied to their
confirmation from the authorities in Pavia or the
a
Zurich “residents’ control,” Einstein was allowed to travel wherever he
wished and
as often as
he wished.
In addition to renouncing his old nationality, Einstein also stripped
This step had been foreshadowed ever since
off his religious identity. his brief
The
phase of religious fervor in adolescence:
religion of the fathers, as I encountered
religious instruction
attracted
me.
Nor
community of came
to
know
and
did
I feel
destiny. in
in the
it
in
Munich during
synagogue, repelled rather than
anything
The Jewish
like national
bourgeois
community or
circles,
which
I
my younger years,
with their affluence and lack
me
nothing that seemed to be of
of a sense of community, offered
value. Loneliness, at first painful, then productive
and strength-
ening, was the result. 32
A visible
result
was
that, in the application for release
berg citizenship, his father his request
from Wiirttem-
—certainly with Albert’s agreement
if
not
at
—had entered “no religious denomination.” In the records
of the cantonal school, he was listed as
“Israelitic,”
but this
is
no doubt
because the school believed that every student had to be assigned to
some
religion or other. In a questionnaire for “right-of-residence
applicants” in Zurich, 33 which Einstein had to complete in October
1900, he entered “no religious denomination,” and he would keep this status for
more than two
decades.
In view of persistent assertions that at about age sixteen Albert Einstein
had
left
the Jewish
community 34
— assertions which seem
to be
Childhood, Youth, Student Years
42
borne out by the records this account,
made
At that time
—
worth quoting Einstein’s correction of
it is
a year before his death:
would not even have understood what leaving
I
Judaism could possibly mean. Traditional religion had no place all
in
my consciousness.
even though the realized
The
by
me
full
But
was
I
fully
at
aware of my Jewish origin,
significance of belonging to
Jewry was not
until later. 35
youthful skeptic and freethinker thus distanced himself from the
religion of his forebears, but not
from
his forebears themselves.
Albert Einstein’s maturing personality also underwent the experience
of
first
He
love in Aarau.
did not have far to look:
it
was Marie, the
eighteen-year-old daughter of the house. She had just graduated from the local teacher-training college and was
before accepting her
From
Pavia,
first
still
living with her parents
post in a small village in the canton of Aarau.
where he spent the Easter vacation, Albert Einstein wrote
to his “Beloved darling” in the fullness of his emotional experience: “I
have now,
my
had to learn the
angel,
full
meaning of
nostalgia and
much more happiness than longing gives pain. I only now realize how indispensable my dear little sunshine has become to my happiness.” 36 The two did not have to hide their feellonging. But love gives
ings
from either the Einsteins or the Wintelers. Greetings were
exchanged between Pavia and Aarau, and everything seemed to indicate
something
an unofficial engagement.
like
But when Albert Einstein embarked on
changed
his
his studies in Zurich,
mind. True, the two young people continued to meet
he at
the Wintelers’ house whenever he visited Aarau and she was able to
come home from her teaching
job.
But
six
months
later, in
May
1897,
he communicated his determination to break off the relationship, not to
Marie herself but So
me
as is
to her mother:
not to continue fighting unshakable:
be unworthy of already
I
I
me
a
mental conflict whose outcome to
cannot come to you for Pentecost. to
buy
have inflicted too
a
It
would
few days’ pleasure with new pain
much on
the dear child through
my
A "Child Prodigy”
own
me
fault. It fills
savor myself
with
a strange
some of the pain
that
43
kind of satisfaction to have to
my
frivolousness
rance of such a delicate nature has caused the dear intellectual
&
work
through
“Mama” Winteler
all
the troubles of this
did not blame Albert.
The end
premature
liaison.
Einstein’s
relations with
&
yet implacably
life. 37
Maybe
she was even relieved the risk of a
of the romance certainly did not affect Indeed, he soon became
the Wintelers.
related to them. His sister
Paul.
Strenuous
wisdom was sparing her daughter
to find that his youthful
college
girl.
observation of God’s nature are the angels
that will guide me, reconciling, strengthening, severe,
& my igno-
Maja attended the Aarau teacher-training
from 1899 to 1902 and eventually married the Wintelers’
And Michele
Besso, Einstein’s friend from the Zurich Poly-
who
technic, married Anna, the eldest daughter. Marie,
each other sincerely, but
it
was an entirely
married a
later
watchmaker, wrote about her relationship with Einstein:
When
“We
loved
ideal love.” 38
he was not personally involved, the forward young
could talk about love very differently. Consoling
was unhappily
son,
in love with
a
woman
friend
man who
an older man, the twenty-one-year-old
gave her this rather presumptuous advice:
Do you
really believe
you can
find lasting happiness in
through others, even through the only that animal personally,
myself. I
know
There
is
not
for sure.
all
continues, but
much
that
Today we
tude
Young
—matters
I
to be expected
are grouchy,
From
Yet he always
pany, the
more
know
&
frivolous, the
half-tired of
life.
...
So
than the good
life
felt
girls. 39
women was
not
the enriching love of one “angel” one could
observation of God’s nature.”
self.
tomorrow
a lot better
escape by invoking other angels
“lasting happiness in
I
from them, that
Albert Einstein’s repertoire for dealing with
without refinement.
Oh,
nearly forgot to mention infidelity and ingrati-
which we do
in
love?
from personal acquaintance, being one
next day cold, and then again irritable it
man you
life
— “strenuous
And
intellectual
work
&
rejecting the illusion of finding
through others” looks
like a
reference to him-
comfortable, and even happy, in female com-
so as this feeling was often reciprocated.
Many a young
Childhood, Youth, Student Years
44 or elderly
by
also
woman
was enchanted not only by
which suggested
his appearance,
“He had
is
how
a friend
the kind of male
beginning of the century, caused such
that, especially at the
havoc” 40
but
a passionate Latin virtuoso
rather than a stolid student of the sciences.
beauty
his violin playing,
of his second wife’s described Albert Ein-
stein’s effect.
School, as far as his grades were concerned, remained on an even keel.
The
“reproof” 41
about his unsatisfactory performance in French
recurred throughout
the intermediate reports: despite his private
all
up with
lessons he was unable to catch
bore
his Swiss classmates.
His father
blemish on his report of Christmas 1895 with equanimity:
this
“I
have always been used to Albert bringing home, alongside some very
good grades, stein
made
a
also
some poorer
bad
start also in his
& I am not
ones,
other
modern
disconsolate.” 42 Ein-
language, Italian, but
by graduation had improved, earning the second-best grade. 43 His best was
a 6, in algebra
were
5s or 4s.
With
this
and geometry. In physics he had
Only
French did he get
in
a 5-6,
and the
rest
a 3.
school report, dated September
5,
1895, confirming his
successful completion of the “fourth technical class,” Einstein
was now
able to take the Maturitatspriifung the final exam. 44 This lasted several ,
days, -with a written for
some
and an oral
part.
For the
latter
professors of the Zurich Polytechnic to
it
was customary
come over
to
Aarau
to take a look at their future students. This time Professor Albin
—the man who year school to Einstein —was present.
Herzog
On first
earlier
a
September 18
task
at
seven o’clock Albert Einstein got
heart,
His
German
a half hours, unenthusiastically
to his .
and uno-
teacher, Adolf Frey, out of the goodness of his
marked the outline “mostly
5.”
and physics, though
his
—handled grades — came
Next
way, completed rapidly, and earning high algebra,
down
—outlining the plot of Goethe’s play Gotz von Berlichingen
This he managed in two and riginally.
had recommended the cantonal
work here
Thus one mathematical term was
in a masterly
geometry,
revealed a certain careless-
when
it
should have been “imaginary,” and “Wheatstone bridge” appeared
as
ness.
“Watston bridge.”
No
doubt
his teachers
called “irrational”
had long realized that
this
A "Child Prodigy”
45
student did not waste time over such trifles.They were marked as mistakes but evidently not allowed to affect his grades.
As he had
also
done well
achieved an average of
and
a
commendable
of them.
It
5
V
2
in chemistry
and nature study, Einstein
—the best grade among the nine examinees, who was by
result for the student
far the
youngest
should be pointed out, however, that this examination was
relatively easy.
A German — and no
doubt
sium would have expected more, not only
a Swiss
in the
—
traditional
German
gymna-
essay but cer-
tainly also in mathematics.
French paper, the worst of the
Einstein’s
lot
and marked 3-4,
—not because of the mistakes
most interesting
the
but because of the subject of the essay, for the Future). Despite
its
Mes
execrable French,
also
in every other line,
Projets cTavenir it
is
(My
Plans
shows that Einstein had
found his objectives:
A
happy person
is
about the future.
too content with the present to think
On
the other hand,
are fond of
making bold
young man
to
form
young people
plans. Besides,
as precise
it is
much
in particular
natural for a serious
an idea of the goal of his strivings
as possible.
If I
am
lucky enough to pass
the Polytechnic in Zurich.
mathematics and physics. fields
my
I will
examinations,
I will
attend
stay there four years to study
My idea is to become a teacher in these
of natural science and
I
will
choose the theoretical part of
these sciences.
These
are the reasons
marily a personal
which have
gift for abstract
led
me
to this plan. It
of fantasy and practical talent. Moreover,
to the
same
is
pri-
and mathematical thought and
a lack
resolution. This
is
my hopes lead me
quite natural: one always wishes to
do the things one has the most talent
for.
Moreover, there
is
a
certain independence in the profession of science that greatly
appeals to me. 45
Quite apart from the form of these hopes and dreams, they also contain
something
from
a life
like a third
renunciation of identity,
a
breaking away
pattern linked to his family. Originally he had been sent to
4
46
Childhood, Youth, Student Years
Zurich to study
electrical
and uncle’s firm and eventually to take
father’s
But
as
engineering in order to be useful to his
he explained to
two decades
a friend
it
later,
over and carry
it
on.
Aarau had marked
his
decisive renunciation of the profession of a technologist:
.
because the thoughts of applying
.
.
would make everyday
that
aim of piling up
own
capital,
my
even more sophisticated, with the
life
was unbearable
The
me. Thought for
its
him
subjects during his year in
productively, as he confirmed in a letter three
years later: “In Aarau a
its
propagation of electromagnetic waves in the ether con-
tinued to occupy
which
to
sake, like music! 46
This kind of thought had already found Aarau.
inventiveness to things
I
had
a
good idea
for investigating the
way
in
body’s relative motion with respect to the luminiferous ether
affects the velocity
of the propagation of light in transparent bodies.” 47
This “good idea” appears to have been
a variant
of Fizeau’s famous
experiment of 1853 for determining the velocity of light in moving matter. In fact, this experiment
mentioned by Einstein
six
one of the two
is
from optics
results
years after this letter in his special theory of
relativity.
Far more important was another question, also from the range of
problems of electromagnetic waves stein
—
a
question which seemed to Ein-
“worth asking” that year in Aarau. At the time
been much more than Einstein recalled
it
a puzzle,
and from
a distance
it
cannot have
of sixty years
with forbearance: “If one were to run behind
a
light-wave with the velocity of light, one would have before one a
time-independent wave-field. But that can exist! This
was the
first
it
does not seem that something
childish mental experiment to
like
do with
the special theory of relativity.” 48
However, the cantonal schoolboy Albert Einstein was no longer that childish, and the
problem he recognized
at
all
age sixteen or seven-
teen was then not perceived as a problem by even the greatest scientists.
Einstein’s mental experiment
was precisely what Goethe had
defined as the key to scientific knowledge: “Everything in science
depends on what the
is
called
an apergu,
phenomena. And such
a realization
a realization
is
of what
lies
behind
infinitely fruitful.” 49
This
A "Child Prodigy” applies even
more
to Einstein’s theory of relativity:
case of understanding “what lies behind the
47 it is
not so
phenomena”
as
much
a
an analysis
of what should be understood by the concept “phenomenon.”
It
would
take ten years for the “infinitely fruitful” character of that apergu to
emerge.
CHAPTER FOUR
“Vagabond and Loner”: Student Days
In the second week of
October 1896
Department VI, the “School
Zurich
in
Albert Einstein enrolled in
for Specialized
Teachers in the Mathe-
matical and Science Subjects” of the Polytechnic in Zurich. still
six
months short of the
official
minimum
age
He
was
—eighteen—and
must therefore have been one of the youngest students ever
to have
entered that venerable institution.
The
impressive main building at the foot of the Ziirichberg was
designed by the Polytechnic’s
Semper.
1
One
first
professor of architecture, Gottfried
of the most striking edifices in the
city, it offers
from
its
terrace a. splendid view of the historic city center in the valley of the
Limmat. The Polytechnic, founded
in 1855,
was the
university-
first
type school of the Swiss Confederation (created in 1848). Unlike the later universities
of Basel, Zurich, and Geneva, which were financed
and supervised by the cantons, the Polytechnic was subject directly to the Swiss government in Bern.
Compared with
these universities, the
Polytechnic was of slightly inferior status, but only in that
award doctoral degrees. This was changed
in
upgraded to Swiss Technical University with
all
But the people of Zurich to
this
day refer to
At the turn of the century the
institution
it
1911,
it
could not
when
it
was
academic privileges.
as the “Poly.”
had
just
under
a
thousand
students, 2 the great majority of them in the engineering fields. Science
came under Department VI, the “School
for Specialized Teachers”; in
addition to providing basic mathematical and scientific training for engineers,
the department was
also
48
concerned with fundamental
"Vagabond and Loner” research. Mathematical Section
49
VIA, which comprised mathematics,
was the one Albert Einstein attended
physics, and astronomy,
in 1896,
along with ten other freshmen, including Mileva Marie, the only
woman
student in the Mathematical Section, which then, with the
freshmen, numbered only twenty-three students.
When the
in 1855 the first forty professorial
new
Polytechnic, a journalist with a sense of history wrote: “Since
the foundation of the University of Berlin set
appointments were made to
out on
activity
its
with such
a
no scholarly
institution has
wealth of talent.” 3 This applied not
only to architecture, but also to mathematics, in which the renowned
Rudolf Dedekind was the
first
professor. In Adolf
Hurwitz and Her-
mann Minkowski, Einstein had two outstanding mathematicians as his professors, men from whom he might have received first-rate training, but he
let this
opportunity
mathematics was take
up the short
split into
slip
many specialized
lifetime that
position of Buridan’s
by more or
is
granted
less
unused: “I saw that
areas,
each of which could
us. I thus
found myself in the
which could not make up
ass,
one bundle of hay and another.” 4 Added to
this
was
mind between
its
a certain subject-
specific arrogance: Albert Einstein, in his innocence, believed that
it is
sufficient for a physicist to
have clearly understood the ele-
mentary mathematical concepts and
to have
them ready for
appli-
cation, while the rest consists of subtleties unprofitable to the
—
physicist
a
mistake
I
realized only later, with regret.
My mathe-
me
matical talent was evidently not sufficient to enable
to distin-
guish the central and fundamental from the peripheral, from
what was not fundamentally important. 5 At any
on
rate
he remembered Professor Carl Friedrich Geiser’s lectures
infinitesimal
geometry
of the pedagogic art” 6
what he had
learnt
in his
second year
as “veritable masterpieces
—possibly because he was able
from Geiser while working on
to
his
make use of
own
general
theory of relativity.
Every beginner
him by
in
his professors.
Department VI had
a
study plan worked out for
This consisted of core
subjects, in
which grades
were given, and of useful optional subjects which were not
assessed.
Childhood, Youth, Student Years
50
After the prescribed subjects of the stein
found that he could
at universities.
He
now
first
three semesters Albert Ein-
enjoy the academic freedom customary
soon discovered that
“I
had to content myself with
being a mediocre student.” 7 Perhaps with some coyness, he enumerated
that he lacked for being a
all
“good student”
—ease of comprehen-
on what was being offered
sion, willingness to concentrate
in lectures,
and tidiness in making and processing lecture notes. But gradually he learned “to arrange
Some
interests.
wise
I
my studies
lectures
I
to suit
my intellectual
would follow with intense
stomach and
my
Other-
interest.
‘played hookey’ a lot and studied the masters of theoretical
physics with a holy zeal at home.” 8
“At home” was, Unionstrasse stitute
—
4,
initially,
not
far
the apartment of Frau Henriette Hagi at
from the Polytechnic or from the Physical In-
a separate building set
at a small pension
where he
also
up
in 1890. In his third year he stayed
run by Stephanie Markwalder
had
his
midday meal. In
at
Klosbachstrasse 87,
his last year
he returned to Frau
whom he later moved to Dolderstrasse
Hagi, with
17. All three
student
lodgings were in the bourgeois district of Hottingen, favorably situated both for the “Poly” and for the Hotel Bellevue by the lake.
His monthly draft of 100 Swiss francs came not from but fro$i his wealthy relatives in Genoa.
Garrone for
e C. in Pavia
power
had come to
summer of as
some
grief.
stations, the Einstein brothers
tried to overbid local interests
firm, they
The
1
896, barely
had
to
and had
more than
his parents
reason was that Einstein,
In an attempt to get licenses
and their failed so
Italian partner
had
badly that in the
year after the foundation of the
a
go into liquidation, losing
their entire capital as well
loans from relatives. 9 Uncle Jakob gave
up
his entrepreneurial
ambitions and became an employee. Later, as the manager of an
instrument-making firm in Vienna, he led
mann, on the other hand, wanted
firm in Milan,
and
electric
comfortable
life.
Her-
to try his luck as an entrepreneur
one more time, with help from the
new
a
on Via Manzoni,
family.
He
immediately
for the “production of
set
up
a
dynamos
motors.” Jakob Einstein’s position as technical manager
was taken by an
efficient
foreman named Sebastian Kornprobst, 10 who
had followed the Einsteins from Munich to Pavia. Despite
financial
“Vagabond and Loner” difficulties, the family’s lifestyle in
steins
occupied
When
Milan was
with eleven rooms
a floor
the firm in Pavia
been busy preparing for
his
went into
examination in Aarau. like
have saved him and us from the worst,” 12
went bankrupt.
What
depresses
parents
who
me
pains
me
To his
a
would
the thought that
strength allowed
at
really
all. I
I
1.
He had
as
two years
Maja he wrote is
&
keeps
me
the misfortune of my poor for
many years.
It also
have to stand idly by, without
am
be better
nothing but if I
a
burden to
did not live at
that year-in year-out
upright and must protect
But things soon improved
I
for his parents,
in
feeble
never permitted
me from
and
my
talent at
The
all
for
stateless
Zurich.
my
Only
all.
my
studies
despair. 13
any case Einstein was
not given to prolonged sorrow, knowing only too well “that jolly Joe and, unless
Milan
sadly:
myself any pleasure, any diversion, except that which offer,
had
tried to per-
later the
have always done everything
I
11
Uncle Jakob: “This would
happy minute
an adult person,
being able to do anything family. ... It
sister
most, of course,
have not had
that, as
Bigli 2
liquidation, Albert Einstein
suade his father to seek employment,
firm also
— the Ein-
bourgeois
still
Via
at
51
my stomach is upset or something similar,
am
I
a
have no
melancholy moods.” 14
young student Albert Einstein soon
The Winteler
boys and his cousin Robert
felt
Koch
at
home
often
in
came
over from Aarau, and the house of Gustav Maier, also from Ulm, was always open to him. Maier
with
a
—
a
wealthy
few like-minded friends, had
Ethical Culture,”
where
man
of liberal views
founded
—together
a
“Swiss Society for
social reform, educational
problems, and the
just
danger to peace from militarism and chauvinism were discussed. 15
The
founding members included “Papa” Winteler and Robert Saitchick, professor of literature at the Polytechnic. Einstein’s entree to this circle
ensured that his republican views, and the skeptical attitude
toward Bismarck’s Germany
first
aroused by Jost Winteler, would be
confirmed.
Through
friends in Milan, Einstein also
made
the acquaintance of
the family of Alfred Stern, a notable historian of German-Jewish
Childhood, Youth, Student Years
52
who was
origin,
regularly every
teaching at the Polytechnic. Einstein visited the Sterns
week and enjoyed
For
their cultivated hospitality.
his
personal problems, too, he always found a sympathetic ear with Professor Stern. After completing his studies, to Stern in these touching words: “But
he
summed up
what can
his gratitude
say about
I
the
all
kindness and fatherly friendship which you have always bestowed on
me whenever certain:
I
had the pleasure of being with you?
no one has met me the way you have, and
once came to you in
a dejected
.
.
that
mood and
or bitter
One
.
I
thing
is
more than
there invariably
found joy and an inner equilibrium again.” 16 In addition, Einstein was invited for Sunday lunch every family
named Fleischmann,
in
much
the same
way
as
week by
Max Talmud
a
had
Munich every Thursday. Michael Fleischmann had originally managed the Zurich branch of the been
a
Koch
family’s grain business in
guest in the Einsteins’ house in
Genoa, but had then
firm on Bahnhofstrasse, representing the
Koch
set
up
his
own
interests as an agent.
After his Sunday roast, Einstein would usually be seen in a Bahnhofstrasse cafe, deep in thought while
smoking
a
pipe
—
a
newly discov-
ered passion that he would maintain for a long time.
The 1 00
Swiss francs which the Kochs remitted to
should have been enough for
not poor.
Of course, when
a typical
him each month
student lifestyle
—modest but
Albert Einstein had to pay a ten-franc fine
to the Zurich Residents’ Control 17 because
he had carelessly omitted
money would be tight, especially as he month for the fee that would be payable
to deposit certain documents,
was saving 20 francs every
when he received Swiss citizenship. Now and again he would earn a little money by coaching private students for instance, Dora, the
—
daughter of his fatherly patron Professor Stern.
The
traditional social
life
of a student was not to Einstein’s
taste: in
retrospect he described himself as “something of a vagabond and loner.” 18
That does not mean
that he was lonely at the Polytechnic.
developed a “genuine friendship” with Marcel Grossmann, matics student a year older than himself.
mathe-
a
“Once every week
He
I
would
solemnly go with him to the Cafe Metropol on the Limmat Embank-
ment and
talk to
him not only about our
studies but also about any-
"Vagabond and Loner” thing that might interest
“vagabond” Einstein
53
young people whose eyes were open.” 19 The
felt
strangely fascinated by Grossmann’s firm
roots in the stolid, yet liberal, Swiss environment that he
when visiting the Grossmann home mann in turn was impressed by his is
came
to
know
Thalwil on Lake Zurich. Gross-
in
friend’s intellectual profundity;
he
reported to have told his parents: “That Einstein will one day be
someone
really great.” 20 Einstein regarded
student, close to his teachers
popular.” 21 also
.
.
Grossmann
as a
“model
myself apart and unsatisfied, not too
.
Grossmann not only
zealously attended
lectures, but
all
wrote them up so neatly that they could have gone straight to the
These notebooks were Albert
printer.
Einstein’s “lifesaver” as soon as
examinations approached: “I would rather not speculate
how
I
might
have fared without them.” 22 In later years, too, Grossmann was
a life-
saver
—once
in connection with Einstein’s first post at the Patent
Office in Bern and later with the
first
mathematical calculations of the
general theory of relativity. After Grossmann’s untimely death in 1936, Einstein wrote to his widow: “But one thing
and remained friends
all
our
up
in Italy.
had been born
He
we were
lives.” 23
Another lifelong friend was Michele Besso, Einstein. Besso
great:
is
in the
had qualified
as a
years older than
six
canton of Zurich but had grown
mechanical engineer
at the
Poly-
technic and was working for a firm in Winterthur. Besso advised Einstein to read the
works of Ernst Mach; he discussed with him endlessly
the philosophical foundations of physics, and soon
board for Einstein’s
The
became
a
sounding
ideas.
acquaintance with Besso came about through Einstein’s unswerv-
ing love of music. During Einstein’s
Zurich
meet
home
to
of
a
woman named
skill as a violinist is
afternoons. 24
attested to
school inspector
who had examined
dents in Aarau.
He
“One
semester, they had
Selina Caprotti,
make music on Saturday
siderable
first
met
at the
where people would
Young
Einstein’s con-
by the objective record of
the musical
skills
a
of seventeen stu-
mentioned only one of the examinees by name:
student, [named] Einstein, actually sparkled
performance of an adagio from
a
[in]
his
emotional
Beethoven sonata.” 25
At that time, long before radio and other advanced means of repro-
Childhood, Youth, Student Years
54
ducing music, good amateurs
like
Albert Einstein were sought-after
guests at domestic musical entertainments. Hardly any
was immune to Markwalder,
his musical passion
elderly
“charming old
Wegelin
.
am
their is
as
duet partners,
as there
&
spending the Pentecost days
God
which
Susanne
he presented with the
and devotion”; and not an piano
the
like
like
pianist
teacher,
Fraulein
At times one even has the impression that he preferred
woman
older
to her “In loyalty
maid,”
young one
a
whom
his landlady’s daughter,
Mozart sonatas inscribed 26
—not
woman
sends
me
was no
risk of complications: “I
nights with musical pleasures,
who do
through one of those angels
two-edged sword, threaten impressionable
hearts. It
is
not, with
who
a lady
already a grandmother .” 27
As numerous
as
women
the
are the anecdotes connected with
Einstein’s violin playing, often testifying to his considerable self-
assurance.
When,
Markwalders’ house, he had
at the
a small
audience
of women, some of whom began to click their knitting needles during his recital,
disturb
The
you
he simply put in
his violin
back into
its
case:
“We must
not
your work .” 28
extent to which his violin had
become indispensable
to
him
as
an instrument of intimate dialogue became clear to Einstein toward the end of his third year in Zurich,
when he
injured his
hand so
seri-
ously in the physics laboratory that he had to have stitches put in at the clinic.
In a letter to a “Dear lady,” with
whom
he had played duets in
Aarau, he regretted that, as a result of that mishap, he could not play
my old
his violin: “I greatly miss
myself everything myself, or at
that, in
most laugh
friend,
through
sober thoughts,
at
when
I
see
Alongside that “old friend” there was
it
I
whom I say &
sing to
often do not even admit to
in others .” 29
now
also a
new one
of the kind
which, “with their two-edged sword, threaten impressionable hearts.”
This one had nothing to do with music but was Mileva Marie, the one
woman
a
student of physics
student in Section VTA. She came from
Vojvodina, then part of the Hungarian half of the Habsburg empire
and
later part of Yugoslavia,
from
a family of Serbian
had grown up
in
an ethnically colorful region. Mileva came
landowning farmers
in the village of Titel
what was then Neusatz and
later
became Novi
and Sad.
"Vagabond and Loner”
Though not
55
by her family or the school system of
exactly supported
the day, Mileva had set her heart
on going
to the university. 30 Switzer-
women could young women
land being the only German-speaking country where
went
study, she
from
all
at the
which attracted scholarly
to Zurich,
over the world. She had had to pass her “school-leaving” exam
Young
Ladies’ College in Zurich before starting
studies at Zurich University in the
on her medical
summer semester of
1896. In the
winter semester, she switched to the Polytechnic and, simultaneously
with Albert Einstein, enrolled in the program that would lead to
a
teacher’s diploma.
There
is
some evidence
that
by the second semester,
if
not before,
Albert Einstein the loner and Mileva Marie, three years his senior, had
become
closer than just fellow students. Perhaps
it
was Mileva who
was behind Einstein’s decision to break off his relationship with Marie Winteler in the spring of 1897. During the summer vacation,
at
any
Einstein had written to her and she had told her parents about
rate,
him and
excited their interest: “Papa has given
am
to give
our
little
it
to
you myself, he wanted
bandit country.” 31 This
to
letter,
me some
tobacco and
make your mouth water
I
for
however, was posted from
Heidelberg, where Mileva was walking “under
German
charming Neckar
guest student for the
valley,” 32
having enrolled
as a
third physics semester at the local university. locale
some
this
had been planned some time ahead or put into distance
from Einstein
Mileva regarded the move
between the
The
Whether
lines of
a
is
as a
oaks in the
change of
effect to gain
matter of surmise. But the fact that kind of test of her feelings emerges
her letter to Einstein.
physics taught in the
first
few semesters
at the
Polytechnic tended
to be an appendix to the mathematical training of future engineers
rather than a discipline in
its
own
right. In the first
semester there
was only mathematics; in the second and third semesters there was mechanics, taught by Albin Herzog and attended by 140 students, also attuned to the needs of the engineering students. Einstein’s account for
Mileva Marie was: “Herzog dynamics and strength of materials, the
latter
very clear and good
—
natural in a mass course.” 33
in
dynamics
a little superficial, as is quite
Childhood, Youth, Student Years
56
Not until
the third semester was there even a lecture announced as
was given by Professor Heinrich Friedrich Weber and
“physics.” This
met with
great mastery.
I
lectured
on heat
.
.
and with
.
look forward from one of his lectures to the next.” 34
Einstein had in fact taken
he was able to give the selfish
“Weber
Einstein’s applause:
down and
“little
runaway” the
— “advice to get back here
will find everything
you need
Mileva Marie followed Zurich. However,
it
as
soon
—perhaps not quite un-
as possible,
because here you
closely recorded in our notebooks.” 36
this advice
was not
written up this lecture, 35 so that
and from April 1898 was back in that simple to
all
make up
for the
semester she had spent in Heidelberg, so that, despite Einstein’s and
Grossmann’s notes, she had to postpone the “intermediate diploma examination”
—due
Einstein, in his
second semester
after the
own
—by
a year.
eyes a “mediocre” student, had reported in
time for the exam fixed for October 1898 and spent the
working hard, mostly with Grossmann
“When one
sure:
takes such an
thing one thinks and does, as grind, however,
—which was not always
exam one
5.7,
maximum
grade of
6,
feels responsible for every-
After his brilliant
work on
The
in his five subjects Einstein
and otherwise
5.5.
which made him the best student of
Marcel Grossmann came second, scoring
a plea-
in a penal institution.” 37
one were
was crowned by success:
twice received the
an average of
if
summer
This gave his year. 38
5.6.
the intermediate examination, Albert
Einstein spent his third year at the Polytechnic working “with zeal and application ... in Professor this
course
tory”
—described
—Zurich had
H.
F.
Weber’s physical laboratory.” 39 For
in the catalogue as “Electrotechnical
the best possible conditions.
Werner von Siemens, Weber had
Labora-
With support from
created a magnificently equipped
Physical Institute, meeting the requirements both of experimental fun-
damental research and of scientifically based
The
electrical engineering.
building on Gloriastrasse had been completed in 1890, almost
in rivalry with
Semper’s main building, and towering above
situated higher
up on the slope of the Ziirichberg. An American physi-
cist
who
visited
amazed by
its
Zurich
a
opulence:
it,
being
year before Einstein began his studies was
“They not only have
the most complete
"Vagabond and Loner” instrumental outfit
I
57
have ever seen, but also the largest building
ever seen used as a physical laboratory.
.
.
.
Tier on
tier
I
of storage
have cells,
dozens and dozens of the most expensive tangent and high resistance galvanometers.
.
.
.
The
apparatus in this building cost 400,000 francs
—the
Phys. Laby.
($80,000), the building francs.” 40
— alone
cost one million
These perfect working conditions may have reminded Ein-
stein of the
homemade equipment
in
Uncle Jakob’s workshop, but
his
grateful recollection of the fascination of “contact with experience” 41
proves that he was not the narrow-chested thinker that the public
imagined
a theoretician to be,
tical interests
and
but a full-blooded physicist with prac-
abilities.
Einstein was less lucky in “Physical Exercises for Beginners” under
Professor Jean Pernet, which he also took in his third year.
he did not
like his professor
great deal and,
Whether
or the experiments, he played hookey a
“upon written request by Herr Pernet,
citing neglect of
the practical work,” received a “reprimand from the director for lack of application” in
March
wonder
1899. Small
lowed between Einstein and Pernet.
that
When
many a
sharp clash
fol-
the professor asked his
“neglectful” student why, instead of studying the difficult subject of physics, he did not prefer to study medicine, law, or philology, Einstein
even
is
reported to have answered: “Because, Herr Professor,
less talent for
those subjects.
a
1,
have
Why shouldn’t I at least try my luck
with physics?” 42 Pernet had his revenge dent
I
when he gave
the cheeky stu-
the lowest possible grade.
With regard
to theoretical physics, the situation at the Polytechnic did
not meet Einstein’s range of interests either, though for different reasons: “Physics
dent who,
was not greatly favored,” complained Adolf Fisch,
like Einstein,
a stu-
had come to the “Poly” from the cantonal
school in Aarau. Weber, to both of them, was “a typical representative
of classical physics,
who
simply ignored anything since Helmholtz. At
the conclusion of one’s studies one was acquainted with the history of physics, but not with
its
present or future.
We were
therefore depen-
dent on studying the newer literature privately.” 43
Only during
his final semester,
when
Einstein was already working
Childhood, Youth, Student Years
58
on
his
diploma
a lecture
on
mathematician
essay, did the
Hermann Minkowski
supplement to Professor Her-
analytical mechanics, as a
on mechanics. Minkowski, who had
zog’s standard class
Encyclopedia of Mathematical Sciences), supplied his
(.
teners with a reprint and discussed the subject within the
At the end of
his lecture.
it
told a fellow student: “This
we have heard write his
just written a
ma th ema tisch en
study on capillarity for the Enzyklopddie der senschaften
first
at the
Annalen der Physik
six
Wis-
few
lis-
framework of
Einstein enthusiastically, but also sadly, the
is
Poly .” 44 At
first
months
lecture
on mathematical physics
least the lecture stimulated Einstein to
publication
scientific
give
45 ,
which he submitted
after receiving his diploma,
to the
even though
the subject was not exactly at the center of scientific discussion, nor
indeed of Einstein’s
interests.
seems probable that
It
many
own
—
in Gottingen,
at
one of the better
Bonn, or Berlin
found training more in
line
universities in
Ger-
—Albert Einstein would
have
with his “intellectual stomach,” but his
graduation from the school in Aarau entitled him to study only at the
Zurich Polytechnic. Besides,
Germany
him was
to
a closed chapter,
and switching to Vienna or Paris was out of the question, citizenship that he
hoped
as the Swiss
to be granted required a prolonged stay in
Switzerland.
The
intellectual state of physics at the
end of the nineteenth cen-
tury did not, in retrospect, greatly impress Albert Einstein: “There was
dogmatic
was
on matters of
rigidity
beginning)
a
God
principle. In the beginning (if there
created Newton’s laws of motion, together
with the necessary masses and forces. This derives
is
the
by deduction from the development of
everything else
suitable mathematical
methods .” 46 This observation probably contains truth.
lot:
at least a grain
of
Eloquent propagandists of a “mechanical world picture” had put
forward
a similar
formulation
—only more expansively than Einstein
and the major part of physics teaching
at the
Polytechnic was probably
no more than pedagogical application of those maxims. But physics just before the turn of the century was a lot
more
in fact,
lively
than
Einstein’s characterization suggests, and he himself
was aware of
was fascinated by physics, and was developing
problems for the
future. “I
soon learned to
ferret out that
his
which might lead
this,
to the
"Vagabond and Loner” bottom of things, tude of things that
59
to disregard everything else, to disregard the multifill
mind but
the
detract
from the
essential.” 47
Despite his sarcastic view of the dry, rigid program of universal
mechanics, Einstein, tion for
like
“any receptive person,” 48 was
full
of admira-
what had been achieved within that framework. Yet he was
less
impressed by the solution of even the most tricky problems than he
was by the efficiency of the mechanical program when applied to areas which, at
above
all,
no
glance, bore
first
relation to mechanics.
the kinetic theory of gases,
some of whose
This meant,
essential
theorems
could be plausibly derived only by the assumption that gases consisted of minute globules of matter, whose movements and impacts obeyed the laws of mechanics.
This part of the theory of gases had been dealt with by Professor
Weber
in his lectures.
The
other,
more profound
aspect
—that the
theory of the mechanical treatment of an ensemble of
statistical
mechanical particles was capable of deducing the basic laws of thermo-
dynamics
—Einstein had learned about by private study of the recently Ludwig Boltzmann, 49 which he
published fundamental books of
known
to have read in the
summer
is
of 18 9 9 50 and which show anything
but “dogmatic rigidity.” If one considers that the very existence of
atoms was
being questioned
still
at the
time but
that,
on the other
hand, X-rays, cathode rays, and other types of radiation had just
opened
a
new world
of microphysics, one
is left
with the impression of
an exceedingly interesting phase of scientific research.
This applies equally to the other major development in physics
in
the second half of the nineteenth century: the electromagnetic field
theory developed by James Clerk Maxwell and brilliantly confirmed in
1888 by Heinrich Hertz.
mechanics to
as the sure
foundation of
anchor electromagnetic
derive
it
field
all
a
regarded
physics and had therefore tried
theory in mechanics, or indeed to
from mechanics. This was one of the reasons
of the “ether,” a
Of course, Maxwell and Hertz had
for the invention
strange immaterial substance which initially served as
substratum for the so-called “polarization states” of the electromag-
netic field and
which was subsequently drawn on
to provide a basis for
the propagation of electromagnetic waves, such as light or Hertzian
waves, since these, in mechanical concepts, could not proceed in
Childhood, Youth, Student Years
60
“nothing” but needed an oscillating medium, more or
waves in
The
less like
sound
air.
price paid
by
physicists for tying electromagnetic fields to
mechanics was, of course, rather high, conceptual construct
full
proved to be
as the “ether”
of internal contradictions. As an
pervading body, though weightless and noncompressible, of “ghost existence” alongside normal matter; offer resistance to the
it
a
elastic, all-
it
led a kind
was not permitted to
motion of normal matter or
interact with
it
in
any other way. In order to explain the velocity of light in moving matter,
was to
had to be assumed that the ether, independently of matter,
it
in a state of
permanent
rest.
However, when an attempt was made
measure the Earth’s motion through the ether
in the
famous experi-
ments of Albert Michelson and Edward Williams Morley,
it
had to be
acknowledged, sadly, that apparently there was no such motion. Here,
were enough problems capable of “leading to the bottom of
then,
things,” and, with his sure instinct for the essential, Einstein felt self
drawn
to them.
His thinking probably proceeded from what he had called childish mental experiment to
Our
earliest
psychology
Max
if
riding
on the beam?
one were
to
run
mind,
“problem horizon” during that
at all?
in relation to
after a ray of light?
... If .
.
one were to run .
What
something,
tion to something else
all
Einstein’s
1916 in Berlin.
in
as follows:
What
no longer move
In
had with Einstein
( Gestaltpsychologie ),
probing phase
it
special relativity theory.” 51
Wertheimer, one of the founders of Gestalt
Wertheimer has represented
have
do with the
his “first
information on these reflections comes from a con-
versation which
first
him-
which
is
What
fast
if
one were
enough, would
“the velocity of light”? If
this value
itself is in
it
I
does not hold in rela-
motion. 52
probability Einstein turned these problems over and over in his first
in
Aarau and then during
his first year in Zurich; certainly
we know of no partners in conversation or studies in literature that could have led him to such ideas. In his second year at the Polytechnic he surprised Professor Weber by proposing an experiment to deter-
"Vagabond and Loner” mine the velocity of the Earth
61
relative to the ether
—evidently
in igno-
rance of the Michelson-Morley experiments, as “he learned only later
had already conducted such experiments .” 53
that physicists
As
a
matter of
Einstein’s proposal
fact,
was no more than
a variant
of the Michelson-Morley experiment: “I thought of the following
experiment using two thermocouples. Set up mirrors so that the light
from
a single
source
parallel to the
two
different directions,
motion of the Earth and the other
assume that there beams,
to be reflected in
is
is
one
anti-parallel. If
we
an energy difference between the two reflected
we can measure
the difference in the generated heat using two
thermocouples .” 54 Needless to
say, this
way of building
because “there was no
remained
just a suggestion,
that apparatus.
The
skepticism
of his professors was too great and the persuasive force of the project too small .” 55
We
do not know whether Professor Weber
experiment because he regarded
it
as uninteresting,
rejected the
or as the crazy idea
of a generally odd student, or as technically impossible. In the
one would,
It
in retrospect, have to agree with him.
was chiefly because electromagnetic
problems were not dealt with classes at
last case
at the
field
theory and associated
Polytechnic that Einstein cut
and “studied the masters of theoretical physics with
home .” 56 For him
this
a
holy zeal
was “simply the continuation of an
earlier
practice .” 57
We
owe our
first
clue to
which books on
field
theory he was
studying in his second year to his habit of forgetting his key.
found himself once more keyless
went
and
in a note requested the absent
“be too angry with
me
The
study a
little .” 58
German
physicist Paul
work written
magnetic
field
justice to light
By
Frau Hagi’s locked front door, he
straight to the Pension Bachthold,
staying,
a
at
if in
my need
When he
I
where Mileva Marie was “Dear young lady” not
abduct your Drude, so that
I
to
can
purloined object was a book by the young
Drude, Physik
des Aethers (Physics of the Ether) f 9
in the conviction that
Maxwell’s theory of the electro-
was more
likely
than the old mechanical approach to do
and to Hertzian waves.
the following year Einstein had worked his
way through
the
most important publications of Hermann von Helmholtz 60 and Hein-
Childhood, Youth, Student Years
62
emerges from
rich Hertz. 61 This fact
summer
during the
Mileva Marie written
a letter to
vacation of 1899: “I returned the Helmholtz
volume and am now rereading Hertz’s Ausbreitung der elektrischen Kraft (
Propagation of Electrical Force) with great care because
stand Helmholtz’s treatise
on the
trodynamics.” 62 Whatever
it
I
didn’t under-
principle of the least action in elec-
was he
he had
failed to understand,
certainly gained an entirely independent critical attitude toward
Hein-
rich Hertz’s views:
I’m more and more convinced that the electrodynamics of
moving bodies and that
reality,
The
as
it
will
it
presented today, doesn’t correspond to
is
be possible to present
described without,
ing to
it.
I
accomplished
can be
believe, being able to ascribe physical
six
a first hint
mean-
of the abolition of the ether
years later in the special theory of relativity.
of that later study,
shadowed
medium whose motion
63
Here we have
title
in a simpler way.
introduction of the term “ether” into theories of electricity
has led to the conception of a
title
it
On
though admittedly
which Heinrich Hertz had given
his treatise
as
to be
Even the
the Electrodynamics of Moving Bodies
in this letter to Mileva,
—
,
is
fore-
an echo of the
of 1890.
A
few of
Einstein’s remarks, such as the concept of “electrical currents ... as
the motion of true electrical masses” 64 and the future definition of
electrodynamics as “the theory of the movements of moving electricities
&
magnetisms
empty
in
space,” 65 suggest that he was also familiar
with the work of the great Dutch theoretician Hendrik Antoon Lorentz. 66
still
a
student in Zurich, had thus turned to the same
than
a
year earlier, the Gesellschaft deutscher Natur-
Albert Einstein, subject
as, less
forscher
und Arzte (Society of German
Scientists
and Physicians)
annual convention in Diisseldorf in September 1898.
The
at its
ether and
its
behavior in moving media had been chosen as the topic of a special session, to
which
all
the leading figures had been invited, including
Lorentz from the Netherlands, and for which the young Aachen
assis-
"Vagabond and Loner”
63
Wilhelm Wien had prepared an introductory “over-
tant professor
view” paper.
Wien’s very
first
sentence revealed the confusion of the situation:
“The question whether or not bodies, and
whether
the ether participates in the motion of
altogether to be credited with mobility, has
it is
been agitating physicists for
a
long time, and there
sumptions and assumptions which
make of
it
the properties of the carrier of electromagnetic
dictions arising
all
retical part the discussion
astronomers in the
phenomeof contra-
ether, as well as a
together, thirteen experiments that might yield
movement
information on the Earth’s
iary constructs
a juxtaposition
from conflicting concepts of the
careful listing of,
to pre-
has been thought necessary to
na .” 67 Wien’s observations were essentially
late
relative to the ether. In
its
theo-
was somewhat reminiscent of the debate of
Middle Ages, when epicycles and other
were piled on top of each other
phenomena” and hence
auxil-
for the “salvation of
for defending the concept of the Earth as
resting at the center of the universe.
doomed
no end
is
to failure because they
were resolved only by the
radical
These
efforts
were
all
ultimately
produced new complications, which
new
start
represented by the “Coper-
nican revolution.” In Diisseldorf, though, there were tion in the matter of the ether.
Lorentz,
who
no
heavy) matter, and
its
let
little
as
physical
the
“The
ether, ponderable (that
we knew whether or not matter, with it, we would have a way of peneif
further into the nature of these building blocks and their
mutual relations .” 68 asked,
Professor
us add electricity, are the building blocks
motion, carried the ether
trating a
like
gave the co-report to Wien’s survey, could not imagine
making up the material world, and on
comparable revolu-
Even an authority
the future of physics without the ether: is:
signs of a
None
of the physicists present in Diisseldorf
twenty-year-old Albert Einstein had, whether any
meaning could be ascribed
whether the ether was not perhaps
to that statement a superfluous
—
in other words,
concept for physics,
not to be investigated but to be abolished.
The
student Einstein had not been present at the learned conven-
tion in Diisseldorf, but he
was informed about
it,
probably better
Childhood, Youth, Student Years
64
informed than anyone in Mettmenstetten,
1899 with
From
else in Zurich.
he was spending the
his parents,
Milan, where, after a stay
summer vacation
rest of the
he consoled Mileva Marie, cramming for her
intermediate examination, saying that he too had been “quite
worm
myself
trying to
lately,
of
work out
some of them
several ideas,
very interesting.” 69 “I also wrote to Professor
Wien
my paper on the relative motion of the luminiferous
book-
a
in
Aachen about
ether against pon-
derable matter, the paper which the ‘boss’ handled in such an off-
handed
fashion.
I
this subject. He’ll write
me
was Wien’s paper
treatise”
Wien from 1898 on Polytechnic.” 70 The “interesting
read a very interesting paper by via the
at the Diisseldorf
vious year; Einstein had probably discovered
und Chemie. 11 Unfortunately, Einstein’s even
know whether Wien
replied to
convention of the preit
in
Annalen der Physik
letter is lost,
and we do not
it.
Extant documents, however, show that Albert Einstein in his
second and third year dated,
self-assurance
at the as
a
Polytechnic developed, or
Through
physicist.
at least consoli-
intelligently
chosen
reading he involved himself directly in the mainstream of topical research, and he tices
was strong enough not to be carried away by the vor-
of that stream but to choose his
own
ized any of this, except perhaps Marcel
These years were physics.
a
happy time
bank. But no one then real-
Grossmann and Mileva Marie.
for Albert Einstein,
His father had been lucky with
his
and not only in
newly founded firm
in
Milan, winning contracts for the streetlights in the small towns of
Cannetto sull’Oglio and
Isola della Scala,
both near Mantua. 72 Even
though these contracts had to be immediately pledged to creditor
—
his cousin
Rudolf Einstein
debts exceeded his assets, there was
in
Hechingen
who
admitted to his
sister that “I
at
his
Via Bigli 21 in
also a great relief to Albert,
now sometimes
find time to stroll for
an hour or so in Zurich’s beautiful surroundings.
thought that the worst anxieties are over for lived like
main
— and although
no hardship
Milan now. This change of fortune was
his
my
I
am happy
at the
parents. If everyone
me, romance-writing would never have been invented.” 73
Meanwhile he had
started
on
his
own romance.
Private study was
mostly done a deux and from his 1899 spring break he wrote to Mileva ,
"Vagabond and Loner”
65
Marie from Milan: “Your photograph had quite an
While she studied
lady.
Yes, yes, she certainly
carefully,
it
on
effect
my
old
said with the deepest sympathy:
I
a clever one.” 74
is
During the summer vacation the two were separated. She had prepare for her intermediate examination,
first
in
to
Novi Sad and then
in
Zurich, while he was in Milan, having spent August with his mother
and
sister in
From
Mettmenstetten,
the Pension “Paradies” he reported to Mileva about his “nice,
quiet, philistine
He
be.” 75
just as the pious
life,
then went on:
could not
— and
still
me.
sitting next to less
between Zurich and Zug.
a small village
I
“When
I
& the upright imagine paradise to
read Helmholtz for the
—believe that
first
time
I
I
was doing so without you
enjoy working together
& I find it soothing & also
cannot
boring.” 76
With
his sister,^
he climbed the 8,200-foot
years previously, as a “badly shod tourist” the cantonal school, he
“had not,
would have crashed
he was beginning to
as
on
Santis,
where, three
three-day outing with
a
to his death if a classmate
down the steep slope, quickly pull him up again.” 77 Einstein,
slip
extended his mountaineer’s cane to
however, sent Mileva some news from his “paradise” that was not so
sometimes he
cheerful:
Mama’s
felt
acquaintances. ...
by slipping away end of our stay arrogance
&
if
my
we
I
disturbed by “unpleasant
don’t happen to be at the dinner table. At the
aunt from
Genoa
is
coming,
a veritable
a
like “Dollie.”
monster of
insensitive formalism.” 78
whom
along with
from
can usually escape their mindless prattle
His escape, of course, was straight into physics Marie,
visits
in his letters
southern
He
he
German
still
—and
to Mileva
addressed with the formal
dialect expression
was generous with
Sie,
but
meaning something
his advice for
her exam, which he
himself had passed the previous year, and sincerely wished that “you
could be here with souls
&
me
for a while.
also drinking coffee
announced
that he
would bring
We understand
and eating sausage his sister
one another’s dark etc.” 79 Finally
he
along to Switzerland and take
her to Aarau, where she would attend the teacher training college and live
with the Wintelers. That the mention of Aarau would arouse
divided feelings in Mileva was clear to Albert Einstein, because that
was where the
“critical
daughter with
whom
I
was so madly
in love
4
Childhood, Youth, Student Years
66 years ago” lived
my high fortress I
would
He went on:
80 .
of calm. But
This was neither the
first
I feel
know that if I saw her I
am
nor the
last
Of
go mad.
certainly
I
“For the most part
that
certain
&
a
quite secure in
few more times
fear
it
like fire .” 81
time that Albert Einstein’s
remarks on personal matters were guided
by
less
tact or sensitivity
than by ruthless frankness.
In his fourth and last year at the Zurich Polytechnic Einstein evidently set aside his reflections
moving bodies
—presumably because he had found no new point of
than because of the necessities of preparing for exams
attack, rather
and writing
on the ether and the electrodynamics of
his
diploma
His own interests coincided with those
essay.
of the principal, Professor Weber, in the
field
of heat, so that
have seemed advisable to him to deal with that subject in greater “Scientific
work
consuming of
in
his subjects; in addition
on
technical lectures as well as a
the physical laboratory” was the
most time-
by Professor Weber
82 ,
of mathematics, and “analytical mechanics”
by Hermann Minkowski. Although tual
detail.
he attended the rather more
alternating current, also
minimum
may
it
this lecture suited his “intellec-
stomach,” he stayed away from Minkowski’s advanced mathe-
matics
class, for
“no one could make him attend the mathematical
seminars .” 83 All students
had to attend
special field. Einstein chose,
at least
one
class
each year outside their
and evidently enjoyed, the general studies
of Department VII, the “General and Economics Department,” which
were often taught by original minds attracted by the amenities of a ulty without regular syllabi
more of these
84 .
Einstein in fact enrolled for considerably
lectures than the
spectrum of subjects, such
as
mandatory minimum, covering
morning yet always had
Einstein
heard
met
commended
a lecture
a
wide
started at seven
crowded lecture room. Even
the “magic” of Heim’s
on Goethe by Robert
in his patron
a
“Man’s Prehistory” and “Geology of
Mountain Ranges,” both given by Albert Heim, who in the
fac-
way of
Saitschick,
in old age
lecturing
whom
85 .
He
he had already
Gustav Maier’s Swiss Society for Ethical Culture,
and he heard August Stadler on Kant’s philosophy and on the “Theory of Scientific Thought.” There were also some practical subjects, such
"Vagabond and Loner” as
67
“Banking and Stock Exchange Dealing” and
and Life
“Statistics
Insurance.”
It
was probably
his friendship
with Friedrich Adler that led Einstein in
his final year to attend lectures
on “Fundamentals of Economics” and
on “Income Distribution and the Social Consequences of Free Competition.” Adler
was
a socialist in his family’s tradition: his father,
Victor Adler, was the unchallenged leader of the Austrian Social
Democrats and one of the Friedrich Adler had first
spiritual fathers
come
of Austro-Marxism. 86
to Zurich a year after Einstein.
He
had
studied chemistry, and later also physics, though not at the Poly-
technic but at the university. Einstein revered Adler as “the purest and
most fervent
idealistic character” 87
he ever met.
The two
shared an
admiration for Ernst Mach’s empiricist philosophy and, with their girlfriends
—Einstein
with Mileva Marie and Adler with
woman, Katya Germanishskaya where Hermann Minkowski
—would taught
sit
a
in the small lecture
mechanics.
analytical
probably did not have to work hard to win Einstein over to his ideas,
but he could not persuade him to join the party.
was
that “Einstein
tion, given Einstein’s sense it
applied throughout his
socialistically colored,
dogmas of any Zurich
emotional
a typical
Russian
socialist.” 88
He
room Adler
socialist
concluded
This characteriza-
of justice, was probably quite correct, and life.
His
social attitudes
but he did not
feel
may have been
greatly attracted to the
political party.
at that
time was
a
haven for
socialist
and anarchist student
groups, especially from the Slavic countries, but Einstein’s occasional contacts did not lead to socialism.” It
more than
a
confirmation of his “emotional
was only the horrors of World
into a political person. But he
may
well have
only the foundations of physics could be
War
I
felt in
fragile,
that turned
him
Zurich that not
but those of society
as
well. 89
What
Albert Einstein called his “household” 90 with Mileva Marie
seems to have been somewhat unconventional,
if
not by Zurich stu-
dent standards, then certainly by those of respectable bourgeois morality. Mileva lived within a few minutes of Einstein’s lodgings, in
the pension of Fraulein Engelbrecht at Plattenstrasse 50, and Einstein
Childhood, Youth, Student Years
68
appears to have been a frequent and popular visitor
of foreign
women
him from
his
When, on
Whenever
students.
among
the group
parcels of delicacies arrived for
mother, he would take them straight to Plattenstrasse. 91
the occasion of his twenty- first birthday, a particularly gen-
erous package arrived, Mileva described to a friend the “tremendous
which
effect”
it
had on Einstein: “radiantly he walked down Platten-
strasse, carrying the
right or left.” 92
box
in
both hands, so pleased that he did not look
Sometime
in his fourth year, the
two must have
decided to get married. 93 Einstein and Mileva Marie also spent the spring break of 1900
March Pro-
together in Zurich, working on their diploma essays. In fessor
Weber had
accepted the suggestions of the two candidates, and
Mileva was looking to the future the research ject.” 94
I
The
will
full
of hope: “I
am looking forward
have to do. E. also has chosen a very interesting sub-
essays
had to be completed within three months, so no
com-
real flashes of genius were, or could be, expected. 95 Einstein’s
ment
to
in his old age was:
“My
and
my
first
wife’s
with heat conduction; they were of no interest to
diploma essays dealt
me and
are not
mentioning.” 96 In the assessment Mileva’s essay was given the top grade), while Einstein’s received 4.5
a
worth
4 (6 being
—neither of them
a bril-
liant result. 97
In the actual subject exams Einstein would
much on Grossmann’s
seem
to have relied too
lecture notes, because he did not repeat his suc-
cess in the intermediate examination.
Of the
five
candidates of Section
VIA
the three mathematicians did better than the two physicists, Ein-
stein
and Marie. After various calculations and weightings of individual
grades, Einstein finished fourth with an average of 4.91 and Mileva
Marie achieved only an average of 4.0. The “conference of examiners” therefore decided “to award the diploma to the candidates Ehrat,
Grossmann, Kollros, Einstein, but not
to Fraulein Marie.” 98
The
inevitable
“cramming”
for the exam, even
went on
for only a
few months,
left traces
In his old age he related,
full
though
probably
of trauma in Albert Einstein.
of horror, “that one had to stuff
jumble into oneself for the exams, whether one liked
compulsion had such
a deterrent effect that,
exam,
for
I lost all taste
it
any reflection on
it
all
or not. This
having passed the
scientific
that
final
problems for
a
"Vagabond and Loner” whole year .” 99 However, the
exam
He
reveal nothing of
letters
what he
69
he wrote immediately
after the
called his “intellectual depression .” 100
took some physics books with him on his vacation, and
three days after finishing his
nerves have calmed again
” 101
exam he was writing
down enough,
at the Polytechnic, in
to Mileva:
so that I’m able to
Moreover, he was firmly counting on
a
mere
“My
work happily
a position as assistant
order to establish himself in both the scientific
and the bourgeois world, so that he could marry Mileva. However, he
was soon to discover that “there are worse things in
life
than exams ,” 102
because once more there were long and tortuous routes to be covered before he arrived at his goal.
CHAPTER FIVE Looking
for a Job
Einstein spent the summer of 1900 Lucerne, in the company,
and
his sister,
his
as usual,
in Melchtal, south of
Lake
of his “ghastly aunt” from Genoa,
mother. Tension began on the very
first
evening,
when his mother with affected casualness asked what was now going to become of “Dollie,” to which Einstein, just as casually, replied, “She’ll become my wife.” There then unrolled a family drama, often to be repeated: pillow,
“Mama
and wept
threw herself onto the bed, buried her head in the like a child.” 1
As the mountains were drenched
had no other escape than
rain, Einstein
his books,
famous investigations of the motion of the marveling
What
at this great
in
“mainly Kirchhoff’s
rigid body. 2 I can’t stop
work.” 3
the Einsteins soon called the “Dollie affair” continued to
give rise over the next few years to fierce clashes
between parents and
son. Needless to say, neither his mother’s histrionics
more moderate arguments could shake Albert especially as he believed he
had already
Papa are phlegmatic types and have bodies than
I
have in
my
little
less
won
nor
his father’s
in his determination,
the battle:
“Mama
and
stubbornness in their entire
finger.” 4
But he was mistaken:
his
mother’s obstinacy was quite equal to his own.
Trying
to put himself in his parents’ position, Albert Einstein
wrote to Mileva:
“I
understand
my
wife as a man’s luxury which he can afford only
comfortable
living. I
ship between
have
man and
a
They think of a when he is making a
parents quite well.
low opinion of that view of the relation-
wife, because
it
makes the wife and the
tute distinguishable only insofar as the
70
former
is
prosti-
able to secure a
Looking
for a Job
71
from the man because of her more favorable
lifelong contract
rank .” 5 Such theorizing on bourgeois sexual morality, however,
which are pervaded by
in his letters to Mileva,
longing for his
belong nowhere, and
mouth
of tenderness and kisses .” 6
full
that separation he dialect
miss your two
I
feelings of love
and
And
I
want
—but
I
arms and the glowing
little
up during
to cheer her
would occasionally include
a
few rhymed
ditties in
7
his
mother was
horrified and his father worried about this
liaison, Einstein’s fellow students
so successful with to Mileva Marie.
women
were merely astonished that
should so firmly and inseparably
jealousy. Besides, site
a stately beauty.
to Einstein’s shoulder;
childhood had done lasting damage to her
joints,
she had a noticeable limp. But Einstein did not
When
a fellow
student remarked to
reported to
is
let
him
Nor was
it
in
these matters worry
that “he
component of
sufficient to Einstein.
She was very
with the result that
would never
entirely healthy,”
a
voice .” 8 Important as this acoustic
hardly sufficient.
himself
and tuberculosis
woman who was not have replied: “Why not?
have the courage to marry Einstein
man
—perhaps not without reason—of
was by no means
coming up
short, barely
tie
a
She spread around her an aura of Slavic melancholy,
not indeed gloom, and soon also
him.
rare
.
While
if
is
go anywhere
darling”: “I can
“little
social
She has love
His
may
a
sweet
be,
letters, in
it is
which
declarations of love are oddly intermingled with scientific matters,
instead suggest that as a
bohemian kind of physicist he was
in his future wife as a colleague.
Even though Mileva
still
interested
had to repeat
her diploma examination the following year, Einstein already saw her
working to
working on our new paper. You must continue with your investiga-
tions I
for her doctorate at the university: “I’m also looking forward
—how proud
remain
seemed
a
I
will
be to have
still
totally
stage and
unaware of
amaze the world:
you and squeeze you and
down
to
Ph.D. for
completely ordinary person .” 9 With
future in which the two of them, tific
a little
work
life’s difficulties,
arm “I
in arm,
sweetheart while
cheerfulness which
he painted to her
would bestride the
a
scien-
can hardly wait to be able to hug
to live with
right away, and
a
a
you
money will be
again. We’ll happily get as plentiful as
manure .” 10
Childhood, Youth, Student Years
72
The economic
foundation of their hoped-for
life
together over the
next few years was to be the salary of an assistant at the Polytechnic,
and during the
few weeks of
first
that such a post
would be
Department VI needed
his vacation Einstein
matter of course.
his as a
was convinced
The
professors of
number
several assistants because of the large
of engineering students; and, as only a few students enrolled in the
mathematics and physics, virtually any graduate
lucrative fields such as after his
exam
could,
less
if
he wanted, become an assistant for
a
few years.
This, however, did not apply to Einstein, as he was soon to discover.
With
Professor Pernet,
application,” he too,
who had
had no prospects
initiated his
in
any
case.
a post to
dent, had persistently addressed
him
But Professor Weber, a
German
someone who, even
as a stu-
was not particularly fond of him. Weber,
and therefore unlikely to give
reproof for “lack of
as
after
all,
was
“Herr Weber” 11 instead of
“Herr Professor” and had generally shown scant
respect.
Weber
diploma essay had been rather mediocre,
felt
As Einstein’s
no obligation
toward the rebel graduate and was inclined instead to engage two mechanical engineers
as his assistants.
Einstein probably surmised to the mathematicians.
all that,
On August
9,
and therefore turned
hopes
his
barely two weeks after his exam,
he was in Zurich again “to straighten out
my
‘business and political’
The conditions he found there seemed to him so favorable he summed them up for Mileva to the effect that he would be
affairs.” 12
that
“provided for in any case.” 13
He
felt
so confident that he actually
down a temporary job one of his fellow students offered to arrange for him with an insurance firm: “an 8-hour day of mindless drudgery. One must avoid such stultifying affairs.” 14 turned
.
.
.
Einstein spent most of the vacation with his parents in Milan,
where discussions of the “Dollie
affair”
were poisoning the atmos-
phere. In bed at night he wrote to Mileva:
&
I
don’t have a single
almost
as if I
had
died.
moment
of peace.
aren’t healthy ...
My
often cries bitterly
parents
weep
Again and again they complain that
brought misfortune upon myself by
you
“Mama
oh
Dollie,
way of consolation he was
it’s
my
I
me
have
devotion to you, they think
enough
able to pass
for
on
to drive
one mad.” 15 By
to Mileva the latest
news
Looking
from Zurich,
in a letter
from
for a Job
73
his fellow student
Jakob Ehrat, that one
of Professor Hurwitz’s assistants would be moving into the educational service,
which made Einstein conclude that
“Ell
become Hurwitz’s
ser-
God willing .” 16
vant,
But the vacation was not
lamentation over Mileva. Einstein met
all
Michele Besso, who had been married to Anna Winteler
his old friend
for a couple of years
and had
settled in
Milan
as a technical consultant
to the Societa per lo Sviluppo delle Industrie Elettriche in Italia
(Society for the stein spent
many of his
joys of family his sharp little
Electrical Industry in Italy). Ein-
know
evenings with the Bessos and came to
and fatherhood:
life
mind and
kid .” 17
stein;
Development of the
“I like
him
his simplicity. I also like
A spinoff was
a small
a great deal
the
because of
Anna, and especially their
—but presumably paid —job
for Ein-
how
he examined for Besso’s society the “interesting question:
does electric energy radiation through space occur in the case of
He
sinusoidal alternating current ?” 18 to his
power
his father
on
a trip
plants in Cannetto and Isola della Scala, because he was
anxious to “learn a I
accompanied
little bit
about the administration of the business so
can take Papa’s place in an emergency .” 19 As promised by his father,
detour was
made
more escaped
to Venice.
to the
And toward
mountains
20 ,
ited Isola Bella, the largest of its
By
a
the end of September he once
traveled to
Borromean
Lake Maggiore, and
vis-
Islands.
the end of September Einstein finally thought
it
humble inquiry whether
write to Hurwitz with “the
a
necessary to I
prospect of becoming an assistant in your department .” 21
have any
The Herr
Professor must have been rather surprised, as this student had never
shown up
at the
inquiry, Einstein
mathematical seminars. In response to a courteous
had to confess
Hurwitz without any attempt “As, because of lack of time,
matical seminars ...
I
at I
his omissions.
He
did so in a letter to
whitewash and without any remorse:
was unable to take part
can say nothing in
tended most of the lectures on offer to could easily discover, was a bit of a
tall
my
in the
mathe-
favor except that
me .” 22 Even
that, as
I at-
Hurwitz
story as far as mathematics was
concerned, so that one cannot really blame the professor shelved this rather cheeky application. But
when
if
he simply
Einstein traveled to
Childhood, Youth, Student Years
74
Zurich
at the
beginning of October, he was
post at the Polytechnic: “Hurwitz
still
confident of getting a
still
hasn’t written me, but
I
have
hardly any doubt.” 23
When,
shortly after his arrival in Zurich, Einstein had to face the
unpleasant truth, his financial
must have been
it
a serious
blow to him,
problems were becoming more acute. His
had discontinued
Unsuspecting of the many disappointments
he soon adjusted to the new situation and
woman
him
Isn’t this a
—
about
Mileva Marie at the
only
journeyman’s
we’ll be cheerful
exam
if
still
it,
a
still
few days
we
life,
could find some, which
his
regular sup-
in store for him, later
“We have neither of us landed
friend of Mileva’s:
by private lessons
relatives in Italy
monthly remittance when he received
their
diploma, and his parents were in no position to give port.
especially as
is
wrote to
a job
and
a
live
very doubtful.
or even a gypsy existence? But
I
think
as usual.” 24
had to repeat her fourth year and her diploma
Polytechnic but was intending to work simultaneously on a
doctoral thesis for the university. Albert was planning to develop earlier reflections
toral thesis and,
on the thermoelectric Thomson
some
effect into a doc-
because he needed to conduct the experiments in
Professor Weber’s laboratory, remained enrolled as a student at the Polytechnic. But he probably realized that, given his not too brilliant
diploma grades, some further amiss.
He
therefore
first
of
scientific qualifications all
would not come
developed his ideas on
capillarity,
intended for early publication in a reputable scientific journal.
Interface tubes,
phenomena, which include the
believed he was
I
of water in fine glass
were thought by most physicists to be due to the interaction of
individual atoms and molecules, and
full
rise
on the verge of new
it
was
in this area that Einstein
discoveries.
During the vacation,
of enthusiasm, he had written to Mileva: “The results on capillarity
recently obtained in Zurich
seem
to be entirely
new
despite their
simplicity. ... If this yields a law of nature, we’ll send the results to
Wiedemann’s Annalen
”25 .
On December
13
his
received by the editors of the Annalen der Physik;
appeared on March
1
it
manuscript was
was accepted and
of the following year. 26 Einstein was
now
able to
enclose with his job applications reprints from the most renowned
Looking for
German
Job
75
physical journal, and to that extent the enterprise was a suc-
But he was
cess.
a
less
lucky with the natural law he was hoping to
discover, and even his hypothesis about the forces
which he rather
cules,
gravitation, 27
superficially
between two mole-
connected with Newton’s law of
soon proved to be untenable.
Meanwhile, however, he was entirely happy with and
tried to
develop
it
further. Six
months
Grossmann
Einstein wrote to Marcel
after his first publication,
that he
conceived a few marvelous ideas, which properly hatched. tion forces
I
now
between atoms can be extended
mined without major
difficulties.
now
only have to be
my
theory of attrac-
also to gases,
and that
elements will be deter-
all
Then
relationship of molecular forces and a
had
firmly believe that
the characteristic constants for nearly
his hypothesis
the question of the inner
Newtonian
forces will
move
big step closer to solution. 28
In the event that his expectations were
fulfilled,
he would “use every-
thing achieved so far about molecular attraction for the doctoral thesis.” 29
This suggests that there must have been problems with the
about the
thesis
concluded tives
Thomson
his reflections
effect
with
begun under Professor Weber.
a lyrical
hymn
to the glorious perspec-
of properly understood scientific research, entirely in the
Alexander von Humboldt, whose Kosmos he had read
Munich:
“It is a
as a
wonderful feeling to realize the unity of
phenomena which,
to
He
spirit
of
schoolboy in a
complex of
immediate sensory perception, appear to be
totally separate things.” 30
The field
effusiveness, however, did not yield
of molecular forces of attraction.
saline solutions,
Annalen pursue
,
not in the
applied his hypothesis to
second publication in the
this subject for his doctoral thesis at the
He
now
to be applied, after surfaces
University of Zurich.
and solutions,
also to
submitted his work to Professor Alfred Kleiner sometime in
November tion” 32
a
at least
but nothing of lasting value. 31 Einstein also intended to
His method was gases.
which indeed yielded
He
much,
1901, convinced “that he won’t dare reject
—but precisely that seems
to have happened.
my
With
dissertaa receipt
76
Childhood, Youth, Student Years
dated February
1,
1902, Albert Einstein confirmed
“received back, in cash, the doctoral fee of Frcs. 230
and
on Nov.
thirty) paid
No
33 23, 1901.”
that he
had
(Two hundred
doubt Kleiner took
a closer
look at Einstein’s ideas on the molecular forces than the editors of
Annalen and did not think them tenable. At
least
,
opportunity to withdraw his thesis before
it
he gave Einstein the
was formally turned down,
so that the “rejected” doctoral candidate could at least save his high financial stake.
This receipt
attempt to gain
a doctorate.
The two in the
deep
articles
pit
a
mere
the only extant trace of his second
published in Annalen would have vanished forever
of the history of science
Albert Einstein.
and
is
He himself had no illusions
five years later called
author had not been
if their
about their shortcomings,
them “my two worthless
firstling
works.” 34
Before
it
was even certain that the
Mileva wrote to
a
woman
friend
first
paper would appear in Annalen
how proud
she was of her “sweet-
heart” because of this “very significant” article. vately sent it,
it
we hope
master of
to
Boltzmann and would
he’ll
write us.” 35
statistical
As soon
have also pri-
know what he
Ludwig Boltzmann,
thinks of
the unchallenged
physics and the kinetic theory of gases, held the
chair ©f theoretical physics versity of Leipzig.
like to
“We
—one of the few then existing—
No record exists On March
9,
wrote off to other
1901, he inquired of the experi-
mental physicist Otto Wiener “whether perhaps you require an tant”; 36 in his letter
appeared
a
assis-
he referred to his “small treatise” which had
few days previously and which the Herr Professor was pre-
sumably expected to track down
He
that encouraged
inquired “if
me
to
“it
was your work
produce the enclosed
maybe you might have some use
mathematical physicist” and confessed that only that kind of post would enable
days
famous professor of physical
chemistry Wilhelm Ostwald, with the remark that
on general chemistry
Ten
for himself in the library.
later Einstein enclosed a reprint to the
treatise.”
Uni-
of any reply to Einstein.
as the article appeared, Einstein also
professors in Leipzig.
at the
me
“I
am
.
.
.
for a
impecunious and
to continue
my
studies.” 37
Looking
When
no
there was
reply, Einstein
spring break in Milan sure whether
—wrote
then enclosed
I
for a Job
—
77
few weeks
a
during his
later,
again, with the excuse that “I
my address.” 38 The
more
son’s
explicit,
knowledge he wrote
not
ploy did not work.
This camouflaged cry for help was followed ten days another, this time
am later
by
from Hermann Einstein. Without
his
to Ostwald, after appropriate introductory
courtesies:
My
&
each
his career has
been
son, lacking a post at present, feels deeply
day the thought gains strength in him that
&
derailed
he cannot find
over depressed
not very well
As
He
connection any longer.
thought that he
is
burden to
a
us,
is
more-
who
are
off.
my son
fessor,
at the
a
unhappy
probably reveres and esteems you, dear Herr Pro-
more than any other
physical scientist working today,
I
am
taking the liberty of turning to you with the respectful request that
you
Physik
&
were to find
now
in
Annalen der
perhaps send him a few lines of encouragement, so he
might regain
for
by him
will read the treatise published
his vitality
and working vigor.
possible to find for
it
or for next autumn,
him an
my
If,
moreover, you
assistant’s post, either
gratitude to
you would be
boundless. 39
This
letter
from
a
father
suffering
remained unanswered by Ostwald, and stein ever
knew of
along with his son likewise it is
unlikely that Albert Ein-
his father’s desperate act. It
speculate whether Ostwald
remembered those
would be amusing
letters
when,
to
as the first
of those entitled to propose names for the Nobel Prize, 40 he nominated Albert Einstein in 1909 for the 1910 prize and twice more repeated his proposal. 41
Depressed though Einstein not inactive.
On
may have been
at times,
he certainly was
April 12, 1901, he seems to have bought a stack of
postage-paid reply postcards and to have sent them to a dozen or so professors
whose names he happened
scattershot approach have been
to
know.
Two
samples of
preserved— one addressed
to
this
Heike
Childhood, Youth, Student Years
78
Kamerlingh Onnes, the founder of low-temperature physics,
in
Leyden, the Netherlands, and the other to Professor Carl Paalzow,
at
German
the Technische Hochschule in Berlin, the capital of the
Reich
—
country he was not
a
Kamerlingh Onnes he
fond
at least referred to
fellow student “that there
came
at all
is
your department,” 42 he
straight to the point with Professor Paalzow: “I take the liberty
your department, and,
common
is
It
assistant’s post it.” 43
Otherwise the two in
the fact that both reply cards, to be returned to “Herr
might perhaps be stated here,
Leyden, he
later
became
in
both
cities.
in his regular letters
from Milan, other
Thus Pro-
Gottingen had actually advertised two
tants’ posts in Physikalische Zeitschrift. Einstein applied
“given up on the position.
I
to us
assistant’s post in Berlin or
hopes, and indeed less outlandish ones, were also dashed.
Eduard Riecke
down
in anticipation of later events,
a professor in
As he reported to Mileva
have come
Italia,”
though Einstein did not then obtain an
fessor
vacant in
comma. Another thing they have
Albert Einstein, Via Bigli 21, Milano,
unused.
an
is
of applying for
if so,
postcards are identical to the last
in
in writing to
information received from a
a vacant post in
of inquiring from you whether there
that
Whereas
of.
can’t believe that
assis-
but had soon
Weber would
such
let
a
nice opportunity pass without meddling in things.” 44 Einstein had by
then become convinced that his former professor must be behind his lack of success;
Weber was bound
to put further obstacles in his
way by
references.
He
was, therefore, not surprised
have been here with
my
parents and
when Riecke turned him down, being “absolutely convinced that Weber is to blame.” 45 And to Marcel Grossmann he wrote: “For the past three giving
weeks
him poor
I
find a post as an assistant at
some
university.
am trying from here to And I would have long
Weber wasn’t double-crossing me.” But he was not discouraged: “God created the donkey and gave him a thick hide.” 46 Whatever opinion Weber may have had of his student, he probably found one
if
would not even have had an opportunity of “double-crossing” him.
Most of there
is
the professors simply shelved Einstein’s letters or postcards;
no evidence
that any of
inquiries in Zurich about this
reason for Riecke’s refusal
is
them even took the trouble
odd
applicant.
A much
more
that in his advertisement he
to
make
plausible
had
specifi-
Looking
for a
Job
cally stipulated a doctoral degree; Einstein’s
very impressive
first
79
mediocre diploma and not
publication were surely
no
substitute. Besides, the
time between the publication of the advertisement and Riecke’s rejection
was
too short for any intervention by Weber. 47 There simply
far
was no reason why any professor should have considered appointing
who was unknown
candidate
to
him and whose
qualifications,
a
on
paper, were indifferent.
His rejection by the academic world
Weber’s intrigues
—was very painful to Einstein.
of injury which, ten years
later,
when he was
and shortly to be appointed to technic, a
— due,
made him comment on
as
It is this
The
deep sense
professor in Prague
a full
Zurich Poly-
a professorship at the
Professor Weber’s death in
Zurich friend and colleague that “Weber’s death
for the Polytechnic.” 48
he believed, to
old
wounds were
still
good thing
a
is
a letter to
smarting when, in
1918, the Polytechnic tried to bring Einstein back from Berlin by
making him an exceptionally generous have been
1
8 years ago if I could have
Polytechnic! But
reputation
is
I
couldn’t bring
it
“How happy
offer:
become off!
a
humble
The world
would
I
assistant at the
is
a
madhouse,
everything!” 49
Expecting nothing but bad references from Weber, Einstein conceived the unusual idea of asking his former teachers in
Aarau for references with,
in order to apply for posts in Italy:
one of the main obstacles
as
it is
a
hindrance.
in
And
German-speaking counties in [the]
good connections here.” 50 This referred tant) that a friend of the Einstein family
fessor of chemistry in
“To begin
in getting a position doesn’t exist here,
namely anti-Semitism, which unpleasant
Munich and
Milan and
second place,
I
impor-
was acquainted with
among
physicist
from the North Sea
his Italian colleagues. “I will
a
pro-
an uncle of Michele
Besso, the mathematician Giuseppe Jung, had been asked to inquiries
make
soon have graced every
to the southern tip of Italy with
offer,” 51 Einstein boasted to Mileva, assuring
as
have very
to the fact (not very
that, in addition,
is
my
her that he would not
leave a single stone unturned.
Meanwhile direction.
a
On
glimmer of hope appeared from
a totally
the very day that his father had described
unexpected
him
to Pro-
Childhood, Youth, Student Years
80 fessor
Ostwald
“deeply unhappy,” Albert Einstein received a letter
as
from Marcel Grossmann, a
permanent position
“in
be overjoyed
if
what
a
me
that
I’ll
be getting
Patent Office in Bern .” 52
at the Swiss
on, to Mileva: “Just think I’d
which he informed
wonderful job
this
He went
would be
for
something came of it.”
Marcel Grossmann’s father was
a friend of Friedrich Haller, the
director of the “Federal Swiss Office for Intellectual Property”
Patent Office
—and had recommended
for the next vacancy in Bern.
do with an academic
his son’s
Grossmann
need hardly field
of
you
tell
activity,
it
was
still
effusively: “I
your loyalty and humanity which did not
granted such a fine
unemployed colleague
career, the date of the next vacancy
Einstein thanked Marcel
let
that
stein,
am
truly
you forget your old iuckI
would be happy
I
would do everything
and that
also
to be in
knew how
few months of the waiting period. Jakob Reb-
the Technical College in Winterthur, had to enlist for
two-month mandatory
Einstein
if
military service in
mid-May and had
he could stand in for him. “You can imagine
would ,” 54 Einstein wrote
One
touched by
formerly an assistant to Professor Herzog at the Polytechnic and
now teaching at his
first
was uncertain,
rather vague; but
my power not to disgrace your recommendation .” 53 He he would spend the
— the
Work at the Patent Office had nothing to
and the prospect of being appointed to
less friend. ... I
me!
how
asked
happily
I
to Mileva.
of the conditions of employment at the Office for Intellectual
Property was Swiss citizenship, but year of bureaucratic delays, had
become Swiss was due not only Actually, later, recalling the stein wrote:
this condition, after
now been
more than
met. Einstein’s wish to
to the inconvenience of being stateless.
good old days before World
War
Ein-
I,
“An ordinary person then would not even know what
passport was, because none was needed for traveling. Besides, stateless for five years
without any
cumstance .” 55 Nevertheless
it
a
difficulties arising
a
I
was
from that
cir-
had seemed useful to him,
after the
conclusion of his studies, to become a Swiss citizen in order not to exclude himself from state-controlled jobs, such as teaching posts.
An
equally important reason, according to his sister Maja, was the “agree-
Looking
ment between
for a Job
81
and Switzerland’s democratic
his political convictions
constitution.” 56
Swiss citizenship
an automatic consequence of cantonal or muni-
but these require the permission of the Federal
cipal “civic rights,”
Council in Bern.
is
On
October
19, 1899,
Albert Einstein therefore sub-
mitted to the “Illustrious Federal Council of the Swiss Confederation in
Bern”
his application for “permission to acquire Swiss cantonal
&
municipal civic rights.” Fie enclosed a good-conduct testimonial from the Zurich police and his certificate of release from Wiirttemberg zenship. Being his father; this
still
a
citi-
minor, he also needed the written agreement of
he supplied subsequently. 57
The Zurich
cantonal police
sent a “favorable” report to the Federal Attorney’s Office in Bern, and
on March
10, 1900, the
Federal Council approved Einstein’s applica-
At the end of June, therefore, during
tion.
his final
exams
at the
technic, he submitted his petition to the Zurich City Council.
Poly-
This
Council then involved various other departments and immediately charged Detective Hedinger to report on the applicant. Hedinger’s report stated that Einstein was “a very zealous, hard-working, and
exceedingly respectable person (teetotaler).” 58
when summoned on
Einstein confirmed his dislike of alcohol
December
14,
1900, before the Immigration Section of the City
Council, 59 which then
recommended
his application to the
Plenary
City Council. (Einstein remained a teetotaler in his later years.
when, with much hullabaloo, he arrived
December asked
at
Thus
San Diego, California, on
on board the Oakland and
a
newsreel reporter
him what he thought of Prohibition, Einstein
replied, cheerfully
laughing
30, 1930,
at the
Among cants,” 61
his
it is
,
camera: “I don’t drink, therefore
answers to
a
I
couldn’t care less.” 60)
“questionnaire for civic rights appli-
worth noting that he described himself
being of “no
as
religious
denomination” and, under the heading “occupation,” de-
clared: “I
am
manent
giving private lessons in mathematics until
post.” It
is
also interesting that
nowhere
I
find a per-
in these
documents
are there any questions about patriotic avowals or basic civics.
An
applicant’s wish
ments were
and the satisfaction of the
sufficient for the authorities.
knowledge of legal require-
Childhood, Youth, Student Years
82
The
records also disclose that the “directorate of the interior” of
the canton of Zurich gave instructions for Einstein’s financial situation
economic circumstances,
to be examined: “with regard to his as
we endeavored
from
own
his
this day,
it
it
was possible to establish that he has no income
work. Concerning the information received from Milan
emerges that he likewise has no resources from the side of
his parents.” 62 service,
he offered no indication of
to investigate the same,
any kind, except that
in so far
As the “Swiss Information Bureau,”
a kind of civil secret
was not allowed to operate outside Switzerland,
a private
detective was hired to investigate Einstein’s family. After a brief note
on the bankruptcy of the firm of Einstein
Garrone
e
in Pavia, the
detective concluded: “In Milan, Einstein senior seems to be
better
off,
but there
is
no
real estate
information, however, did not trary, it
had
property and Einstein junior could
on pecuniary support from
certainly not count
harm
his father.” 63
the applicant at
a beneficial effect: the authorities
cantonal civic rights to 200 francs
amount
—he
citizen instantly
On
birthday, the Zurich District
examination. vice
book64
Under
listed:
“
recruit
his
to the military
twenty-second
Command summoned him
for a medical
the heading “Diseases and Complaints” his serVarices Pes planus, Hyperidrosis ped,,” in plain lan-
guage varicose veins,
from
a Swiss citizen.
one day before
13,
February 21,
unemployed and
became an object of interest
and on March
authorities,
on the con-
had had to pay twice that
1901, with a badly depleted savings account, the
impecunious Albert Einstein became
all;
This
reduced his fee for the
for the civic rights of the city of Zurich.
The new
somewhat
,
flat feet,
training because
and sweating
feet.
He
was exempted
of his classification of “Unfit A,”
according to which he had to perform only “auxiliary services, local service,”
though
in fact
he was never called on to do even these.
his forty-second birthday
he regularly paid
—-though
of compensation for not serving later,
when he had become
his military taxes this did
a consistent pacifist,
against the Swiss militia system 65 and scientious objector in a letter, telling
to
—by way
not prevent him
from publicly arguing
from encouraging
him
Up
a Swiss
con-
that through his example
Looking
for a Job
83
“the machines of war [would be] destroyed or at least the unworthy
compulsory service abolished.” 66
Whatever other
citizenship Einstein
was to acquire
in later years,
whether through necessity or voluntarily, he always held
He
zenship dearest of all.
invariably traveled
American, he emphasized in
point of view, as
was
a brief
had always remained Swiss:
that he
I
on the red passport of the
when he was
Swiss Confederation, and even
“I
am still
The
Swiss from Switzerland’s
have never renounced that citizenship. In addition,
Academy from 1919
a Prussian.
America and an
in
account of his citizenship career
for a while an Austrian citizen (Prague),
Berlin
his Swiss citi-
to 1933
came
latter
I
and
as a
member
I
of the
even was (horrible thought)
to a dramatic end.
.
.
.
Now
I
am
also
an American. This country generously disregards the fact that one
may
be
also
ognize
a citizen
elsewhere, even though
it
does not
officially rec-
it.” 67
He
always had his
own
ideas about national labels. In 1919,
when
he explained his theory to the English in The Times (London), he startled taste
them with an
“application of the theory of relativity to the
of readers,” while at the same time poking fun at misunderstood
popularizations and national claims to his person:
Today
in
England
I
Germany
am
a
Swiss
am
,
German man of science, and in Swiss Jew. If I come to be regarded
called a
represented as a
as a bete noire
come
I
the descriptions will be reversed, and
Jew
Germans and
for the
a
German man
I
shall be-
of science
for the English. 68
This he wrote the
as a
man who had
suddenly become world-famous; for
moment, however, he was no more than
to reconcile himself to the
thought that
remain barred to him and for citizenship
was simply the
whom
a
modest Swiss who had
a university career
would
the principal advantage of Swiss
fact that at least
one formal obstacle
to a
post in the Swiss public service had been removed. Einstein’s job as a
locum
at
would keep him above water
Winterthur Technical College, which
for
two months, was
a challenge for a
Childhood, Youth, Student Years
84
young beginner
He had
in the profession.
to teach thirty hours a week;
moreover, he was teaching descriptive geometry,
a subject
he had
fre-
quently cut at the “Poly”; but, as he repeatedly assured Mileva, quoting a line
from the poet Uhland, “the
valiant
Swabian
is
not afraid .” 69
Before starting the job he had met Mileva for a few days together at
Lake Como. They
sailed across the lake to
Cadenabbia, admired the
lush gardens of the Villa Carlotta, and crossed the Italian-Swiss fron-
by the
tier
snow-covered Spliigen pass in
still
was merrily snowing
sleigh. “It
horse-drawn
a small
the time,” Mileva shortly afterward
all
we drove one moment through long galleries and the next on the open road, where, all the way to the remotest distance, our eyes could see nothing but snow and more snow, so that at a friend 70 “as
wrote to
times
shuddered
I
my
round
us. ... I
more
,
at this cold
sweetheart under the coats and blankets which covered
was so happy to have
so as
must have
I
saw that he was
him
told
patient! You’ll see that
are beginning a
There
is
but
prised Mileva, just read a
am of
for
it
fret, darling. I
aren’t so
this,
bad to
the
Mileva
May
he
his “dear kitten”
of
by the end of
won’t leave you and
happy conclusion. You
my arms
just
rest in,
have to be
even
if
things
awkwardly.” also of happiness, indeed at the very
refers to physics.
who by
then had
That would
known her
beginning
scarcely have sur-
Albert for a few years: “I
wonderful paper by Lenard on the generation of cathode
ultraviolet light.
filled
it
little
mention
a
letter,
by
happy.” Soon after
was pregnant,
that she
will bring everything to a
rays
just as
“Be happy and don’t
a better future.
of the
my lover for myself again for a while,
“How’s the boy ?” 71 Of course he assured
inquired:
my arm
white infinity and firmly kept
Under
the influence of this beautiful piece
with such happiness and joy that
I
absolutely
I
must share some
with you .” 72 His happiness and pleasure were to bear
fruit:
four
years later his theoretical interpretation of the “photoelectric effect”
would become the foundation of quantum theory, and two decades later
it
would earn him the Nobel
Einstein found teaching, and
he had expected.
life,
Prize.
in
Winterthur more agreeable than
He met Hans Wohlwend
Aarau cantonal school
—and rented
a
again
—
a friend
room from Wohlwend’s
from the landlady
Looking at
for a Job
85
Schaffhauser Strasse 38, at the edge of town.
and
friend
his
it.” 73
enjoyed
—
as
he informed Mileva
Sundays he took the
— “an
He made
music with
older lady.
I
really
train to Zurich, twelve miles away,
was in turn cheerful and sad with Mileva, and supplied himself with scientific literature.
him
pleasing
Teaching,
he wrote to Papa Winteler, was
as
“quite extraordinarily.
enjoy teaching as
much
never suspected that
I
as in fact I did.” 74 In
I
would
order to accumulate some
savings he also gave private lessons.
Of vital importance
for Albert Einstein
and
his future plans
was the
surprising and pleasant discovery that the practice of a regular occupation did not exhaust
morning,
I
am still
library in the
him
at
all:
“Having taught
quite fresh and
work on
5
or 6 hours in the
my further education at the
afternoon, or on interesting problems at home.” 75
mean
Failure to find a university post clearly did not
the end of his
love of physics: “I have entirely abandoned the ambition of getting into a university
now
that
strength and inclination
left for scientific
As the Patent Office was,
at best,
feld,
in
Canton Bern, and next
Canton Thurgau
as
it is, I
have enough
endeavor.” 76
long-term prospect, Einstein
a
applied for a couple of teaching posts,
Burgdorf
even
realize that,
I
first at
at the
the Technical College in
cantonal school in Frauen-
—both times without
success.
The
fact that
he
applied for the Burgdorf job twice in short succession and that he sent his application to the
wrong
in the advertisement
might suggest to some psychopathologists that
deep down he was not
The
that keen
all
on becoming
warmly congratulated on
I
do not have
to
tell
was firmly convinced that
I
whom
his success: “[it] will provide for
pleasant activity and a secure future.
only so
a schoolteacher. 77
Frauenfeld post went to his friend Marcel Grossmann,
Einstein a
authority instead of to the address stated
I
myself that
you
too applied for that post, but
I
was too timid to apply. For
had no prospect of getting
this
I
or any simi-
lar post.” 78
Einstein’s self-assurance had not suffered setbacks, and he
Winterthur.
He
was
as
busy
as ever
from the many
pursuing his
reported to Mileva about
a
long
refusals
scientific
letter
and
work
in
he had written
Childhood, Youth, Student Years
86
Drude, “with two objections to
to Paul
his electron theory. He’ll
hardly be able to offer a reasonable refutation, as
my
very straightforward. I’m terribly curious to see
he
what
effect.
if
objections are replies,
mentioned of course that I’m without
I
Drude, however,
who was
and to
a position.” 79
the director of the Physical Institute of the
University of Giessen and also the editor of Annalen der Physik had no ,
post to offer and, besides, was by no means convinced by Einstein’s objections
—which
wretchedness of sary.” 80
eerie
And
Einstein
its
saw
comment by me
author that no further
Papa Winteler he wrote that
to
“I
tance of a sorry example of that species
of Germany.
truth.” 81
.
I
.
will shortly give that
As both Einstein’s
lost,
dubiousness about the
—one of the leading
man
a kick
letter to
up
But
physicists
the greatest
enemy of
Drude and Drude’s
reply have
is
no longer be
Drude’s electronic theory of metals was also
as
cized by other physicists and was not tenable in the long run
which cannot have escaped so eager
—
it is
with
his backside
the factual background of the controversy can
elucidated.
was
neces-
German professors, have again made the acquain-
hefty publication. Befuddled authority
been
his
is
neighbor in the north, and especially about
had by no means been exaggerated.
a
“manifest proof of the
such
as
—
criti-
a fact
reader of the journals as Einstein
a
not impossible that Einstein did in
fact
touch on
a
few sore
spots in Drude’s theory.
Having
more
finished his temporary teacher’s job
15, Einstein
once
joined his mother and sister in Mettmenstetten while Mileva was
cramming
for her
failed again. 82
Novi
on July
exam
in Zurich.
On July 26
it
Deeply depressed, she traveled
Sad. Einstein returned to Winterthur,
room, worked on
his doctoral thesis,
was clear that she had to see her parents in
where he had retained
and kept
his eyes
skinned for
his
new
sources of income. In the Schweizerische Lehrerzeitung (Swiss Teachers' Gazette) he
saw an advertisement for
young Englishman
a “private tutor,” to
for the Swiss “school-leaving”
exam
coach
a
at the private
school of a Dr. Niiesch in Schaffhausen. In order to “be rid of the worries
about where the next meal
offer.
is
coming from,” 83 he accepted the
“You can imagine how happy
I
am
about
it,” a
more modest
Looking
for a Job
87
Albert Einstein wrote to Marcel Grossmann, “even
if
exactly ideal for an independent character.” In
mid-September he
moved from Winterthur
therefore
such
a post
is
not
on the Rhine.
to Schaffhausen
Einstein initially stayed at the house of his employer, Dr. Jakob Niiesch, who, in addition to being a teacher in a secondary school, ran a
“Teaching and Education
on reasonably well with
his
Institute.” Einstein
young English
seems to have gotten
who
student, Louis Cahen,
intended to study architecture at the Polytechnic and therefore needed the Swiss “school-leaving” examination. Neither of zeal. 84
have shown excessive
house of
his
employer,
But he did not
who under
bed and board, in addition to
a
feel at all
mother had
When
to pay 4,000 francs for
on
to live
his
after another,
own
Niiesch’s expense.
live
impudence!
free
and the meals
one year of instruction
huge
for her son,
profit, Einstein
pro-
with the result that he was allowed,
first,
—
all at
a
Mileva he wrote that “the Niiesches are in
vicious rage against me, but
Long
setting
and, next, to take his meals in a restaurant
To
in the
he discovered that Cahen’s
and that Niiesch therefore was pocketing
voked one row
It is
now
I’m just
my guardian
as free as
any other man.
on the position
since the
in Bern, as
.
a .
.
angel in this world.” 85
His only other hope was the Patent Office, but more than
months had elapsed
to
salary of 150 francs. Einstein
would gladly have done without the domestic with the large Niiesch family.
happy
was to provide
their contract
monthly
them seems
six
Grossmanns’ intervention. “Eve given up
no notice has appeared
in the
newspaper
he wrote to Mileva toward the end of November. She in turn,
yet,” 86
writing to a friend, bewailed “the misfortune of Albert not finding a post.
.
.
.
You know
that
my sweetheart
has a sharp tongue and more-
over he’s a Jew.” 87
Albert Einstein
now
once he received
it,
placed his hopes in the effect which his doctorate,
would have on
his search for a post:
“As soon
as I
my doctorate I’ll apply for a secure position. Someday fate will on us.” 88 When he had submitted his thesis to Professor Kleiner
receive
smile
on November 23 and paid that not
his
examination
fee,
he boasted to Mileva
one of his former colleagues, who had landed
assistants’ posts,
Childhood, Youth, Student Years
88
had yet completed first,
hounded
despite being
dure, too, brought
“See, your Johnnie finished his paper
a thesis:
in the process.” 89
But the degree proce-
him nothing but annoyance.
Professor Kleiner, in Einstein’s eyes, was a useless “shortsighted person.” “If
I
had to be
fessor, I’d rather
beck and
at his
remain
a
call in
order to become a pro-
Much
poor private tutor.” 90
to Einstein’s
chagrin Kleiner was in no hurry to read his thesis, and he aroused Einstein’s fury
by refusing
him during
for
to keep the university library
the Christmas vacation,
over from Winterthur:
instinctively
Even
dignity,” 91 he ranted. this
who
view every intelligent youth
especially
when he intended
to
aren’t of their kind. as a
come
the things these old
“It’s really terrible, all
philistines put in the path of people
open
danger to their
They fragile
years later Friedrich Adler mentioned
six
episode as an illustration that Einstein was treated “rather con-
temptuously by the professors
at the Polytechnic”;
of the library, etc.” 92 Einstein,
he was “locked out
who presumably had
included a few
cheekily formulated objections to Drude’s theory of electron conduction in metals,
would
was curious to see how not only Kleiner but
react: “a fine
bunch,
all
also
Drude
of them. If Diogenes were alive today,
he’d be looking in vain for an honest person with his lantern.” 93
It
predictable that this emotionally overcharged degree procedure
would
end
in disaster,
francs
and Einstein was lucky to recover
when he withdrew
at least his fee
was
of 230
his doctoral thesis. 94
Mileva spent these months with her parents. After some outrage
demanded by bourgeois propriety they selves to Mileva’s
would as
pregnancy and,
establish himself in a
soon
as possible.
eventually reconciled them-
like her,
were hoping that Einstein
sound occupation and
as
head of
a family
But that was the very thing Einstein’s parents,
especially his mother,
were dreading. Although they were unaware of
Mileva’s condition, they feared that Albert would not give her up and therefore resorted to drastic measures.
Mileva complained to reviling
me
in a
felt
— “about writing
a friend
manner
“They
that
was
no compunctions”
a letter to
a disgrace.” 95
Toward
my parents, the end of
October, Mileva went to Switzerland. But in order not to compromise the
young
private tutor
by her then “funny shape,” she stayed
at a safe
Looking
from Schaffhausen,
distance
for a Job
else.
.
.
.
“When we
so much, quite frightfully like that too.” 96
When
Soon everything was
river.
are together
And, do you know, in
we
especially
when
I
must love him
see that he loves
me
Mileva returned to Novi Sad again, Einstein
showered her with good advice and seemed to look forward birth of their child without misgivings: “Just take
and keep your
just as
anyone
are merrier than
spite of everything bad, I
much,
am
the Hotel Steinerhof in Stein
at
Rhein, some twelve miles along the in the old days:
89
spirits up,
to the
good care of yourself
and be happy about our dear
Lieserl,
whom I
secretly (so Dollie doesn’t notice) prefer to imagine as a Hanserl.” 97
At
there was cause for optimism.
last
On December
11
Einstein
received news from Marcel Grossmann: “a very sweet letter in which
he said that the position in Bern
weeks and that he’s certain find our lives brilliantly
would be pier for
,
get
be advertised within the next few In two months’ time
it.
changed for the
better,
we
could
and the struggles
when I think about it. I’m even hapGrossmann after all had not promised
over. I’m dizzy with joy
you than
too much. Gazette
I’ll
will
for myself.” 98
The same day
almost as
if it
an advertisement appeared in the Federal
had been tailored for Einstein.
“thorough university education of cally physical direction.” 99
a
The head
It
demanded
mechanical-technical or specifi-
of the Patent Office, Friedrich
Haller, had added the (not normally customary) “physical direction.”
Until then there had been no physicists in the Patent Office. 100 In polite bureaucratic
German, Einstein on December 18 com-
posed his application for the “Engineer
II
Class vacancy in the Swiss
Federal Office for Intellectual Property,” 101 casually mentioning his thesis
“on an aspect of the kinetic theory of gases.” 102
The
following
day he went to see Professor Kleiner in Zurich. Kleiner had not yet read Einstein’s work, but they talked about
all
kinds of physical prob-
lems, and Einstein concluded that the professor was “not quite as
stupid as I’d thought, and moreover, he’s a
count on him for
a
good
fellow.
vacation he stayed in Schaffhausen,
beckon
said
I
recommendation anytime.” 103 Small wonder
Einstein was “absolutely crazy with happiness.” 104
nities that
He
full
can that
Over the Christmas
of expectation of the “opportu-
to us in the near future.” 105
Only on Christmas Day
Childhood, Youth, Student Years
90
and the next day did he allow himself
who had come
with his
a special treat:
sister,
over from Aarau, he spent these two days at the Hotel-
Pension Paradies in Mettmenstetten, known to the family from past vacations.
Nothing
is
known about
the events of January 1902 which led to
from Schaffhausen.
Einstein’s premature departure
We
know
neither
the doctoral thesis nor Professor Kleiner’s reservations which induced
Einstein to withdraw
it.
Bern would have made January.
But
any case the prospect of the post in
in
easy for
it
him
to pack his bags at the
By way of Zurich, where he recovered went
the university chancellery, he probably tainly, as
he wrote to
his doctoral fee
from
straight to Bern. Cer-
he had “cast off with
a friend,
end of
a
bang” 106 from
Schaffhausen and Dr. Niiesch’s institute.
Meanwhile, he had become a letter
a father
from Novi Sad, forwarded
had hoped, was
a Lieserl. It
to
—but
him
was not
Einstein
may have
physical thought.
—but without
for a
damentally important,” as well
little
the end of the year
baggage in the con-
well stocked with creative
young man was as the
baby, as Mileva
Lieserl.
mind by then was
Unusual
The
middle of the year that
Toward
arrived in Bern with very
ventional sense, but his
he learned only from
in Bern.
until the
Einstein could at last start on his job.
Mileva came to Switzerland
this
his focus
on the “fun-
broad spectrum of his
interests.
Alongside the “great” themes of thermodynamics and the kinetic theory of gases, and Maxwell’s theory of the electromagnetic
concerned himself with
capillarity, thermoelectricity,
field,
he
and the elec-
tronic theory of conductivity in metals.
Although
his studies
proceeded on the margin of topical physical
research and largely in an autodidactic manner, he seemed to aim,
almost with
He was
a sleepwalker’s assurance, straight at the central
a regular
problems.
and thorough reader of Annalen der Physik, though he
could not afford to subscribe to the journal himself. In his letters to
Mileva Marie he would regularly comment on cially interested
on the
articles
which had espe-
him. These included not only Wilhelm Wien’s article
ether, Drude’s
work on metal
periments on the photoelectric
conductivity, and Lenard’s ex-
effect,
but above
all
Max
Planck’s
Looking
for a
work, published toward the end of
mula which contained
his
1
Job
91
900, about his
new
radiation for-
quantum, subsequently to be known
as
“Planck’s constant.” Einstein
commented on
as early as April in a letter to
Mileva, 107 and he realized, “shortly after
this article quite critically
Planck’s pioneering work, that neither mechanics nor electrodynamics
can (except in limiting cases) claim exact validity.” 108
As
way out of
a
the dilemma in which physics found itself at the
young Einstein had
turn of the century,
in
mind
a
fundamental theory
along the lines of thermodynamics: “the discovery of a general formal
might lead us
principle
to reliable results.” 109
Such
a
theory was pre-
sented by Einstein a few years later in the form of the special theory of
but his letters from his “apprenticeship period” are already
relativity,
pervaded by already
this
come
theme.
It is
to him- while
possible that the crucial insight had
he was
at
school in Aarau and that since
1898, with a physicist’s tools, he had further pursued the idea. so
happy and proud”
“when we
—he wrote
was “busily
at
Unfortunately
at that time,
it is
he was an Expert
III
his earlier letters
to a
bodies,
which
of work.” 111
come down
or indeed what
treatise”
motion
impossible to conclude from such remarks, in
still
to
to us,
what direction
his thinking
wrong turnings he must have
needed
— and that would come
would succeed
relative
the end of 1901, in Schaffhausen, he
a capital piece
those letters that have
ration
work on
work on an electrodynamics of moving
promises to be quite
His “splendid
Toward
be
Mileva in the spring of 1901
are together and can bring our
successful conclusion!” 110
took
to
“I’ll
a lot
taken.
of work and one flash of inspi-
him only
in the spring of 1905,
when
Class at the Patent Office in Bern. Nevertheless,
already reveal an unshakable conviction that he
in solving the riddle,
down. There probably never was
a
no matter what job he was holding
young man about
to enter a
modest
post with, at the same time, such high-flying plans as Albert Einstein,
when he thing
is
arrived in
Bern
in
February 1902. And the most astonishing
that his hopes in fact
came
true.
PART
II
CHAPTER Expert
SIX
Class
III
Albert Einstein’s move to Bern had escape by an angry
would have
to live
was known
at that
his application
young man
hand
it
the characteristics of an
was rash and not
mouth, subsisting on hope, because
had been received and that the
all
that
it
director, Friedrich
sympathetically as soon as any
were authorized. But he was glad not to have to be Schaffhausen any longer. “It does
me
a
new
posts
a private tutor in
world of good to have escaped
from those unpleasant surroundings.” Besides, 1
ries,
He
free of risk.
point about the post at the Patent Office was that
would consider
Haller,
to
—
all
if
he did have any wor-
he was not going to show them.
“It’s
wonderful here in Bern,” 2 he wrote to Mileva immediately
after his arrival at the
oughly pleasant
beginning of February 1902. “An ancient, thor-
city, in
which one can
live exactly as in
Einstein liked best about this architectural
gem
of a
Zurich.”
What
more than
city,
the
massive ramparts or the impressive baroque towers, were the arcades
along both sides of the old keitsgasse 32 at the lower city,
quite close to the
streets.
He
end of the
found
fine line
Nydegg Bridge and
a
room on Gerechtig-
of streets crossing the
the bear
pit,
where Bern’s
heraldic animals are kept.
There was
still
the problem of a livelihood. Since the matter at the
Patent Office was making no visible progress, Einstein, as
a
holder of
the Swiss specialist teacher diploma, offered his “exceedingly thor-
ough”
services as a private tutor in
local advertising
paper
—with
mathematics and physics
“free trial lessons.” 3
95
He
in the
received a few
The Patent Office
96
including one from an engineer and one from an architect, and
replies,
already saw himself as the professor of a small private college, with
enough earnings
One
of his
to cover the waiting period for the Patent Office.
first
students was Louis Chavan, a French-speaking
Swiss technician in the Swiss Postal and Telegraph Service, and before
long one of Einstein’s most loyal friends in Bern. In his meticulously kept notebooks Chavan not only recorded Einstein’s lessons but also left
us a thumbnail sketch of his youthful teacher: “His short skull
seems unusually broad. His complexion his large
sensuous mouth
is
a
a thin black
matt
brown. Above
light
The nose
moustache.
His striking brown eyes radiate deeply and
slightly aquiline.
voice
is
is
attractive, like the vibrant
note of a
cello.
softly.
is
His
Einstein speaks cor-
rect French, with a slight foreign accent .” 4
Immediately on
his arrival in Bern, Einstein
had received
a letter
from
Mileva’s father, addressed to Schaffhausen but forwarded to him,
which,
when he
read
quite prepared, as an
it,
“frightened [him] out of his wits .” 5
unemployed man
He
was
in his early twenties, to be
accused, in terms of bourgeois morality, of having become, scan-
dalously prematurely, a father, and without the blessing of a rabbi or at
What he was
least a registry office clerk.
not prepared for was to learn
about the serious complications of the birth. Mileva was actually so exhausted that she could not write to him herself. Einstein’s concern
about Mileva’s health, however, was tempered by his concern for and joy over the baby: “Is she healthy and does she cry properly?” he inquired.
“What
resemble? ...
I
are her eyes like?
love her so
a researcher’s curiosity
Now you “I
would
like to
interesting!”
pretation,
much and
don’t even
he continued:
can make observations.”
sion of men’s inferiority
Which one
And
“Is she
of us does she
more
know her yet .” 6 With
looking at things yet?
he made
a frank
admis-
compared with women’s reproductive
ability:
make such
a Lieserl
This wish, almost too
finally
myself one day,
explicit
on
a
it
must be most
psychoanalytic inter-
was to be echoed on many occasions, when Einstein
described his mental efforts as “hatching” and sometimes as “laying eggs.”
Despite Einstein’s protestations
—
“I
long for you every day” and
Expert “I’d rather be in
Bern” 7
97
with you in some provincial backwater than without you
—there was no mention
The
riage.
Class
III
in his letters
much
reason probably was not so
of an imminent mar-
the fact that without a
post at the Patent Office he would not be able to support a family but rather the vigorous opposition of his parents. Pauline Einstein reacted to
what
was anything but
to her
a
happy
event, and to Albert’s sugges-
engagement, by declaring,
tion of at least an official
“We
against Albert’s relationship with Fraulein Marie, and
wish to have anything to do with her. causing
me
the bitterest hours of my
.
.
.
life; if it
anything to banish her from our sight,
I
are resolutely
we
don’t ever
That Fraulein Marie were in
have
my power,
is
do
I’d
a veritable antipathy
any influence on Albert.”
toward her.” 8 She complained of “having
lost
Given
angry resolution not to give
his scorn for “Philistines”
damn about
and
his
the world, this sounds entirely credible. Yet basically he
was an obedient son, reluctant to rebel against determination
engagement,
a
—with the
let
his
mother’s fierce
result that for the time being there
was no
alone a wedding. Mileva, therefore, having to bear the
precarious consequences of premarital
motherhood on her own, stayed
with her parents in Novi Sad, while Einstein was trying to survive in
Bern
until a decision
Max Talmud,
his
came through about the Patent mentor from
Office.
his school days in
Munich, had the
impression that Einstein was only just about managing to survive.
Traveling through northern Italy in April 1902,
were now
that the Einsteins
living in
Milan and
found them depressed, and, in response to son,
was told only that he was now
Talmud remembered them.
visited
his inquiries
living in Bern.
He
about their
Unaware of
the
cause of this estrangement, he went to Switzerland specifically to see his
former pupil,
poverty.”
The
whom
he found in conditions “testifying to great
lodging on Gerechtigkeitsgasse, which Einstein had
described to Mileva as though a “small,
it
were
a
small palace, struck
Talmud
as
poorly furnished room.” 9 In conversation Einstein blamed his
sorry situation
on obstacles
—no
assistant’s post
“laid in his
But Einstein had
and
his failure to get a doctorate
way by people who were a
Although he had arrived
jealous of him.”
knack for making the best of adversity. in
Bern
totally
unknown and with no
contacts
either socially or in university circles, he did not remain alone long.
The Patent Office
98
Paul Winteler, one of the sons of Einstein’s “parents” in Aarau, had
begun
just
stein
to study law there.
knew Conrad Habicht,
He
mathematics.
now
also
And from his time in Schaffhausen Einwho was working on a doctoral thesis in
met Hans Frosch
from Aarau,
studying medicine. Einstein explained some of his physical prob-
lems to Habicht, the mathematician,
my
again, a classmate
good
He
ideas .” 10
who was
“very enthusiastic about
accompanied Frosch to
pathology with “demonstrations ad oculos.”
a
He was
class
on forensic
“so fascinated” by
the drunkards, arsonists, and megalomaniacs presented to the students “that
from now on I’m going
In his
own
to
go every Saturday .” 11
special subject of physics,
cover anything of comparable interest.
however, Einstein did not
Aime
dis-
Forster, the head of the
department, lived in the astronomical observatory, converted into laboratory,
the huge
on the Grosse Schanze, the old
city ramparts,
not
far
a
from
where the new main building of the university was then
site
under construction. Forster had gained some renown, but
as a local
meteorologist rather than a physicist, and his lectures did not go
beyond an elementary theory
12 .
The
seriously and
level;
self-assured
had to find
he made only derogatory remarks about
young Einstein could not
take Forster quite
intellectual contacts elsewhere.
In response to Einstein’s advertisement in the Berner Anzeiger a
young
Jew from Romania, Maurice Solovine, turned up one day. Solovine had come to the University of Bern with a thirst for knowledge but no clear idea of
what
to study.
He
had enrolled
for
both philosophy and
physics but had found Professor Forster’s lectures theoretically and philosophically shallow. So he turned to the private tutor
on Gerech-
tigkeitsgasse. In old age, Solovine recalled climbing the stairs to Einstein’s
room, hearing
his forceful
“Come
in,”
and being impressed by
the brilliant clarity of Einstein’s eyes.
After a few hours of regular, paid teaching, Einstein found
it
more
interesting to discuss with Solovine the general philosophical foundations of physics, for
he
felt like
Habicht
it.
which purpose Solovine was
to visit
him whenever
At the beginning of the summer semester, Conrad
also joined these conversations,
and the three decided to
set
Expert
up
kind of club,
a
a
III
Class
99
discussion circle with a firm agenda and an
absurdly grandiloquent name, Akademie Olympia.
meet regularly
a
honey, and
fruit,
little
enough
Solovine’s recollections, was
for
three would
meal of sausage, some
in the evening for a frugal
Gruyere cheese,
The
tea.
That, according to
them
to “brim over with
merriment .” 13 Regardless of the fun and games, the cheerful “Academy” was
based on a serious, systematic reading program. Solovine has noted the
books the three members studied and discussed with
was probably the driving
program Ernst Mach’s
force, putting
—antimetaphysical works which he knew from
Under
Wissenschaft
the (
on
Analysis of Perception and Mechanics and
Development days.
list,
emphasis on theoretical works touching on the founda-
a clear
tions of physics. Einstein
the
— an impressive
his student
same heading came Karl Pearson’s Die Gramm, atik der
Grammar of Science ) and Richard Avenari us’s two-volume
Kritik der reinen Erfahrung
( Critique
of Pure Experience ), though only
one chapter of this work was discussed. Several weeks were devoted
La
Science et Phypothese
(
Science
Stuart Mill’s reflections his Logic
,
still
Hume
work was of considerable
effect
Now
remembered
good German
(in quite a
on
by Einstein, and
fine literature
was read
— Sophocles’ Antigone
Don
These works were probably more
Quixote.
,
causality.
chiefly conedition).
His
man, Einstein once confessed that did not concern myself
novels .” 15
He
explained
empathy rather than too
this,
however,
little:
aspect was easily lost
much
“It
is
a little
in a kind of “gen-
Racine’s tragedies, and in line with Solovine
and Habicht’s interests than Einstein’s. In reply to
artistic
in the third
and again the “Academy” meetings were enriched by
program
I
John
my development— along with Poin-
eral studies”
later)
“we
that
as
Mach .” 14
violin recital
literary
such
and David Hume’s subtle critique of
cerned ourselves with D.
care and
as well,
on the problem of induction
Five decades later Einstein
to
and Hypothesis) by the great Frenchman
Henri Poincare. But older works were studied
volume of
Its
“as a
a
question from
young man (and
a
also
with poetical literature or as resulting
from too much
partly due to the fact that the
on me because the
fate
of the characters
as
The Patent Office
100 such gripped
me
too strongly.”
mann had “enormously Himmelfahrt aloud
neles
from pain .” 16 His
Thus some
inflamed” him, and “I
had to cry
when
made
“What
I
loved
little
Han-
bliss,
half
him
to
more were books of At any
were served by Baruch Spinoza’s
continued to read frequently, long after the
from
necessary for
it
ideological character, and especially philosophy .” 17 stein’s preferences
read
a friend
like a child, half
sensibility evidently
shape his preferences differently:
by Gerhart Haupt-
plays
Ein-
rate,
Ethics
,
which he
“Academy” had been
scattered to the winds.
Although he had to abandon
his
hope of an
assistant’s post at a univer-
sity,
Einstein had not given up his scientific interests or even the idea
of a
scientific career.
today, was for his
One prerequisite, at the turn of the century as name to become known through publications. Ein-
stein therefore used his electrolysis,
begun
ample
leisure time to
make
his reflections
on
in Schaffhausen or possibly even in Zurich, ready
for publication.
His second
essay, like his
first,
dealt with the conclusions deriving
from the hypothetical assumption of molecular forces and, more parwith the experimental verification of these conclusions.
ticularly,
Toward nalen
,
the end of April the manuscript was sent to the editor of An-
and ten weeks
under
a long,
later,
involved
without any problems,
title 18 .
More
it
was published
significant than his
turgid and ultimately unproductive physical reflections
is
somewhat Einstein’s
concluding apology for “only setting out a meager plan for
manding
a
de-
investigation without contributing anything to an experi-
mental solution.” Because he was in no position to perform the necessary experiments himself, he believed, rather grandly for an
unknown plished
twenty-three-year-old, that his paper would have accom-
its
objective “if
it
induces some researcher to attack the
problem of the molecular forces from
Nothing of the self
sort happened,
would describe
works .” 20 But
paper
his pattern of
leagues to pursue
with every
this
it
as
this angle.
and
” 19
five years later
one of
his
the author him-
“two worthless
throwing out an idea and inducing
was to recur frequently, and within
justification.
a
firstling
his col-
few years
Expert
Because
it
did not yield
had
lecular forces
much
Class
III
in
101
terms of science, the study of mo-
lost its attraction for Einstein.
There were plenty of
problems to be pondered, but for the next two years only one ripened into publications early as
foundations of thermodynamics. As
June 1902, Einstein was able to send off
paper
a
The
titled
Heat Equilibrium and of the Second Law of Thermody-
Kinetic Theory of the
namics.
—the
field
This was the
described in context
first
of a series of three publications which will be
later.
At
this
point
should merely be said that
it
with them Einstein not only established himself
as
an original
researcher but also developed the foundation of his later magnificent contributions to statistical physics. as the
completion of his
after a
first
To him,
however,
thermodynamics
just as
was the
treatise
long and nerve-racking waiting period, he
important
at last
fact that,
got into the
Patent Office.
Spring was well advanced again to
when
two vacancies
fill
the Swiss bureaucracy
moved
into gear
Sometime toward the
in the Patent Office.
end of May, Friedrich Haller invited the candidate Einstein, recom-
mended tion.” 21
to
him by Grossmann
pere
for a
,
“thorough oral examina-
This time Einstein’s hopes were not disappointed:
a
proposal
soon went to the Swiss Federal Council that the mechanical engineer Heinrich Schenk and Albert Einstein be “provisionally elected Technical Experts III Class at the Federal Office for Intellectual Property, at
an annual salary of 3,500 francs each.” 22
Two weeks later came
their
appointment by the Federal Council, and on June 23, 1902, Einstein reported for work.
The “annoying
business of starving” 23 had
an end. Marcel Grossmann had again proved to be
come
a “lifesaver,”
to
and
Einstein would remain eternally grateful to him. But for that opportunity,
he observed,
“I
might not have
died, but
I
would have been
intel-
lectually stunted.” 24
Henceforth, every morning office.”
The
at eight o’clock, Einstein
went
to “the
Patent Office was then on the upper floor of the new,
somewhat pompous building of the tion
on Genfergasse, near the
were
clearly favorable: “I very
soon reported to
a friend,
Postal and Telegraph Administra-
railroad station.
much
“because
like
it is
His
my work
first
impressions
at the office,”
enormously varied and
he
calls for
The Patent Office
102
much
thought.
What I
even better
like
is
my handsome pay .” 25 He
got
on well with the director and the dozen or so colleagues ranked
as
“experts,” but he complained about the workload: “I have a frightful lot
of work. Eight hours
lesson,
and then
I
have
each day and at least one private
at the office
my
work .” 26 Once he had
scientific
though, he found his forty-eight hours per week
settled in,
at the office tolerable.
When his friend Habicht was not entirely satisfied with the school service, in
which he had landed
after
completing
his studies, Einstein sug-
gested that one day he would smuggle Habicht in slaves”
and
commend
tried to
the
work
to
among
the “patent
him by observing
that
“along with the eight hours of work there are also eight hours of fun in the day, and then there
is
Sunday .” 27
also
Even though the Patent Office had been he never
felt that
a
good “patent
haps, the Patent Office even
was
more
the job was merely a matter of survival. For
than seven years he was
refuge:
Einstein’s second choice,
“Working on the
seemed
in retrospect to have
been an
ideal
formulation of technological patents
final
a veritable blessing for
slave, ’’and for that reason, per-
me.
enforced many-sided thinking and
It
important stimuli to physical thought .” 28 In old age he
also provided
even considered himself lucky to have escaped the academic treadmill
by having
young person under tities
Academia, he believed, “places
a practical occupation. a
kind of compulsion to produce impressive quan-
of scientific publications
only strong characters can practical occupations are
—
temptation to superficiality, which
a
resist .” 29
moreover of
He
further argued that “most
a character
which allows
son of normal
gifts to
existence he
not dependent on special illuminations.
is
achieve whatever
scientific interests, let
is
him engross himself
work .” 30 Einstein was
the Patent Office he
managed
When
which
also
he had attained
to
looked back nostalgically, in
If
he has deeper
in his favorite
most
to be of outstanding importance.
and become
a
famous professor, he
a letter to his friend
beautiful ideas and
together .” 31
problems
lucky; in the seclusion of
and sometime col-
league Michele Besso, to “that temporal monastery, where
my
civil
produce “impressive quantities” of
happened
his goal
a per-
expected of him. In his
alongside his regular
publications,
a
where we spent such
I
hatched
a pleasant
time
Expert
Albert Einstein
As
a
may have found
III
Class
103
himself quite
at
home among
patents.
boy he had watched Uncle Jakob, the busy development engineer
of the family firm, applying for
must
ratory he
also
In Professor Weber’s labo-
six patents.
have come into contact with recently patented
inventions. Nevertheless, the duties of an Expert III Class at the Swiss
Patent Office were something a novice had to be instructed
This
in.
was done personally by way of individual meetings with the boss. By almost schoollike instruction of
his strict,
fessor
new
staff
members, Pro-
Haider ensured that the patent examiners would
all
judge sub-
mitted inventions according to objective, verifiable, uniform criteria that could, if necessary, stand
up
in a court of law. Einstein, moreover,
with only slight experience in reading and interpreting
as a physicist
technical drawings, -lagged behind his colleagues with engineering
from the
training; this called for private instruction
director. Einstein
seems to have accepted Haller’s severe regime without demur: he regarded him
as “a splendid character
gets used to his
The
reason
rough manner.
why
and
a clever
mind.
One soon
hold him in very high esteem .” 32
I
the job called for
“much thought” was
that a
patent officer’s central role was as a bookkeeper of technical progress
on
a scientific basis.
As
a rule,
an inventor
—
in Einstein’s days rarely
—would formulate
represented by a patent attorney
in addition to verifying the formal criteria,
officer,
whether the submitted invention was
in fact
patent protection, whether
on
case of
had
more
to be
It
it
infringed
basis of
and the
had to decide
new and
deserving of
existing patents, and, in the
elaborate machinery, whether
done on the
it
actually worked. All that
drawings and specifications.
turned out that for young Albert Einstein, examining patents was
more than
just a livelihood. In fact,
it
characteristic approach to his favorite osity with “mental experiments” lectual
in short, in line
agreed quite strikingly with his
problems in physics. His
was not
all
that far
removed from
penetration of an invention, and his typical
ing in images involved visual
as
his claims;
more than conceptual
had almost providentially landed
with his
own way
in a job
way of
virtuintel-
think-
operations. Einstein,
which was so much
of thinking that he might have experienced
an agreeable exercise in technological and scientific imagination.
it
The Patent Office
104
Even
the procedures favored Einstein’s inclination toward criticism
and contradiction. authority,
course, Te could not oppose Professor Haller’s
Of
but he could
and contradict the applicants
criticize
moreover, on his boss’s instructions. tion, think that
anything the inventor says
“you
his experts; otherwise,
and that
“When you is
pick up an applica-
wrong,” 33 Haller advised
will follow the inventor’s
will prejudice you.
You have
to
remain
way of thinking,
critically vigilant.”
This procedure of “brushing an argument against the grain” and, possible, refuting
by
it
a
counterexample, greatly sharpened one’s
thinking and was entirely to Einstein’s It
would be interesting
opinions, but
Under
we have
the rules,
all
if
taste.
to prove this point with Einstein’s expert
too few traces of his activity at the Patent Office. papers were destroyed after eighteen years of
patent protection. Even in the 1920s,
when
it
was realized that no
other employee of the Bern Patent Office, or any patent office any-
where, would ever
nor
his successor
rise to Einstein’s heights,
neither Friedrich Haller
wished to make an exception from that rule for the
benefit of future biographers.
Thus
the last papers processed by Albert
Einstein probably went into the shredder in 1927. expert opinions has
come down
court record and there survived. official
to us, because It
it
was compiled
Only one of
found
way
into a
when
in the
its
in 1907,
his
judgment Einstein was “one of the most highly esteemed
experts at the Office.” 34 It rejected a patent claim
pany of Berlin
for
by the
an alternating-current collector
as
AEG Com“incorrect,
imprecise, and not clearly drafted.” “As for the various shortcomings
of the design,
we can
deal with those only
patent has been clarified by
when
the subject of the
a correctly drafted claim.” 35
That was
sovereign, curt judgment, entirely in the spirit of Einstein’s chief,
was anxious to teach inventors, especially big This
critical
comment
firms,
for the post
who
the boss.
suggests that Einstein was concerned mainly
with processing electrical-engineering patents.
ment
who was
a
The
original advertise-
had specified “thorough university education of
a
mechanical-technical or specifically physical direction.” As physics had
not previously figured in these advertisements, Einstein believed that “Haller put this in for
my
sake.” 36
young Einstein than about
But
Haller,
this
probably says more about
who, having headed the Patent
Expert
III
Class
Office since 1887 with great propriety,
such
a
105
would hardly have indulged
in
maneuver ad personam.
Actually, Haller’s reason for enlarging his staff of predominantly
mechanical engineers by adding
a physicist
was the rapid development
of the electrical industry and a resultant flood of patent applications in that field.
The
first
decade of the nineteenth century was characterized
by the development of advanced alternating-current and polyphasecurrent machines, by telephone technology, and especially by wireless transmission of information bv means of electrical oscillations.
Werner Siemens and Thomas Alva
this later
a
than the pioneering achievements of the self-taught
far greater extent
geniuses
To
Edison, the inventions of
period were based on a theoretical understanding of electro-
magnetic phenomena
—which was why Einstein,
as a physicist familiar
with Maxwell’s theory, found a rich and interesting
field
of activity at
the Patent Office. Also, he enjoyed
long after he
left
working with patents, and he continued to do so
Bern. In later years he often served as an expert or
consultant on patents, and he kept up the connection with his “temporal monastery” by having a few of his
When
Switzerland.
own
inventions patented in
anyone expressed surprise that such
scholar should stoop to technology, he would say: “I to
.
.
.
a
famous
never ceased
concern myself with technical matters. This was of benefit also to
my scientific stein there
research.” 37 His
was “a
first
biographer even noted that for Ein-
definite connection
between the knowledge he
acquired at the Patent Office and the theoretical results which, at that
same time, emerged
The “handsome
as
examples of the acuteness of his thinking.” 38
pay” of 3,500 francs
a
year was about double what
Einstein could have expected from an assistant’s post
grand but sufficient for theless, there
was too
was
great,
still
and
modest bourgeois family
no question of marriage. His
so, despite all his protestations,
dependence on them. possible circumstance
Hermann
a
He
finally received their
—when
his father
existence.
life as
Never-
parents’ opposition
was
his
emotional
consent in the saddest
was dying.
Einstein’s health had been prematurely
the ceaseless worries of his
—by no means
undermined by
an entrepreneur. Although his two
The Patent Office
106
power
plants in northern Italy did not, for once,
go bankrupt, they did
not yield enough profit to repay his loans, chiefly from
“The
relatives.
poor things have been constantly aggravated and worried about the
damned money,” 39
is
how
his
them
uncle Rudolf (“The Rich”) has been nagging
Hermann
of 1902, just after
birthday, his heart proved
Milan
just in
“My
son described the situation.
dear
terribly.” In the fall
Einstein had celebrated his fifty-fifth
no longer up
to the stress. His son arrived in
time to see his father on his deathbed. At that painful
hour of parting, Einstein received
his parents’
Hermann Einstein died on October 10, Milan. “When the end came, Hermann asked riage.
room, so he could die on
his
consent to his mar-
1902, and was buried in all
own. His son never
of them to leave the recalls that
moment
without a sense of guilt.” 40
Less than three months after his father’s death, about the turn of
1902-1903, Einstein
summoned Mileva
modest room on Gerechtigkeitsgasse
to Bern.
in
He
had given up
his
August and had moved to
Kirchenfeld, an area newly developed after the construction of a
bridge over the Aare. In a pretty house of typical Bernese style on Tillierstrasse 18
cony and
home
he had rented
a splendid
a small attic
apartment with
a big bal-
view of the Bernese Alps. This became the
first
of Albert and Mileva Einstein.
On
January
6,
without
much
registry office in the old city.
No
from Einstein’s or from Mileva’s
wedding took place
at the
wedding guests had arrived
either
ado, the
family.
The
witnesses were the other
two members of the Akademie Olympia, Conrad Habicht and Maurice Solovine.
Then
the small party
evening they celebrated
When
went
to a photographer,
and
in the
a little.
the newlyweds arrived at Tillierstrasse, Einstein had to
rouse the landlord: he had forgotten the key to his apartment. 41 That tells
us something.
Einstein, in fact, drawing riage that eventually ried primarily
from
ended
a “sense
embarked on something that he
up the balance sheet of an unhappy mar-
in divorce,
would
recall that
he had mar-
of duty.” “I had, with an inner resistance,
that simply exceeded
my strength.” 42 The
had wrested consent to that marriage from
his father
fact
under
Expert
III
tragic circumstances
must have been
admitted to himself.
And
marry outside the cipation, have
hung
as a
trauma than he
a greater
and eman-
reproach between them.
if silent
when he was
at first
of his family to
first
also, despite their assimilation
grave
years later, in Princeton,
107
the fact that he was the
must
faith
Class
Many
asked by Jewish students in
a
discussion whether marriage outside the tradition was permissible, his
answer reflected
“That
his personal experience:
then, any marriage
is
while Einstein was
—but
Mileva shortly before the
his
—the
mar-
fate
of
child’s birth,
waiting for his job in Bern, the only question
still
“how
yet to be resolved was
keep our Lieserl with
to
us; I
wouldn’t
to have to give her up.” 44 Despite these initial intentions, the girl
at first
remained with Mileva’s parents
None first
which
stress to
must have been subject from the outset
their daughter. In a letter to
want
dangerous
dangerous.” 43
However, he never mentioned the greatest riage with Mileva
is
Novi
Sad.
of these problems or any other problem
accounts of his
new
She looks
is
reflected in his
marital status. “So I’m a married
he reported to Besso, “and lead
my wife.
in
man now,” 45
very pleasant comfortable
a
after everything splendidly,
is
a
life
with
good cook, and
is
always cheerful.”
Einstein also had every reason to be satisfied with his scientific work.
Immediately before assuming off his heat, 46
first
and two weeks
after his
dent”: 48 the explanation of
wedding
second
He
treatise,
developing
thus took up again a sub-
a
very great impression on the stu-
many
superficially disparate properties of
matter, especially of gases, solely
on the
countless minute particles
as the derivation
a
was ready. 47
which had already “made
ment of
Patent Office he had sent
study on the molecular-kinetic explanation of the theory of
this subject in greater depth,
ject
his post at the
basis of the
mechanical move-
— the atoms or molecules—
of the laws of thermodynamics through the
as well
statistical
treatment of mechanical systems. In Professor Weber’s lectures at the Polytechnic
been made of the
Boltzmann
latest
no mention had
advances by James Clerk Maxwell or Ludwig
in this field. Einstein
had acquainted himself with the
theory through private study. By September 1902 he believed he had
The Patent Office
108
achieved something suitable for Annalen
:
have lately concerned
“I
myself thoroughly with Boltzmann’s work on the kinetic theory of gases
&
supplying the
He
my
over the past few days have written a small piece of final
brick to a chain of proof started by
did not publish
it
wanted to use the idea withdrawing
his thesis
own,
him .” 49
immediately, though, presumably because he in his doctoral thesis.
he produced
But
five
months
after
a treatise “deriving the laws
on
heat balance and the second law of thermodynamics solely by the use
of mechanics and probability calculus .” 50 Einstein began by declaring that while “Maxwell’s and Boltzmann’s theories had already
would
“fill
a
gap”
come
close to that objective,” his observations
—without,
however, revealing to the
somewhat bewildered reader what hand, the gaps in Einstein’s
more
are
own
exactly that gap was.
(to this day)
On
the other
acquaintance with Boltzmann’s work
obvious: although he had studied Boltzmann’s two-volume
Vorlesungen zur Gastheorie (Lectures on the Theory of Gases), he
knew
nothing of the subtle investigations which Boltzmann had published in the Accounts of the Imperial Academy of Sciences in Vienna, to which
Boltzmann primarily owed theoretical physics in eries in his tedly,
his reputation as the
Germany .” 51 Thus
“unchallenged head of
Einstein
made some
paper that he might have found in the
Boltzmann’s acute reflections were
far
literature.
from being the
discov-
Admit-
common
property of physicists at the time, or even of those interested in theory;
but even so the novelty value of the paper must have been greater for its
author than for the few experts in the
field.
Nevertheless, Einstein had reason to be proud of his interpretation
of some central concepts of thermodynamics, such as temperature and entropy, and in deducing these he formulated essential aspects of statistical
mechanics which were to remain valid
that discipline.
Most noteworthy, however,
as far as possible
is
as the
his
foundations of
endeavor to manage
without specific assumptions about mechanics and to
base his arguments on general laws alone.
Now and
again the reader
crudely reminded that only very slight use has been chanics eral
52 ;
this justifies the
assumption “that our results
than the mechanical presentation
commonly
used.”
is
made of meare more gen-
Summing
up,
Expert
III
Class
109
Einstein claims that “no assumptions had to be
made
.
.
.
about the
nature of the forces, nor even that such forces occur in nature .” 53
were obvious:
Einstein’s next steps
one thing, to further reduce
for
the assumptions about mechanics; for another, to include the difficult
problem of irreversibility, considering that
Somehow
himself to states of equilibrium.
in the past
he had confined
mechanics had to
statistical
resolve the inherent contradiction that the basic equations for the
atoms are reversible in time, but not the macroscopic processes which, though ultimately reduced to these mechanics, do have a direction in time.
Thus milk
is
stirred into coffee a million times each day,
resulting in light coffee, but that process,
i.e.,
no amount of
stirring will ever reverse
separate out the few drops of white milk and restore
the black coffee.
This next paper was completed only “after
a lot
amending,” which kept Einstein busy, in addition to during his
first
few weeks of married
and simple, so that
“On
I
am
life.
“But
quite satisfied with
now
it ,” 54
of rewriting and his official duties,
it is
perfectly clear
he wrote with
relief.
the assumption of the energy principle and atomic theory, the
concepts of temperature and entropy, as well as
thermodynamics
in
its
.
most general form follow
.
the second law of
.
logically.” If certain
assumptions on the structure of mechanics were to be found correct,
he saw “the generalization achieved by of the concept of force
” 55
as
my last paper in the
being entirely in the
spirit
elimination
of Heinrich
Hertz’s theoretical program.
This paper too contained in
a
few things the author might have read
Boltzmann, especially on the subject of
point there was even in his footnotes to
a false
the
is
The
and on
this
fact that Einstein referred
Boltzmann’s Vorlesungen demonstrates his isolation
from the mainstream of ever, the paper
conclusion.
irreversibility,
scientific discussion; at the
a brilliant
same time, how-
testimony to his creative treatment of even
most complex problems. Both papers would have deserved to become milestones of
tical
mechanics. That
ignored
—was
this did
due to the
not happen
fact that
— that
statis-
they were largely
an epoch-making study by the
American Josiah Willard Gibbs, Elementary
Principles in
Statistical
The Patent Office
110
Mechanics, which included the topics also treated by Einstein, had been
published in 1902.
Max
“The resemblance
is
Born’s comment. Discussion in the
mined by Gibbs’s comprehensive beginning of his career, was
nomenon,
field
treatise.
a victim
Thus
Einstein, at the very
of that by no means rare phe-
German
its
not come across
He
translation.
“masterpiece, though tough reading, and most of lines,” 57
adding that “many have read
was
was henceforward deter-
parallel discovery. Einstein actually did
Gibbs’s book until 1905, in
startling” 56
downright
it,
verified
it,
later called
it
it
a
between the
and not understood
it.” 5 *
One
person
who had
read and understood Gibbs was Paul Hertz, a
privatdozent at Heidelberg and a distant relative of the great Heinrich
Hertz. Referring to Gibbs in 1910 lication
—Paul
Hertz
upon
less
demands
like Einstein, that
probable ones, one
ducing a special assumption which certainly
after Einstein’s
criticized his derivation of the
thermodynamics: “If one assumes, distributions follow
—eight years
special proof.” 59
is
pub-
second law of
more probable thereby intro-
by no means evident and which
is
Such proof,
as
Hertz
realized,
was
of course not possible. Clearly, in 1902 young Einstein was unaware of the pitfalls besetting any proof of the second law of thermodynamics;
nor did he know Boltzmann’s
analysis,
probable distributions follow on
less
according to which more
probable ones not inevitably but
merely with overwhelming probability. Therefore,
it is
not certain but
only overwhelmingly probable that entropy increases. After Paul
Hertz had
visited Einstein
—by then
Professor Einstein
—
in
Zurich
and their conversation had produced complete agreement, Einstein unhesitatingly announced in Annalen that he regarded “this criticism as entirely correct.” 60 Besides,
book
earlier,
he added, had he known of Gibbs’s
he would “not have published those papers
at
all,
but
confined myself to the treatment of some few points.” 61 At the time of publication, however, he viewed the papers in a different light: they
were to ensure
Among
his entree, albeit
by
a side door, to
an academic career.
his colleagues at the Patent Office Einstein discovered
with similar
scientific interests
— Dr. Josef Sauter,
a French-Swiss,
one
who
Expert
had
III
Class
and
also studied at the Polytechnic
Weber’s chief
who had been
assistant for a while. Since Sauter
than Einstein, they had not met before. Sauter, fill
Professor
was eight years older like Einstein, tried to
the gaps in the Polytechnic’s syllabus by private study, so that Ein-
stein
was able
him Maxwell’s thermodynamics and
to discuss with
Helmholtz’s and Hertz’s theoretical concepts.
To
the astonishment of
his older colleague, Einstein frequently declared: “I
The two
also discussed Einstein’s publications
with the result that Sauter discovered stein accepted “without
Einstein recalled “that
my
1 1
1
a heretic .” 62
on thermodynamics,
mistake in them, which Ein-
being in the least upset .” 63 Fifty years later
had
I
a
am
a lot
of discussions with Sauter about
thermal-statistical papers ,” 64 but
.
.
.
he had forgotten “what aspects
were then being discussed.”
At
least as
important
as his
help with the “rewriting and amending”
were Sauter’s connections with soon introduced
his
new
scientific circles in Bern, to
which he
colleague. Thus, shortly after starting
work
at
the Patent Office, Einstein was incited, as Sauter’s guest, to the meetings of the Naturforschende Gesellschaft (Natural Science Society) in
Bern, an association of professors, high school teachers, and the
prominent figures
inevitable
absence of
modest
a Swiss
scale,
was there,
if
in
medicine and pharmacology. In the
Academy, the Bern Society played the
part, if
on
of the great scholarly institutions in other countries.
not
earlier, that
Einstein
made
a It
the acquaintance of a
friend of Sauter’s, Dr. Paul Gruner, a high school teacher and simulta-
neously
a
privatdozent in physics at the university.
Gruner was
a
may have seemed
man
to Einstein an ideal
hood and academic
more
with predominantly theoretical interests and
prestige than
career.
The
money,
as a
title
combination of practical
liveli-
privatdozent, of course, yielded
privatdozent received no salary from
the university but was entitled only to teach and collect the lecture fees
of his few students. But, after the doctorate,
represented the
first
rung on the academic ladder and was the customary prerequisite
to a
it
professorship after the ponderous Habilitation procedure sive original thesis plus a trial lecture. Einstein
— an impres-
now hoped
to
become
a
privatdozent like Gruner, even though Gruner had to spend nine years
The Patent Office
112
academic limbo before he was granted the humble position of
in that
titular professor
—
with the right to
really
call
no more than
privatdozent, unsalaried, but
a
himself professor
—
in 1903
the risks of an academic career based chiefly
Normally
on
and thus personified
theory. 65
doctorate was a prerequisite for Habilitation
a
,
but
someone, possibly Gruner, must have drawn Einstein’s attention to an exceptional regulation for Bern, 66 according to which doctorate and Habilitation thesis could be dispensed with in the case of “other out-
standing achievements”
— and these Einstein believed he had accomon thermodynamics.
plished by his two papers
have
now
“I
of course that
I
my doctorate,
as this doesn’t
begun
me.” 67
He as
we have no
,
can get away with help
away with
did not get
therefore wrote in
decided to become a Privatdozent provided
January 1903:
to bore
He
it.
I
it.
won’t, on the other hand, take
me much
and the whole comedy has
He must have
an early stage,
failed at
indications even of a properly initiated, though subse-
quently disallowed, procedure. It is
not hard to imagine that the professors
regard Einstein’s
demand
at the university
would
The
of youthful impertinence.
as a piece
exceptional regulation was intended for “other achievements” by considerable scholars, not for
two papers
in
Annalen by
a
greenhorn.
doubt any number of physicists whose published work
fell far
No
short
of Einstein’s papers had been appointed to professorships, but no
one
in the
department in Bern was able to recognize the importance
of Einstein’s work
Aime
— and
this
included the head of the department,
Forster. Einstein, refusing to
university here
of time.” 68
is
a pigsty. I
Thus ended
acknowledge
won’t lecture there,
Einstein’s
first
that, ranted:
“The
would be
waste
it
attempt to become
a
a “great
professor.”
Nevertheless, the episode was not entirely in vain. Einstein had
contact in Bern with circles interested in science. At
May
2,
1903, held as usual in the assembly
its
room of
made
meeting of
the Storchen
Hotel, “Hr. Alb. Einstein, mathematician at the Patent Office” was
accepted as a
member
of the Naturforschende Geselischaft. 69 That
evening Gruner gave the customary lecture: he spoke about atmo-
Expert
On December
spheric electricity.
was the speaker:
A
Waves.” cine
Class
III
1903, Einstein, for the
5,
time,
second lecture that same evening was on veterinary medi-
became
Einstein
Only once more, on March
the rostrum: to report
Suspended
interests in the society.
a fairly regular visitor to the meetings,
exactly a zealous speaker.
“On
in Liquids,” a subject
but not
23, 1907, did he
the Nature of Microscopic Particles
which he had discovered
physics in his annus mirabilis
tical
first
was “The Theory of Electromagnetic
his subject
— evidence of the broad spectrum of
mount
113
1905.
,
More
for statis-
often than in the
Storchen, Einstein would give informal lectures at Paul Gruner’s
home; apart from
Sauter,
Gruner was probably the only person
to rec-
ognize Einstein’s outstanding talent. In 1936, after
he had
when left
the Society observed
its
150th anniversary, and long
Bern, Einstein was elected an honorary member.
He
4T
was obviously touched:
“It was, in a sense, a
vanished youth,” 70 he wrote to scroll.
“The
memory.
its
message from
president, thanking
pleasant and stimulating evenings
my
him
for the
emerge again
had the charter framed straight away and hung
... I
long
in
it
my
up
in
my study — the only one among similar acknowledgments where I have done this — as a memento of my time in Bern and my friends there.” Sometime reached
in the
summer of
a decision to part for
before she was born,
1903, Einstein and his wife must have
good from
when Mileva
their daughter, Lieserl.
Even
visited Einstein in Schaffhausen
with her “funny shape,” 71 they must have discussed the option of
having the child adopted. There are to Einstein, in
which some kind of
for Mileva’s friend
husband and had
Helene
just
Savic,
become
a
a
few hints in
role
from Mileva
seems to have been intended
who was
mother
a letter
living in Belgrade with her
herself.
Although Mileva did
not then wish to say anything to her friend about her baby, she asked Einstein to write to her every
now and
then:
“We must
treat her
well” 72 was the explanation, “because she can help us with something
important.” In the circumstances, the “something important” can only
have concerned their child’s future.
Meantime had
initially
Lieserl had remained in
been delighted with
Novi Sad with Mileva. Einstein
his daughter,
but after their marriage
The Patent Office
114 Lieserl
was evidently not wanted
in Bern.
Judging by what we know,
her existence was carefully concealed from their friends in Bern.
The
reasons for this remain uncertain.
Einstein, after the disappointments of
It
might be supposed that
two years of job-hunting, did
not wish to jeopardize his position in the Patent Office. After
was only “provisionally elected”
—
in other words,
on
trial
— and
all,
he
a pre-
marital child might have offended the Swiss authorities’ sense of pro-
though naturalized, was
priety, especially as Einstein,
Jew. But
it is
equally possible that
on
his
deathbed
a foreign
still
Hermann
Einstein
had consented to Albert’s marriage, but not to the legitimation of child “born in shame.”
handed over
ally
Whatever the
to strangers. In
Novi Sad, most probably
Belgrade
—
how the
stein asked her
in order to
envisaged two years child
was eventu-
August 1903 Mileva went to her par-
ents in
a possibility
real reason, Lieserl
a
earlier.
take the child
to
On a postcard Ein-
was registered, voicing some concern
lest
disadvantages might accrue to her. 73 During her journey, meanwhile,
Mileva had discovered that she was pregnant again. Einstein did not
mind and recommended
careful “hatching.”
He
never saw his
first
child.
Evidence of the
beyond
The
that, the fate
two years of
Lieserl’s life
of Albert Einstein’s
first
daughter was never again mentioned in a
sive searches office
If it
first
no
entries have
few indications
— then
it is
totally
unknown.
and despite inten-
been found in parish
registers, registry
else.
was Einstein who regarded it
is
scant enough;
letter,
documents, or anywhere
best solution and enforced
child
is
this parting
with their daughter
—an assumption supported by
as the
at least a
not surprising that Mileva did not regain in days.
She spread around her an
aura of melancholia, mistaken for a Slavic
phenomenon, which con-
Bern the cheerfulness of her student
trasted dangerously with her husband’s jovial, extroverted nature. later described
ing
this,
with
a
her basic attitude then
common
as “depressive
He
or gloomy,” 74 attribut-
overestimation of genetic factors, to an
inherited schizophrenic disposition in the family of Mileva’s mother, as well as to Mileva’s limp.
These were probably
oversimplifications.
“Generally she was very cool and suspicious toward anybody who,
Expert in
some way or
came
other,
III
Class
115
close to me,” 75 he complained, but there
were some exceptions, such
as his friends
of the Akademie Olympia,
especially the “kind Solovine.” Solovine reports that Einstein’s
riage ally
had made no difference to
which were now usu-
their meetings,
held in the young couple’s apartment,
mar-
when
Mileva, “clever and
reserved, listened to us attentively without ever intervening in our discussions.” 76
As for Einstein’s conversations on physics with Paul
who came to Bern later, she all; at least we have no indica-
Gruner, Josef Sauter, or Michele Besso, apparently did not take part in those at tion that she did. Nothing, therefore,
work
seems to have come of the joint
when
so often referred to in earlier years,
Einstein would be
“proud and happy” when “we are together and can bring our work on to a successful conclusion.” 77
motion
relative
After the disappointment of two failed exams prising
Mileva had
if
domestic
on
his
own. Certainly there
November 1903
is
the
no indication of any
this fine
narrow
city,
moved from
It
was reached by
a steep
and consisted of two rooms, one of them with large
staircase
fine street.
was to be born.
He
manner: “We’ll have
In the
Kirchenfeld
renting a third-floor apartment at
house would lead one to expect.
May
the
This apartment was more modest than the exterior of
windows onto the
born on
close collaboration
more modest way. 78
Einsteins
neighborhood back into the 49.
a
her husband to pursue his scientific endeavors
role, leaving
Kramgasse
sur-
and withdrawn into
lost all interest in physics
or even that Mileva helped in a
In
would not be
it
This was where Einstein’s second child
announced the event a
14, 1904,
pup
in a
in his usual boisterous
few weeks.” 79
The
child, a boy,
was
and was named Hans Albert.
summer of 1904 Michele Besso
joined Einstein as a col-
league at the Patent Office. In Trieste, Besso had experienced difficulties
earning a living as a freelance engineer. Thus,
“Technical Expert
II
a
vacancy for
a
Class” was advertised toward the end of 1903,
Einstein drew his friend’s attention to
Needless to
when
say, the
Expert
III
it.
Class Albert Einstein had also
applied for this higher position, but the director judged that, while he
had “displayed some quite good achievements,”
it
would be wiser
“to
The Patent Office
116
become
wait with his promotion until he has
mechanical engineering, because by his qualifications he cist.” 80
Einstein
is
with
fully familiar
a physi-
is
unlikely to have blamed his boss for rejecting his
rather premature application, the less so as the post, which carried a
went
salary of 4,800 francs,
Michele out of a
to his friend
of thir-
field
teen applicants. Einstein himself, in line with regulations, was “made definitive”
on September
16, 1904, after
more than two
employ-
years’
ment. 81 His salary was increased to 3,900 francs, but his status continued to be Expert
III Class.
now had
In Besso Einstein
an ideal friend, both
To
also during their leisure hours.
our joint way
home
.
.
.
at
work and
often
Einstein their “conversations on
[were] of unforgettable charm.” 82
Although
Besso had studied mechanical engineering, his quick, acute intellect
was not
satisfied
with
that;
he was passionately interested in nearly
questions in the exact sciences, both philosophical issues and the
all
more
prosaic aspects of research.
During
his student days in
stimulation from Besso,
the emphasis
now
much
by eight
Bern
his senior
shifted. Einstein
active researcher with tant,
who was
Zurich Einstein had received
some
years, but in
was no longer
a
student but an
brilliant publications and,
more impor-
an acute awareness of the problems of contemporary physics.
former mentor was hardly able to offer stimulation, but he was
The
a valu-
able critic: not exactly a collaborator but an ideal sounding board. 83
Einstein’s only publication in 1904
end of March, before Besso’s because, for the
first
had been completed toward the
arrival.
It
should not be overlooked
time in the pages of Annalen
Einstein on a creative, original path, in a
is
a strange similarity
month. And you too
shows the young as
He mapped
between
shall receive a
us.
a
mathematical
prepa-
out his
Grossmann, who had written
about the joys of parenthood and sent him
“There
it
way that can be seen
ration for the strokes of genius soon to come. objective in a postcard to Marcel
,
to
him
treatise:
We too will have a child next
paper which
I
sent to
Wiedemann’s
week ago ( General Molecular Theory of Heat). You deal with geometry without the axiom on parallels, I with the atomistic theory of
Annalen
a
heat without the kinetic hypothesis.” 84
Expert
This paper,
a
III
mere eight pages,
is
Class
117
rather disparate. Since his prob-
lematical derivation of the second law of
thermodynamics of January
1903 had not satisfied him even then, 85 he
now begins by presenting
alternative,
which, however, does not stand up to criticism either.
then analyzes the constant later
named
stein first of
all
finds a
new
it
relation
He
Boltzmann, which occurs
after
in such a variety of connections in the kinetic theory that Einstein
have assumed that hidden behind
an
may
was the crux of that concept. Ein-
between
this
fundamental constant
and the equally important Avogadro number N, which for any sub-
number of molecules
stance gives the
becomes
a
one mole. The constant thus
kind of yardstick in the microcosm of molecules.
But Einstein had more to
meaning of these tion
in
phenomena
basic laws of
constants,
—
a surprising
new
in the analysis of fluctua-
thermodynamics on
thermodynamics naturally
molecules.
uncovers
which emerges
in a sense, a
sisting, like all objects in
number of
He
offer.
a small scale.
The
refer to “large” systems, con-
our everyday experience, of an enormous
Even though,
strictly speaking, these laws are
merely statements about mean values, they are nevertheless regarded as strictly valid
number of
may
still
because
all
irregularities are
molecules. However, in “small” systems, which of course
consist of
many thousands
or millions of molecules, the
movements
chaotic confusion of molecular that
evened out by the colossal
thermodynamic magnitudes should
values. Admittedly,
is
no longer evened
reveal deviations
no one had yet observed such
out, so
from mean
fluctuations,
and the
theoreticians, occasionally running ahead of experiment,
had discussed
concept only sporadically and controversially. In
this situation
this
Einstein briefly and tersely develops a simple theory of these fluctuations for the energy of a system stability
and derives
a
condition of the thermal
of a system, in which Boltzmann’s constant appears as a yard-
stick for the
magnitude of the
relation because “it
fluctuations. Einstein greatly liked this
no longer includes any quantity
that
is
reminiscent
of the assumptions underlying the theory.” 86
At the time,
it
seemed out of the question
to specific systems consisting of molecules.
to apply these reflections
Boltzmann and Gibbs, the
two giants of statistical theory, had discussed the observability of fluctuations and ruled
it
out,
and Einstein too, “at the present
state
of our
The Patent Office
118
knowledge,” sees no possibility of this. But he does not leave
He
at that.
it
assumes, of a totally different kind of physical system, “that energy
fluctuations attach to
it:
vacant space
this is
radiation.” 87 In a daring step, justified
with temperature
filled
by nothing except
a kind of
primal confidence in methods he had worked out by himself, he applies the formulas developed for material molecules to immaterial
own
electromagnetic radiation. Perhaps to his
surprise,
empirically verifiable relation between the energy
he obtains an
maximum
of the
which agrees with Wien’s
radiation and the temperature, a relation
displacement law. This, he concludes, “given the great generality of
The
our assumptions, cannot be attributed to coincidence.” 88 nature of the treatment of fluctuation treatise
phenomena
would be shown the very next
Brownian movement and
first
seminal
tested in this
year, in Einstein’s theory of
in his radiation theory.
Before the year 1904 was out, Einstein had become a collaborator of the Beibldtter zu den Annalen der Physik Physics),
(,
Supplements
to
the
Annals of
an early “journal about journals” founded in 1877. In
it
were
published not original papers, but reviews of papers in other journals
—especially
foreign-language journals
reviews of books. sixty- two
— and
in rare
cases
also
We do not know how Einstein came to be one of the
referees of Beibldtter
89 ,
but
we might not be wrong
assuming that the editor had noticed Einstein’s
in
five publications in
Annalen and had therefore invited him to referee papers on the “theory of heat.”
The
subjects
were
laid
down by
the editor, who, whenever
necessary, supplied the referees with offprints of articles to be refereed, or with review copies.
At the end of the year there was even
a
modest honorarium. All together, Einstein
which appeared
in 1905.
wrote twenty-three reviews, twenty-one of
Over the next two years he wrote only one
book review each year but one of these two was worthy review of
Max
Planck’s
Wdrmestrahlung (Lectures on stein
had sent to him
Vorlesungen
in 1906, his note-
iiber
die
Theorie
the Theory of Heat Radiation) in 1906.
articles
from the most varied
Philosophical Magazine of the British
journals,
der
Ein-
from the
Royal Society to the Schweizerische
Expert
III
Class
119
Bauzeitung ( Swiss Construction News). In addition to
he also refereed French and
tions,
He
both languages.
publica-
being familiar with
Italian papers,
also reviewed four articles written in English, a
language he had not learned; with them
German
it is
probable that someone helped him
—possibly Mileva, who knew
a little English, or a colleague
Patent Office.
at the
Depending on the
and on
fees paid for his reviews,
his
own
range
of interests, Einstein’s reviews differed a good deal. Sometimes he
would seem
apathetic, writing a
some awful mistake; 90
mere
at other times
five lines
he went into such
review might have replaced the original a
work’s usefulness outweighed
little
book
its
berating the author for
article.
He was
detail that his
generous when
shortcomings, as in the case of
called Die Grundziige der mechanischen
a
Wdrmelehre (Funda-
mentals of the Mechanical Theory of Heat), which despite “some inaccuracies”
he recommended to any polytechnician facing an exam with
incomplete lecture notes. 91
His work for the to acquaint himself
Beibldtter provided Einstein with
more thoroughly with
would otherwise have been Patent Office. Without the occasion of
it
an opportunity
the topical literature than
possible, given his official duties at the
he might easily have missed the
Ludwig Boltzmann’s
sixtieth birthday,
Festschrift
on
which included
117 contributions by prominent authors and thus offered an exceptionally broad
panorama of physics
at the
beginning of the twentieth
century. Einstein discussed three papers from this volume, and he
probably read the reputation
rest.
Needless to
say, his
—but by the time most of them
reviews also enhanced his
appeared in print he no
longer had any need of that.
If,
on
toward the end of 1904, Albert Einstein had decided to concentrate a career in the
work,
this
science.
league
Swiss public service and to abandon his scientific
would probably not have been considered
His contemporaries would scarcely have noticed that
who had his
a col-
published a few papers but otherwise was quite
unknown had stopped found
a serious loss to
writing. Professor
judgment confirmed that
this
Weber
in
Zurich might have
impertinent young
man would
The Patent Office
20
never achieve anything worthwhile.
And many decades
by himself, developed an equivalent Actually, Einstein’s publications
his-
But no one
physics.
up to
point were only the sur-
most
difficult
come together
ruminations would
mirabilis in
an explosion of creativity.
was probably
this
problems of
—perhaps not even Einstein himself—suspected
that these ,
all
to Gibbs’s statistical physics.
face of his ceaseless wrestling with the
letter
some
might have been surprised to discover that an outsider had,
torian
It
later,
in late
from Einstein
in
1905, his annus
in
May
of 1905 that Conrad Habicht received a
Bern
—undated,
as usual
—which may well be
the most remarkable letter in the history of science. After a boisterous
and jocular opening, Einstein promised to send Habicht four papers, the receive
first
of which
I
could send off soon, as
I
am
to
my free copies very shortly. It deals with radiation and the
energetic properties of light and see provided
you send
is
very revolutionary, as you will
me your paper
first.
The second paper
is
a
determination of the true size of atoms by way of the diffusion
and internal
The
stances.
friction of diluted liquid solutions of neutral sub-
third proves that,
on the assumption of the mo-
lecular theory of heat, particles of the order of magnitude of Viooo
millimeters suspended in liquids must already perform an observable disordered
movement, caused by thermal motion. Move-
ments of small inanimate suspended bodies have
been
in fact
observed by the physiologists and called by them “Brownian lecular
movement.” The fourth paper
is
at the draft stage
an electrodynamics of moving bodies, applying
a
mo-
and
is
modification of
the theory of space and time; the purely kinematic part of this
paper
is
certain to interest you. 92
These four papers would transform the brief span between
than three months. far
ahead of
Nobel
Prize.
its
The
March
physics.
They were completed
17 and June 30, 1905
—
a little
in
more
— “very revolutionary” —publication was
first
time but sixteen years later would earn Einstein the
The
Zurich University,
second, which soon earned is
him
a doctorate
from
one of the most frequently quoted works of the
Expert
III
Class
121
The third established him as the founder of modern statistical mechanics. The fourth contains in fundamental form what would soon century.
come
to be called the special theory of relativity.
Never before and never by so much
And tions
in
such
a short
since has a single person enriched science
time as Einstein did in
his creative vigor continued: over the next
came
thick and
fast.
The man
place twentieth-century physics spectives that
To
on
a
annus
two years
mirabilis.
his publica-
Patent Office in Bern would
new foundation and open up
per-
would influence research well into the next millennium.
enable the reader to understand this unique climax of scientific
creativity, its external conditions, 7
at the
this
through
1 1
What
inner connections, Chapters
as
between
reception and their consequences.
initial
own words may serve is
its
will present Einstein’s contributions to physics
1905 and 1907, with their Einstein’s
and
an introduction to
essential in the life of a
man
of
my
kind
this material:
lies in
what he
thinks and how he thinks, and not in what he does or suffers. 93
CHAPTER SEVEN “Herr Doktor Einstein”
and the Reality of Atoms
One
more original contributions
of the
to the observances in
1979 of the hundredth anniversary of Albert Einstein’s birth was of papers in
all
areas of the exact sciences,
between 1961 and 1975, still
had
a
1
in other
words papers which,
list,
lowed by
his
was
A New
Of
the eleven
Einstein had written four (the other
seven had seven different authors). list
after half a cen-
major influence on ongoing research.
“classics” at the top of the
ping the
from physics through chem-
published before 1912 and most frequently cited
istry to physiology,
tury,
a list
Of the
four works by Einstein, top-
Determination of Molecular Dimensions
2 ,
fol-
paper on the Brownian movement. 3 Both deal with the
reality of molecules.
Counting
citations or footnote references,
sarily the best
way
to
measure
epoch-making papers of 1905, on were not included influence
modern ally
on
in this
list,
is
not neces-
work’s scientific value. Einstein’s
light
quanta and on relativity theory,
and that was because they had too much
scientific progress.
physics and have
a
however,
become
They
are the prerequisites of
all
so integrated into physics that virtu-
no one quotes them any longer. In
fact,
hardly any physicists today
have read the original papers: everyone has learned about them in classes or
from textbooks.
To return to Einstein’s top-ranking papers on the list,
these have of
course affected an unusually wide range of investigations. Both of
them
deal with the
in liquids
movement of large molecules
and were therefore quoted, for instance,
or colloidal particles in ecological studies
of the dispersal of aerosols in the atmosphere and in dairy research
122
— "Herr Doktor Einstein" and the Reality of Atoms
123
papers dealing with the behavior of casein particles in milk during
cheesemaking. 4
interesting to note that
It is
it
was
this
counting of
footnotes that led to the posthumous discovery of Einstein’s doctoral thesis,
which had been dismissed by
mandatory academic
exercise,
his biographers as
an insignificant
not to be compared to the three famous
papers of 1905. 5 Physicists and historians of science had also ignored it6
when
writing about his annus mirabilis
appear in that famous in 1906. It
Volume
—possibly because
it
did not
17 of Annalen but was published later,
had been completed on April
however, in close
30, 1905,
connection with his work on the Brownian movement.
who had given up the idea of a doctorate “as this doesn’t help me much and the whole comedy has begun to bore me,” decided after all to get his Ph.D. The reasons for his In the
summer of
1905, Einstein,
7
change of mind are obvious:
at the
him, and for an academic career it
Bern or
in
in Zurich,
it
he asked
Patent Office
was
it
a prerequisite.
could well help
Should he try for
his colleague Dr. Sauter,
experienced in such matters. Sauter’s reply was: “Zurich
be
it’ll
It
who was
— and
for
you
a cinch.” 8
would have been the custom
for Einstein to agree
on the subject
of his thesis with the head of the department. Instead, though
according to his
sister
Maja
—Einstein
completed Electrodynamics of Moving of
relativity,
which “seemed
a little
first
submitted his recently
Bodies, in
other words the theory
uncanny
to the decision-making
—having, Proproblem” — simply picked
professors” 9 and was rejected. Einstein thereupon fessor Kleiner records, “chosen his
from
his
“work
in progress”
own
as
10
whatever he thought would
least upset the
department: nothing too revolutionary or too speculative, but solid assumptions, conventional mathematics, and (since pure theory was in
still
bad odor in Zurich
as
something rather
exotic) an investigation
based on experiment. These criteria were best met by his investigation of the
movement of large molecules
On July
aqueous solution.
20 Einstein addressed his degree application to the dean
and, together with his treatise, sent
drawing to
in
a close,
the paper, with
everything
comment, was
it
to Zurich.
moved very circulating
As the semester was
quickly: within four days
among
the faculty. Kleiner
The Patent Office
124
emphasized that “the arguments and calculations are among the most difficult in
who
hydrodynamics and could be approached only by someone
possesses understanding and talent for the treatment of mathe-
matical and physical problems, and
has provided evidence that he fully
with
scientific
is
it
seems to
me
that
Herr Einstein
capable of occupying himself success-
problems .” 11 Because of the tricky mathematics,
Kleiner had brought in the head of the mathematics department, Pro-
who had thereupon “examined
fessor Heinrich Burkhardt,
the most
important part of the calculations, especially the passages marked by
my
colleague Herr Kleiner.
every respect, and the
What
I
have examined
manner of the treatment
mastery of the mathematical methods concerned
matics professor had missed one mistake quences, but not until four years
recommended accepting
later.
I
found correct in
testifies to
” 12
In
—which
fact,
a thorough
the mathe-
had some conse-
Like Kleiner, Burkhardt
the thesis, though he criticized
it
for a lack of
fastidiousness in detail: “Stylistic infelicities and slips of the
pen
in the
formulas will have to be, and can be, eliminated for publication in print.” Einstein
That
was now
did not cost
happy
days,
it
much,
free to take his as
it
emended paper
to the printer.
was only seventeen pages long. As
in less
was dedicated to “my friend Dr. Marcel Grossmann.”
After handing in the prescribed copy to the university, Einstein
now
was Herr Doktor Einstein.
The dissertation belonged to a his own later characterization
range of subjects where
—according to
—Einstein was concerned
chiefly with
“discovering facts which would establish with certainty the existence of
atoms of definite
finite
magnitude .” 13
It
may seem
strange to us that at
the beginning of the twentieth century the existence of atoms was in contention.
Even stranger
dispute, especially
is
still
the passion which characterized the
among German
scientists.
Radioactivity and the
electron had already been discovered; moreover, ever since the
first
decades of the nineteenth century chemists had been regarding the transformation of substances as combinations of atoms into molecules or as reactions between molecules. In the second half of the nineteenth
century this view became universally accepted, and chemists
were not plagued by metaphysical questioning
—were
in
—who
no way both-
"Herr Doktor Einstein” and the Reality of Atoms
125
ered by the fact that they had never actually seen an atom and that,
considering what was being discovered about the dimensions of atoms
and molecules, they were not
The
situation
likely ever to see one.
was entirely different
Although the suc-
in physics.
cess of the atomistic hypothesis in the kinetic theory of gases
bodies was perhaps even
more
impressive,
some
and
solid
influential scholars,
mainly those priding themselves on methodological strictness and philosophical acumen, regarded the
deed harmful, invention
atom
as a superfluous, if
not in-
—partly because they had not yet seen one and
partly because they refused to accept the fictions of chemists as an
acceptable basis of physics.
Ostwald headed
a
Thus
the great physical chemist
school of thought which hoped to base
Wilhelm
all scientific
research on the concept of energy; and another, shorter-lived school believed that electromagnetism was the basis of
all
physics.
The
influ-
4T
ential
Ernst
Mach
is
reported to have asked anyone
atoms to him: “Ever seen one?” Mach’s statement that atoms exist” 14 positively alarmed his colleague in
who mentioned
“I
do not believe
Ludwig Boltzmann
Vienna. At the turn of the century Boltzmann, aware of “how
powerless an individual
damage
is
against the trends of the day,” lamented “the
to science if the theory of gases
rary oblivion by the prevailing hostile
on September
15, 1906,
tion to this dispute
to be relegated to
tempo-
mood.” 15 Boltzmann’s
suicide
were
should not, of course, be seen as a direct reac-
—but perhaps he would have borne
science had brought
him more
his life longer if
joy and recognition.
Einstein later regarded Mach’s and Ostwald’s rejection of atomic
theory
as
intellect
dice
“an interesting illustration of
how
even researchers of bold
and subtle instinct can be prevented by philosophical preju-
from an interpretation of
facts.” 16 In this instance
positivist belief “that facts alone
man from
had been the
without free conceptual constructs
should and could lead to scientific knowledge.” the
it
the Patent Office helped
make
More
than anyone
else,
the skeptical positivists
eventually accept the atom.
Ever since
his
student days, Einstein had as a matter of course
regarded the existence of atoms
as
unquestionable. All five of his publi-
cations had, in a sense, been variations
on the atomic theory of natural
The Patent Office
126
phenomena. His
now aimed
dissertation
at
providing evidence for
atoms and molecules. Naturally, he was not able to make an atom or even
a
molecule visible
—that
would become possible only
in the
1950s, with the field-ion microscope. But Einstein invented his
own
kind of “microscope”: an elegant theory which allowed the size of sugar molecules to be determined from something as ordinary as the
aqueous sugar solution.
viscosity of an
Einstein had worked out the basic
you already calculated the absolute
method two
size
enough
that they are spheres and large
years earlier.
“Have
of the ions, on the assumption for the equations of the hydro-
dynamics of viscous liquids to be applicable to them?” 17 he had then asked Besso. “I would have done the time; you might also draw neutral salt molecules. If
write
you again
it
myself, but
upon
I
lack the literature and
diffusion to obtain information
you don’t know what
in greater detail.” It
I
mean,
I’ll
on
be glad to
seems that Einstein did have to
explain himself in greater detail, and the dissertation therefore looks like a direct fulfillment
of his promise given to Besso, as well as an
attempt to convince Ernst
Mechanik
Mach
—that atoms were not
Einstein’s
—whom he otherwise revered
fictional.
argument proceeded not
gases but, for the
first
time,
for his
(as usual)
from the theory of
from the behavior of liquids. Because
contrast to a similar theory of gases
—
a molecular-kinetic
—
in
theory of liq-
uids would, in Einstein’s view, be faced with “insuperable difficulties” 18
he confined himself to solution of a substance
a
simpler model. His model was an aqueous
whose molecules
molecules of water, so that
(in a
are large
reasonable approximation) the water
can be treated as an unstructured homogeneous
on the dissolved molecules, which assumed to be increases.
This can be measured. As
ume
between
this
medium
in
its
effect
for the sake of simplicity are
spherical. If a substance
establish a relation
compared with
is
dissolved in water, viscosity
a first step,
Einstein was able to
change in viscosity and the
total vol-
of the dissolved molecules. Despite his simplified assumption, this
called for involved calculations
and represented the most demanding
part of the investigation. As a second step, mathematically simpler but
more demanding
in terms of physics, Einstein dealt with the diffusion
of a swarm of molecules dissolved in the water, obtaining a diffusion
"Herr Doktor Einstein” and the Reality of Atoms
127
coefficient which, with experimentally determinable values, again gave
information on the size of the molecules.
method which,
surprisingly,
He
had thus developed
a
combined experimentally measurable
properties of solutions, such as viscosity and diffusion, to create his
Though one could not, of course, “see” the “microscope” made it possible to determine their
ingenious “microscope.” molecules, Einstein’s size.
Such it
a
theory demands practical application, and Einstein provided
for sugar water because experimental data
The
were
available for this.
way
radius of the sugar molecules he found in this
millionth of a centimeter tercheck,
—was new. Added
to this,
—one
by way of
a
ten-
coun-
was the determination of the Avogadro number, and
Einstein’s result in fact agreed “satisfactorily, as for order of
tude, with the values found for that quantity
This confirmed both the
reliability
magni-
by other methods,” 19
of the method and the reality of
molecules.
The
judges at the university in Zurich were satisfied with Einstein’s
results,
but Paul Drude, the editor of Annalen, was not. Einstein had
submitted his treatise to Drude in August 1905, after the conclusion of the degree procedure; however,
it
was published not within the cus-
tomary eight weeks, but only about
months
six
later.
This had never
before happened with any of Einstein’s papers, nor did afterward.
Drude
must have asked
evidently
knew of better
for a small
ever happen
data for sugar solutions and
addendum. 20 Einstein supplied
beginning of the following year, with for the
it
a substantially
at the
it
improved
result
Avogadro constant. 21
Nothing happened
for the next four years.
With
the sensation
caused by Einstein’s paper on the Brownian movement, his dissertation was scarcely noticed. This applied also to Jean Perrin, a
professor at the Sorbonne in Paris,
who
with superb experimental
was investigating the Brownian movement
in
who had
fessor in Zurich, used the opportunity to
draw
just
become
a
pro-
Perrin’s attention to his
autumn of 1909. Thereupon one of
leagues, Jacques Bancelin, took the subject
skill
1909 and corresponded
with Einstein on the subject. Einstein,
dissertation in the
young
Perrin’s col-
up experimentally. 22
He
did
The Patent Office
128
%
not dissolve molecules, but instead suspended accurately prepared microscopic mastic globules of Einstein’s theory
known dimensions
Much
of
was confirmed by Bancelin’s experiments, but on one
point there was a major discrepancy.
he was unable to find
culations,
in water.
When
Einstein repeated his cal-
mistake. Although he did not rule
a
out some experimental error, he nevertheless requested Ludwig Hopf, the assistant at the Zurich institute, to have another good look at the dissertation:
have
“I
now
re-examined
arguments and not found
a
my
earlier calculations
mistake in them,” 23 he wrote to
during the Christmas vacation. “You would be doing the subject
if
you could
my
seriously check
and
Hopf
a great service to
investigations.”
Hopf
found the mistake, which the mathematician Burkhardt had previously
—
also failed to spot
but
a rather trivial slipup,
it
threw off the nu-
merical result. Einstein sent a correction to Annalen with an acknowl,
edgment of Bancelin’s and Hopf’s work and with an even for Avogadro’s
Nine days had
May ment,
number. 24
after
his next
completing his dissertation
paper ready;
11, 1905. Its title is
Demanded
Liquids at Rest.
it
He
that he could only
in the
—Einstein
might have at the
called
more
it,
On
the
Move-
of Particles Suspended in
,
succinctly,
On
the
very beginning of his paper he admitted
assume “that the movements to be here dealt with
me
movement.’ However, the
are so inaccurate that
I
cannot form
a definite
this.” 25
entitled
A
Brown
privately published a paper in
brief Account of Microscopical Observations, conducted
months ofJune, July and August 182 7, on
the Pollen of Plants;
organic
not sooner
of almost baroque convolution:
In 1828 the botanist Robert
London,
if
was received by the editor of Annalen on
are identical with the ‘Brownian molecular
data available to
—
by Molecular-Kinetic Theory
Brownian Movement, but
opinion on
better result
and inorganic
and on bodies.
the particles contained in
the general existence of active molecules in
Brown
described
how he
had, under his
microscope, seen pollen grains in a permanent trembling movement.
He
regarded this
as a typical characteristic
of male sex
cells,
similar to
spermatic filaments. But he had the brilliant idea of testing this
assumption by observing minute particles of inanimate matter in
— "Herr Doktor Einstein” and the Reality of Atoms
He
water.
found that the same permanent
129
movement was
erratic
present in very finely ground splinters of glass and granite, as well as in
smoke
particles.
Hence
the cause could not be the vitality of living
matter, and the “Brownian
movement”
therefore passed from the
hands of botanists or physiologists into the hands of physicists. In the second half of the nineteenth century
some
physicists sug-
gested a molecular-kinetic model to explain the Brownian movement.
The
zigzag
movements of the suspended
particles,
due to impacts from the molecules of the liquids cally sound,
up
but
26 .
they believed, were
This idea was
basi-
the theories had serious flaws 27 and failed to stand
all
to experimental testing.
The
theoretical situation remained con-
fused and controversial.
Even
if
and even
he had known everything there was to
if
Brownian movement, a brilliant
ever,
He
work of
Einstein had been familiar with the
his theoretical explanation
his predecessors,
know about
would
the
have been
still
achievement. Unburdened by any previous knowledge, how-
he chose an entirely different and more fundamental approach.
asked himself
demanded by
if
movement of
the irregularities in the
molecules,
the molecular-kinetic theory, might not after
observable effects.
To
his
own
cause
surprise he discovered that the theory
in fact predicted fluctuations observable
scope, and that the
all
under
measurement of these
a
conventional micro-
fluctuations represented a
kind of penetration into the microcosm of atoms. This was an original, theoretically
founded concept of the Brownian movement and of
characteristic properties
its
nomenon
that
as
a
fluctuation
had been observed for nearly
a
phenomenon
—
a
phe-
hundred years without
being understood. Einstein therefore observed not molecules in solution, but sus-
pended still
particles
clearly visible
about
under
a
a
thousandth of
a
microscope and
millimeter in diameter actually, in kinetic theory,
gigantic macroscopic structures. Unlike his predecessors
repeat
—were unknown to him) Einstein evidently realized
(who
—
to
from the
outset that the velocity of the particles could not be observed directly.
According to simple calculations, their velocity would amount to about one-tenth of
a
millimeter per second: in other words, a particle would
The Patent Office
130
about one hundred times
travel a distance
second.
Under
viewing
field like a wraith.
own
its
diameter in one
microscope, such a particle would
a
However, the
particle
flit
through the
also greatly
is
slowed
down by the liquid and simultaneously struck by individual molecules. The result of these two effects is an extremely irregular trembling movement whose track and velocity cannot be measured directly. At the same time, though, a kind of mean value, the mean square dis-
—
placement, should be observable under the microscope, and this would
be enough. Einstein tion
first
of all demonstrated
—and
—that “osmotic pressure,” which
dynamics should
exist
more
was
a very
according to
bold innova-
thermo-
classical
only in solutions, was present also in suspensions
of “gigantic” spheres or globules. Next, in dissertation, but
this
elegantly,
much
he worked out
the same
way
a diffusion
as in his
formula for
the spherules and examined the interplay of diffusion and ceaseless
impacts from the molecules of the liquid as a
statistical process.
mean displacement of
He
finally
obtained an expression for the
ticles,
depending only on measurable or otherwise familiar values.
From
this
he was able to calculate that
the par-
his standard particle of
one-
thousandth of a millimeter, suspended in water, must after one second
have moved by
under one-thousandth of
just
one minute by six-thousandths of
a millimeter,
a millimeter.
and
after
Conversely, the Avo-
gadro "number could be determined from that expression, provided the displacement and the time were measured.
That suggestion was minute spherules,
a
surprising to experimental physicists: with
microscope, and a clock they were to count atoms.
Einstein, moreover,
had formulated
his
argument
as
a
yes-or-no
experiment. If his prediction was not correct, “this would
mean
weighty argument against the molecular-kinetic concept of heat.” 28 therefore concluded his article with an exclamation mark:
a
He
“May some
researcher soon succeed in deciding the question here posed, a question vital to the theory of heat!” 29
This time Einstein could not complain that he got no reaction. Soon after the
appearance of the paper on July
18, 1905,
Henry Siedentopf
wrote to him from Jena, Germany, confirming that the predicted phe-
“Herr Doktor Einstein” and the Reality of Atoms
nomenon probably was
the Brownian
131
movement. 30 Siedentopf,
at the
Carl Zeiss Works, was engaged in improving the ultramicroscope
invented in 1903 by Richard Zsigmondy. This instrument illuminates objects
by
scattered
by them, makes
stantially smaller
ment
is
from the
light projected
it
side and,
by intercepting the
possible to view particles
which
light
are sub-
than the wavelength of light. As the Brownian move-
even more erratic for smaller and therefore lighter particles
than for larger ones, this
new ultramicroscope made
it
possible to
study particularly hectic trembling. Zsigmondy compared what he saw in colloidal gold suspensions to a
swarm of midges dancing
in a sun-
beam. But he had not, any more than Siedentopf, carried out any measurements that might have permitted comparison with Einstein’s detailed predictions.
Einstein quite obviously enjoyed this subject.
Even before Christ-
S'
mas of 1905 he dispatched appropriate
title,
On
Annalen
a further
paper, this time with an
the Theory of the Brovonian
presented the theory in further,
to
a substantially
more
and in particular discussed the
something no one had seen yet
—
1
it
it
it
limits of its validity for short
As
a
Brownian
a
bonus he calcu-
rotation, that
trembling rotational movement of the suspended particles. If could be measured,
he
elegant form, developed
periods: less than a ten-millionth of a second. lated
Movement} In
is,
a
this
too would be suitable for determining the Avo-
gadro number. Interest in the stein
numerous
Brownian movement increased and brought Ein-
letters
from
scientists, as well as
Zangger, professor of forensic medicine later to
become famous
as the
at the
visitor.
Heinrich
University of Zurich,
founder of emergency medicine and
director of spectacular rescue actions in the interested as a researcher in the
one
mining industry, was
Brownian movement.
When
he ran
into difficulties with his counting under the microscope, the professor
of mechanics, Aurel Stodola, had told him to “go and see Einstein in Bern.” 32
The meeting was
did not yield any
new
the beginning of a lifelong friendship, but
insights into the
it
Brownian movement. These
came from elsewhere. In Uppsala, Sweden, a
young
physicist,
The
Svedberg, was experi-
menting with the ultramicroscope. Unfortunately he had
failed to
The Patent Office
132
mean displacement (the had to make a slight correc-
observe the difference between velocity and
only observable quantity), so that Einstein tion, 33
“which corrected only the worst mistakes, because
bring myself to impair Herr studies, including
his
work.” 34 Other
failed to
Proof came only
in 1908,
when Jean
and, in a series of excellent experiments, confirmed
all
theory. Einstein was delighted: “I wouldn’t have thought
movement
Perrin in his
movement
means of
a sophisticated
aspects of the it
possible for
to be investigated with such precision;
piece of good luck for this subject that
cine-
provide unequivocal proof of
laboratory at the Sorbonne in Paris studied the Brownian
the Brownian
could not
some by the Frenchman Victor Henri, using
matographic pictures, likewise Einstein’s theory.
enjoyment of
S.’s
I
it is
it.” 35
you undertook to study
a
By
method of tagging minute mastic spherules
Perrin was even able to measure the Brownian rotation calculated by Einstein,
which surprised him
measurement of the rotation
wouldn’t have thought a
greatly: “I
possible.
To me it was merely an amusing
pastime.” 36 This was the final proof.
Einstein meanwhile had been concerned
On March 23,
more with
popularization.
1907, he gave a lecture at the Natural Science Society in
Bern 37 on the Brownian movement, and the following year,
at the sug-
gestion of Richard Lorenz, the professor of chemistry at the Polytechnic, he wrote Elementary Theory of the Brownian
Movement
38 ,
to be
comprehensible also to chemists. In addition, he was on the lookout for other macroscopically observable fluctuation as his
second paper he had considered an
discussed
what subsequently came
rise to his
own
to be
phenomena. As
electrical circuit 39
known
as “noise.”
and briefly
This gave
experimental study of the Brownian movement, though
in the field of electricity, in voltage fluctuations in condensers. tially
early
He
ini-
published a theoretical concept, 40 and then, together with the
Habicht brothers, began to build an apparatus for measuring very small amounts of charges.
More about
this “little
machine”
will
come
later.
Einstein must have been exceedingly gratified by a letter from Wil-
helm Conrad Rontgen, the
first
Nobel
laureate for physics, even
though Rontgen objected that the Brownian movement
“will
be
diffi-
“Herr Doktor Einstein” and the Reality of Atoms cult to reconcile with the
reply
is
lost
—
second law of thermodynamics.” 41 Einstein’s Einstein had never thoroughly examined
a great pity, as
this tricky question.
133
However,
second paragraph of
in the
his first
paper he had pointed out that in the observation of the Brownian
movement “along with
the regularities to be expected
thermodynamics can no longer be regarded
.
.
classical
.
even for
as absolutely valid
microscopically distinguishable spaces.” 42 This was something he had
surmised anyway, and
it fit
problems of physics. But
it
into his overall ideas of the fundamental
took another quarter-century before Leo
Szilard satisfactorily proved that
that
would
it
was impossible to build
machine
a
energy of the suspended particles for
utilize the kinetic
work, or to withdraw energy from the solvent. Einstein never disclosed
when he had
Brownian movement he had predicted. tunity to see
it
in Bern, but
himself
He would
he must have seen
it,
first
seen the
have had an opporif
not before,
at the
annual meeting of the Deutsche Gesellschaft der Naturforscher und
(German Society of Natural
Arzte
Salzburg in September 1909,
with demonstrations.
A
Scientists
when Henry Siedentopf gave
few years
later,
visible.
in
In a
it
Brownian movement
made
the disordered elemental processes are
manner of speaking, one can
a lecture
Einstein would write, with
restrained emotion, that the significance of the
was “that
and Physicians) in
see, directly
directly
under the micro-
scope, a part of the thermal energy in the form of the mechanical
energy of moving
particles.” 43
This was
and the
a spectacular assertion,
agreement of the theory with Perrin’s accurate measurements played major part
in convincing
even the
last skeptics
a
of the reality of the
atoms. In 1913,
when
Einstein was to be brought to Berlin,
an expert opinion emphasized,
among many
stein’s contribution to the kinetic
effect
on experimental research
beautiful
Max
Planck in
other points, that Ein-
theory of matter “had
in different directions,
a
seminal
above
all
the
measurements of the Brownian molecular movement, which
acquired their real value primarily through Einstein’s work.” 44
In 1926, three protagonists of the research on the Brownian
ment met
in
move-
Stockholm. Jean Perrin was awarded the Nobel Prize for
The Patent Office
134 Physics.
The Svedberg and
Richard Zsigmondy received the Nobel
— Svedberg
Prize for Chemistry tively, for
1925. As early as 1910,
for
1926 and Zsigmondy, retroac-
when
Einstein was
Ostwald, the Nobel committee had pointed out in that the theory of the
occasions in his nominations; but it
was
its
proposed by
internal report
Brownian movement had earned Einstein great
recognition. This achievement was mentioned
prize in 1922,
first
when he was
for a different paper,
on
several subsequent
eventually awarded the
though from the same
leg-
endary year, 1905. That paper had been completed in March and was actually the first of his magnificent series. It dealt with light quanta.
CHAPTER EIGHT
The "Very Revolutionary Light Quanta
Albert Einstein did not
see physics as a sequence of scientific
revolutions, nor did he see himself as a revolutionary. Indeed, he was
extremely cautious about describing discoveries or theories
as revolu-
4T
tionary. In his references to his
come
across only
Conrad Habicht
own
contributions to physics,
one use of the word
—
Habicht’s attention the
first
to
when he commended
to
of the four promised papers: “It deals with
radiation and the energetic properties of light and
you
tionary, as
hyperbole;
it
will see.” 1
have
workshop report
in his
in the spring of 1905,
I
is
very revolu-
This confident assessment was not youthful
was accurate
at the
time and
is
even more so in retro-
spect. In this paper, Einstein questioned the universally recognized
model of
light as waves,
and with
it
the unlimited validity of
Max-
wellian electrodynamics; instead, he “invented” a granular structure
—the
for light
light
quantum, the
netic radiation. This radical and
young author In his
a father
title,
particle associated with electromag-
immensely bold proposal made
its
of quantum physics.
Einstein did not promise anything like a theory, but
rather “a heuristic viewpoint concerning the generation and transfor-
mation of
This may have seemed
light.” 2
a bit frivolous to
some
readers of Annalen “heuristic viewpoints” did not form part of theo:
retical physics at the turn
of the century.
A concept was
confirmed and therefore open to future verification or
which case worth
it
was regarded
in practice, in
as a hypothesis; or else
which case
it
it
would be elevated
either not yet
falsification, in
had proved
its
to the rank of
theory. Einstein had presumably encountered “heuristic viewpoints”
135
The Patent Office
136
in the course of his philosophical studies, perhaps as early as in his
schooldays,
when he
read
Immanuel Kant, who frequently used
The purpose
“heuristic principles.” 3
of Einstein’s “heuristic view-
point,” like that of Kant’s “heuristic principle,” was to state, or perhaps
from which
invent, an assertion
From
familiar facts could then be deduced.
the outset, therefore, Einstein was focusing on something that
would emerge only
at the
end of the paper. Experimentally observed
phenomena
oddities of the photoelectric effect and other
that posed a
riddle within the
framework of Maxwell’s theory of electromagnetic
waves were to be
effortlessly explained
by reference
to the “heuristic
viewpoint” of the light quanta. Einstein thus took seriously the
quantum hypothesis introduced all
by
Max
Planck
contemporaries and indeed unlike Planck himself,
his
years
into physics
would remain reluctant
On December in Berlin,
14, 1900, at a
Max
for
many
to accept Einstein’s radical step.
meeting of the German Physical Society
Planck had presented his famous radiation formula,
which contained the quantum of action This was
who
—unlike
later to
be named for him.
a crucial innovation and, in retrospect, constituted the birth
of the modern quantum theory of the microcosm, the theory which
gave twentieth-century physics an entirely different appearance from nineteenth-century physics. All physics not involving the quantum
now became
“classical” physics.
At the time, Planck was scarcely aware of the
radical nature of his
work. At forty- two he was at the peak of his vigor, but by nature he was “peaceable and averse to risky adventures” in science. 4
an unwilling revolutionary, anxious, almost split
between
his
own
at
any
He
had become
cost, to avoid
any
—though
this
research and “classical” physics
term was not yet being used.
What Planck was tion of an old
after
was not
problem expressed
a revolution in physics,
in
1
but the solu-
860 by Rudolf Kirchhoff. This
concerned heat radiation. Everyone knows that heated metals glow red at
first,
turning yellow at higher temperatures, and eventually
turning almost white. In each case, this radiation ferent frequencies, with light: into ultraviolet at
its
spectrum extending
is
a
far
mixture of
beyond
dif-
visible
high frequencies and into infrared, invisible
The "Very Revolutionary” Light Quanta
On
heat radiation, at low frequencies.
dynamics, Kirchhoff derived a absorption, valid for
all
137
the basis of abstract thermo-
number of statements on emission and
materials. In these, a central role
was played by
an ideal object, the “black body,” which completely absorbs tion striking
it.
The
ideal case of “black radiation,” totally
of the properties of materials, was postulated radiation ture,
is
in a state of equilibrium,
with the material of the walls.
radiation”
observed and
its
radia-
independent
as a cavity in
which the
determined solely by temperaof this “black-body
If a small part
allowed to escape through a minute opening,
is
all
it
may be
frequency spectrum analyzed.
Kirchhoff brilliantly
summed up
all
that
was known and surmised
about “black radiation” by claiming that for the emission capacity of “black bodies” there must exist a function that depends solely on tem-
perature and frequency. “It
is
a task
of great importance to discover
that function. Its experimental determination culties, yet there
by experiment,
seems to be
as
justified
undoubtedly
it is
is
hope that
faced with great it
diffi-
may be determined
of a simple form, as indeed are
all
functions discovered so far that are not dependent on the properties of individual bodies.” 5 Every part of Kirchhoff’s statement was correct,
including the great experimental
difficulties.
it
possible to
compare
failed at
a level
theoretically derived radiation for-
mulas with actual measurements. However, later revealed
until after his death
measuring techniques reach
in 1887 did experimental skill or
which made
Not
all
formulas sooner or
major shortcomings: the best of them, Wien’s formula,
low frequencies
in the infrared range;
and Lord Rayleigh’s
what Paul Ehrenfels
resulted at high frequencies in
later called “the
disaster in the ultraviolet.”
Max
Planck, Kirchhoff’s successor at Berlin University, firmly be-
lieved that the frequency distribution of “black cavity radiation”
“something absolute. And to
me
as the
the finest research task,
I
was
search for the absolute always seemed tackled
it
with zeal.” 6
When
Planck
concentrated on this problem in 1894, he was helped by the fact that
some outstanding experimental
physicists
were equally fascinated by
it.
Friedrich Paschen, for instance, regarded Kirchhoff’s problem as
important enough to “decline
a
professorship for
its
sake.” 7
He
The Patent Office
138
remained
duced
in his laboratory at the Polytechnic in
Hanover and pro-
graph with which he was able to improve the numerical factors
a
of Wien’s formula. For two or three years solution
it
looked
as if this
was the
—but that proved to be wrong.
At the Physical-Technical Reich
Institute in Berlin, then probably
Lummer and
Ernst Prings-
heim had greatly refined the measuring techniques,
especially in
the world’s best-equipped laboratory, Otto
infrared, in the range of long wavelengths. Heinrich
Rubens and Fer-
dinand Kurlbaum achieved a new degree of precision by Rubens’s “rest radiation” method,
whereby the
were
rays of shorter wavelengths
faded out, so that very reliable measurements were
made
possible in
the extreme longwave infrared at high temperatures. All the results in that range contradicted
Wien’s formula.
contradiction that provided the key to the
The
date
when
very precisely.
were
October
7,
visiting with the Plancks.
talking shop, and
ments
at the
was the resolution of
new
1900, a Sunday,
The men were
Rubens informed Planck
this
physics.
new quantum theory was born can be
the
On
It
Rubens and
stated
his wife
unable to refrain from
that the latest measure-
Reich Institute had shown that
at
very long wavelengths
the energy density of radiation was proportional to temperature. This
information must have excited Planck greatly, because that same evening, as soon as the guests had his efforts over
Rubens bore
many
fruit.
he got down to work. Thanks to
years, the information
all
data.
one was interpreted by Planck
molecule and was
later
unknown
However,
a
The
little
to
do with
in physics, having the
formula arrived at by
a radiation for-
formula had two con-
as a gas
named Boltzmann’s
speaking, Boltzmann had until then
he had received from
That same night Planck developed
mula which accurately matched stants:
left,
constant for a single
constant (though, strictly
it);
the other was a quantity
dimension of action.
trial
and error, no matter
accurate, needs theoretical interpretation. This
how
was what Planck con-
cerned himself with during the next few weeks. According to “classical” physics the total
cavity,
energy would pass from the walls into the
with no equilibrium being established. Overcoming his past
rejection of the atomic view, Planck
was eventually compelled to
inter-
a
The "Very Revolutionary” Light Quanta
139
pret the radiation as the emission of individual atoms; he conceptualized
them
“harmonic
He now
processes.
mann’s
as
He
was
model
treated these “resonators” with
methods
statistical
ceptable.
oscillators,” the simplest
—which
until recently
desperation,” 8 meaning, evidently, what to
With
Ludwig
Boltz-
he had found unac-
whole business
later to describe “the
use of atomic concepts.
for periodic
as
him seemed an
these methods, however,
an act of
illegitimate it
followed
from the equilibrium between matter and radiation “that energy
is
compelled from the outset to keep together in certain quanta.” 9
On December
14, 1900,
Planck presented
tation of the radiation formula to a
laying great emphasis
most
the
posed of
on
its
novelty:
his theoretical interpre-
meeting of the Physical Society,
“We therefore regard — and
essential point of the entire calculation a
very definite
number of
is
com-
to be
equal finite packages, making use
for that purpose of a natural constant h
unimaginably small, though
—energy
this
=
6.55
X
10 — 27 ergsec.” 10 This
“magnitude”
is
written with
twenty-six zeros after the decimal point) represented the
abandonment
finite,
(it
of the continuity-based conceptual apparatus of “classical” physics and the foundation of a
To I
Planck, the
didn’t give
and
at
it
new
physics.
quantum was
much
whatever
But
was not realized
this
initially “a
purely formal assumption and
thought, except only that, under
cost, I
until later.
had to produce
all
circumstances
a positive result.” 11
He
was,
moreover, able to placate his “peaceable” nature because the energy quanta would play
a role
only in
statistical
counting procedures by the
resonators, while radiation
would continue
with Maxwell’s theory,
continuous wave in the ether.
as a
Neither Planck nor his
new microphysics
to be understood, in line
listeners suspected that a terra incognita
—was opening up before them. Indeed,
for a
—
whole
decade Planck endeavored “somehow to harness the quantum h into the framework of classical physics,” 12 and other physicists, like
Lord
Rayleigh and James Jeans in England and Hendrik Antoon Lorentz in
Leyden, the Netherlands, were doing the same. These clever
were examining such rial
delicate
problems
as the interaction
men
of the mate-
resonators with the ether, never for a minute questioning the strict
validity of Maxwell’s theory
and thus never questioning the wave
The Patent Office
140 nature of light.
Only one man thought
come
the revolutionary element which had
quanta
—the “heretic”
at the
differently,
recognizing
to physics with energy
Patent Office in Bern. •x
Albert Einstein had a student. lehre
,
He came
first
interested himself in heat radiation while
work
across Kirchhoff’s
which he studied, along with
in Ernst
own measurements
his
Weber
second
presented
of the energy spectrum of heat radiation,
together with an empirical formula, and
it
may well have been
ture that led Einstein to further reflection. After the
semester he wrote to Mileva Marie:
beginning to take on more substance will
Mach’s Wdrme-
his assigned reading, in his
year at the Polytechnic. In his third year Professor
still
“My
—
I
this lec-
end of the winter
musings on radiation are
myself am curious
if
anything
come of it.” 13
Two
years later, during the depressing period of job-hunting, he
—which came immediately before the discovery of the correct radiation formula — but he studied at least one of Planck’s papers in Annalen
had “reservations of a fundamental nature, so much so that I’m reading his
paper with mixed feelings.” 14 Einstein
in Proceedings of the Physical Society but ,
comprehensive issue in
which
article in the
his
own
he
March 1901
may have is
missed the report
sure to have read Planck’s
issue of Annalen, the
“firstling” publication
on
capillarity appeared.
At the beginning of April Einstein was intending to “have now,” 15 but we have no record of radiation formula.
Only
his
,
it
a
go
at it
immediate reaction to Planck’s
in his Nekrolog did
period. According to the Nekrolog
same
he refer back to that
had quite early struck Einstein
that Planck’s derivation of the radiation formula “is in conflict with the
mechanical and electrodynamic basis on which that deduction otherwise rests.” 16
It is true that
Planck’s thermodynamic arguments, and
especially his abstract subdivision of total energy into separate ele-
ments, seemed like an attempt to avoid an explicit discussion of the role of energy quanta. “In reality,” Einstein said, lier reflections,
summarizing
his ear-
“the deduction implicitly assumes that the energy can
be absorbed and emitted by an individual resonator only in ‘quanta’ of
magnitude hv that therefore the energy of an ,
oscillating mechanical
structure, as well as the energy of radiation, can only be converted into
The “Very Revolutionary" Light Quanta such quanta namics.
.
.
.
—
in contrast to the laws of
All this
I
141
mechanics and electrody-
realized a short time after the publication of
Planck’s fundamental paper.” 17
This realization had been helped along
also
by Einstein’s
interest in
the photoelectric effect, which was then being investigated quite sepa-
from the problem of the radiation formula. Heinrich Hertz had
rately
discovered this effect about 1888 in the course of his experiments on the propagation of electromagnetic waves.
made him
was not
The
it
how-
significance of that observation,
at first realized. It
was only by the discovery of X-rays
1895 and of the electron two years
Soon
fortunate coincidence
notice that in a spark gap illuminated by ultraviolet light, a
spark gains in brightness. ever,
A
later that this
matter was
was assumed that the cause of the photoelectric
in
clarified.
effect
was the
release of electrons
from gas molecules or metal surfaces
irradiated
with ultraviolet light
—those molecules which had
identified
as the
been
Max-
corpuscular components of the so-called cathode rays.
well’s theories sity
just
would have
led
one to expect that with increasing inten-
of light both the number and the energy of the electrons would
increase.
But
this
was not
so.
Sophisticated experiments, especially by Hertz’s former assistant
Philipp Lenard, showed that the energy of the electrons was not gov-
erned
words
at all its
by the intensity of light, but only by
“color”
—
this
invisible ultraviolet or
its
frequency, in other
term being understood to apply
also to the
X-ray radiation. The yield of electrons certainly
increases with the intensity of the light, in normal conditions, but for
every metal there
observed
Above
at
this
all,
is
frequency below which no electrons are
a definite
no matter how long or
intensively they are irradiated.
threshold frequency, on the other hand, electrons are
emitted even at exceedingly weak irradiation
—
all
this in contradiction
to accepted theory.
This was very much to the
gauged from the opening of
taste
of young Einstein,
a letter to
Mileva Marie:
as
can be
“I just read a
wonderful paper by Lenard on the generation of cathode rays by violet light.
Under
the influence of this beautiful piece
such happiness and joy that
I
I
am
ultra-
filled
must absolutely share some of
it
with with
The Patent Office
142
you.” 18 Although his “dear kitten” had just informed him that she was pregnant, he came to that topic only in a later passage of his
Some
of Einstein’s letters suggest that he also concerned himself
with the photoelectric effect
as
an experimenter. Thus he intended,
after his third year of study at the university, “to
with
a
letter.
work
scientifically
gentleman from Aarau.” 19 This was Conrad Wiist, principal of
who was
the Aarau district school, a physicist
No
experimenting with
known about
their
cooperation, but “radiation experiments” were at least intended. 20
Even
X-rays in his school laboratory.
as a student, Einstein
details are
had regarded the ether
as superfluous,
had
in-
tended to deprive electromagnetic waves of their substrate, and had believed that “electric forces can be directly defined only for
space.” 21
Thus
it
seems reasonable to assume that
empty
as early as 1901, after
studying Lenard’s and Planck’s papers, he had been toying with the idea
wave
that light could propagate not as a
but as a stream of corpuscles
—
medium such
in a
“light quanta”
as the ether,
—through empty space.
Einstein begins his article by highlighting a contradiction to which the
become
supporters of atomic theory, at any rate, had that they scarcely
opening Einstein
saw liked.
it
hidden contradiction, and in that device
whenever
This was the kind of
as a contradiction.
His
own his
style
so accustomed
of reflection was fired by
fundamental
treatises
possible. In this particular case
it
a
he would use
was the “deep-
going formal difference” 22 between the atomistic structure of matter
and the description of all electromagnetic phenomena, including
by continuous mathematical functions material
body
is
understood
as the
sum over
which therefore cannot be subdivided into size
Thus
in space. its
just
light,
the energy of a
atoms and electrons,
“any number and any
of small parts,” whereas according to the wave theory of light the
energy of
a ray of light “is continuously distributed
increasing volume.”
It
soon emerges that Einstein
resolve that contradiction
by ascribing
over is
a steadily
proposing to
a corpuscular structure to light.
Naturally, Einstein concedes that the wave theory has “superbly
proved will
its
worth for the description of purely
optical
probably never be replaced by another theory.”
however, that optical observations relate to
mean
phenomena and
He
points out,
values over time for
The "Very Revolutionary” Light Quanta a
multitude of waves, so that
of
light,
it is
at least
143
conceivable “that the theory
operating with continuous spatial functions, will clash with
when
experience
applied to
phenomena of
and
light generation
light
transformation.” After this preparation, and an announcement that entire “groups of phenomena will appear
on the assumption
more
that the energy of light
is
readily comprehensible
distributed in space dis-
continuously,” the “heuristic viewpoint” comes as a thunderbolt:
On
the assumption here to be considered, energy during the
propagation of a ray of light
is
steadily increasing spaces, but
ergy quanta localized
not continuously distributed over
it
consists of a finite
at points in space,
moving without dividing
and capable of being absorbed or generated only
This
is
number of en-
as entities
23 .
the most “revolutionary” sentence written by a physicist of the 4T
twentieth century.
Though statement of
its
formulated apodictically and programmatically, Einstein’s
is still
provisional, merely a “heuristic” assumption.
value and usefulness will be the extent to which
be shown that
physical
phenomena.
nomena
to a very great extent.
It will
paper endeavor to make
this
The
it
it
The
test
helps explain
does explain those phe-
next fifteen pages of Einstein’s
viewpoint and
its
significance
compre-
hensible or at least plausible.
As Einstein has no compelling theory to paragraphs he presents disparate arguments.
a
He
panorama of what
offer, in the first
few
at first glance are rather
begins with a critique of Planck’s formula for
“black radiation” by pointing out that in deriving
it
Planck used two
other formulas which contradict each other. Next follows an elegant
determination of the Avogadro number from Planck’s black-radiation formula. (A few weeks offer
later, in his statistical papers,
Einstein would
two further methods of determining Planck’s important con-
stant.) All
he
is
trying to demonstrate here
tion of the elementary
quantum
set
of his theory of ‘black radiation’
is
out by Herr Planck ” 24
—
having to accept what Einstein regarded
is
independent
in other words, that
quanta and Planck’s black-radiation formula
interpretation.
“that the determina-
as a
may
energy
be used without
mistaken derivation and
The Patent Office
144
Next come thermodynamic
reflections
on the entropy of radiation.
Einstein confines himself to the range of high frequencies, for which
Wien’s formula
is
valid,
and derives an expression for the volume-
dependence of the entropy of monochromatic radiation
The
radiation density.
reason for this
is
at a slight
that in a paper he wrote the
previous year, volume-dependence played an important role in his investigation of the energy fluctuations of radiation. Einstein next interprets the expression he obtained in light of what, for the
“Boltzmann
time, he calls the
entropy of
a
system
is
principle,” according to
first
which the
related to the probability of the system’s state.
Next he considers the same
situation in gases
and in dilute solutions,
obtaining formally identical formulas for the volume-dependence of entropy, on the one hand for gases and on the other for radiation.
The purpose
of Einstein’s disparate argumentation
he concludes, by analogy, that
just as a gas consists
now
emerges:
of atoms, so radia-
“Mono-
tion should be seen as consisting of independent particles.
chromatic radiation of slight density (within the validity range of
Wien’s radiation formula) behaves in
heat-theory respect as
a
if it
consisted of mutually independent energy quanta of a magnitude
bv” 25 That much cise
—
his
contemporaries might accept
crazy, perhaps, but harmless. After
vation what
is
all, it is
as a theoretical exer-
irrelevant for obser-
thought about radiation enclosed in
announced
follows the “heuristic viewpoint”
and only to him,
“it
seems reasonable
now
in the
to
But
a cavity. title.
examine
To
if
Einstein,
the laws
the generation and transformation of light are of a nature as consisted of such energy quanta.”
now on
if light
Whereas Planck’s energy quanta had
been postulated only in connection with involved argumentation
in
order to derive the radiation formula, Einstein, in a manner of speaking, has liberated the for a
quantum from
its
whole range of other phenomena.
quences by
The most was
his
him
a
a
cavity
He
and made
it
illustrates the
useful
conse-
number of examples.
interesting consequence of Einstein’s “heuristic viewpoint”
law on the photoelectric
Nobel Prize
in 1922.
effect,
and not only because
it
won
(The Royal Swedish Academy of Sciences
The "Very Revolutionary” Light Quanta awarded the Nobel Prize to Albert Einstein for retical physics, especially for his discovery
electric effect.”)
quantum
light
—
later
to
be called
a metal,
of the law of the photo-
“photon”
a
this effect, a
—penetrates
like
a
there encounters an electron, and transfers
whole energy to that electron.
tron can lose
“his services to theo-
According to Einstein’s explanation of
minute missile into its
145
some of the energy
On
that
its
way
to the surface, the elec-
was transferred to
it
by the
light
quantum, and additional work has to be done to escape from the surface.
These
mum
relations can be rather involved in detail, but the maxi-
energy of
a photoelectrically ejected electron
on the frequency of the incident inable manner:
E=
hv 2
P,
where
light,
P is
depends solely
and in the simplest imag-
work
the exit (or photoelectric)
function.
This was the “second appearance” 26 of the quantum of action, but its first
appearance outside the black cavity, and
it
constituted the basis
of an unequivocal prediction: energy, plotted against frequency, must
be
a straight line,
identical with the
gram
whose gradient
quantum
is
represented by a constant that
in the radiation equation.
Here was
a
is
pro-
for experimenters.
The
only conclusion which
was then possible to draw from
it
Lenard’s measurements was that the energy of photoelectrically emitted electrons depended solely on the frequency of the incident light,
not on the intensity of irradiation
of the incident effect,
light.
—that
is,
not on the “quantity”
Quantitative investigations of the photoelectric
however, were exceedingly delicate because there were
of interference, especially electrostatic.
The
best
all
kinds
measurements were
obtained for the “threshold frequency” at which the irradiated metal did not yet lose any electrons but with a minimal increase in frequency electrons
obtained
would be a result
ejected.
which
For
this
“as for order of
Lenard’s results.” This was about
by Einstein
threshold frequency Einstein
had to
as “pioneering,”
all
magnitude agrees with Herr
that Lenard’s treatise, praised
offer; in particular, his data
were
not nearly adequate to verify the linear dependence of energy on frequency. Einstein therefore had to confine himself to the statement that his concept, “as far as
observations.
I
can
see,
does not contradict” Lenard’s
The Patent Office
146 “groups
Further
of phenomena”
which the frequency
Stokes’s law of photoluminescence, according to
of luminescence, or re-radiation,
by Einstein were
discussed
than that of the incident
is less
light;
and the ionization of gases by ultraviolet lightl^Both of these phe-
nomena by
conflict with the
wave theory of light but are
easily explained
light quanta.
Almost exactly
a year later, Einstein also derived a relation
between
the so-called Volta effect and photoelectric diffusion. This was done in a
marginal note in
a
and Light Absorption
,
paper entitled in
On
the Theory of Light Generation
which Einstein continued
his
argument with
Planck’s theory of radiation. Although Planck’s theory had initially
seemed
to
him
own
“counterpart” 27 to his
a
“heuristic viewpoint,”
was now able to show that the “theoretical
basis
he
on which Eferr
Planck’s radiation theory rests differs from the basis that would follow
from Maxwell’s theory and from electron theory
—
specifically in that
Planck’s theory makes implicit use of the above-mentioned light
quantum hypothesis.” 28 According to Einstein’s argument, Planck’s formula presupposed that the energy of an elementary resonator could
which were energy of
integral multiples of hv. It followed, therefore, that “the
a resonator
leaps, specifically
acquired a
changes by absorption and emission only by
by an integral multiple of hv.” 29 The quanta had thus
new meaning, and
undoubtedly correct but had provided with
not in
Planck’s radiation formula (which was until then lacked justification)
at least a provisional theoretical
classical physics, as
foundation
like
it
hallmark of “revolutionary” work in science
poraries refuse to follow
was
now
— admittedly
Planck would have wished, but in the newly
emerging quantum physics. Planck did not
If a
assume only values
it
and that
it
at
is
all.
that one’s
takes a great
many
contem-
years to be
accepted, then Einstein’s “heuristic viewpoint” was indeed “very revolutionary.”
The
fact that his
without any quibbles 30
paper was evidently accepted by Annalen
testifies to
the liberal attitude of
Max
Planck,
the coeditor responsible for theoretical papers, since initially he does
not seem to have regarded light quanta In the
summer
as
even worthy of discussion.
of 1906, a year after publication of the paper, Planck’s
The "Very Revolutionary” Light Quanta assistant
Max von Laue
wrote Einstein in Bern: “Incidentally,
my chief. Maybe
discussed your heuristic viewpoint with ferences of opinion
on
147
it
the elementary
between him and me.” 31 The very different
summer of
quantum of action
vacuum
equations. At least,
I
letter
1907: “I look for the
quantum) not
(light
but at the points of absorption and emission, and processes in the
never
there are dif-
opinion of his “chief” emerges from the earliest extant
Planck to Einstein, in the
I
from
meaning of
in the
vacuum,
believe that the
I
by the Maxwellian
are accurately described
don’t as yet see any compelling reason for
departing from this assumption, which, for the moment, seems to
me
the simplest one, and one which characteristically expresses the contrast
between ether and matter.” 32
In 1909 Hendrik
Antoon Lorentz, who
had been
for a long time
reluctant to accept even Planck’s radiation formula, attempted to con-
nect the quantum of action only “with a limitation of the degrees of
freedom of the ether.” 33 And so
it
curious apology which Planck, in the his otherwise
the Prussian
may
all
summer of
the
way
to that
1913, inserted into
overgenerous nomination of Einstein for membership in
Academy of Sciences
That sometimes, he
continued,
in Berlin:
as for instance in his
hypothesis on light quanta,
have gone overboard in his speculations should not be
held against
him too much,
for without occasional venture or risk
no genuine innovation can be accomplished even
in the
most
exact sciences. 34
Einstein of course did not see this nomination, but he was aware of Planck’s views. At almost the same time, using a kind of imaginary dialogue, Einstein in a tribute to Planck referred to the difficulties of the
radiation formula with
which everything had
flippant tone, he observed: “It
would be
started. In a cheerfully
uplifting if we could place
on
a
balance the amount of brain substance sacrificed by theoretical physicists
on the
altar
of this universal function
sight yet of these cruel sacrifices!” 35 It
—and
there
is
no end
in
would take ten years more
before light quanta were eventually accepted, on the eve of the
new
quantum mechanics.
Why
did
it
take
two decades
for Einstein’s “very revolutionary”
The Patent Office
148
concept to be generally accepted? There has never been
a
comparable
For one thing, there
situation in twentieth-century physics.
no
is
doubt that the stubborn opposition to the new idea of light quanta was primarily due to the fact that the wave theory of light had proved itself in a
thousand different ways and that discarding
able.
But there were other
factors,
it
was almost unthink-
'some of them having to do with
experiments and others with Einstein himself. Let us look
first at
the
experiments.
Although Einstein’s equation for the photoelectric was
difficult to
effect
confirm or disprove experimentally.
It
was simple,
remained an
object of contention for a whole decade. For example, Lenard,
received the
Nobel Prize
it
for his cathode-ray experiments in the
who of
fall
1905, corresponded with Einstein soon after the publication of the “heuristic viewpoint”
papers,
your
and even sent an offprint of one of
his
own
which Einstein “studied with the same sense of admiration
earlier
work.” 36 But Lenard,
to a resonance theory based
no reason
as
as
an experimental physicist, clung
on Maxwellian electrodynamics and saw
to take account of light quanta.
Rudolf Ladenburg, three
years younger than Einstein, in a thorough, sixty-page overview in
1909, 37 juxtaposed the two views, clearly emphasizing the advantages
of Einstein’s light quanta. His experimental data, however, were insufficient to let
him decide
for or against a linear relation
between energy
and frequency.
From about 1905 Robert Andrews
Millikan at the University of
Chicago was working on the photoelectric
effect, at first
along with
other problems and unaware of Einstein’s equation. After 1912, he
devoted
a great deal
In 1915, contrary to “to assert
its
of effort to an attempt at refuting that equation. all
his expectations,
he found himself compelled
unambiguous experimental
unreasonableness since
it
seemed
verification in spite of
to violate everything that
its
we knew
about the interference of light.” 38 In his publications of 1916, though, Millikan did not hesitate to attack the assumptions behind the experi-
mentally confirmed equation
as if
they had
outsider rather than from a scientist
come from
who by
a fantasizing
then was famous. In
a
The “Very Revolutionary” Light Quanta comprehensive
article
intended for publication in
149
Germany he
first
gave Einstein the good news “that the Einstein equation accurately represents the energy of electron emission under irradiation with light,” 39
only to continue by saying that he considered “the physical
theory upon which the equation
any
rate, his result for the
was
in close
is
based to be totally untenable.” At
numerical value of the quantum of action
agreement with Planck’s, and from
this
he concluded that
were “the most direct and most striking evidence so
his findings
obtained for the physical reality of Planck’s
far
A” 40
Millikan’s measurements had confirmed Einstein’s equation for the
photoelectric effect, but by light quanta.
distinction
As
no means the
late as 1922, the
“heuristic viewpoint”
Swedish Academy emphasized
when, avoiding the suspect terminology,
Nobel Prize
when
it
this
awarded the
to Einstein solely for “the discovery of the law of the
toelectric effect.” It chose the
lowing year,
it
pho-
same cautious language again the
fol-
awarded the prize to Millikan. However, the
breakthrough occurred almost simultaneously, in 1923, when the fusion of light
on
on electrons demonstrated
dif-
that light did in fact consist
of discrete energy packets.
The
exceedingly hesitant acceptance of the light quanta
been partly due
to Einstein’s
own
language.
He
may
also
have
never actually asserted
the existence of light quanta but preferred a form of words between the conditional and unreality.
behaved hv
.
”
“as if
Such
abandon
it
Monochromatic
radiation,
he
said,
consisted of independent energy quanta of magnitude
“as if” formulations
their faith in the
were not
likely to
persuade physicists to
proven wave theory of light.
If in later years
Einstein referred to the “light quanta hypothesis” and once even to his
“theory of light quanta,” 41 these were concessions to else just stylistic slips. Basically,
—
all
of which
made
usage or
he stuck to his “heuristic viewpoint”
and even emphasized the “provisional character of cept” 42
common
this auxiliary
con-
his colleagues feel entitled to reject light
quanta. Einstein’s choice of
words had nothing to do with excessive cau-
tion, let alone insecurity;
it
was based on what he expected of a genuine
The Patent Office
150 theory. So
far,
quanta tended to highlight cracks in the established
new concept
theory rather than fitting into a
That was why Einstein stayed with
based on
first
principles.
his provisional “heuristic view-
point” even when, before the end of 1906, he presented a further,
exceedingly important, application of the quantum concept in an
one that was moreover supported by experi-
entirely different field,
mental
results.
This was the third appearance of quanta:
this
time not
in radiation but, for the first time, in the behavior of matter
theory of specific heat.
It
was the
first
quantum theory of solid
Dulong and
In 1820, two Frenchmen, Pierre
Alexis Petit,
—
in a
bodies.
had made an
interesting observation during an investigation of the thermal behavior
of solid bodies. a
The amount
body by one degree was
weight. For
many
as for sulfur,
metals,
of heat needed to raise the temperature of
virtually constant if
was related to atomic
it
from copper through nickel
to gold, as well
they invariably found the same value of “specific heat.” 43
Their surprising discoveiy indicated an atomic structure of matter and suggested that “the atoms of
simple bodies have exactly the same
all
capacity for heat.” 44 This “law of
Dulong and
Petit” did not receive
when Fudwig
theoretical foundation until half a century later,
mann,
firmly based the empirical regularity found by the two
Frenchmen on the But
as so often
kinetic theory of matter.
happens in physics, no sooner was the theory estab-
began to accumulate which would not
lished than experimental results fit
into that neat concept at
Weber, subsequently
As
all.
a
young man
and then for boron and
silicon,
the Dulong-Petit law.
Only
these three substances
“specific
through diploma
it
at
for
diamond
high temperatures did specific heat
was much too low even
it
diminished, and for
at
room temperature.
student under Weber, Einstein became familiar with this
heat anomaly,” his
first
and had found marked deviations from
agree with expectations; at lower temperatures
still a
in Berlin in 1870,
Einstein’s teacher at the Zurich Polytechnic, had
investigated specific heat at various temperatures,
While
Boltz-
fundamental “equipartition theorem” 45 of sta-
in 1876, with his
tistical physics,
its
own
thesis,
partly
through Weber’s
lectures,
partly
laboratory work, and possibly also through his
which dealt with heat conduction.
The “Very Revolutionary” Light Quanta
The
first
inspiration
had come to Einstein on
a train.
151
As he reported
to
Mileva, while traveling to see his parents in Milan in the spring of 1901, he “came up with an interesting idea.
It
seems to
me
that
not
it is
out of the question that the latent kinetic energy of heat in solids and
thought of as the energy of electrical resonators.” 46 This
liquids can be
idea
may have been
earlier,
inspired by his study of Planck’s
work of
immediately before the quantum of action. In
a
year
with his
line
microphysical concept of matter, Einstein was linking the thermal and optical properties of matter, because “if this
is
the case, then the spe-
heat and the absorption spectrum of solids would have to be
cific
related.”
He
immediately commanded
his “little devil” to
library,
because he was interested in these relations for
you can
find
some
literature
on
“See
glass:
if
this!”
may have
But whatever Mileva
go to the
discovered then
(if
anything), the
subject required a fewlnore years of “hatching” and pondering, especially
on the
basis of Planck’s radiation formula, before Einstein
able to bring
it all
together in the
fall
of 1906, under the
title
was
Planck's
Theory of Radiation and the Theory of Specific Heatd 7
In this article, Einstein again starts with a
mean energy of
new examination
Planck’s oscillator, “which clearly reveals
to molecular mechanics.”
And
its
of the
relation
again he presents a further variation of
the “Boltzmann method,” which differs from Planck’s procedure.
From
these reflections
—which
are
by no means mere preliminaries
and which actually contain an interesting mathematical innovation 48 that
would be rediscovered two decades
later
—Einstein derives
a
pro-
found transformation of mechanics in the interaction of atoms or molecules with electromagnetic radiation. This
reminder that
in the
microcosm everything
is
will
the
first
explicit
be different from
everyday experience based on the senses, and hence also from the “classical” physics based
Whereas
until
now
as subject to the
on
that everyday experience:
the molecular
same
movements had been regarded
regularities as those valid for the
of bodies in the world of our senses,
we now
motion
find ourselves
compelled ... to make the assumption that the variety of
states
The Patent Office
152
which they are capable of assuming
is
than for bodies of our
less
experience. 49
Transfer of energy proceeds not continuously, but only in discrete packets of magnitude hv. Einstein asks
to “the other oscillating systems suggested
heat,” that
to the
is,
atoms of
might perhaps apply
if this
also
by the molecular theory of His answer
solid bodies.
not long in
is
coming.
homoge-
Einstein confines his observation to a simple model: a
neous isotropic
whose atoms
crystal
about their equilibrium.
oscillate
Initially Einstein
with a single frequency
thought only of electromag-
netic forces as the cause of the oscillations, so that his
model would
represent only electrically conducting substances, whose atoms are separated into heavy ions and light electrons.
gone
He amended
because in
it,
oscillations,
radiation.
after his
his error in a “Correction,” 50
which
is
for the first time, quanta appear in purely
and thus become
Applying
paper had
he realize that there was no reason for
to the printer did
tation.
Only
totally
formula for specific heat, which, just
important
mechanical
independent of electromagnetic
quantum formulas he
his
this limi-
derives, in a
few
as it should, leads at
steps, a
high tem-
peratures to the Dulong-Petit law, and at low temperatures results in a
down
steady diminution of specific heat
to absolute zero.
The tem-
perature above which the old rule remains valid would later be called “Einstein temperature.”
It is closely
connected with the oscillation
quency of the atoms, which in turn characterizes the
fre-
optical properties
of the crystals. For light atoms such as carbon, the Einstein temperature
fairly
is
high
—
for
diamond around 1,000°
from the Dulong-Petit law already appears noble crystal on
a beauty’s
at
C — so
room
that deviation
temperature. That
neck thus displays quantum
characteristics.
Einstein compared his quantum-theoretical formula with the data
found for diamond by
ment of
his theoretical
H.
his teacher
F.
.
.
.
will
prove
its
in 1875.
graph with the measurements
worth
is
The
agree-
so excellent
it
“probable that the
new
in principle.” 51
At the same time he
real-
that Einstein felt justified in thinking
view
Weber
ized that “there can of course be “exactly matching the facts.”
He
no thought” of the new
had been using
a
theory’s
model which he
The "Very Revolutionary” Light Quanta
had too many simplifications; in particular he regarded the
realized
assumption of as
153
a single
temperature-independent oscillation frequency
“undoubtedly inadmissible.” 52 Nevertheless, the theory, quite apart
from
pioneering character, would certainly “prove
its
worth
its
in
principle.”
Unlike Einstein’s “heuristic viewpoint” on light quanta, his quantum
moved
theory of solid bodies soon
was due not to
Max
Planck,
who
into the scientific spotlight. This
quantum concept, but
application of the
new
preferred to keep silent on this to his colleague
Walther
Nernst, the professor of physical chemistry at Berlin. In 1905 Nernst
had not so much derived
as postulated a general
thermodynamic law
according to which entropy rather than energy, and in consequence also specific heat, disappears at absolute zero.
devoted himself with 'the passion of
quences of his law
thermodynamics In 1875,
—
—now
possible,
to suspend his
measurements when the snow
and even hydrogen had meanwhile
air
providing
— 273°C. Nernst had
experimental conse-
low temperatures.
thawed; but liquefaction of
become
a lover to the
raised to the status of the third law of
at really
Weber had
Henceforward Nernst
close
a
approach
absolute
to
zero,
built a plant for the liquefaction of hydrogen,
an entire army of young coworkers
were busy measuring the
at his institute
specific heat of the
and
on Bunsenstrasse
most varied substances
over wide ranges of temperature.
For
this research
program Nernst could not disregard
new quantum theory of specific lication
it
was
clear that his
heat.
quantum formula was
in describing the actual conditions;
hensive
article,
stated: “It
Three years
is
and
after Einstein’s
compre-
obvious that the observations in their
theory.” 53 After that,
of Planck’s and Einstein’s
quantum theory was no longer
excluded from discussions of the behavior of solid bodies shall see, Einstein
pub-
substantially correct
in 1911 Nernst, in a
totality provide a brilliant confirmation
quantum
Einstein’s
had gained an
influential supporter
— and,
to be as
we
and patron. But
although he was the most vigorous propagandist of quantum theory,
Nernst was never
really sure
whether
to regard Einstein’s concept as a
kind of mathematical tool or the foundation of
a totally
new
physics.
The Patent Office
154
Having
visited Einstein in Switzerland in the spring
and discussed with him
question and
this
many
break of 1910
reported to a colleague about Einstein’s theory, sounding as let
himself in for a very enticing but Einstein’s
quantum hypothesis
ever thought up. If correct, so-called ether physics will
The
it
somehow
is
did remain “a beautiful
all
it
in
false, it
times. 54
—but
it
nevertheless
for the “ether physics”
no longer had anything
and he discarded
theory of relativity.
all
at least “in principle”
had discarded the ether implicitly light quanta;
illegitimate affair:
molecular theories. If
memory.” As
tioned by Nernst, Einstein
he had
opens entirely new roads both for
and for
—
if
probably the strangest thing
remain “a beautiful memory” for
theory was correct
Nernst
others,
to
do with
March 1905 with
explicitly three
men-
that.
He
his invention of
months
later in his
CHAPTER NINE Re at I
tt
My
It happened
ve Movement:
Seven Years
Life for
about the middle of May
1905, shortly after he had
on the Brownian movement. Einstein could not
sent in his paper
remember
i
the exact date, only that
it
was
a “beautiful day.” 1
He
had
4T
visited his friend
and colleague Michele Besso
question with him.
“We
discussed every aspect of the problem,” Ein-
stein reported seventeen years later.
where the key night, with
to this
to discuss a difficult
problem
He must
lay.”
some mathematics and
“Then suddenly
a lot
I
understood
have spent an exciting
The
of concentrated thinking.
key he had found in conversation with Besso magically opened
a
door
to a
new understanding
The
following day, “without even saying hello,” Einstein pounced on
his friend
Thank
of the fundamental concepts of
all
physics.
with the explanation: you. I’ve completely solved the problem.
the concept of time was defined, and there
is
my
solution.
An
Time cannot be
analysis of
absolutely
an inseparable relation between time and
signal velocity. 2
Einstein’s analysis started off with the question of what
simultaneity in two different places.
He
friends and colleagues as he pointed to
is
meant by
was observed gesticulating to
one of Bern’s
bell
towers and
then to one in the neighboring village of Muri. Michele Besso was the first
person and Josef Sauter the second 3 to
manner
whom
he explained in
this
that the synchronization of spatially separated clocks repre-
sented a problem which, properly understood, must lead to profound
changes in the concept of time.
If the
155
customary concept of space, and
The Patent Office
156 a lot else in physics,
matter
how
had to undergo
exciting they seemed,
then these, no
a transformation,
were simply
logical consequences.
“Five or six weeks elapsed before the completion of the publication
Toward
in question.” 4
the end of June
it
was
June 30 receipt of the manuscript was recorded
on
written up, and
all
of
at the editorial office
\
The
Annalen in Berlin. later,
was
On
titled
months
thirty-page article, published three
the Electrodynamics of Moving Bodies
5 .
was
It
a trea-
beyond compare and without precedent, one of the greatest scien-
tise tific
achievements in content and one of the most
course, there
some from
were
later additions,
few years theory”
later it
all
was called the “theory of
as the “special
a
theory which had
ready and complete, valid for
—not by Einstein but by others—and
became known
all
time.
after a
few more years
thrall
which had occupied him
for at least seven years:
He
was
later to declare that this
development of
him
in
the relativity principle in electro-
had been
his “life for over
seven years and this was the main thing,” 6 but he found retrace the
to
for a decade
include his schooldays in Aarau) and which had held
dynamics.
it
theory of relativity.”
fruition an intellectual adventure
we
A
relativity” or “relativity
At the age of twenty-six Einstein had successfully brought
(if
Of
some from Einstein himself and
were mere addenda to
others, but these
appeared before the world
brilliant in style.
his ideas over that period. 7
it
difficult to
These
ideas
involved a complete rethinking of the entire conceptual tradition of
modern its first
The
physics from
250
its
beginning. Let us therefore briefly consider
years.
principle of relativity had been discussed at the very beginning of
modern
science. It
Two Chief World
was formulated by Galileo
in his Dialogue on the
Systems published in 1632. Galileo gave ,
colorful setting that
was then fashionable.
On the
it
the kind of
“Second Day” of the
Dialogue Galileo’s alter ego Salviati invites his friends to assemble in a spacious
room
inside a ship, a
as well as a fish tank.
from the vessel.” 8
ceiling,
Finally,
room
containing midges and butterflies
Then comes an
instruction:
from which water drips into also
in
the
service
“Suspend
a second,
of science,
a
bucket
narrow-necked
the
friends
are
— Relative
Movement: “My
Life for
Seven Years”
instructed to leap forward and backward, and see
157
what distance they
cover.
The and
stage, of course,
a ship in
motion.
provided only
its
is
set for a
“Now let the
movement
comparison between
any of the observed phenomena.” 9
the
as before,
fish.
The
any speed whatever:
at
uniform and does not fluctuate one way
is
or the other, you will observe that there
about
move
vessel
a ship at rest
and no difference
is
not the slightest change in
The midges and
will
butterflies will fly
be noticed in the movements of
by leaping remains the same regardless
distance achieved
movement
of whether one leaps in the direction of the ship’s opposite direction. Perhaps most convincing of
all is
or in the
the fact that
all
the drops continue to be caught in the lower container with the
narrow neck: “Not one of them
many spans
the ship covers
With
this
will fall
on
while the drop
argument Galileo intended
assumption of
a revolving Earth.
entirely correctly
and
—that there
textbook
precisely, is
no way
case of two referential systems
is
its
rear part, even though
in midair.”
to dismiss objections to the
At the same time he demonstrated and not in the dry
in
of a modern
style
mechanics of distinguishing, in the
moving
and uniformly
rectilinearly
with constant velocity) relative to each other, which of them
motion and which
is
in
at rest.
Fifty years later this idea
monumental
(i.e.,
was included by Isaac Newton
Principia Mathematical the
in his
fundamental presentation of
modern mechanics.
It
appears, however, not in a prominent position as
an axiom, but only
as
an addition,
as
bodies included in a given space are the same
whether that space line
is
at rest,
position fs] of
among
themselves,
or moves uniformly forwards in a right
without any circular motion.” 10 However,
corollary that
“The
Corollary V:
Newton was not concerned with
it
is
clear
from
this
equivalent referential
systems, but that he postulated an “absolute space” relative to which the “given space” was either at rest or in motion. Moreover, the
“absolute space” in Newton’s concept, “in
its
own
nature, without
regard to any thing external remains always similar and immovable,” 11
and he needed
it
in order to explain inertia as well as the objective
character of rotational movement.
It
was
a
kind of all-embracing con-
The Patent Office
158 tainer within tial
which the privileged
status of
uniformly moving referen-
systems could be defined.
Newton’s “absolute space” was by no means accepted
uncritically,
but the overwhelming success of his mechanics eventually silenced objections, with the result that this concept
was soon elevated to
requisite of thought. In the philosophical analysis of
who a
gether
12 .
movable
which
all
immovable)
and hence
is
“The space
motion must ultimately be imagined (which therefore
is
called the pure, or also the absolute, space .” 13
and uniformly
moving
each other was not seen
relative to
principle of relativity
This
as well as philosophers, that the equiva-
lence of referential systems or “relative spaces”
it
of knowledge alto-
a prerequisite
called the material, or also the relative, space;
was so evident, to physicists
The
Immanuel Kant,
Restating Newton’s Corollary V, Kant declared:
is itself
that in is
a pre-
revered Newton, his concept of space was confirmed as “pure
priori experience”
that
all
as a
was so securely anchored
in
rectilinearly
problem
at
all.
mechanics that
did not even have a name.
However, toward the end of the nineteenth century, when
seemed advisable
it
to take a closer look at the foundations of mechanics,
referential systems
moving uniformly with regard
given their
modern name,
calculating
from one
“inertial systems ,” 14
The
were
and the simple rules for
system to another became
inertial
“Galileo transformations .” 15
to each other
known
as the
principle of relativity could therefore
be briefly formulated to the effect that the laws of physics have the
same form
in all inertial systems,
and that they must therefore be
invariant with regard to Galileo transformations.
That was evident
in mechanics, but the
emergence of the new
minology indicated enhanced awareness. This was due electrodynamic theory
as a
uniform way of describing
ter-
to the use of all electrical,
magnetic, and optical phenomena. Maxwell’s theory, however, did not satisfy the relativity principle
of mechanics, because
are clearly not Galileo-invariant.
The
its
basic equations
ether, moreover, represented a
privileged referential system.
After Einstein, the ether was so thoroughly swept out of physics that today a lot of historical
importance attached to
it
empathy
is
required to appreciate the
by nineteenth-century
physicists.
The
fact
is
Movement: “My
Relative
hundred years ago the ether was
that less than a
an ocean
Seven Years
Life for
159
as real as air, light, or
In interpreting their optical experiments even the
liner.
were
cleverest researchers felt that they
“virtually touching the ether
with their fingers.” 16
Maxwellian electrodynamics, the
finest
and most impressive contri-
bution to nineteenth-century physics, had actually the center of
Take
physical thought.
all
electricity
moved
Thus Heinrich Hertz
the ether to
observed:
out of the world, and light vanishes; take the
luminiferous ether out of the world, and electric and magnetic forces can
no longer
Electromagnetic
fields
travel
through space. 17
and waves,
as well as light
waves identified
as
such, were transversal oscillations of the ether, perpendicular to their
direction of propagation; and for Hertz and
made proper
sense only once they were reduced to mechanical models
of that medium. a
most of his colleagues they
“new kind of
When Wilhelm
Conrad Rontgen
in 1895 discovered
and theoretical physicists had an
ray,” experimental
interpretation ready: X-rays could be nothing other than the long-
suspected longitudinal oscillations of the ether, in the direction of propagation.
Ether physics 18 was fascinating and intellectually demanding, but
found
was
itself in conflict, in a variety
of ways, with the mechanics which
to continue as the foundation of
should be able to describe the ether share in the
it
all
physics and which therefore
as well.
A medium which
movement of matter and which pervaded
all
did not
space offered
and simultaneously preferred, referential system for
itself as a natural,
the propagation of light, as the only system in which the velocity of light has
its
value of 300,000 kilometers per second. 19 As the Earth
could hardly be
made
at rest in the
for the sun
—the
ether
Earth’s
—that assumption could
movement through
have to be observable through optical
around the sun of
thirty kilometers per
expected to be in the readily measurable {v
=
velocity; c
=
speed of light),
i.e.,
effects.
first
be
the ether would
At an
second these
at best
orbital speed
effects
could be
order of magnitude of v/c
one ten-thousandth; but nothing
of the sort was observed. In 1881 the
American Albert Abraham Michelson, then not yet
The Patent Office
160 thirty,
achieved
With
a fantastic increase in precision.
support of Helmholtz, he constructed in Berlin
the benevolent
two-arm
a
ometer for determining the second order of magnitude v 2 /c2
interferi.e.,
,
one
hundred-millionth. His apparatus was so sensitive that even the horse cabs passing outside the Physical Institute impaired
its
operation;
it
was therefore moved to the solitude of the Astrophysical Observatory in
Potsdam.
The outcome,
movement of the Earth
published in 1881, was disappointing: no
relative to the ether could
experiment was repeated, with
later the
Michelson and
his colleague
be proved. Six years
greater accuracy, by
still
Edward W. Morley
in Cleveland, but
merely confirmed the surprising Potsdam findings. admitted”
—Michelson consoled himself
American
to receive the
in 1907,
Nobel Prize (not
for similar optical precision
“I think
will
it
when he was
the
it
be
first
for his ether experiments but
measurements)
— “that
leading to the invention of the interferometer,
the problem, by
more than compensated
us for the fact that this particular experiment gave a negative result.” 20
But no one wanted to go back to before Copernicus, to
a geocentric
view, or conclude from the Michelson-Morley experiment that the
Earth was resting motionless in the ether. Instead,
were designed to prove that
it
relative to the ether. In these
was impossible
it
came
to observe a
insights: while
it
remained wedded
fairly close to the relativity theory.
was important because
a reconstruction
eral principles represented
movement
endeavors the theory of Hendrik An toon
Loren tz offered the most valuable to the ether,
brilliant theories
To
Einstein
it
of Lorentz’s theory from gen-
one of the touchstones of his own new con-
cept of space and time.
In 1877,
when he was not
yet twenty- five, Lorentz was invited to take
the newly created chair of theoretical physics at the University of
Leyden
in the Netherlands. In the 1890s, after fifteen years of
work, he developed a
new
hard
version of electrodynamics, his “electron
theory.” His terminology reflects the increase in knowledge during the final
decade of the nineteenth century: in 1892 he referred simply to
“charged particles”; in 1895, in his comprehensive Attempt at a Theory of Electrical and Optical Phenomena in
Moving
were
two years
called “ions”;
and
after 1899,
Bodies carriers of charge ,
after the discovery
of
Movement: "My
Relative
charged light
particles,
Life for
Seven Years
he called them “electrons.”
161
The
fields exist
independently of the charge carriers in the ether and react back on matter by exerting quently came to be a
known
theory embracing
at the time, a
on the charge
a force
carriers.
“Lorentz force.”
as
On
this basis
electromagnetic and optical
all
theory that proved
This force subse-
phenomena known
worth even with new phenomena.
its
In 1896 Lorentz’s assistant, the privatdozent Pieter
Zeemann,
ceeded in observing the splitting of spectrum lines in field
— an
had been sought
effect that
was such
a
a
suc-
magnetic
in vain since Faraday.
This
spectacular triumph for Lorentz’s theory that he and his
assistant
were honored
physics.
Even
in
in his old
1902 with the second Nobel Prize for age,
Einstein was enthusiastic whenever
Lorentz’s theory was mentioned: “It clarity,
he created
and beauty
as
is
a
work of such
consistent logic,
has been rarely achieved in a science based on
empiricism.” 21 It is
true that in Lorentz’s theory the relativity principle could not
find expression
through the “Galileo invariance” of mechanics.
of relativity principle was upheld in Galileo’s sense
—that
menters have no way of distinguishing whether they are
uniform
rectilinear motion.
problem of motion
with his theorem of “corresponding
at rest
— the
states.”
By
this
relate the electromagnetic values in
ether at
rest.
or in
relative to the ether
ingenious device
moving
inertial sys-
tems to the one system for which the Maxwellian equations are valid
experi-
But even that statement entailed consider-
able effort. Lorentz solved the
he was able to
A kind
To
that
end he invented
for the
strictly
moving
system an auxiliary construct which he called “local time,” in which “true time” appeared linked with the spatial coordinates. This was the first
bold
manipulation of the parameter of time in as
it
was, “local time” to Lorentz was
a physical theory;
no more than
a
but
mathe-
matical artifice without any consequence for the traditional under-
standing of time. After
all,
he had merely invented
a trick to
make
theory agree with observation, to “explain away” the first-order
For second-order
effects,
such
ment, Lorentz had to resort to
as the
a further
the
effects.
Michelson-Morley experi-
hypothesis, which had simul-
taneously and independently been introduced by George Fitzgerald.
According to
this
hypothesis,
the dimensions of a
body moving
The Patent Office
162
through the ether are shortened in the direction of movement by characteristic factor
dependent on
a
velocity: 1
This contraction was understood by Lorentz real
dynamic
forces, caused
by
as
an effect based on
compression (not specifiable in
a
detail)
of the charge carriers through their interaction with the ether.
Lorentz was thus able to develop netic
phenomena
—the
of light
in a system
title
theory for electromag-
a consistent
moving at any
velocity not reaching the velocity
of his comprehensive treatise of 1904, in which the
approximations of earlier versions were overcome and the theory was valid for
orders in
all
v/c.
The
success of Lorentz’s extension of
Maxwell’s theory was so impressive that physicists, especially in Ger-
many, already saw
it
as the
overthrow of traditional mechanics-based
physics. All physics, including mechanics,
was now to be rebuilt within
the framework of an “electromagnetic picture of the world.”
Henri Poincare was then the world’s most famous mathematician, with epoch-making contributions to both the fundamentals of his discipline
and
its
applications, especially in physics. Poincare
thetic to Lorentz’s theory but at the
creating
Not
more and more hypotheses
same time
for every
criticized
new
was sympaLorentz for
experimental
only did he encourage Lorentz to improve his theory
1904 Lorentz in tions 22
—but he
analysis
fact
made some allowance
himself
made
result.
—and
after
for Poincare’s objec-
substantial contributions to a critical
and mathematical structuring of the theory.
A good
opportunity was provided in
1
900 by
a Festschrift in
honor
of the twenty-fifth anniversary of Lorentz’s doctorate. Poincare in his contribution 23 showed,
among
other things, that Lorentz’s “local
time” could be interpreted as equivalent to
were synchronized by
light signals.
a
procedure whereby clocks
This interesting link between
Lorentz’s “local time” and the problem of time measurement was presented by Poincare four years later at the International Congress on the Arts and Sciences held, in true American style, the
World
Exhibition in
St.
on the occasion of
Louis in 1904. As an internationally
Movement: “My
Relative
Seven Years
Life for
acknowledged authority he was entrusted with the key Present State and the Future of Mathematical Physics
his synchronization procedure,
show
one might
call ‘local time,’
therefore
it .”
25
This
is
arranged in such
a
whether they were
the
first text in
—Poincare explained
“The
show the
so that one of
another. This does not matter much, as
mining
—the
a different time.
followed Lorentz in the concept of “true time”:
manner do not
On
along with the consequence that clocks
in different inertial systems also
nized in that
lecture,
M
In a section devoted to the relativity principle
which not only the subject but the name appears
163
them
However, he
clocks synchro-
true time, but
what
slow with regard to
is
we have no way
of deter-
hardly surprising, as everything had been shrewdly
way at rest
that experimenters could not possibly
tell
or in motion, just as was called for by the
relativity principle.
This lecture contained some other hints
at the future
development
of physics. Actual calculations and experiments showed that the mass of electrons was
apparently not
constant
—
expected as a matter of course from the time of sier
—but depended on
care
summed
their velocity.
“From
all
Newton and
Lavoi-
these results,” Poin-
up,
provided they are confirmed, an entirely arise,
would have been
as
new mechanics would
characterized mainly by the fact that no velocity can exceed
the velocity of light, just as
no temperature can drop below
absolute zero. For an observer himself in a translational motion,
which he does not suspect, no velocity whatever can any longer exceed that of light
This
is
the
first
26 .
indication that the velocity of light could play a major
role, structuring
theory not only in optics and electrodynamics but
also in mechanics.
Poincare, however,
when
made no
in the following year
use of this far-reaching assumption
he published Dynamics of the Electron
21 .
This did not go beyond Lorentz’s theory in terms of physics, but
moved
its
mathematical structure into
a
new
light.
Poincare combined
the three spatial coordinates and time into a “quadruple vector” and
operated with these structures as in conventional Euclidian geometry.
The Patent Office
164
The
transformations of Lorentz’s theory, which mediate between
“local time”
tion
and true time on the one hand, and
—between the
spond to
spatial coordinates
on the
—because of contrac-
other,
would then corre-
four-dimensional space. Poincare also proved
a rotation in a
that the transformations,
which he
called “Lorentz transformations,” s
displayed the kind of structure mathematicians call a “group,”
its
important characteristic being that two consecutive Lorentz transfor-
mations for their part represent an admissible transformation. Specifically this
means
against
that,
must not
expectation, “addition”
all
simply be performed arithmetically, but that the combination of two
produces
velocities always
a result that
smaller than the velocity of
is
light.
This was probably
as
much
Poincare for electrodynamics as theory were
now
could be achieved by Lorentz and
as
a physics
of the ether. But two types of
suddenly standing side by
side: first, the physics
of
matter, mechanics, with a powerful relativity principle, realized in
invariance toward the Galileo transformations; and second, the physics
of the ether, electrodynamics, in which the Lorentz transformations
had to be
valid in order that
ether, as the privileged
any
system
relative
movement with regard
at rest,
could not be observed. This
was certainly realized by the theoreticians, but they
conflict
ciled themselves to
it.
It
was certainly never
to the
also recon-
clearly formulated in dis-
cussions at the beginning of the century, except in a few prophetic
apergus by Henri Poincare.
The
conflict,
of the Expert
On
the
stein
III
however, was
at the center
of the scientific endeavors
Class at the Patent Office in Bern.
When
Dynamics of the Electron appeared in Paris on June
was
just getting his solutions
for the press. It
5,
Poincare’s 1905, Ein-
of this and other problems ready
was something no one had expected: the theory of
relativity.
The
axiomatic structure of Einstein’s paper betrays
lectual efforts, the roads
him
other ways
—
of the intel-
and the wrong turnings, which eventually led
to the solution. Footnotes are
among
little
in that
it
no help
here: the paper
does not contain
is
unique
a single bibliographical
Relative reference. 28
Movement: "My
The few
Seven Years
Life for
165
extant letters between 1903 and 1905 contain
nothing about the ideas that led Einstein to his
relativity theory,
means
must
that any reconstruction of his thinking
recollections of others and
papers
tific
on the equally scant
—and, of course, on
were not recorded
until very
much
later,
But
is
not the same
are colored
as the
by what
viewing angle.” 29
am
I
Two
one of fifty,
and Einstein himself,
thirty,
at present, in
weeks before
rian of science that he himself
if
man
Einstein’s recollections are
still
in his
of sixty-
other words by a deceptive
his death
he told
young
a
had “always found himself
they are not always consistent, and
scien-
or twenty. All memories
source of information concerning the genesis of his
even
own
his recollections
Nekrolog written in 1946, points out that “the present
seven
on the scant
rest
hints in his
his recollections.
which
at
own
a
histo-
very poor
ideas.” 30
But
times even contradictory,
our best and certainly our most inter-
esting source.
Einstein often described the beginning of the ten-year incubation
period
—
a
mental experiment in his schooldays in Aarau.
tured an observer running after a ray of light.
would be
He
What he would
had
pic-
perceive
similar to the impression of a surfer riding ahead of a wave,
at rest relative to the
water while between two
crests.
In the case of
light this situation corresponds to a electromagnetic field spatially
oscillating but at rest:
But such
a
thing does not seem to
exist, either
on the grounds of
experience or according to the Maxwellian equations. But intuitively
it
seemed
to
me
clear
from the outset
that,
judged by
such an observer, everything would have to unroll according to the same laws as for an observer at rest relative to the earth. For
how could is
that first observer
in a state of rapid
know, or be able to discover, that he
uniform motion? 31
This paradox clearly revealed
On
a
crack in the foundations of physics.
the one hand there was mechanics, in which an observer traveling
with the speed of light or even faster was entirely thinkable; on the other hand there was electrodynamics, according to which such an
1
The Patent Office
66
observer would have to see something that evidently does not
That was why an
observer, or indeed any material body, could never
attain the velocity of light
—which
how
any observer, no matter
fast
is
therefore a limiting velocity, for
theory was already present in that paradox
cial relativity
stated that this mental experiment like
move in any inerthe germ of the spe-
the observer might
system. In retrospect, Einstein believed “that
tial
exist.
an inner compass,
it
He
32 .
had always been with him
33 .
later
And
seems to have led the student straight to what
was “fundamentally important
” 34
During the summer vacation
after Einstein’s third year at the Poly-
in physics.
technic the old problem emerged in a letter to Mileva,
now
against the
background of his study of Helmholtz and Hertz, and with remarkable self-assurance for a
young man:
I’m more and more convinced that the electrodynamics of
moving bodies reality,
The
and that
as it
it
is
will
presented today doesn’t correspond to
be possible to present
it
in a simpler way.
introduction of the term “ether” into theories of electricity
has led to the conception of a
described without,
meaning
to
A month
believe,
I
medium whose motion can be being able to ascribe physical
it 35 .
later,
evidently in connection with Fizeau’s famous ex-
periment, Einstein “had a good idea for investigating the a
way in which
body’s relative motion with respect to the luminiferous ether affects
the velocity of the propagation of light in transparent bodies.
I
came up with
a
me .” 36
Einstein, in a
manner of
theory about
it
that seems quite plausible to
even
speaking, had imbibed the ether with his
mother’s milk, and despite his doubts that statements about
ment had any meaning, he intended,
as a
good
its
move-
empiricist, to tackle
it
with the tools of observation.
At about that time he conceived another experiment, analogous
to
the Michelson-Morley experiment though not based on any detailed
knowledge of
Weber, was
Wien
in
it ; 37
but this was not performed because the “boss,”
skeptical.
Aachen
38 .
We
Disappointed, Einstein turned to Wilhelm
do not know
if
he received
a reply,
or what
Movement: "My
Relative
came of
Seven Years
Life for
these efforts generally, but
it is
year at the Polytechnic he was very
167
obvious that during his
much concerned
last
with relative
movement.
much
After his exam, while he was job-hunting, Einstein placed
hope
completion of
in the
no idea what
a
paper on relative movement. 39
paper contained.
this
Nor do we know
We
have
anything about
another experiment which Einstein had thought up: “I have
much
method of
now
thought of
a
movement
of matter against the luminiferous ether,” he informed his
friend
very
simpler
Grossmann, “one that
is
based on ordinary interference experi-
ments. If only inexorable fate would grant necessary for them.” 40 theory: “I
am
busily at
which promises had doubted
investigating the relative
Toward
me
the time and tranquillity
the end of 1901 he was back with
work on an electrodynamics of moving
to be quite a capital piece of work.” 41
his ideas,' but
when he
bodies,
At one time he
discovered that only a “simple cal-
culation error” had slipped in and spoiled everything, he was jubilant: “I
now
them more than
believe in
what he believed
ever.” 42
But we
still
do not know
in.
Ele certainly explained his ideas to Professor Kleiner of the University
of Zurich, and this experienced physicist had liked them:
advised
me
to publish
my ideas
on the electromagnetic theory of light
of moving bodies along with the experimental method,”
summed up
the conversation for Mileva.
“He found
proposed to be the simplest and most expedient. about the success. sure.” 43
I’ll
I
the
is
how
method
he
I’ve
was quite happy
write that paper in the next few weeks for
However, he probably was,
He must have
“He
encountered
again, overoptimistic.
difficulties in
putting his ideas on paper,
because instead of publishing he decided to “get
down
to business
now
and read what Lorentz and Drude have written about the electrodynamics of moving bodies.” 44 Jakob Ehrat,
a
former fellow student and
now an assistant, “will have to get the literature how much Einstein may have read, his reading thing that went into print.
making
Versuch of 1895,
use,
now
me.” 45
No
matter
did not produce any-
A year later, by then at the Patent Office, he
was once more “engaging theory,” 46
for
in
comprehensive studies
probably not for the
available in
German.
first
in
electron
time, of Lorentz’s
The Patent Office
168
Einstein by then had totally lost his
initial belief in
the ether.
Even
as a
student he had considered the possibility that electrodynamics might
become “the theory of the movements of moving netisms in empty space.” 47 Poincare in La Science
electricities
et
Phypothese
&
mag-
—which,
according to Solovine’s account48 “for weeks on end captured and
members of
cinated” the
the
Akademie Olympia
—had
fas-
reduced the
ether to a hypothesis which was “convenient for the explanation of
phenomena” and even predicted
that “one day the ether will undoubt-
may have understood this he was himself much closer
edly be discarded as unnecessary.” 49 Einstein
programmatic
as a
invitation,
but by then
to that opinion than the great mathematician.
This must have been recognized by Josef Sauter cal ether
Annalen
am
when he wanted
own
ideas
on the mechaniin
and once more declared:
“I
50 .
Einstein was not interested at
all
His intensive study of radiation theory had convinced
“that Maxwell’s theory does not describe the microstructure of
radiation and therefore ally
to discuss his
models of Maxwellian theory, which had been published
a heretic.” 51
him
his Patent Office colleague
is
not universally tenable.” 52 This view eventu-
culminated in Einstein’s “heuristic viewpoint” on light quanta,
which no longer had any use
for the ether.
Two
months before
state
of knowledge at the time he developed his relativity theory: he
his death, Einstein replied to a question
said that in 1905 “I only
knew Lorentz’s important
treatise
on
his
of 1895,
but not Lorentz’s later work, nor Poincare’s follow-up work. In that sense
my work
in 1905
was independent.” 53 Most probably Lorentz’s
publication of 1904, which for the
first
time presented the “Lorentz
transformations” in generally valid form, was not available in Bern,
having been published in the Proceedings of the Amsterdam Academy,
which was not widely
distributed.
But he must have known
a lot
more
than only Lorentz’s Versuch of 1895. Einstein’s passionate interest in Annalen
is
unlikely to have dimin-
ished during his time in Bern, especially as he was tributor to
it.
now
a regular
con-
my free
time
Although he once complained that “during
Movement: “My
Relative the library
closed,” 54 he should have
is
with publications. His
169
had no problem keeping up
would have occasionally involved
the city and university libraries, so that, in addition to elec-
visits to
trical
official duties
Seven Years”
Life for
engineering publications, he could have studied physical jour-
nals. 55 If that
him some
was not enough, Professor Gruner would surely have lent
publication for excerpting.
therefore seems virtually impossible that Einstein could have
It
missed the seventy-five-page treatise Principles of the Dynamics of the Electron 56
by the Gottingen privatdozent
Max Abraham. He
had Abraham’s paper, published in 1904, On Radiation Pressure
own
paper.
57 ,
or at least notes on
it,
certainly
the Theory of Radiation
and
when he wrote
available
That same year Einstein would have been
his
able to read in
Annalen Wilhelm Wien’s Differential Equations of the Electrodynamics of
Moving
Bodies, 58
which contained many references
ture, as well as a
subsequent polemic between
to the latest litera-
Wien and Abraham,
in
which Wien not only quoted Lorentz’s work of the same year but actually provided an outline of
On
Annalen
59
The
Emil Cohn likewise published
retician
tions
it.
,
outstanding Strasbourg theohis
phenomenological
the Equations of the Electromagnetic Field for as
Moving
reflec-
Bodies60 in
an alternative to Lorentz’s theory.
The most important
experimental contribution of those years,
Walter Kaufmann’s measurements of the deflection of electrons electric
and magnetic
kalische Zeitschrift, 61
fields,
founded
in
appeared not in Annalen but in Physi-
in 1900,
which was
also available in Bern.
Indeed Einstein must have positively had his nose rubbed in
it
by
Abraham’s and Wien’s theoretical treatment of that question.
The text
is
only aspect of this discussion of immediate interest in
this
con-
the fact that the velocity of light was emerging as a limit for the
movement of the
electron, with
Wien,
for instance, declaring that “by
exceeding the velocity of light an infinite amount of work would be
performed.” 62
More
particularly, the
increment in the mass of the
electron at increasing velocity was seen as an indication of the electro-
magnetic origin of
all
mass, the
more
so as this view fitted well into
endeavors for an “electromagnetic world picture” physics and as an alternative to mechanics.
as the
foundation of
The Patent Office
170
Despite their physical sophistication and mathematical virtuosity, the theories put forward and discussed at the beginning of the century
must have seemed imperfect
to Einstein because of their adherence
to the ether as a referential system at rest. Also,
he had long been
unhappy about the customary view of electrodynamics, of
if
asymmetry. This concerned Michael Faraday’s
its
ment,
only because
classic experi-
simple school experiment watched by millions of students
a
much thought in them. To Einstein, however, it was of crucial importance. This we can read between the lines of the opening paragraph of one of his publications, and we know about it without setting off
from
a
manuscript, completed in 1920, for a special issue of the
English periodical Nature devoted to relativity theory.
When
ready he complained to his translator that “unfortunately so long that fact, a
very
I
much doubt
if it
it
has
it
was
grown
can be published in Nature” 63 In
greatly abridged version 64 was published, leaving out
(among
other things) some personal reminiscences which, fortunately, have
come down
to us with the thirty-one-page original version. 65
After nineteen pages of objective didactic exposition, Einstein
abandoned
his
dry
scientific style
and offered
a surprising insight into
the subjective aspects of his reflections:
In the creation of the special relativity theory the following, not
mentioned, idea about Faraday’s magnetoelectric
previously
induction played a leading role.
During the electric
circuit
induced in the is
moved or
relative
movement of a magnet with
an electric current latter. It
is,
according to Faraday,
makes no difference whether the magnet
the conductor, what matters
only. According to the
regard to an
is
the relative
movement
Maxwell-Lorentz theory, however, the
theoretical interpretation of the
phenomenon
is
very different for
the two situations. If the
magnet
is
moved,
a time-variable field exists in space,
which, according to Maxwell, gives
rise to
closed electric lines of
a physically real electric field; this electric field
force,
i.e.
sets in
motion the movable
electric
then
masses within the conductor.
Relative If,
Movement: "My
however, the magnet
moved, then no
at rest
is
electric field
Life for
is
Seven Years
and the
171
electric circuit
is
created. Instead, the current
is
caused in the conductor through the fact that the electricities
moved with
the conductor are subject, through their (mechani-
cally enforced)
motion
relative to the
magnetic
an elec-
field, to
tromotive force hypothetically introduced by Lorentz.
What
described
Einstein
Faraday in 1831
as
here had been discovered by Michael
one of the milestones on the road to
a
understanding of electricity and magnetism. Quite apart from retical
it
gave
rise to the
development of generators
an electrical current and motors to use electrical
In
electrical
it.
As
a
to
produce
youngster in the family’s
machines from
his uncle Jakob.
As
for the pitfalls of
had probably encountered those
as a stu-
Polytechnic in August Foppl’s 66 book on Maxwell’s theory.
at the
its
theo-
engineering firm, Einstein must have learned something
theoretical interpretation, he
dent
its
importance, Faraday’s demonstration had enormous practical
consequences:
about
uniform
chapter,
fifth
“The Electrodynamics of Moving Conductors,”
Foppl analyzed the arrangement of magnet and conductor in terms of relative
movement
—without, however, noting any profound
conflict
of principle. Einstein’s friend and colleague Besso believed that
it
was he who
had introduced the topic into their conversations, and “thereby having participated in the relativity theory, realizing as an electrical engineer that
what
in the
induced part
as
framework of Maxwellian theory appears
an electromotive force or
as
ing to whether the inductor of an alternator
must be viewed
in the
an electric force, accordis
at rest or in rotation”
“as a peculiar practical anticipation of the relativity
concept.” 67 Einstein, of course, had been aware of that problem since his student days, so that his talks
with Besso merely gave
it
sharper
outline.
Let us
see, then,
what conclusions Einstein drew from the asym-
metric description of Faraday’s experiment:
The to
idea that these
me.
I
were two disparate situations was intolerable
was convinced that the difference between the two was
The Patent Office
172 merely
of the station of the observer.
a difference in the choice
Viewed from the magnet there present, viewed
The
existed.
from the
certainly
electric circuit,
was no such a
electric field field certainly
existence of the electric field, therefore, was a rela-
according to the state of motion of the system of co-
tive one,
ordinates
used,
and only the
electric
and
magnetic
fields
of motion of the observer, or the —regardless of the kind of objective system of coordinates — could be adjudged state
jointly
a
This phenomenon of magnetoelectric induction com-
reality.
me
pelled
From
a
to postulate the [special] relativity theory
footnote to the above account
we may conclude
“The
difficulty to
be overcome was in the constant nature of
the velocity of light in a vacuum, which initially
This
to discard.”
that Einstein
was toying with alternatives to the Lorentz-Maxwell
for a while
theory:
68 .
is
I
thought
I
would have
one of the few indications of endeavors in the
course of which he intended to do without the universally constant velocity of light, inherent in the theory.
The velocity of light was
to be
constant only for an observer stationed next to the light source,
whereas
different value,
the source. ideas
on
moving
observers
all
relative to that source
depending on their own
That was not only
rel.
relative velocity
with regard to
he
later
theory
it
wrote of one such “emission
was
also
mine .” 69
But Einstein returned penitently to Lorentz’s theory,
by the knowledge that the independence of state
of motion of the
theory, even
if it
light’s
before. Later he
Mechanically
him back
light’s velocity
richer
from the
to the
relativity principle in
same contradictory
would sum up that dilemma all inertial
now
source must be a crucial part of any future
openly contradicted the
chanics. This brought
me-
situation as
as follows:
systems are equal. According to experi-
ence, this equality extends also to optics, or electrodynamics.
This equality, however, seemed unattainable in the theory of the latter.
due to
At an early stage a
a
plausible but also in line with Einstein’s
light quanta. In fact,
theory” that “prior to the
would measure
I
gained the conviction that this was
profound imperfection of the theoretical system.
wish to discover and to eliminate
this created in
me
The
a state
of
Movement: "My
Relative
Life for
Seven Years
173
psychological tension which, after seven years of vain searching,
was resolved by the dimension
relativization of the concepts of time
70 .
These “profound imperfections,” however, were not
to be eliminated
by the well-tested methods of “normal science,” even level
of Annalen. In this Nekrolog Einstein described
was aware of those looked for I
and
difficulties
at the exalted
how
intensely he
and in which direction he eventually
a solution:
was more and more
in despair
ering the true laws by
about the possibility of discov-
means of constructive
efforts
based on
known facts. The longer and the more desperately I tried, the more I gained the conviction that only the discovery of a general formal principle could lead us to safe
dynamics
as a
the theorem:
results. I
regarded thermo-
model. There, the general principle was stated in
The
laws of nature are of such a character that
impossible to construct a perpetuum mobile (of the
second type). But
Not
how was
until Einstein
such
a principle to
it is
first
or
be discovered ? 71
had actually discovered the principle did he
understand that his earlier efforts to resolve these painful paradoxes
had been “doomed to acter of time
failure so
long
as the
axiom of the absolute char-
and simultaneity were anchored,
the subconscious .” 72
What was
from the subconscious
it
albeit unrecognized, in
about time that Einstein had to
to the conscious
mind before he could
raise
“rela-
tivize” it?
“WTat is time?” This question was asked long ago by St. Augustine, who was not the first to find himself perplexed by it: “If no one asks me about it I know it, but if I am to explain it to a questioner I do not know it .” 73 Not so the fathers of modern physics. Newton, for one, was less
concerned about any internal experience of time than he was
impressed by the regularity of the planetary system and the logic of mechanics.
he
said,
He
“of
saw an “absolute,
itself,
and from
its
true,
and mathematical time” which,
own
nature flows equably without
regard to any thing external and by another
Newton
name
is
called duration .” 74
himself must have been aware that this explanation was
cir-
The Patent Office
174 cular
—and that
this absolute time,
unchanging and independent of the
material world, evidently could not be measured or read off anywhere.
What was measurable was something different: “relative, apparent, and common time,” which according to Newton “is some sensible and external (whether accurate or unequable measure of duration
means of motion, which an hour,
common
a day, a
is
month,
commonly used
a year.”
by the
instead of true time, such as
This distinction between absolute and
human
time was forced on Newton, not only by fluctuating
perceptions of time and by the inaccuracy of the clocks of his day,
but also by small irregularities in that best of the rotation of the Earth.
was no motion by which But
this did
Newton even thought
common
it
natural timepieces, possible that there
time could be measured accurately.
not affect the existence or unchangeability of true time;
and getting close to true time was equable, progress of absolute time
True
all
time,
though not
a
is
a task
of science: “The true, or
no change.”
liable to
substance like the ether, was regarded as
an objective “something,” present throughout space, but independent of space and of matter, or of their states of motion. If someone in Lon-
moment as “now,” then this “now” would also be valid not only for Hamburg or Beijing, but also for the moon or for Sirius. This is in line not only with human perceptions of time but also don defined
a
and more significantly for physicists
—with
Newtonian mechanics.
Gravity, according to Newton’s law of gravity, propagates instanta-
neously throughout space, so that a stone falling to the ground on
Earth must, “at the same moment,” cause effects surably small ones
—
albeit
immea-
—on the moon. That was why everybody, especially
mathematicians and physicists, had been happy for centuries with
Newtonian uniform
As time”
time. Einstein later caricatured this idea as an “eternally
tic-tac perceptible
a student Einstein
made no
only to ghosts, but to them everywhere .” 75
had already learned from Mach that “absolute
sense. In his Mechanik,
Mach
pointed out that absolute
time could not be measured anywhere and that therefore practical
and also of no
knows anything about
scientific value; it,
it
a
is
no one
to physics. But
it
“was of no
entitled to say that
he
useless ‘metaphysical’ concept .” 76
Mach’s strong language was confined to
no importance
is
it
criticism
must have been
and
initially
was of
to the taste of the
Relative rebellious student,
Movement: "My
who
Life for
Seven Years
probably remembered
175
from the
that, apart
definition of time spans with clocks of whatever kind, there
“time in
was no
itself.”
From
his study of Poincare, Einstein gathered that time should be
regarded merely
as a
convenient convention. In La Science
et
Vhypothese
Poincare not only rejected “absolute time” but widened his critique to other intuitive certainties such as simultaneity at different locations:
“Not only do we have no times, but
direct experience of the equality of
we do not even have one
two
of the simultaneity of two events
occurring in different places.” 77 For details Poincare referred to his essay The Measure of Time
,
published in 1898 in a philosophical
journal 78 not read by physicists.
Given the eagerness with which, according
members of
the
the
would be surprising Poincare concluded of
all
line
Akademie Olympia studied Poincare’s book, if
before
it
could be measured, time would
—not, however,
in an arbitrary
first
manner but
in
with the simplest possible form of the laws of nature: “Simul-
two events or
their sequence,
and the equality of two spaces
way as
to ensure the simplest possible
of time must be defined in such a
formulation of natural laws. In other words, definitions, are
merely the
fruits
power over human minds because
a
it
to enlightened
it.
—
all
these
as well
and gained such
A
good opportunity
for ele-
optimism was provided by Lorentz’s electro-
dynamics through the introduction of (t
these rules,
naive sense of time and Newton’s
theory of gravitation had converged in vating
all
of unconscious optimism.” 79
This unconscious optimism had worked
=
it
they had not also gotten hold of that essay.
that,
have to be defined
taneity of
t'
to Solovine’s account,
vx/c2 ) for referential systems
a
transformed “local time”
moving with
a velocity v relative
to the ether. Lorentz, however, clung to the idea of “true time”
regarded “local time”
A
as
merely
a
and
mathematical device.
physical interpretation of Lorentz’s local time was provided by
Poincare in his outline of a method of synchronizing clocks by light signals
—the same procedure Einstein would subsequently use
element in constructing
his relativity theory.
as a vital
This would suggest that
Poincare came very close to the relativity theory himself, but in fact he never intended any further modifications, believing with Lorentz that
The Patent Office thus regulated “show not the true time, but what could be called
.v/vKS
‘local time.’
” 80
He
thus remained within the conceptual framework of
Lorentz’s theory, and relativity theory was discovered by someone else.
Einstein’s paper of 1905 reveals nothing of the
background to
stroke of genius, and in later years he always referred to table brevity.
The
such reference was in
first
a
it
his
with regret-
major overview
article
written toward the end of 1907 for the Jahrbuch der Radioaktivitat und Elektronik 81 (to be referred to later as his “Jahrbuch article”). “It turned out, surprisingly, that
precisely
enough
to
it
was only necessary7 to define the time concept
overcome the
realization that an auxiliary
by him
called
‘local
.
.
.
needed was the
difficulty. All it
term introduced by H. A. Lorentz and
time’ could be defined as ‘time’ purely and
simply.” 82
His
comments were,
later
he wrote: “Only ficulty
after years
if
anything, even
of probing did
I
more
laconic. In
become aware
1920
that the dif-
was due to the arbitrary nature of the basic kinematic con-
cepts.” 83
And
four years
later:
“By means of a
simultaneity in a shapable form theory.” 84 Further details are genesis of the theory self “in a strangely
came up
I
revision of the concept of
arrived at the special relativity
nowhere
Whenever
to be found.
in conversation, Einstein expressed
impersonal manner.
He
the
him-
hour of birth of
called the
” 85
Thus we know that the hour of birth was that fine May evening when Einstein discussed his “difficult problem” with Besso, and we also know that Einstein found his soluthe relativity theory ‘the step.’
tion
by “an
them
analysis of the time concept.” 86
discussed, and
how
But
just
what the two of
the crucial idea emerged, and
how
immediately afterward, “completely solved” his problem
Einstein,
—
all
that
probably happened during that conversation with Besso?
It is
remains concealed in the darkness of a night in May.
What
likely that the friends
which he presented
had before them one of Poincare’s papers
his
method
for the synchronization of clocks as
being equivalent to Lorentz’s “local time” St.
—either
Louis or his contribution to the Lorentz
quoted by Einstein
a
year
in
his
Festschrift.
later, in a different context, 87
1904 lecture in
The so
it
latter
was
must have
Movement: "My
Relative
Seven Years”
Life for
177
been available to him in Bern. As for Poincare’s lecture The State and Future of Mathematical Physics Einstein could have found that either in ,
a
widely read journal 88 or in
hot off the press, of a collection of
a copy,
essays called The Value of Science
.
89 It
also
seems
versation Einstein and Besso discovered
synchronization procedure that
may
con-
likely that in their
some
aspects of Poincare’s
have escaped Poincare himself.
How would it be — the two friends, by then skeptical about “true time,” might have asked not just
a
—
if
the time defined by Poincare’s experiment was
mathematical device for Lorentz’s “local time” but in
fact
everything that a physicist could expect of a meaningful concept?
Admittedly
this
would give
a different
“time” for every inertial system,
but the constancy of the velocity of light for any observer would in that case be inherent in Poincare’s definition of simultaneity and not, as with Lorentz, have to be forcibly
brought about by
would
a laborious
adjustment to theory.
The
fruitfulness of this exceedingly daring idea
struck Einstein at
home, when he
cept,
as
—introduced an independent hypothesis — from
by Lorentz into
this
his
modified time con-
without any further assumptions, and in thus obtaining
formation of the local coordinates. As
later
succeeded in deriving the
easily
“Lorentz-Fitzgerald contraction”
theory
might have
a trans-
a skilled electrodynamicist
he
would then have examined the behavior of the Maxwell-Lorentz equations
under these transformations.
When
it
emerged
his nocturnal calculations that these equations that,
moreover, the “Lorentz force,” introduced
in the course of
were invariant and as
an independent
hypothesis into electron theory, also resulted readily from the trans-
formation behavior, virtually everything was accomplished. Relativity principle and universal constancy of the velocity of light, Maxwellian
theory and Lorentz transformations: everything came together in the most wonderful way, and the following lantly
informed
his friend
morning Einstein
jubi-
Besso that he had “completely solved” the
problem.
This discovery was undoubtedly Einstein’s most intense experience.
The
happy time
five
weeks he needed to prepare
for him. In fact, he
colleague Sauter he merely said:
it
for publication
was speechless with happiness.
“My joy is
indescribable .” 90
were
To
a
his
CHAPTER TEN
The Theory
of Relativity:
“A Modification of the
Space and Time”
of
It
obvious from the
is
Theory
style
and structure of Einstein’s paper On
Electrodynamics of Moving Bodies that
author expected
its
it
only in Annalen der Physik, but also in the annals of history.
with great care, and but also
its
its
Part” which in turn
of these parts
is
a
his friend
mere
novelty
five
is
introduction
followed by the “Kinematic
is
succeeded by the “Electrodynamic Part.” Each
further subdivided into five sections. Einstein had
tain ... to interest
on
its
written
definitive character.
The programmatic
promised
to live not
It is
axiomatic structure reflects not only
the
Conrad Habicht: “the purely kinematic part
you”
1 ;
and in
two sections of that
fact the first
printed pages, contain
all
is
the essentials of the
cept of time and space. In the next three sections of the
cerpart,
new con-
first
part the
consequences affecting the kinematic space-time structure are purely deductively derived. In the second part
trodynamics are presented in their
new
some
central problems of elec-
garb, as a practical application
of what has just been set out.
The
structure of the paper, giving preference to kinematics over
dynamics, indicates that
ongoing debate, but
it
will
be not just
a revision that
a
new
contribution to an
should transform the conceptual
foundations of physics.
“Kinematics”
is
the theory of the purely geometrical
movements of
bodies without any consideration of forces; once forces are included, physicists speak of “dynamics.” Einstein’s
then
all
would
at
concentrating on dynamics;
most undergo
it
famous contemporaries were
was expected that kinematics
certain modifications through the theoretical
178
The Theory of Relativity
development of dynamics. The Electrodynamics of Moving Bodies
But
content
its
is
not:
taneously obtains a
As stein
— On
the
entirely in line with that tradition.
is
by presenting
a
new
new dynamics, and
again begins with
Maxwell’s electrodynamics
moving
kinematics, Einstein simul-
thus a
a
contradiction:
—
as usually
new
physics.
is
“It
well
is
understood
at
known
present
In this
first
—when to
sentence Einstein suggests not
anything wrong with the theory, but only that
wrongly interpreted. Nevertheless,
that
seem
bodies, leads to asymmetries that do not
phenomena .” 2
attach to the that there
of Einstein’s paper
title
paper on his “heuristic viewpoint” of light quanta, Ein-
in the
applied to
—
179
this will
make
all
it
is
the difference,
because in an appropriate interpretation, he implies, the symmetry of the
phenomena would
be reflected in the theory. This
also have to
profound change in fundamental concepts.
call for a
Actually,
no one
else
had regarded these asymmetries
worth discussing, so that the opening sentence
known
as a
—beginning
problem
“It is well
—urgently needs an explanation. Einstein provides
.” .
will
.
this
by
using the example of Faraday’s induction experiment, one of the main
themes of
his years
of “pondering.” Although the magnitude and
depend
direction of the induced current
ment of conductor and magnet, present,”
makes
magnet and conductor.
solely
on the
a strict distinction
fact that Einstein
does not of course belong in
move-
the theory, “as usually understood at
between the situation of moving
stationary conductor versus stationary
The
relative
found
this
magnet and moving
asymmetry
“intolerable
”3
a scientific publication.
Einstein next establishes a surprising link between this “intolerable”
asymmetry and
a totally different
a class
problem:
Examples of a similar kind, confirm
a
of experiments which seem to represent
as well as the unsuccessful
motion of the Earth
attempts to
relative to the “light
medium,”
lead to the assumption that not only in mechanics, but also in
electrodynamics, there are no properties of the
phenomena
that
are in accordance with the concept of absolute rest.
At
first
glance, there
is
no connection between the
theoretical descrip-
tion of the induction experiment (involving conductor and magnet)
The Patent Office
180
and the experiments on ether
drift.
To
have recognized
both are connected with the problem of
how
closely
movement was
relative
a
stroke of genius. It brought together the difficulties of interpreting
Maxwellian theory and led straight to the
relativity principle as a sign-
post on the road to resolving them.
A tries
system involving absolute rest results in “intolerable” asymmeand, moreover,
is
not observable by ether-drift experiments or
any other methods. Such
a metaphysical
monster makes no physical
sense and should therefore be banished from physical theory. For that reason, Einstein continues: ... in
all
coordinate systems in which the mechanical equations
are valid, also the as has already
same electrodynamic and
optical laws are valid,
been shown for quantities of the
made
This proposal
is
Galileo’s ship,
moving uniformly and
a
kind of update,
are unable to determine
first
possible
4 .
by Poincare, of
whose occupants
rectilinearly,
whether they are
order
or in motion, no
at rest
matter what mechanical or electrodynamic-optical experiments they
may perform. Immediately afterward, Einstein compresses the entire range of his thinking
—from the mental experiment of
his schooldays in
—into
the complexities of the Maxwell-Lorentz theorytence,
which already contains
We
Aarau to
a single sen-
a hint of the solution:
(whose content
shall raise this conjecture
will
principle of relativity”) to the status of a postulate
be called “the
and
shall intro-
duce, in addition, the postulate, only seemingly incompatible
with the former one, that in empty space light gated with a definite velocity
of motion of the emitting body
The state)
which
c
is
observer
—for instance,
one
always propa-
independent of the
state
5 .
“principle of relativity” implies (though that the velocity of light
is
is
it
does not explicitly
constant not only for a single
sitting at the light source
—but
for
any
observer.
These two
postulates are mutually incompatible in
mechanics. Einstein’s main
task, therefore, will
Newtonian
be to prove that
this
The Theory incompatibility
is
of Relativity
181
only apparent. At the same time Einstein announces
firmly and bluntly that the “luminiferous ether” will “prove superfluous.”
Thus
the concept that governed throughout the nineteenth
century will be discarded.
Toward
the end of his introduction Einstein
points out that his theory will base itself
on the kinematics of
rigid
bodies, “since assertions of each and any theory concern the relations
between
rigid bodies (coordinate systems), clocks,
He
processes .” 6
and electromagnetic
thereby indicates that the “new thinking” will repre-
sent a reinterpretation of space and time in concretizing the measure-
ment of spatial and time
new
prerequisite of
No
all
distances
—
in fact, a theory of
measuring
as a
physics.
one had considered anything so elementary to be necessary or
even to make sense. Despite the complexities of Lorentz’s theory, the procedures for measuring space and time were so
much
a
matter of
course in physicists’ prescientific, unconscious “old thinking” that even Poincare, though he
made
profound critique in several directions,
a
did not achieve a decisive revision.
Before turning to Einstein’s
new
ideas of space
and time,
useful to examine the methodological status of his tions: the “principle
it
may be
two presupposi-
of relativity” and the universal constancy of the
velocity of light.
Both principles not
a direct
are,
of course, related to experience, but they are
consequence of experience.
though inherent
in mechanics,
is
The
“principle of relativity,”
not inherent in electrodynamics
based on the ether. Only with major efforts had “rescue”
it
as a generalization
For Einstein
to elevate
on philosophical
it
up
it
been possible
to magnitudes of first order in
to a general postulate, based at least as
on experience, was therefore
reflection as
to
v/c.
much
a signifi-
cant step beyond empirical knowledge. Einstein’s procedure, based
more
on postulated
clearly with his second presupposition.
of light
is
independent of the
state of
principles,
The
emerges even
fact that the velocity
motion of
its
source
is
purely
empirical and might equally well have turned out otherwise. In his
Jahrbuch
article,
this question:
two and
a half
whether or not
years later, Einstein would return to
this
presupposition
“is in fact really ful-
The Patent Office
182 filled in
nature
anything but
is
a
matter of course, though
it is
rendered
of coordinate system of — for motion — by the confirmations which Lorentz’s theory, based upon the
probable
at
least
assumption of an ether
definite
a
a
state
from experi-
at absolute rest, has received
ment.” 7 Direct experimental evidence of Einstein’s postulate was unobtainable at the beginning of the century. 8
Thus
his presupposition
does not follow inevitably from experience but can be justified only by success.
According to Einstein’s announcement, such success consists
in the fact that “these
two postulates
suffice for arriving at a simple
consistent electrodynamics of moving bodies rest.” 9 In his
theory for bodies at
two
on the
and
basis of Maxwell’s
principles, therefore, Einstein
reached that firm ground which, on the model of thermodynamics, “could lead to reliable results.” 10
Einstein’s decisive step
more
was the
accurately, his careful examination of what
intervals
means
His
in physics.
and time,
“relativization” of space
definitions,
or,
measurement of time
set
down
tion with these principles, jointly provide the foundation
in conjunc-
from which
everything comprised by the “special relativity theory” can then be derived.
The formulation in which the theory was born is actually known today. Subsequent presentations, some by Einstein placed the emphases well as the
the
somewhat
more demanding
“new thinking”
still
differently, 11
as it
is
himself,
and most textbooks,
popularizations, have followed
suit. 12
emerges more clearly than anywhere
Einstein’s paper of 1905, especially in the
“kinematic part.”
scarcely
A fairly full
first
as
But
else in
few sections of the
account of that “prelude”
is
as
tempting
indispensable, although the contents of the later sections can be
sketched out only in their essentials.
The
first
sound
section
trivial, as
Einstein had to cisely.
To
that
is
headed “Definition of Simultaneity.” This may
we all know
believe
we know what
precisely7
simultaneity means. But
and to formulate
end he proceeds from
a
“system
his definition pre-
at rest,” the
customary
three-dimensional Euclidian space with Cartesian coordinates, in
which the movement of
a
body
is
described by
its
coordinates as a
The Theory of Relativity function of time. This
why
asked themselves
so conventional that
is
physical meaning, ‘time.’
” 13
we
many
readers must have
was even mentioned. Einstein, however, con-
it
by stating that “for such
tinues
183
have to
first
Here we have
a
mathematical description to have
a
clarify
what
is
to be understood
a
by
suggestion that this has not been the case in
the past, and, evidently using Poincare’s critique of the customary
understanding of time, Einstein makes involving time
tions
events.”
To
always propositions
are
all
our proposi-
about simultaneous
ensure that no one will miss the importance of this asser-
tion, Einstein illustrates
with what
it
sentence ever printed in Annalen arrives here at 7 o’clock,’ that
small
hand of
neous
events.’
This
clear “that
it
my
:
“If,
is
perhaps the most unassuming
for example, I say that ‘the train
means more or
less, ‘the
pointing of the
clock to 7 and the arrival of the train are simulta-
” 14
sufficiently defines a “time,”
though
Anyone who has ever
tion of the clock.
initially
reflected
only for the loca-
on time, whether
a
physicist or not, will readily extend this plausible understanding of
“time” to the whole universe, in the sense that the position of the
hands of the Bern station clock shows the “true” time not only for
Geneva or Zurich, but even be correct
if
also for the
moon and
for Sirius.
This could
signals propagated instantaneously or, in other
words, at infinite velocity. Einstein,
moving
however,
concerned with the electrodynamics of
is
bodies, and that
is
—which
velocity of light
why
it
makes sense
finite.
That
is
why
in the
enormously high, but
is
it is
Einstein insists that his definition of simultaneity
valid only for the location of the clock. “It as series
overwhelming role
plays such an
Maxwell-Lorentz theory. This velocity
to introduce here the
becomes
insufficient as
is
soon
of events occurring at different locations have to be linked
temporally, or
—what amounts to the same—events occurring
at places
remote from the clock have to be evaluated temporally.” 15 This would require a definition of the assignment of times to spatially separated locations, to be effected
by
specific clocks
and
real physical processes.
Einstein accomplishes this assignment by proposing a synchronization procedure tical
which
is
exactly the
same
as Poincare’s.
clocks at spatially separated locations
A
Let two iden-
and B indicate “A time”
The Patent Office
184
and “B time.”
The
time
common to A and B
thing that exists and can has
now
by the
“B time”
2b,
B
and
are synchronous
“A time” 2a
at
arrives
back
at
tA
“A time” of a clock
at location
may be
is
reflected
is
equal to the
at rest” for
t' B
~
t
a
spatial location
(t 'a
+
B can be
tf)
which these observations were
—that the velocity of
a universal constant. Einstein thus obtained a
fered fundamentally
set to the
17
stated “in accordance with experience”
with Maxwell-Lorentz theory
A at
from B toward
A in accordance with l
it
B
A at “A time” 2'a. The two clocks
=
ts— h For the “system
,
any
this definition all clocks in
made,
A to
if16
by definition
tB~
With
physicist. It
needs to travel from B to A. For, suppose a ray of light
it
A toward
leaves
some-
be determined by establishing by definition that the
“time” needed for the light to travel from “time”
not, for Einstein,
discovered, but something that
to be appropriately established
first
can
somehow be
is
—
initially
in line
i.e.,
light in a
vacuum
time concept which
is
dif-
from that of Newtonian theory, where any “A
time,” just like any “B time,” was valid throughout the universe. This
new
definition of time
theory, with
its
ether at
would have been useful even
for Lorentz’s
ultimately equivalent to Lorentz’s local
rest, as
time. Poincare had noticed that but
had
failed to
draw the implied
conclusions. Einstein,
on the other hand, would draw important conclusions
from these seemingly pedantic
reflections
—
in the next section,
he considers rigid bodies, clocks, and observer in motion
where
relative to
each other.
At the beginning of the second
section,
sions and Times,” Einstein once
precisely as possible.
“Suppose let it
a
have
rod a
the Relativity of
more formulates
measured with
/.”
Now
a
Dimen-
two principles
his
Then, abruptly and without any
at rest;
length
“On
lead-in,
he
measuring rod likewise
suppose the rod
is
put into
as
says:
at rest;
a state
of
The Theory of Relativity
motion with
moving
the
constant velocity
a
rod, describes
how
v.
185
Einstein, asking about the length of
can be determined by two funda-
this
mentally different operations.
To
be sure, Einstein
throughout
referring,
is
using almost “prerelativist” terminology by
this section, to a
rod, either at rest or in motion,
system “at rest” in which the
—
the background of Lorentzian theory
lets
through,
reader can lose the thread. For that reason
formulation
this
motionless ether
a
which even an
also leads to complications in
it
While
observed.
is
I shall
—shine
attentive
use two referential
systems: this will deviate from Einstein’s text but will not change his
argument. In
fact, in his
next section Einstein himself goes over to this
clearer presentation.
Consider, then, two referential systems k and K, both furnished
with measuring rods and synchronized clocks,
and congruent.
The
initially at relative rest
length of the rod arranged parallel to the
of course, the same in both systems:
/.
v.
v relative to K, with the rod at rest in k but
The
length of the rod in k can
now
is,
Let the rod and system k
be accelerated until they move along the x-axis ity
.r-axis
at a
constant veloc-
moving
in
K at velocity
be “thought to be obtained by
two operations.” 18 First let an observer determine the length of the rod at rest in
k.
must be the same
as
“According to the the length
/
relativity principle” this length
of the rod at rest in K.
Any
deviation
would annul the
equivalence of the two systems and thereby violate the relativity principle. ciple
While no one
at this
—would expect anything
point
— even without the
different, the
relativity prin-
second operation immedi-
ately brings a surprise.
An
observer in system K, relative to which the rod
velocity
ends
A
v,
now
and B of the rod are
one obtains “also ” 19
This
is
principles,
This
is
a
is
at a definite
at
and
moment.
length which one might
will
it
call ‘the
moving rod
now determine
will find
If the distance
measured with the measuring rods from K,
the length tab of the
announces that he
two
moving
determines by means of the synchronized clocks where
between these two points
rod.’
is
in striking contrast to the
in system K. Einstein
this length
to be different
length of the
from
“on the
basis of
our
/.” 20
commonsense
idea
—which had
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186
been the well-tested
basis of physics for several centuries
length of the rod should be entirely independent of whe ther
—that the it is
at rest
or in motion relative to the observer. In his Jahrbuch article Einstein will use the at rest
term “geometric shape” for the length which an observer
next to the rod determines by the application of measuring rods;
moving rod
the length of the
is its
“kinematic shape.” “It
that an observer at rest relative to an inertial system
only the kinematic shape, related to K, of
but not
To
its
K can
body moving
a
obvious
determine
relative to K,
geometrical shape.” 21
determine the kinematic properties of the rod
moving
is
in K,
imagine clocks
A
ends
fitted to
at rest in k
but
and B of the rod, these
clocks being synchronized with those in system
K and
hence showing
the
same time
his
thought experiment, “that each clock has an observer co-moving
with
it,
as the clocks in K.
“Suppose
also,” Einstein continues
and that these observers apply to the two clocks the criterion
for synchronization formulated in §1.” 22
emitted from A; this tA- All times,
is
reflected at
B
At time
time
at
tA a
ray of light
and returns to
ts
is
A at time
Einstein points out in a footnote, are those of system K.
Allowing for the constant velocity of light in
K
,
the time differences
on
the forward and return travel are:
~ tA ) = tab + v ( tB - tA ~ tB) = tab — v it ~ tB) and hence c it t'A — tA — TAB / (c + v) + TAB / (c - v) c ( tB '
If the clocks
were synchronous
along with the rod clocks at in
k.
A and
'
B
—the equation
in k t'A
—that
~
for observers
2 tab/c
are therefore synchronous in
Einstein thereby demonstrates “that
meaning
—
tA
is,
when observed from some
apply.
The
K but not for observers
we must not
to the concept of simultaneity, instead
simultaneous
would
moving
ascribe absolute
two events that are
particular coordinate system
when observed from a system.” There are as many
can no longer be considered simultaneous system that
is
moving
relative to that
“times” as there are inertial systems:
i.e.,
an infinite number. This
the burden of Einstein’s critical reflections
on time and
also the
is
proof
of the relative nature of simultaneity. In the heading of his second section Einstein also mentions the
The Theory relativity
187
of Relativity
of dimensions, and in the text he actually proposes to deter-
mine the length
vab “and find that
discovery the reader waits in vain.
paragraph or two intended to unthinkable
let
may have been
The
lost at the
failed to
/.”
But for
this
text strongly suggests that a
proof stage. But
the reader perform that exercise
—he certainly
from
different
it is
make
if
Einstein
—which would not be
that clear.
The gap
remains
unexplained, even though after what has been said in the demonstration of the relativity of time, the relativity of dimensions
entirely
is
plausible.
In conclusion,
it
can be stated that in his
used no more “mathematics” than
The
I
first
have used in
recognition that every inertial system has
two sections Einstein this account.
its
own
time and that
kinematic dimensions in different inertial systems differ from each other cannot, of course,, benefit physics until the relationship between those times and dimensions has been discovered. This stein addresses in his third section,
Transformations.”
He
the task Ein-
is
“Theory of Coordinate and Time
presents a purely kinematic deduction, not
drawing on any other physical assumptions or theories, but based solely
on the two
principles and
on the
definition of time. This reduc-
tion of assumptions underlines Einstein’s endeavor to establish his
transformations as the structure of space and time
—and
hence
as
affecting physics as a whole, not merely as a feature of a special theory
such
as
Lorentz’s electrodynamics.
K with a thus K moves
Consider, therefore, two coordinate systems k and
common
x-axis.
Let k move
relative to
K at velocity v;
relative to k at velocity —v. In “traditional kinematics,” in line with
Galileo’s and
Newton’s ideas of space and time, the Galileo
mations would be the simple relations x nates with a prime sign
representing K. If in
K
(')
— x —
and
t'
=
t,
coordi-
representing k and coordinates without
the velocity of light has the value
according to the Galileo transformations, in k
This would be
vt
transfor-
in conflict with Einstein’s
then,
c,
has the value
c
—
v.
second principle of the uni-
—therefore,
versally constant velocity of light
it
it
other transformations
must be the correct ones. Einstein thus proceeds from the postulate that clocks synchronized
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188
by
light signals
cally
and
at rest in
system
K record
time
whereas identi-
t,
synchronized clocks at rest in system k record time
has therefore to be found between
and
t'
t'
A relation
and between x and
t
x.
rather lengthy derivation of the transformations (this takes
After a
up four
pages and incidentally, like the whole of the “Kinematic Part,”
man-
ages with quite elementary mathematics), Einstein obtains
x—vt
X
V
—v 2 /c2
1
and
,
These
are the relations
t—v/c2 x
_
V
—v2 /c
1
2
which Lorentz had presented
a
year earlier and
which Poincare had meanwhile named “Lorentz transformations.” 23
However, Einstein was acquainted neither with Lorentz’s paper of 1904 nor with Poincare’s of June 1905. “In that sense,” he was therefore able to claim, it
“my 1905 paper was independent.” 24 Above
was independent in
its
all else,
fundamentally different justification and
interpretation of these transformation equations.
some
Einstein must have begun with
idea of
what he wanted
to
deduce. At an opaque point in his deduction he introduces, without
any warning or explanation,
a slight
purpose becomes obvious only
if
mathematical operation whose
the desired result
is
already known. 25
This underhand device, by means of which he rather forcibly “computes his way” to the Lorentz transformations, deprives the deduction
of some of its elegance and stringency.
Thus
it is
Einstein actually arrived at his formulas in the his paper. In fact, in later years
scarcely credible that
way he
he never again used
presents
them
in
this rather
awk-
was conclusive, Einstein was
able,
ward method.
Whether or not without any
this derivation
difficulties
or tricks, to demonstrate that his equations
were the correct ones and, a constant velocity
of
particularly, that they
light.
When
were compatible with
the Lorentz transformations are
applied for time and space coordinates, an electromagnetic spherical
wave propagating from the origin of the coordinate system
in
K
is
The Theory of Relativity again a spherical wave in system k a velocity v
—propagating
—which
in
is
189
motion
in k at the velocity of light. 26
K at
relative to
He
has thereby
resolved the seeming contradiction and demonstrated “that our two
fundamental principles are compatible.” In his Jahrbuch article Einstein would proceed in the opposite direction and derive the Lorentz transformations from the postulate that a spherical
spherical
wave
wave
one
in
inertial
system invariably results in
any other
in transition to
procedure that would prevail and, within
inertial system. a
This
is
a
the
few years, would enter the
textbooks as a “classical” method.
The
transformation equation for time
t—vx/c2
V highlights
Einstein’s
1
—v 2 /c2
clearly than the equation for the spatial coordinates. Because
time with the spatial coordinates,
it is
“dimension.” Three years
“Henceforward space on
bast:
into
later, Einstein’s
Hermann Minkowski was
mere shadows, and only
serve
its
a
own and
as the fourth
former mathematics pro-
to introduce
its
it
with rather more bom-
time on
its
own
will decline
kind of union between the two will pre-
independence.” 27 Minkowski’s presentation not only
elegant but would soon also prove very useful
formulation has long been his ebullient rhetoric
common
and especially
—with the
in textbooks.
On
his reference to
is
theory
is
exceedingly complicated in
an intellectual construct
enlightenment so,
With
is
the other hand,
time
as die “fourth
required to understand
it.
rela-
mathematics, and that
so abstruse that
may take solace from the ideas much more simply.
and we
lated his
is
it
its
very
result that his
dimension” have encouraged the erroneous popular belief that tivity
links
it
the physical basis of the four-
dimensional presentation of relativity theory, with time
fessor
more
departure from Newtonian kinematics
some
special,
Needless to
fact that Einstein
the Lorentz transformations as equipment,
as
higher
say, this
is
not
himself formu-
it is
now
easy for
Einstein, in the fourth section of his paper, to deduce a few conse-
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190
quences “concerning moving rigid bodies and moving clocks.” For an observer “at rest,”
a
measuring rod moving
Vl-U/c
ened by the factor
2
at velocity v
in the direction of the
appears short-
movement. This
already applied in Lorentzian theory, except that there
dynamic
was
it
a
produced by interaction with the ether, so that the
effect
“Lorentz contraction” was an asymmetrical phenomenon, valid only for a
measuring rod moving
however,
it
is
relative to the ether. In Einstein’s theory,
clear “that the
same
results apply for bodies at rest
uniformly moving sys-
in a system ‘at rest,’ ”
when viewed from
tem. 28 This
for Einstein to highlight the difference be-
tween
is
enough
and Lorentz’s
his theory
—
a
a difference that
could hardly be
more fundamental.
To Einstein this a
purely kinematic
contraction has nothing to do with any forces;
consequence of the
effect, a
Moreover, the contraction
move
relative to
is
symmetrical:
if
of
finite velocity
two observers
A
each other, then the measuring rods at rest for
shortened to observer A, and the measuring rods at rest for shortened to observer B.
To
and B
B seem
A
seem
“real” or “apparent”
is
misses the point: the only thing that can be measured is
light.
that extent the question, often asked
uncomprehendingly, whether the contraction
shape, and that
it is
is
the kinematic
shortened for any measuring rod in motion relative
to an observer.
Up-to-date physicists, already familiar with the Lorentz contraction, “merely” had to get used to Einstein’s purely kinematic symmetrical interpretation; but even Einstein himself described the results
obtained for moving clocks as “peculiar.”
To
he
begin with, he found, by
simple reflection and even simpler calculation on the basis of the trans-
formation formula for time, that time measured in that time lag
Such
a
there, only
is (1
a
a
moving clock
system assumed
as
being “at
is
slow compared with
rest.”
The amount
of
— V 1 — v 2 /c 2 ).
“time dilatation” was totally alien to Lorentzian theory:
one time existed
was understood purely stein’s result,
— “true” time— and transformation of time
as a
mathematical device. That was
why
Ein-
along with his proof of the relativity of simultaneity, was
The Theory
bound
of Relativity
191
to shock, or at least surprise, his contemporaries.
To make
that
surprise complete, Einstein escalates the consequences.
Imagine
system with time defined by synchronized clocks
a
If a clock at a point
with
this
A is moved
movement
at a velocity v relative to
taking time
t,
then
no longer be synchronous with the clock
the
amount
— V 1 —v 2 /c 2 )t. As any number
produced by joining straight
which points
A
lines, all
some point
this clock after its arrival at
will
(1
at rest.
B
but will be slow by
at B,
of polygonal lines can be
way
the
B,
to a closed figure in
and B would therefore coincide, the same considera-
tions that apply to the transportation of a clock along a single straight line also
apply to transporting
it
along such
mating polygons to evenly curved
a
polygon.
By
approxi-
Einstein arrived at the
lines,
remarkable statement: “If there are two synchronous clocks in A, and
one of them until
on
it
its
is
moved along
closed curve with a constant velocity
has returned to A, which takes, say, arrival at
A
Earth’s equator
tv 2 c 2 sec.” 29
by
As
“A balance-wheel
experimental point:
tical
a
must be very
a
t
sec,
good
then
this clock will lag
physicist,
clock that
slightly slower than
is
he adds an
located at the
an absolutely iden-
clock ... at one of the Earth’s poles.” 30
Simple and convincing
as
time dilatation was for rectilinear uniform
motion, once Einstein’s definition of time and his view of the Lorentz transformations were accepted, this was not necessarily the case for closed paths.
With
a
closed path, the two clocks were evidently not
equal, because acceleration along a closed path violates the
otherwise present in relativity theory. This
symmetry
difficulty, as well as
Ein-
led to widespread controversy, not only
stein’s paradoxical
result,
among people who
refused to accept Einstein’s theory but also
among
the “relativists” themselves.
In this regard, the “twin paradox”
paradox
is
became very popular. The twin
based on the fact that biological processes, despite their
insufficient “regularity,” can be accepted as clocks in the physical
sense.
This idea was
first
mooted by Einstein
in a lecture to the
forschende Gesellschaft in Zurich on January attracted only slight attention.
Much more
16,
Natur-
1911, 31 though
it
sensational was a striking
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192
elaboration of Einstein’s deduction by the French physicist Paul
Langevin April 191 as
at a philosophical 1.
32
congress in Bologna a few months
Langevin discussed
whom
who was
In the audience was the famous Henri Bergson,
impressed by Einstein’s ideas a
as
later, in
he was challenged to oppose them.
thought experiment: a pair of twins, one of
remains on Earth while the other, in a Jules Verne cannonball,
goes off on a journey through the universe. At a velocity sufficiently
approaching that of aged by died
a
mere two
light, the traveling
twin might return to Earth
years, while his brother
would have long since
—two hundred years having elapsed on Earth.
The
twin paradox, running counter to our everyday concept of
time, was as difficult to grasp then as
it is
now. Small wonder that
opposition to relativity theory focused primarily on the relativization
of time
and on
its
counterintuitive
consequences
—the
more
so
because no direct experimental evidence of time dilatation was then attainable.
Half
a
century would pass before time dilatation was
observed as an isolated
elementary particles of
effect convincingly
demon-
by accurate “atomic clocks” carried by passenger
aircraft
cosmic radiation. strated
Not
effect, first in certain
was the
until 1971
around the world. 33 But by then
relativity
theory had long been
a pillar
of physics, so that no one expected anything but a confirmation that Einstein had been right in 1905.
In the
fifth
and
final section
of the “Kinematic Part” Einstein derives
the “theorem of Addition of Velocities.”
In Galilean-Newtonian
mechanics the combination of two equidirectional velocities v and
would amount tivity
to a simple arithmetical addition u
—
v
+
theory this operation must have a different form,
w.
But in
w
rela-
if
only because
of the special role played by the velocity of light. After
some simple
and transparent arguments Einstein arrives
at the
somewhat more
complicated expression
v+w 1
In a kind of consistency
+vw/c2
test, this
formula
starting concepts of the entire theory: the
now
confirms one of the
overwhelming importance
The Theory
of Relativity
193
of the velocity of light, which had been used to synchronize the clocks.
While
still
working on
his physical interpretation of the
Lorentz trans-
formations, Einstein had referred to the velocity of light as a limit that
could not be exceeded
34 .
Now
he demonstrates
and w, which are smaller than
velocities v
never be greater than
u
is
not changed
velocity. In that case, invariably,
—=
c+w
= 1
ties,
two
the relativistic “sum” u can
c,
xMoreover, the velocity of light
c.
by combination with another
Finally, Einstein
explicitly that for
c
+CIV/C1
expands the addition procedure for three veloci-
and thereby for any number of
velocities.
He
tion with an outline of a proof that, thanks to his
concludes the sec-
theorem of addition,
the transformations for spatial and time coordinates exhibit the mathematical structure of a group
Thus, on the
first
—
must .” 35
“as they indeed
sixteen pages of his treatise, Einstein derives the
essential elements of “a kinematics that corresponds to ciples ,” 36 tivity.
our two prin-
and with them the complete foundation of the theory of rela-
The
paper consists of applications showing the
rest of the
efficacy, elegance,
and profundity of the new
relativistic
viewpoint.
In the second part of his paper, the “Electrodynamic Part,” Einstein first
a
examines the transformation behavior of Maxwell’s equations for
vacuum.
To
do so he uses
of writing the formulas clear thinking
37 ;
but then
a frightful,
still
customary, way
behind the awkward notation, however,
and simple calculations. The essence of
this exercise
lie is
not only the Lorentz invariance of the equations for the electromagnetic field, but also a demonstration that a force acting
arrived at effortlessly if the field relative to the charge.
From
is
transformed into
this follows a
“Lorentz force,” postulated by Lorentz
a
on
a
charge
system
is
at rest
ready explanation of the
as
an independent axiom
added to the Maxwellian equations.
Reducing the number of axioms of
a
theory has always been con-
sidered an intellectual triumph, and Einstein savored his triumph,
though
in the restrained
developed ,” 38
as
he
now
language of calls his
a
physics paper. In the “theory
achievement,
this force
merely plays
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194
“the role of an auxiliary concept
cumstance that the
electric
whose introduction
is
due to the
and magnetic forces do not have an
cir-
exis-
tence independent of the state of motion of the coordinate system.” In the same breath,
duced by the
it
follows “that,
relative
motion of
a
when
considering the currents pro-
magnet and
a
conductor, the asym-
metry, mentioned in the Introduction, disappears.” For the same
reason the fiercely debated questions about the “location” of the elec-
tromotive force in unipolar machines are declared to be “irrelevant.” In the next section Einstein applies the same methods to two prob-
lems from optics: the Doppler effect and the aberration of
He
starlight.
devotes a whole section to the “Transformation of the Energy of
Light Rays”; in sure exerted
it
he simultaneously develops
on the
magnetic radiation
reflecting surface.” is
theory of “light pres-
Here the treatment of electro-
entirely “classical,” just as if his paper
quanta, completed three
months
first
new garb
example of the strength of relativity
brilliant
For
classical physics in the
light pressure acting
on
light
appearance of his rela-
theory with the “very revolutionary” light quanta. Even
triumph of
on
had never been written.
earlier,
Probably he did not wish to encumber the tivity
a
so, it is a
of relativity theory, and a as a
computational
a mirror, Einstein obtains
tool.
an expres-
sion “in agreement with experience and with other theories .” 39
The
other theories, which he neither identifies nor quotes, must have been those of Loren tz and,
Abraham. Annalen
40 ,
A
more
especially, the
year previously,
mathematical virtuoso
Abraham had unfolded
printed pages.
To
arrive at the
same
result, Einstein
the problem in
more than
using established methods and requiring
Max forty
needed not quite
three pages.
As with most of
his results
on electrodynamics, Einstein did not
claim to have discovered anything new; what was
new was
his relativist
method, whose efficiency he emphasized: “This reduces every problem in the optics of
moving bodies
bodies at rest .” 41 far
And with
this
more comprehensibly and
to a series of
problems
in the optics of
method, the problems could be treated
elegantly than had been possible so
far.
In the ninth and penultimate section Einstein sketches out the Lorentz invariance of the Alaxwellian equations with regard to
moving
charges,
The Theory
of Relativity
195
the foundation of the so-called electronic theory. This seemed
i.e.,
appropriate not only for completeness but also because the “important
proposition can be deduced” that electric charges do not change under
Lorentz transformations: their amount and sign have the same value in
any coordinate system.
This
is
an important result not only in
preliminary for the
final section,
field,
mechanics. Here Einstein makes
clumsy
Max
follow. First of
all,
velocity in such a limit:
Planck, 43 but
right,
but also as
a
it
a
thus extending relativity to slip,
which was soon
to be
does not affect the arguments which
mass and kinetic energy are found to depend on
way
that the speed of light once again
“As in our previous
sibility
own
which deals with the dynamics of the
electron 42 in the electromagnetic
corrected by
its
results,
emerges
as a
superluminal velocities have no pos-
of existence.” 44
In conclusion Einstein electron
.
.
.
lists
three “properties of the motion of the
that are accessible to experiment”: a relationship between
velocity and the ratio of electrical to magnetic deflection; a relation-
ship between velocity and voltage traversed in an electrostatic
and the radius of curvature in
a
magnetic
The
field.
field;
formulas he
arrived at are declared to be “a complete expression of the laws by
which the electron must move according
to the theory presented
here.” 45 Experiments with fast electrons had been conducted for a
number of years, and results.
Einstein must have
known
at least
In his paper, however, he ignores them.
The
some of
the
reason was
simple: they contradicted the “theory presented here.”
At the very end, there concluded his citing
treatise
—
a
is
a novelty:
an acknowledgment. Einstein
paper without bibliographical references,
no names other than those of Maxwell, Hertz, and Lorentz, and
these only as labels for theories and formulations that
“my
work on
many By
friend and colleague
M. Besso
—with the remark
steadfastly stood
the problem here discussed and ...
I
am
by
me
in
my
indebted to him for
a valuable suggestion.”
the time the foundation of relativity theory was presented to the
world of physics, in the September 28, 1905, issue of Annalen, the editors
had already received
a
supplement from Einstein. Under the
The Patent Office
196
rather unusual interrogative
title Is the
Inertia of a Body Dependent on Its
Energy Content Einstein presented what was subsequently considered his
most famous and most spectacular conclusion
He
mass and energy.
—the equivalence of
answered the question posed in the
most of his colleagues would have regarded
which
title,
as rather abstruse,
with an
enthusiastic yes. Einstein’s initial ideas
about
this
velocity-dependence of mass in the
Perhaps they did
weeks
later,
could have arisen from the
of his great
final section
treatise.
A few
but he preferred to keep silent just then.
arise,
perhaps during his reading of the proofs, the idea was fully
developed. “I have thought of yet another consequence of the electro-
dynamic paper,” he reported to
The
relativity principle in
his friend
Conrad Habicht:
connection with the basic Maxwellian
equations demands that the mass should be a direct measure of the energy contained in a body; light transfers mass.
With radium
The
there should be a noticeable diminution of mass.
amusing and enticing; but whether the Almighty and
is
leading
This was the Almighty. cally, as
me up
first
The
the garden path
but not the
reference to
last
—that
I
laughing at
is it
cannot know. 46
time that Einstein brought in the
God, meant
less
piously than metaphori-
the creator of the world more geometrico
,
whose construction
plans needed to be discovered, pleased Einstein and in
is
idea
would
later
appear
many variations.
To return
to the relation
between mass and energy,
this
was then
subject of research in the Bern Patent Office and elsewhere.
a
The
velocity-dependence of the electron’s mass, experimentally confirmed at
least
seemed
qualitatively
and integrated into the prevailing theories,
to support the idea.
Moreover, the champions of an “electro-
magnetic world picture” tried to interpret mass energy of the electron and hence
“innate
magnetic
field.
In 1904, the Vienna
a prize to Friedrich
shown
as
electromagnetic
an effect of the electro-
Academy of Sciences had awarded
Hasenohrl for research in that
that radiation enclosed in a
as
vacuum has
area.
Hasenohrl had
to be credited with an
apparent mass, proportional to the energy of the enclosed radiation.
It
The Theory is
of Relativity
would have missed HasenorhPs
scarcely credible that Einstein
winning paper, which was published not refer to
197
Annalen
in
47 ,
prize-
but he certainly did
it.
Einstein addressed the problem quite differently, and his result
much more his
elegant and of incomparably greater universal validity. In
supplement he considers any body emitting radiation conditions
site
second in
a
is
—
first in
a
system in which the body
system in which the body
is
moving
at
in
is
two oppo-
at rest,
and
constant velocity.
Referring to the formula he had derived in his treatise on the transfor-
mational characteristics of radiation energy, Einstein succeeds, in than two pages, in deducing the following theorem: “If the energy
E
form of
in the
radiation,
its
a
releases
mass decreases by E/r2 .” 48
Einstein follows this with the rather cryptic remark that is
body
less
it
“obviously
here inessential that the energy withdrawn from the body happens to
turn into radiation” in order to proceed to “the
“The mass of
sion”:
energy changes by E/c2
a
E
body
a
is
measure of
its
more
general conclu-
energy content;
if
the
then the mass changes in the same sense by
,
” 49 .
He also has an idea about the experimental implications of the formula E = me2 “Perhaps it will prove possible to test this theory using :
bodies whose energy content
is
variable to a high degree
(e.g., salts
of
radium).” Einstein, however, did not concern himself with the practicality
of such
a test for
the decay of radium. This was taken up by a
colleague the following year, with the result that the effect “for the
time being probably
To
lies
beyond the realm of possible experience.” 50
Einstein the relation between inertial mass and energy was
clearly of great importance.
His
first
follow-up paper on relativity
theory, completed in
May
of this subject. In
the “theorem of the constancy of the mass” was
understood “as year, in
May
it
1906, was devoted to the theoretical aspects
a special case
of the energy principle.” 51 After another
1907, he endeavored to test “the necessity and justifica-
tion of these assumptions [made in 1905] in a
Eventually, in the
fall
more general way.” 52
of 1907, in his extensive Jahrbuch
article,
Einstein returned in detail to the “dependence of mass on energy,” 53 calling his formula a “result of exceptional theoretical importance” and
The Patent Office
198 also
thoroughly discussing
approached
it,
its
experimental side. But whichever
way he
the requisite accuracy of measurements was “of course
impossible.”
was understandable
It
that,
given the state of knowledge at the
on
time, Einstein had focused his attention
The atomic
nucleus
made
its first
radioactive disintegration.
appearance in physics in 1911, and
the binding energy of nuclei was soon interpreted as a “mass defect.”
But
it
took
first
mass spectrometer, and next as the test
improvement of the
the invention and subsequent
—
in 1932
—the discovery of the neutron
second building block of the atomic nucleus, before
a reliable
of Einstein’s formula through nuclear binding energy became pos-
sible.
Within
a
few years,
it
was confirmed with
multitude of nuclear reactions, and by 1937
fantastic accuracy it
was regarded
by
as
a
an
empirically confirmed “fundamental law of physics.” 54
When
on August
6,
1945, Einstein learned of the destruction of the
Japanese city of Hiroshima by an atom bomb, he
reminded of what, nearly four decades Jahrbuch
well have been
he had written in
article:
However, in
earlier,
may
which
original
it is
possible that radioactive processes will be detected
a significantly
atom
will
higher percentage of the mass of the
be converted into the energy of
radiations than in the case of radium. 55
a variety
of
his
CHAPTER ELEVEN Acceptance, Opposition, Tributes
It
widely believed
is
temporaries
is
a
that remaining unrecognized
hallmark of genius, not only in the
As Alax Planck once observed: “A new
ence.
a rule prevail
because
its
arts
by one’s conbut also in
scientific truth
sci-
does not
as
opponents declare themselves persuaded or
convinced, but because the opponents gradually die out and the
younger generation
is
made
familiar with the truth
was the experience of Adax Planck,
this
from the with
a scientist
it
be true of a youthful outsider
at the
However, Einstein had no reason complain
—of any lack of response
of his annus
Of course,
mirabilis.
to or
to
a straight-
how much more
forward career within the academic establishment,
must
start.” 1 If
Patent Office in Bern?
complain
— and
never did
acknowledgment of the papers
his publications did
not exactly have
the effect of bombshells: physicists are too reserved, conservative, and skeptical for that.
But the
ered. this
genius
And
scientific
who had
siasm and others
them
of course there was opposition, some of it blink-
community on
the whole accepted the ideas of
suddenly emerged, some physicists with enthu-
more
hesitantly.
Still
others resolutely rejected
—but no one ignored them.
Einstein’s “very revolutionary” light quanta had already attracted
much
notice and discussion.
Thus
the winner of the 1905
the experimental physicist Philipp Lenard,
Nobel
Prize,
whose measurements of the
photoelectric effect had been a basis of Einstein’s “heuristic viewpoint” paper, honored the in the
unknown man
at the
Patent Office with an offprint
autumn of 1905. Einstein thanked Lenard, assuring him
199
(as
we
The Patent Office
200 saw
Chapter
earlier, in
8) that
he had studied the
article
“with the same
2 sense of admiration as your previous work.”
A tant
letter to Einstein
Max von Laue
first letter;
and
it
on the quantum problem from Planck’s
dated June
2,
assis-
1906, suggests that this was not the
seems probable that Planck had also written to Ein-
stein,
with the result that soon after the publication of his paper Ein-
stein
was in correspondence about light quanta with the most famous
experimenter and the most respected theoretician in the Germanspeaking world. As tion but
we have
seen, this earned
him sympathetic
by no means acceptance. With regard to
light
atten-
quanta,
Einstein actually stood alone for nearly two decades. His statistical interpretation of the
gained
him
Brownian movement, on the other hand, soon
the recognition of his colleagues.
What,
then,
was the
response of leading physicists to the theory of relativity?
The
cliche of the
misunderstood innovator was perpetuated by Maja
Einstein in her sketch, written two decades after the event, of her brother’s state of tivity:
mind following
“The young
scientist
the publication of his paper
had believed that
on
rela-
his publication in the
respected and widely-read journal would be noticed immediately.
But he was
The
.
.
.
bitterly disappointed. Icy silence followed the publication.
next issues of the journal did not mention his paper in a single
word.” 3 But in
fact,
the situation was quite different.
Certainly Einstein was a temperamental, impatient as a regular
young man. But
contributor to Annalen he would have realized that, given ,
the usual lapse of two
comment on
months from submission on September
his paper, published
appear before Christmas, even
if
to publication,
28, 1905, could hardly
some colleagues
did find something
to say within four weeks. Actually, only
two months
end of November, Walter Kaufmann,
in
ments with electron beams, 4
first
any
later,
toward the
an account of his experi-
mentioned Einstein’s treatise—
though not in Annalen but in the Sitzungsberichte Proceedings of the ( ) Prussian
might
Academy of
easily
Sciences in Berlin, a publication that Einstein
have missed.
We
may
also
assume that Einstein was
not immediately informed that several leading physicists were con-
Acceptance, Opposition, Tributes
201
cerning themselves intensively with his concept immediately after
its
publication.
May 1906 Einstein was able to some complacency: “My papers are meeting with
In any case, by the beginning of report, not without
much acknowledgement and Prof. Planck (Berlin) wrote
are giving rise to further investigations.
me
about
it
recently.” 5
seven months after publication. Seven years Planck, Einstein recorded his gratitude: “It
mined and
manner
cordial
in
is
That was
a
mere
in a tribute to
later,
largely due to the deter-
which he supported
this
theory that
it
among my colleagues in the field.” 6 do not know when Planck first wrote to Einstein, or what he
attracted notice so quickly
We
wrote. Einstein evidently believed that he had better things to do than
keep
letters, 7
even
if
they were from the top
men in the
field.
And most
of Einstein’s letters to Planck perished along with Planck’s house
bombs
in
doubt that Planck’s role
as
under
sive
a hail
of
World War
II.
Nevertheless, there
an advocate of relativity theory was of deci-
importance.
As the coeditor of Annalen responsible
a
key
for theory, Planck held a
position in the information network of physics.
with
no
is
He discharged his tasks
very open mind. Only rarely were submitted papers rejected;
with “established” authors
— among whom,
after five articles
and
his
refereeing for Beibldtter (the supplement to Annalen), Einstein could by
—
then count himself nonsense. 8
happened only
Thus Planck had
“heuristic” paper
own
this
concepts.
on
The
unhesitatingly
on
even though
accepted
ran counter to his
relativity received
toward the end of
June, however, was highly unusual, even in appearance: prose,
more
Einstein’s
it
light quanta, treatise
in exceptional cases of patent
many pages
suitable to a philosophical journal, including
some
of
sen-
tences of almost offensive triviality alongside ideas of staggering audacity; and finally an elegant, albeit rather opaque, exposition of
electrodynamic problems without any theory.
No
new
beyond Lorentzian
results
one could have blamed the editor
if
he had had second
thoughts.
Max
Planck’s greatness as a physicist, however,
is
reflected also in
The Patent Office
202
the fact that this paper did not in the least strain his tolerance, but instead “immediately aroused
pened
in
the Electrodynamics of Moving Bodies
quium on
their doctoral theses
it
—of whom we
“There was
it.
was clear that
of 1905, the
first
Much
1 .
the
same hap-
Wilhelm Wien entered the room of the students
paper, Professor
Johann Laub
von
after the publication of Einstein’s
Wurzburg: immediately
working on
fall
When Max
was one by Planck on Einstein’s newly published
lecture he heard
On
lively attention.” 9
to Berlin as Planck’s assistant in the
Laue came
paper
my
one morning and instructed Jakob hear
shall
more
a lively discussion,”
—to
give a collo-
recalls,
“from which
later
Laub
was not too easy to get inside the new concepts of
it
time and space.” 11
Despite these
difficulties, interest in
the relativity theory spread,
but steadily and persistently.
not exactly
like
Rontgen
September 1906 honored Einstein with
offprint,
in
wildfire,
presumably because he was preparing
ment equations of
The
great
a request for
an
on the move-
a lecture
the electron. Paul Drude, the editor of Annalen
mentioned Einstein’s paper authoritative
book on
Handbuch der
Physik. In 1907
in
1906, both in a
optics and in an article
mathematics professor
at the
new
edition of his
on the same subject
Hermann Minkowski,
,
in
Einstein’s former
Polytechnic but since 1902 a professor at
Gottingen, requested an offprint because he and David Hilbert were
planning will
a
seminar on the electrodynamics of moving bodies. This,
as
be seen, was to have consequences for the mathematical formula-
tion of the theory. Einstein’s ideas also
under Planck
Breslau,
Max
formed
a circle
lively interest
among
the younger
When
Fritz Reiche, having obtained his doc-
in Berlin,
brought news of the new theory to
generation of physicists. torate
met with
Born, Rudolf Ladenburg, and Stanislas Loria there of enthusiastic young
relativists.
When Ladenburg had
asked for an offprint, Einstein was “highly delighted over your interest in that
paper and immediately sent off three copies, “one for yourself
and two for the other two gentlemen.” 12 In Munich, Arnold Sommerfeld, one of the few theoretical physics,
studied Einstein,
had likewise done
who
impresses
me
his
greatly,”
full
professors of
now
homework:
“I
he wrote to
Wien toward
have
Acceptance, Opposition, Tributes
A
the end of 1906.
203
year later his reflections had given
rise to
some
curious conclusions, which he unashamedly communicated to Lorentz:
But now we are
longing for you to
all
complex of Einstein’s this
treatises.
Works
comment on
whole
that
of genius though they are,
unconstruable and unvisualizable dogmatism seems to
contain something almost unhealthy.
me
to
An Englishman would
scarcely have produced this theory; perhaps
it
reflects, similarly as
with Cohn, the abstract-conceptual character of the Semite.
hope you
succeed in imbuing this inspired conceptual
will
skeleton with real physical
No
answer from Lorentz
good
a physicist to
I
is
life. 13
known, but Sommerfeld was much too
indulge in this attack of “sound
common
sense” for
long. In fact he seems to have written to Einstein directly a few days
and sent him some
later
offprints, naturally
without the anti-Semitic
remarks, as in January 1908 the two were keeping up a correspondence
which
in cordiality left
Perhaps
when
nothing to be desired.
this incident
had some repercussions many years
Einstein wrote about Sommerfeld “that this person, for
knows what subconscious reason, did not ring
Had Lorentz shown him Sommerfeld’s The most
Max
was
assistant geil,
Planck.
He
not only
Max von Laue
but was the
first
cept and developing
and
relativity
commended
it
it
him about
it?
theory after 1905
to the attention of his
his predoctoral student
to publish a paper linking
God
entirely true to me.” 14
letter or told
important figure in establishing
later,
Kurd von Mosen-
up with Einstein’s con-
further.
In this paper Planck proved that the “principle of least action,”
foundation of physics, remains correct in Einstein’s concept;
ensured the connection of the
relativity
tions of theoretical physics. 15
With
tial
this
a
this
theory with advanced formula-
proof Planck made
a substan-
contribution to the shaping of the theory, and his personal
engagement
greatly
enhanced
its
respectability.
Respectability was something Einstein’s theory needed, for two reasons. First,
it
did not initially differ
from Lorentzian theory
in
its
electrodynamic consequences, so that several years of explanatory
The Patent Office
204
work were needed before even well-disposed central difference
between the two views. Second, Einstein’s conclu-
movement of an
sions concerning the
mental findings
physicists could grasp the
electron ran counter to experi-
at the time.
Although Einstein,
probably every physicist, subscribed to the
like
principle that experience
some
theory, he had
the supreme judge of the usefulness of a
is
With regard
reservations.
to the relationship
between experiment and theory, he remarked in “Obvious subtle.” 16
him
as this postulate
He may have
in the
treatise
may
his Nekrolog that
at first appear, its application is
been reminded of the
very
conflict that confronted
development of relativity theory. In the
final section
of his
he had firmly declared that three formulas he had derived rep-
resented “a complete expression of the laws by which the electron
must move according
when he wrote
because
statement,
moving according
to the theory presented here.” 17
as
an assistant in Berlin, later
sacred
Newtonian
theoreticians
picture” line
fast electrons in electric
it
was
a
as a
first
privatdozent in Gottingen, and
its
velocity.
This was
a striking refutation
principle, conservation of mass;
and for many
cogent argument for an “electromagnetic world
—the more so
as
Kaufmann’s measurements were entirely
with the world picture of his Gottingen colleague
who
and mag-
Bonn. In 1902 he demonstrated that the mass
of an electron increases with a
bold
apparently
had been performed since 1897 by Walter Kaufmann,
finally as a professor in
of
electrons were
a
to entirely different laws.
Experiments on the behavior of netic fields
it,
That was
in
Max Abraham,
interpreted mass as a consequence of inherent electromagnetic
energy.
In 1904 Lorentz published his magnificent completion of his electronic theory,
which
in terms of physics differed
from Abraham’s. And
before the end of the year a third theory was put forward by Alfred
Heinrich Bucherer, representing rentz
s
ferent
and Abraham’s concepts. As laws
for
the
own
all
movement of
fascinating task of deciding
of his
kind of mediation between Lo-
a
three authors had obtained difelectrons,
between the
experiments. While he was
Kaufmann had
rival theories still
the
on the strength
engaged in delicate mea-
Acceptance, Opposition, Tributes surements
ward
at the
very limits of what was observable, Einstein put for-
his theory of relativity
which were In
205
with formulas for the tracks of electrons,
identical with those in Lorentz’s theory.
November 1905 Kaufmann
published his tensely awaited results
in a preliminary report in the Sitzungsberichte of the Prussian (this is
the paper in which Einstein’s relativity theory
up
tioned) and followed this
Annalen. l%
in
However Kaufmann
ham’s theory
January 1906 with
Kaufmann concluded
men-
first
report in
a full
interpreted his results, they
best, Bucherer’s a little less well,
stein’s theories worst.
is
Academy
fit
Abra-
and Lorentz’s and Ein-
measurements
that his
were “not compatible with the fundamental assumptions of Lorentz and Einstein.” 19
He concluded that the endeavors
to base
all
physics
on
the relativity principle had failed, and he called for further experiments to prove the existence of an ether absolutely at rest. If experiment truly the
portray
supreme judge,
it,
as empiricist
were
philosophers of science like to
both Lorentz’s and Einstein’s theories would have met
sudden end
—
at least for the
time being.
And
a
when Lorentz
in fact,
learned about Kaufmann’s experiments, he found himself compelled to give
up
his theory: “I
am
at
my
wits’ end,” 20
he wrote to Poincare,
crushed. In September 1906 the problem was
general meeting of the Stuttgart.
What
movement of
German
on the agenda of the annual
Society of Scientists and Physicians in
mattered was not
just the correct
electrons, but a decision
formulas for the
between “world
pictures”: the
“electromagnetic” picture on the one hand, and on the other a picture
based on the relativity principle. lecture analyzed
Kaufmann’s
wrong, but neither was
it
Max
data;
beyond
Planck, cautious as ever, in his
he did not find their interpretation all
doubt, and he suggested that “in
the theoretical interpretation of the magnitudes measured there
some .
.
.
substantial gap that will first have to be filled before the results
can be used for
mann
is still
a definitive decision.” 21
In the discussion, Kauf-
fundamental error in the
insisted that “unless there
is
a
observations, the Lorentzian theory
is
liquidated” 22
needless to say, Einstein’s. Planck once
more advised waiting and con-
still
— and
with
it,
tinuing research “until the experiments eventually supply the decision.” In view of
Kaufmann’s experiments
this
was
all
he could do: the
The Patent Office
206
fact that the relativity principle
tive” 23
was not
How
a sufficient
did Einstein react to this controversy?
initiative, at least
he was writing aktivitiit
him
to
his opinion;
not publicly. In the
comprehensive
his
“really
more
attrac-
argument.
was presumably never asked for
own
seemed
The Expert
nor did he offer
fall
,
Class
on
it
of 1907, however,
article for the
und Elektronik he had to declare
III
his
when
Jahrbuch der Radio-
his position,
and
this
he did
with deep-rooted self-assurance.
To
begin with, Einstein with great fairness described Kaufmann’s
experimental setup, emphasized the “admirable care” of the measure-
ments, and compared the graph obtained by Kauffnann with the conclusions of relativity theory. 24
Never having had
a
high opinion of
exaggerated accuracy, Einstein would have been inclined “to regard the agreement as sufficient”
the deviations had not been outside the
if
range of error and, moreover, systematic. situation in
ment of
much
a verdict
atic deviations are
the same
way
as Planck,
He commented
by pleading
on
this
for a postpone-
and for further experiments: “Whether the systemdue to some not yet identified source of error or to
the fact that the foundations of the relativity theory are not in line with the facts, will only be determined with certainty
experimental material
What
when
a
more copious
available.”
is
he really thought emerges between the lines of his subse-
quent assessment of the
rival theories.
He
frankly admits that “Abra-
ham’s and Bucherer’s theories of electron movement present graphs
which are considerably closer to the graph observed than
is
the graph
derived from the relativity theory.” But while the famous Lorentz was “at his wits’ end,” the
man
at the
simply ignored Abraham’s results relating to
it
theory and
—refused to be
that their theories are correct their basic assumptions
Patent Office
is
rattled:
—who
in
1905 had
Kaufmann’s experimental “However, the probability
rather small, in
my
opinion, because
concerning the dimensions of the moving elec-
tron are not suggested by theoretical systems that encompass larger
complexes of phenomena.” 25 Einstein therefore does not even attempt to offer proof (which
would scarcely be possible anyway) that Abraham’s and Bucherer’s theories are wrong.
He
simply does not consider them “probable” by
Acceptance, Opposition, Tributes metatheoretical criteria, because isolated
and
some of
207
their basic assumptions are
arbitrary. Basic assumptions,
he believes, must not be
invented ad hoc for specific cases but must cover wider areas
Only then does one encounter
physics as a whole.
ideally,
that “marvelous
complex of phenomena.” 26 In
feeling of realizing the uniformity of a
Einstein’s scientific credo this cannot be expected of ad tions; it
—
hoc assump-
can be expected only of principles.
Less than
a
year passed before Bucherer, in
a greatly
improved ver-
own
theory but the
sion of Kaufmann’s experiments, confirmed not his
formulas of Lorentz and Einstein. Bucherer wrote to Bern “that by careful experiments
I
have proved beyond any doubt the validity of the
relativity principle.” 27 Einstein
He
“friendly letter.” 28
thanked him by return of post in
unlikely to have been head over heels with
is
joy,
but he probably took satisfaction in having
was
right.
These measurements of electron a decision
tracks,
known
all
along that he
however, could not lead to
between Einstein’s and Lorentz’s
same laws of motion
a
theories,
which had the
for fast electrons. Further experiments
were
therefore needed to examine effects predicted by Einstein’s theory but
not by Lorentz’s.
One
such
possibility, as Einstein
had suggested in
“E = me2 supplement,” concerned the transformation of mass
his
into
energy in radioactive processes. Another possibility was the measure-
ment of time
dilatation, postulated
1907 Einstein published
a
only by relativity theory. In
proposal along those
course, that the differences between
moving
lines. It
March
was obvious, of
clocks could not be
mea-
sured by anything from a pocket watch to a precision chronometer.
But atoms emitting spectral
very accurate clocks and can,
lines are
moreover, be accelerated to very high
proposed experiments with then
known
as “canal rays,”
velocities. Einstein therefore
electrically
charged accelerated atoms,
whose frequencies of
oscillation should,
according to his theory, change. 29
Although canal ray experiments were then being conducted, especially
by Johannes
Stark, their accuracy
time dilatation. Einstein did not declared in 1911,
“is to
let go:
was not
sufficient to prove
“The main thing now,” he
conduct the most accurate experiments pos-
sible to test the fundamentals.
There
is
nothing
much
to be gained
The Patent Office
208
from
a lot
Not until
of pondering at the moment.” 30 But he had to be patient.
the early 1930s was the conversion of mass into energy con-
firmed in the study of nuclear reactions, and time dilatation was not directly
on the
proved until 1938. Until then any physicist choosing have opted
basis of experiment alone could
theory as for Einstein’s.
If,
as well for
a
theory
Lorentz’s
nevertheless, the theory of relativity gained
support so quickly, this was due not to conclusive experiments but to
most
the fact that
character and
its
responded to
physicists
axiomatic, fundamental
its
beauty.
There probably
is
no other theory
in
special theory of relativity,
had to wait
experimental evidence in
favor.
its
And
modern a
physics that, like the
quarter-century for direct
there
is
no other theory whose
eventual experimental confirmation was received with greater indiffer-
ence
—simply because no one had expected anything
Later in his
else.
life,
Einstein clearly formulated the difference between
on
principles” and “constructive theories.” Construc-
“theories based
“endeavor, from a relatively simple fundamental for-
tive theories
malism, to construe a picture of a more complex phenomena,” 31
as,
for
instance, the macroscopic properties of matter can be constructively
explained by assuming molecular movements. Theories of principle,
on the other hand,
are based
on “empirically found general properties
of natural processes, on principles from which mathematically formulated criteria follow,
representations,
which individual processes, or
must observe,” 32
as
is
and, of course, with relativity theory.
their theoretical
the case with thermodynamics
Each type has
its
advantages:
constructive theories are characterized by “completeness, adaptability,
and
clarity”; theories
of principle have “logical perfection and secure
foundations.” Indeed Einstein regarded constructive theories as “the
more important cations.
But
it is
ciple, in line
“sniffing out
At
this
point
category,” 33 presumably because of their
On
appli-
obvious that his great love was for theories of prin-
with his intention, dating back to his student days, of
what might lead
it
to the root of things.” 34
should be mentioned that Einstein, though he was the
creator of relativity theory, was not the creator of
paper
many
the Electrodynamics of Moving Bodies
,
its
name. In
his
with which everything
— Acceptance, Opposition, Tributes
209
began (and almost reached completion) he referred only tivity principle,” It
and he kept to
was Planck who,
at the
this
to the “rela-
formulation for the next few years.
meeting in Stuttgart discussed above,
first
spoke of Relativtheorie, ls “relative theory.” With Bucherer and others, this
soon became
ments with other
Relativitdtstheorie
physicists
was progressively, and
and
his
reluctantly,
though in headlines and in the
,
“relativity theory.” In his argu-
comments on drawn into
text of his
their work, Einstein
this
own
new
terminology,
publications he con-
tinued to speak of the “relativity principle.” In 1911 he eventually gave in
and used what had meanwhile become the
first
time in
a title
—Die
tancing himself from
it
Relativitdts-Theorie 36
common
term for the
—though not without
by quotation marks. In
this
dis-
form, within quota-
tion marks, he continued his ultimately futile resistance for a few
more
years. 37
Einstein’s uneasiness with this terminology
principle in
mind
is
not
on how
any theory, something that
in line with his
own
understanding of
the methodological status of the relativity principle 38
duced
it
may provide
to find the correct theory, but certainly not the
would have been
itself. It
justified, since a
A principle is something that has to be borne
in the formulation of
a useful hint
theory
a theory.
was
if
he had intro-
in the title of his great treatise as a “heuristic principle”
except that he had already used that term in his paper on light quanta three
months
When,
earlier.
after
World War I,
Einstein’s
name and
were catapulted into the public limelight, that the theory soon relative,”
and that
litical institutions,
appeared
as
became shortened
this
theory
was probably unavoidable
to the formula “Everything
is
formula was then applied also to morals, po-
and so on.
some
it
his relativity
To
obscurantist minds, relativity theory
particularly reprehensible Jewish contribution to
social decay.
Needless to “everything
is
say,
even in physics
relative.” Indeed,
it is
Max
arrant nonsense to claim that
Planck was instantly fascinated
by Einstein’s paper because, on the contrary,
it
revealed ways of
“finding the absolute, the universally valid, the invariant” 39 in natural
laws
—such
as the universally constant velocity
of light. In Minkowski’s
“four-dimensional” representation of 1908, the invariance of natural
The Patent Office
210
laws was developed with regard to the group of Lorentz transformations,
seemed
relativity postulate”
and “the term
40 feeble ... for the postulate of an invariance.”
Minkowski “very
to
When,
in the early
1920s, nonsensical controversies broke out over relativity theory, physicists believed that they could pull
renaming that this
name would
the generally accepted therefore retained
Whether
by
describe the method, not the physical content, of
it is
its
if
the
new name was
possibly
if after
such a long time
name were now changed.” 41
Relativity theory
“would only give
it
fire
“invariance theory.” Einstein agreed only to the extent
it
the theory. But he pointed out that even better,
out of the line of
it
some
rise to
confusion
name.
a “principle” or a “theory,” relativity
is
widely believed
to represent a scientific revolution, perhaps even the scientific revolution.
Those who
very good ness.
believe this
may be
perfectly correct, and
— except that they cannot
company
As with
a great
many
call
moreover
on Einstein
other things, he had his
own
in
as a wit-
views also on
revolutions in science.
Certainly Einstein referred to revolutions, though only sparingly
and only for very significant events, such
acting at a distance to the fields of Maxwellian theory. 42
shrunk from describing
though not evidently
in print
meant
letter.
A
“revolution” in science
break with tradition and
a
Nor had he
quanta as “very revolutionary,” 43
but in a private
him
to
his light
from forces
as the transition
a radical
new
ning, such as the field concept in the nineteenth century and
begin-
quantum
physics in the twentieth.
On the other hand, that heading. In the his light
he did not see
same
letter to
relativity
Conrad Habicht
in
which he
called
quanta “very revolutionary” he characterized what would later
be called
relativity
making use of modification
theory as “an electrodynamics of moving bodies,
a modification
is
certainly
of the theory of space and time”
no revolution. In
used the term “revolutionary” or any of with his theory of
used
theory as coming under
relativity,
and
at
—and
later years, Einstein
its
synonyms
a
never
in connection
times he would laugh
when
others
it.
This was certainly not due to modesty,
a virtue
toward which Ein-
Acceptance, Opposition, Tributes
211
had no inclination anyway. Like Isaac Newton, he might have
stein
said: “If I
giants.” 44
have seen farther,
For Einstein there was development of the sciences only
in the
pulling-down. lier
by standing upon the shoulders of
it is
.
.
a building-up,
if
another.
It
would be
something
The
one
like
tyrannical
theory of relativity
is
ruler
nothing but
sad
a
me-
the relativity theory had to overthrow the earlier
chanics,
a
Unless one generation can build on what ear-
.
ones have achieved there can be no science.
thing
never
overthrowing
a further step in
the centuries-old evolution of our science, one which preserves the connections discovered in the past, deepening
them and
adding new ones. 45
When
he paid
away by instructing There has been
a
sensation-hungry public:
a false
opinion widely spread
public that the theory of relativity cally
United States he began right
his first visit to the
is
tions.
The
Newton,
contrary
is
that
it is
true.
.
dations of physics on which
.
.
the general
to be taken as differing radi-
from the previous developments
Galileo and
among
in physics
from the time of
violently opposed to their deduc-
The
I
four
men who
laid the
foun-
have been able to construct
my
theory are Galileo, Newton, Maxwell and Lorentz. 46
Against this historical background Einstein saw relativity theory as
“simply
development of the electrodynamics of Maxwell
a systematic
and Lorentz. 47 And in
his
Nobel Prize speech he described
it
as
“an
adaptation of the foundations of physics to Maxwell-Lorentzian elec-
trodynamics.” 48 There are numerous quotations along those
from The
his later years,
New
was made
York Times
minutes there
is
:
But what did
Max von visit
the
the
first
man
gets the impression that every five
somewhat
a revolution in science,
at the
like a coup
Tetat in
republics.” 49
his colleagues think?
Laue’s impression
one,
in connection with a series of articles in
“The reader
some of the smaller unstable
lines:
“This
when he was
revolutionary” was
German physicist to summer of 1907. “During
the
Patent Office during the
is a
first
two hours of our conversation he overthrew the
entire
The Patent Office
212
mechanics and electrodynamics, doing so on
statistical
grounds.” 50 In
deconstruction of the classical foundations, Einstein’s radiation
this
theory probably held center stage, and this Einstein himself regarded as
“very revolutionary.”
Soon, however, his relativity theory, too, was viewed tion.
The
conservative
Max
Planck, of
all
as a revolu-
people, set the tone in the
spring of 1908, even though he replaced the politically objectionable
German
“revolution” with a
equivalent ( Kuhnheit boldness) ,
when he
referred to Einstein’s definition of time:
In boldness
it
exceeds anything so far achieved in speculative
natural science, in philosophical cognition theory; non-Euclidian
geometry
To
is
child’s play
by comparison. 51
Planck, “the revolution in the physical world picture” brought
about by the
relativity principle
was “in extent and depth comparable
only to that caused by the introduction of the Copernican world system.”
Sometime
later, Einstein’s
old teacher and mentor, Professor
Kleiner of Zurich, evidently reflected the majority view of physicists
when,
as a
matter of course, he remarked that the relativity principle
was being “described
as revolutionary” 52
justification as Einstein’s
In
fact, relativity
1905 and, of 1915
—
is
if
a
this
view had
much
as
own.
theory
we may
—and
—both the
the general theory of relativity
anticipate,
deepening rather than
special theory of relativity of
a revolution,
and Einstein
a per-
is
fecter of “classical” physics rather than a revolutionary. Nevertheless,
the reshaping of the fundamental concepts of time and space, for centuries regarded as a priori concepts, certainly
was
a revolution,
one of
the greatest in the history of science, even according to Einstein’s
although he preferred to see
criteria,
As rapidly
as relativity
it
merely
theory became
own
as a modification.
known among
physicists
and
mathematicians and was accepted by most of them, two of the greatest figures,
men who had
analysis
contributed a good deal to the establishment and
of the relativity principle, remained aloof
—Poincare
and
Lorentz.
As
for Poincare,
one cannot even say that he rejected Einstein’s
Acceptance, Opposition, Tributes theory, because he quite simply ignored
Poincare, stein’s
who was
work
in
familiar with
Annalen
It is
scarcely credible that
German, should not have read Ein-
some time or
at
it.
213
other.
Did some of it, such
as
the synchronization of clocks by light signals or the Lorentz transfor-
mations, seem to
him too
familiar?
Was he looking for tributes in foot-
notes, and
was he put off by their absence? Did he think he had himself
presented
all
that
was necessary about the
papers of 1905 and 1906, in a elegant mathematical form?
relativity principle in his
more complete and incomparably more
Or was he not
greatly interested in
its
fur-
ther development, since he was not a physicist but a mathematician,
indeed the most famous mathematician in the world? Poincare preserved such total silence on these matters that
know nothing is
The one thing that is certain mentioning Einstein’s name whenever he had to
of his attitude or motives.
that he avoided
His
refer to relativity theory in later years.
later articles suggest that
he ignored not only Einstein’s name but also Einstein’s clung to his
more
as a
ject rather
own concept
he
of 1905, regarding the relativity principle
than as an axiom of physics generally; that he viewed the as
an independent hypothesis and not
quence derived from anything a
system
in Brussels in 1911. a success:
else
—with behind
as a
it all still
conse-
the ether,
at absolute rest.
Einstein and Poincare
not
ideas; 53 that
conclusion from electrodynamics and confined to this sub-
Lorentz contraction
and hence
we
The
met only once,
at the first
Solvay Congress
meeting, as Einstein reported to a friend, was
“Poincare was simply negative (toward the relativity
theory) and with the situation.” 54
all
showed
his perceptiveness
There was no occasion
little
understanding for
for a second meeting: Poincare
died in 1912 at the age of only fifty-eight. Just as Poincare kept silent about Einstein, so Einstein kept silent
about Poincare and about what he had read of Poincare’s work. This significant, since Einstein
care,
owed more than
just
is
one suggestion to Poin-
almost certainly including the definition of time. Did Einstein,
while formulating his relativity theory, half repress Poincare and half
overlook him, and did he later repressed Poincare altogether? stein for the first time
feel so
Long
mentioned
awkward about
this that
after Poincare’s death,
his
name,
it
was
he
when Ein-
in a different con-
The Patent Office
214
Academy of Sciences
In a lecture to the Prussian
text.
in Berlin,
Geom-
and Experience he referred to “the acute-minded and profound
etry
,
Poincare ,” 55 though he was referring not to Poincare’s synchronization of clocks but to his conventional analysis of the relationship
between physics and geometry. Not much lished
an interview pub-
Paris daily Figaro he spoke of his “great
on the front page of the
admiration for Poincare .” 56
later, in ,
Then
followed three
more decades of
silence until Einstein, in old age, in a letter containing a
thumbnail
listing
who had
of authors
mentioned Poincare along with
The
Hume
something
like
influenced his development,
and
Mach
57 .
following year there was a tempest in a teacup around the
second volume of Sir Edward Whittaker’s History of the Theories of Aether and its
Electricity
passages
tivity
on
—
in
many respects
relativity theory.
but an oddity in
a masterpiece,
Even the chapter heading “The Rela-
Theory of Poincare and Lorentz”
indicated the direction of
Whittaker’s thinking; he declared that Einstein’s contribution was marginal. land,
had
Max
Born, like Whittaker a professor at Edinburgh in Scot-
tried to talk his colleague
vain. In response to Born’s
by
a
widely respected
Myself,
I
some
this strange
it
whim, but
in
warning of what was about to be published
scientist,
Einstein reacted irritably:
have always derived satisfaction from
don’t think like
out of
sensible to defend
my
few
my
results as
but
efforts,
my
I
property,
old skinflint defending the few coins he has laboriously
scraped together. I’m not holding don’t have to read the stuff
it
against him.
.
.
.
After
all, I
58
.
Nevertheless, the episode
wrote to Bern, where
left a
mark on
a celebration
Einstein.
Four weeks
was being prepared for the
anniversary of relativity theory: “I hope
it
will
later
he
fiftieth
be ensured that the
merits of H. A. Lorentz and H. Poincare are also appropriately
acknowledged .”^ 9 After nearly half a century
this
was the
first
time that
Einstein even mentioned Poincare in connection with the special relativity theory.
T wo weeks before
his death, Einstein
spoke with
a
young
historian
of science. At one point the conversation turned to the vanity which,
Acceptance, Opposition, Tributes Einstein observed, was found “in so
many
215
You know,” he
scientists.
me
that Galilei did not acknowledge
Abraham
Pais asked Einstein’s secretary
told his visitor, “it has always hurt
work of Kepler.” 60
the
After Einstein’s death,
about
a
book he had
lent Einstein.
A
few years
earlier,
he had asked
Einstein what influence Poincare’s great treatise of 1906 on the
dynamics of the electron had had on Einstein’s own work. Einstein
had never read
and
it,
Pais,
who had found
an offprint of
this
not
readily accessible article in an antiquarian bookstore, lent Einstein his
precious copy, but
unable to find the
it
was never returned to him.
article. 61
Now the secretary was
Poincare’s paper remained
Poincare and Einstein had passed
lost.
like ships in the night,
doing
everything possible to avoid one another.
Einstein’s relativity theory
Lorentz. For
more than
a
must have been
a strange
dozen years the Dutch praeceptor physicae had
struggled to adapt electrodynamics to the fact that to the ether
experience for
was not observable.
movement
relative
Elis efforts to “save” the relativity
principle had worked, albeit at the cost of complicated arguments and a
mountain of separate hypotheses. And now
a fairly
from Bern had simply turned the problem into actually succeeded with
it.
unknown man
a principle,
In 1906 Lorentz observed, with astonish-
ment and some melancholy,
that “Einstein simply postulates
have deduced, with some difficulty and not altogether
a
what we
satisfactorily, field.” 62
from the fundamental equations of the electromagnetic however, was
and had
That,
one-sided comment, because Einstein, on the other
hand, had easily derived from his two principles
had been forced to introduce
as
much
ad hoc hypotheses
of what Lorentz
— from the Lorentz
constant to the Lorentz force. Moreover, Einstein had established the validity of the principles as a
whole
As
it
and the kinematics based on them for physics
—something Lorentz had not even attempted.
was not then possible
to decide
between the two theories by
experiment, Lorentz tended to view the choice as
“Which of be
left to
the two
him” 63
is
modes of thinking
a
how he summed up
a
matter of
person follows his
opinion
in
will
taste.
probably
the Wolfskehl
The Patent Office
216
fall
of 1910.
Max
edit these lectures for publication,
thought
this
lectures he gave in Gottingen in the
had to
Born,
who
“absurd and
reactionary.” 64
In a series of lectures in Haarlem, the Netherlands, in 1913, Lorentz was even
more
more outspoken. He found
satisfactory,
“the older presentation
according to which the ether possesses a kind of
substantiality, space
and time are
strictly separable
and simultaneity can be defined without
from each other,
restrictions.” Realizing that
absolute simultaneity would imply infinite velocity, he also criticized
“the bold assertion that super-light velocities are unobservable as a
hypothetical restriction of what
is
one that cannot be
accessible to us,
accepted without reserve.” 65
Unlike Born, Einstein showed some understanding of Lorentz.
When
Lorentz’s lectures went into print the following year, Einstein
for the first time acted as a reviewer of a
theory.
He made no
work concerning
relativity
mention of Lorentz’s observation on the
ether,
time, or the velocity of light, but found everything else “clear and well
explained.”
He
interest in the subject should
No
“No one
added the recommendation: omit reading the
little
with
a serious
book.” 66
one ever suggested that Lorentz’s unwavering loyalty to the
ether physics of the nineteenth century had anything to do with professional vanity, with obdurate pride in his
own
achievements, or with
stubbornness. Lorentz was universally admired, not only as an authority and a wise guide through the problems of theoretical physics,
but also as an integrated and harmonious personality. This also
—precisely be-
by his numerous comments on relativity theory
cause his
own view was
lationship
different.
And
it is
by the
further confirmed
shoulders he himself stood, even
he
did.
re-
between Einstein and Lorentz.
Einstein had always regarded Lorentz as one of the giants
as
proved
is
This
if
that giant
intellectual admiration
personal relationship.
When
was reluctant to see
was soon matched by
else, I
might say
a
as far
happy
the two started to correspond in 1909,
Einstein was enthusiastic even at a distance: “I admire that
than anyone
on whose
I
man more
love him.” 6 ? This boundless admiration
was soon reciprocated, confirmed, and consolidated in personal contact.
In the later phases of Einstein’s
life
Lorentz
will
time and again
Acceptance, Opposition, Tributes appear
as
kind of father figure, and as
a
a
217
splendid example of
unclouded respect despite professional disagreement.
One
of the major oddities in the customary accounts of the theory of
relativity
the assertion that
is
came
it
into being in close connection
with the empirical findings of Michelson and Morley’s ether-drift experiment.
A typical
example
an essay by Robert A. Millikan which
is
introduced the special issue of Review of Modem Physics published on Einstein’s seventieth birthday. Millikan states that the special theory of relativity
tion
may
be “looked upon
as starting essentially in a generaliza-
from Michelson’s experiment.” 68 This may not have been the
opinion of the
man whose
birthday was being celebrated, but
been the opinion of physicists generally for some time. been established with the
Max von Laue
in 191
1,
in
first
book on
It
a solid part
relativity theory, written
relativity theory” 69
and
1905 paper shows that
it
Yet
a
has since
a single glance at Einstein’s
no mention anywhere of
contains
allegedly vital experiment. This raises the question of
—
as the
of the folklore of physics.
straight to the relativity principle.
ing
it
by
argued, then, that the Michelson-Morley experiment led
is
actually
had
had clearly
which Laue described the experiment
“fundamental experiment of the
become
It
it
knew of
what
that experiment and
effect
it
this
what Einstein
had on
his think-
question not only of biographical interest but of some impor-
tance for the genesis and justification of relativity theory. In the 1950s the physicist Robert
S.
Shankland,
who thought
of
himself as a scientific heir of Michelson, asked Einstein (who was then
very old)
At
first
when
exactly he had
first
learned of Michelson’s experiment.
Einstein replied spontaneously that he had learned about
from H. A. Lorentz’s writings, but only
would have mentioned
it
in
my is
later,
my life.
I
me
guess
following
not so easy,
heard of the Michelson experiment. influenced
1905. “Otherwise
after
I
I
am
some
reflection,
not sure when
was not conscious that
directly during the seven years that relativity I just
took
it
I
paper.” 70 This information could not
have been correct, and two years qualified his answer: “This
it
for granted that
However, Einstein had learned of
it
was
he
I first it
had
had been
true.” 71
that experiment during the
first
The Patent Office
218
of those seven years, while he was
still
a student. In the
summer
Marie
tion between his third and fourth years he reported to Mileva
by Wilhelm Wien, and
72 that he had “read a very interesting paper”
this contains a list
vaca-
of thirteen experiments to prove the Earth’s motion
through the ether, including that of Michelson and Morley. In Lorentz’s Versuch of 1895, which Einstein studied carefully several times, the experiment its
consequences.
is
described in detail and discussed in terms of
and
Since Lorentz was induced by Michelson
Morley’s results to extend his electron theory by hypothesizing the contraction of dimensions, this
is
of decisive importance: a theory had
reacted directly to an experimental result, and Einstein can scarcely
have been unaware of this. But does
this
mean
that the experiment
was
therefore important also for the development of Einstein’s relativity
theory?
The
structure of Einstein’s treatise of 1905 does not suggest that
interpreting the ether-drift experiments in general or the Alichelson-
Morley experiment
in particular
had been of particular interest to him.
In setting out the problem, he extensively outlined the structural
asymmetry of the customary electrodynamic concept and followed
up with no more than
a
summary
this
reference to “the failure of attempts ”
—and
to detect a
motion of the Earth
relative to the ‘light
that
On
two arguments, he then elevated the
is all.
the basis of the
“principle of relativity”
from an assumption
medium’
to a presupposition.
of these “failed attempts” was Michelson’s, but despite racy and
its
importance to Lorentzian theory,
it
its
One
great accu-
was only one of many;
and Einstein pointed out to Shankland that the aberration of starlight and the Fizeau experiment would have been basis for his arguments.
a sufficient experimental
Both of these were well known,
like Faraday’s
induction experiment, whose interpretation had been Einstein’s
motiv in If the
his search for a
comprehensive principle.
Michelson-Morley experiment played any role
stein’s reflections, it
leit-
was only
at all in
indirectly, as part of the
Ein-
Lorentzian
theory, because Einstein was of course aware that the contraction of
dimensions must come out correctly in his
some
physicists
found
this step
own
arguments. Indeed,
of Einstein’s, from the problem to the
principle, particularly attractive: in the artificial
and contrived Lo-
”
r
Acceptance, Opposition, Tributes
219
rentzian hypothesis, contraction had been invented solely for the interpretation of the Michelson experiment; but in relativity theory
followed effortlessly from Einstein’s principles as a kinematic Einstein must have heard of
this,
because
at the
it
effect.
beginning of 1908 he
referred to the swift acceptance of his ideas and to the impression
which
his explanation of the theory
had made on
his colleagues: “If the
Michelson-Morley experiment had not brought us into serious embarrassment, no one would have regarded the relativity theory as a (halfway) redemption.” 73 This “redemption” evidently enhanced the
famous “fundamental experiment of the himself occasionally paid tribute to
though not
in
relativity theory.” Einstein
in systematic presentations, 74
it
any of his reconstructions of his mental processes. 75
Einstein’s last word, like
very precise, even though
most of his statements on
this topic,
is
not
was intended for publication:
it
4
my own
In
noteworthy
when
I
development Michelson’s part. In fact, I
was writing
explanation
is
my
cannot even
knew about
recall if I
on the subject
first treatise
that, for reasons
not play any
result did
of a general character,
The
(1905). I
had
it
a firm
idea of how this was compatible with our knowledge of electrody-
namics.
ment
It is
understandable therefore
did not play a decisive role in
why
the Michelson experi-
my personal
This was certainly an honest formulation, but failure
ment
struggle. 76
it
also testifies to a
of memory; Einstein was undoubtedly familiar with the experi-
in his youth, even if
he viewed
only
it
one element
as
whole body of confirmations that no movement
is
in the
demonstrable
rela-
tive to the ether.
It is
sometimes speculated whether
relativity
theory would have been
discovered, or
when
discovered
Einstein himself, in old age, conveyed the impression
it.
it
would have been discovered,
if
that in his youth he had merely plucked a ripe fruit
knowledge: “There
is
regarded
it
as
from the
tree of
no doubt,” he wrote two months before
death, “that the special relativity theory, in retrospect,
Einstein had not
was ripe for discovery in “not improbable that
if 1
we look
905
.
77
at its
development
As early
Mach would
his
as
1906 he
have hit upon the
The Patent Office
220 relativity
theory
if,
at the
time
when
mind was
his
still
youthfully fresh,
the question of the constancy of the velocity of light had already
engaged the attention of physicists.” 78
What
enabled Einstein, rather than anyone
sive step? If revolutionary
else, to
take this deci-
achievements in science imply independence
of the all-powerful traditions which often hold the leading figures in thrall,
then Einstein’s independence of thinking may, at the
have been due to his peripheral position
at least in part,
Patent Office.
His success certainly suggests that working on the margin of scientific
endeavor was not only no obstacle to him but perhaps
a positive
advantage. His “temporal monastery” in Bern was not intellectual isolation. It
enabled him, through intensive reading, to absorb ongoing
by academic fashions or by career
discussions, without being distracted
constraints
from developing
about Einstein also the
is
his
own
What
ideas.
is
so astonishing
not only the depth of the problems he addressed, but
width of
his interests.
Only
his
combination of breadth and
depth seems to explain his unique explosion of creativity in 1905, especially his discovery
of relativity theory.
No one else saw the structural problems of electrodynamics in such close connection with radiation theory;
and he alone, thanks to
his
“very revolutionary” paper of
March
point” on light quanta, found
easy to dispense with the idea of a sub-
stantial carrier
it
1905, on his “heuristic view-
of electromagnetic waves.
that enabled Einstein to bring together
dynamic theory, with
its
It
was
this liberating
H. A. Lorentz’s
concept of local time and
its
blow
electro-
contraction of
dimensions, the delicate status of relativity theory, and the prophetic insights of
lems into
Henri Poincare
a principle.
The
—
a stroke
of genius which turned the prob-
theory of relativity
discovery, but in 1905 only one
man was
may have been
able to discover
it.
ripe for
CHAPTER TWELVE Expert
The news that history itself.
Class
1
had been made
soon spread in professional of Bern
1
circles,
but
it
in physics in
spread
Bern
in 1905
less rapidly in the city
Apart from his colleagues Besso and Sauter, Professor
Gruner was probably the only person who
realized that Einstein had
much
accomplished quite exceptional things. In consequence, nothing
changed
in his lifestyle.
citizens,
he was
he
my
with people.”
only outward sign was
that, for the
good
now Herr Doktor. There were advantages in this, as when congratulating an acquaintance on his doctor’s
later said
degree: “In
The
experience,
it
quite considerably facilitates relations
1
Thus only his
doctorate, and not his other treatises, was referred to
in the application
which
his chief, Friedrich Haller, addressed to the
Swiss Federal Council, proposing Einstein’s long-overdue promotion.
He
had “increasingly familiarized himself with technology, so that he
now very successfully processes
quite difficult technical patent applica-
and
is
one of the most highly respected experts of the Office.” 2
On April
1,
1906, Einstein
tions
up by 600
became an Expert
II Class.
francs to 4,500 francs annually. This
lower range of
officials in his grade.
His salary went
still left
Although he
is
him
reported to have
asked jocularly on payday what on earth he was to do with
money, he was not 3
in fact satisfied with his salary
on more than one occasion Telegraph Directorate.
He
that
all
and evidently
tried
to get a better-paid job in the Post
certainly later reported with
tion that Federal Councillor
in the
Ludwig
221
some
and
satisfac-
Forrer, his friend and patron, had
The Patent Office
222
T elegraph
been “very furious” when he discovered “that the torate
me
had not wanted
an
as
official a
few years
earlier.” 4
Einstein therefore remained a “good patent slave.”
Patent Office what was due to
something to
tributed
reporting on a
drawer in
his
visit to
it,
He
and the Patent Office for
scientific
his
Direc-
its
gave the part con-
Rudolf Ladenburg,
output.
Bern, recounted that Einstein had pulled out a
desk and announced that this was his department of the-
oretical physics.
His duties
and so whenever he was
not demand
at the office did
free
he would work on his
a lot
of time,
prob-
scientific
lems. 5 Needless to say, he did not go about announcing this publicly.
Not even
his string quartet,
with
whom he met once a week during
the winter for musicmaking, had any idea
— even
though one of them was
really
was
Freies
Gymnasium
who
their second violin
a physics teacher at the
His fellow musicians remembered him
in Bern.
as
“an enthusiastic musician, a charming companion, and a modest person,” 6 but not as a
and
this
Some
new Copernicus. This was how
was how things remained
until
he
left
Bern
Einstein liked
in the
fall
people in the Patent Office, and also outside, found
unbelievable that the Expert
it,
of 1909.
it
almost
Class should have been offered a pro-
II
fessorship at the University of Zurich.
During the seven years
that Einstein spent in
seven different apartments.
un-Swiss way of
settled,
We
life,
do not know the reason
peak of
made moving
lived in
for this un-
but the fact that the Einsteins’
apartments were rented furnished probably at the
Bern he had
first
easier.
few
Even
—when the paper on the Brownian been completed — the Einsteins were on the move.
his productivity
movement had just They gave up their apartment at Kramgasse 49 in the old city center and on May 15, 1905, moved to Besenscheuerweg 28 in the Mattenhof district 7
on the
Michele Besso
outskirts.
lived
One
advantage of
this
address was that
nearby and he and Einstein were able to make the
fifteen-minute walk to their office together. After
enormously important matters
all,
the two had
to discuss during the five or six
weeks
from the idea triggered by Besso to the completion of the paper on relativity toward the end of June 1905. The memorial plaque on the arcade pillar of Kramgasse 49, to the effect that Einstein created “his
Expert
fundamental
on the
treatise
Class
II
relativity
223
theory ... in
this
house” should
therefore be treated with indulgence. “I
have moved again,” 8 Einstein reported to his friend Solovine in
the spring of 1906. As at the beginning of their married steins
were once more
in Kirchenfeld.
They rented
the Ein-
life,
the upper floor of a
small house in the typical local style, with a fine view of the Bernese
Oberland mountains. This apartment, the
first
moved
with their
own
at Aegertenstrasse 53,
remained their home
furniture,
probably
until they
to Zurich.
Einstein greatly regretted the departure of “the good Solo”: “Since
you
left I
home plaint,
haven’t been meeting anyone privately.
conversations with Besso have
perhaps
a little exaggerated,
come
was
to an
And now
the way-
end too.” 9 This com-
reaction to the cliquishness
a
of Bern society, and, no doubt, to Mileva’s marked distrust of other
home
people. But at
Hans
The
whose
Albert,
Einstein
now had
a small
companion,
his
intelligence at age three fascinated his parents.
boy had
father remarked, proudly rather than critically, that the
“already
grown
into a rather fine impertinent lad,” 10 and the
reported contentedly: just playing
son
“My husband
mother
often spends his free time at
home
with the boy.” 11
Their income was probably adequate for
a solid
bourgeois
lifestyle.
Mileva’s considerable dowry of 10,000 francs was regarded as a reserve
and not touched; when they divorced, many years
amount remained.
If the Einsteins lived a little less
later,
the
grandly than some
of his colleagues, this was because he had to support his mother,
was in
living with her sister
Hechingen,
visited their visit
who
Fanny and Fanny’s husband, Rudolf Einstein,
in the Prussian enclave of Wiirttemberg.
was enough money
full
for vacation trips. In
Even
so, there
August 1905 the Einsteins
former fellow student Helene Savic in Belgrade
may have been connected with
inquiries about Lieserl
—
their
—and sub-
sequently they spent a week with Mileva’s parents in Vojvodina. Over the following years they vacationed in the neighborhood of Bern, in resort villages, in the Simmental, the Valais, or the Bernese Oberland.
The
incredible, even
awesome, tempo with which Einstein completed
four epoch-making papers between
March and June 1905 could not
The Patent Office
224
—
one might be inclined to
last
fortunately,
work
at that intensity
continuing to
say, since
would have been bound
damage
to
his health.
But the reason was not physical exhaustion but exhaustion of subjects:
“There
is
not always
theme
a ripe
musing
for
At
over.
not one
least
that excites me.” 12 Einstein had a sure instinct for choosing not only
what problems
to address but also
what problems
would, of course, be the subject of the spectral there
is
no such thing
as a
to pass over.
lines,
but
I
“There
believe that
simple connection between these phe-
nomena and others already researched, so that the matter, for the moment, seems not too promising.” 13 That was a shrewd judgment, as atom was
the internal structure of the
still
nucleus had not yet been discovered, and
it
unknown, the atomic
was not
until 1913 that
Niels Bohr would propose a quantum-theoretical model of the atom. In 1905, at
work on
spectral lines could not have
gone beyond an attempt
phenomenological interpretation, even for Einstein.
he did not attempt
it
shows him to be
a
master of the
art
The
fact that
of the soluble,
ever searching for a “connection between phenomena.”
There was no shortage of soluble problems within the himself had opened up.
Thus
in
fields
September 1905 he published the
he
first
version of the equivalence of mass and energy as the most spectacular
consequence of the
more general
derivation of the formula
for an experiment to decide
the electron. tions,
The
The next E — me2 as
relativity principle.
between
rival theories
year would see
a
well as a proposal
of the dynamics of
proposal was solidly buttressed by theoretical reflec-
but the experimenters chose to go different ways. Einstein also
generalized and deepened his theory of the Brownian especially his “heuristic viewpoint”
eventually, another milestone
theory of
solids.
not spend
all
is
light quanta; in
was reached with
November,
his first
Mileva proudly reported that her husband
his free
to say that this
on
movement and
time playing with the boy:
by no means
his
“To
quantum
now
his credit I
only occupation outside his
did
have
official
work; the treatises written by him are piling up quite frighteningly.” 14 Six publications
1906.
—
all
—were
of them important
the rich harvest of
Expert
Such an enormous
a lot
Class
when
his creative ideas
of routine work remained to be seen
work
at the
225
output cannot have been easy, even for
scientific
genius like Einstein. Even
II
and
to,
had been developed, was on top of his
this
Patent Office. Ideas had to be arranged in
for publication, the
a
a
form
mathematics had to be tidied up, and
suitable
copy
a fair
had to be written for submission to the editor of Annalen, to be passed
on
reliable version available for
was
on his
would keep
to the printer. Cautious authors
and on
dissertation
his
probably waived
memory.
Now and
for changes
this precaution, relying
—quite certainly with molecular weight— there
from the
a
a rule,
month
or
was an opportunity for correcting mistakes, checking the
calculations,
parcel
As
editor.
however, the proofs would arrive from the printer after this
a
again
on the determination of
might be queries or requests
more;
have
checking proofs or in case the manuscript
lost in the mail. Einstein
his notes
a copy, so as to
and fnaking last-minute
would
revisions. After another
month
a
up
a
arrive with the offprints of the paper. Einstein built
own
small reference library of his
offprints, in
which he occasionally
scribbled afterthoughts or corrected printing errors. 15 His
manu-
and notes were usually thrown away once the offprints
scripts, drafts,
arrived.
These
offprints were,
edgment among draw attention
show
interest
we have
and
scientists.
still
An
are, the
currency of mutual acknowl-
author would send one to
a colleague to
to himself and his work, or a reader of a journal
might
and respect by requesting an offprint from an author. As
seen, Einstein as early as 1905
information network of physicists regularly later.
Some
inquiries
was involved
—sporadically
at
in this informal first
and more
were addressed to “Herr Professor Ein-
stein” at the University of Bern, 16
and the writers no doubt were aston-
ished to find that this author was employed not at the university but at
Some recipients of his letters, especially if they were renowned professors, may also have been taken aback to find them the Patent Office.
written on graph paper with a ragged edge, carelessly torn from
some
copybook. It
was the custom then among
dence had developed, to lend
it
a
physicists,
once
a lively
correspon-
more personal note by exchanging
The Patent Office
226 photographs. Einstein
young colleague received gentleman
in a
many
into line with this practice, 17 and
fell
a fine picture
smart check
Although most of the early
suit,
resting his
letters are lost,
a
showing an elegantly clad
arm on
a writing desk.
we may assume from
later
evidence that Einstein had always been an enthusiastic letter writer
where by
scientific topics
were concerned. Some idea of
this
is
conveyed
correspondence with Wilhelm Wien,
his partially preserved
became
1906, after the premature death of Paul Drude,
who
in
editor of
Annalen and thus one of the most influential physicists in Germany.
Throughout the summer of 1907, including mental, Einstein
with long
letters
his vacation in the
Sim-
bombarded the “highly esteemed Herr Professor” and terse postcards
me
“not to think too badly of
—so much so that he asked Wien my
because of
flooding you with
letters.” 18
This correspondence was concerned with
con-
difficult questions
cerning the interpretation of the velocity of light as a nonexceedable limit for signals. In the heat of battle Einstein occasionally tripped up,
but even
as a
young man he never
lost sleep
closer examination, unfortunately, everything cipitately in
to
in the
any transmission of
The
end
it
was perfectly
which was compatible with the
although
reported to you so pre-
my last letter has turned out to be wrong,” 19 he once wrote
Wien. But
theory,
I
“On
over his mistakes:
this did
a signal
not give
clear that the
Maxwellian
relativity principle, ruled
at a velocity
exceeding that of
out
light,
rise to a publication.
best opportunity for meeting influential professors and
maneu-
vering into position in the academic job market was provided by congresses. Einstein did
avoided
it.
not seize that opportunity, and perhaps even
Physicists then did not have conventions of their
would meet
in specialized
own
groups within the framework of the annual
general meeting of the Deutsche Gesellschaft der Naturforscher Arzte, the
German
Stuttgart in
but
Society of Scientists and Physicians.
Its
und
meeting in
1906 would have offered Einstein a good chance to
become acquainted with the
leaders in his field,
comparative nearness to Bern.
if
only because of
And he had no doubt
its
seen the notice in
Expert
Max
Physikalische Zeitschrift that
Kaufmann k Measurements the Electron a subject that ,
.
.
.
The stein
its
Class
227
Planck was going to speak there on
and Their
Significance for the
would have drawn attention
The Electrodynamics of Moving discussed there in
li
Bodies.
Dynamics of
to the author of
Nonetheless, Relativtheorie was
author’s absence.
following year,
when
the meeting was held in Dresden, Ein-
was again absent. In 1908, eventually, he did plan to go to
Cologne, but
this did
for recuperation. 20
not come about because he used
The two
his short leave
weeks’ annual leave from the Patent
Office to which he was entitled was certainly not very generous, but
managed
Einstein had really wanted to attend he probably could have a
few extra days. Probably he was not
university assistants’ posts had vant, 21
all
that eager.
The
if
poorly paid
attraction for a well-paid civil ser-
little
and besides he may have believed that one day the mountain
would come
to
Muhammad. And
indeed, the following year, 1909,
Einstein attended the annual meeting in Salzburg,
now
as a “guest
of
honor” entrusted with one of the keynote addresses.
We so, it
do not known whether Professor Gruner encouraged him
to
do
or perhaps even Professor Kleiner of Zurich University, or whether
was on
his
own
initiative that Einstein for a
Hahilitation as a privatdozent.
At any
rate,
second time applied for
on June
he sub-
17, 1907,
mitted an application to the director of education of the canton of Bern. 22 Enclosed with his petition were his dissertation and doctor’s
diploma, a curriculum vitae of only nine
from the It is
field
since, as
with his
dozent without writing possible,
ments.”
and “seventeen papers
of theoretical physics.”
probable that he had discussed
Gruner,
lines,
first
this step in
advance with Paul
attempt, he wanted to
become
a special Hahilitation thesis; this
under the university’s
rules, “for
a privat-
procedure was
other outstanding achieve-
No doubt Gruner would have persuaded Aime Forster,
the (by
then rather senile)
full
professor of physics, that the offprints sub-
mitted by Einstein
far
surpassed any normal Hahilitation thesis, but
once again, things did not work out. Einstein’s application ulty
was immediately circulated among the
members. By July 10 they had
all
read
it.
The
fact that
it
fac-
was not
The Patent Office
228
put on the agenda before the impending
began on July
supported
application professor,”
“in view of the important scientific
achievements of Herr Einstein, without demanding
a special Habilita-
Professor Forster, the head of the department
whose incompetence,”
—“about
Einstein later remembered, “stories were cir-
as
the younger people” 24
among
culating
unhappy
professors were
thesis.
a positive decision,
tion thesis.” 23
which
vacation,
Not until October 28 was the Only Gruner, who was no more than a “titular
about the lack of a discussed.
some of the
10, suggests that
summer
—recommended that the
appli-
cation be accepted “under the customary procedure.” It was therefore
decided, “after prolonged discussion, that the petition be refused until
Herr Einstein has submitted stein’s
a Habilitation thesis.”
second attempt to become a “great professor.”
No
railed against the “pigsty,” 25 as
doubt he again
first
attempt four years
and
also in the certain
knowledge that the
few old fogies
—
as
universities
we
after his
would not be
longer. In old age, looking back
episode, he remarked that “it a
he had
but this time with more justification,
earlier,
him much
able to ignore
ments
Thus ended Ein-
is
on
this
often the case that in small depart-
ourselves are
now
—
will stick together
and run the show.” 26
By then
the major scientific publishing houses had
Einstein.
The
in Leipzig,
first
to
whose proprietor assured him
The
in
following year the firm of
should produce “a
to notice
approach him was the renowned firm of Teubner
September 1907 that “my
presses will always be at your disposal in case plans.” 27
begun
little
monograph on
S.
the
you have any
literary
Hirzel proposed that he
more recent advances
in
physics and chemistry,” written “in an easy, not to say popular, style to
make
it
accessible to the chemist as well as the physicist.” 28
the idea appealed to
even though
I
am
mind two weeks book, because
When
I
Eilhard
initially
hoped
to “undertake the task,
seriously overloaded with work,” 29 he
later:
am
relativity theory,
him and he
“Unfortunately
I
am
changed
his
quite unable to write that
unable to find the time for
Wiedemann
Although
it.” 30
suggested that he write a book on
presumably for the publishing house of Vieweg in
Braunschweig, Einstein declined after
a
lengthy period of considera-
Expert tion
—
Class
229
time not only for reasons of time but also because of the
this
how
subject matter: “I cannot imagine sible to
II
broad
circles.
this topic
Comprehension of the
could be
subject
made
demands
acces-
a certain
schooling in abstract thought, which most people do not acquire
because they have no need of it.” 31
Even script
in later years publishers
it
difficult to extract a
from Einstein. Despite the large extent of
wrote only two books:
and
found
his publications,
He
level. 33
graph on
never wrote
at
an academic
even an authoritative mono-
a textbook, or
a particular field
about what was already
he
popularized exposition of relativity theory 32
a
reworking of four lectures on the same subject
a
manu-
of research. His interest was not in writing
common
knowledge, but in pursuing what he
himself did not yet know.
In September 1907, while his Habilitation application was at the
University of Bern, Einstein had agreed to write
sive article
on the theory of relativity. What began
as a
a
still
pending
comprehen-
commissioned
job turned into a stroke of genius, perhaps his greatest. Johannes Stark, Einstein’s senior
by only
five years
but already
professor (albeit a
a
provisional one) in Greifswald, had founded th & Jahrbuch fur Radioaktivitdt It
und Elektronik ( Yearbook of Radioactivity and
was
was to appear. Einstein
in this annual that Einstein’s article
accepted “gladly” but asked Stark to help
Electronics) in 1904.
him with
the literature, as he
was unable “to inform myself on everything that has appeared on subject, as the library
own
papers,
(1904),
I
am
is
closed during
my
acquainted only with
free time.
a
notice.” 34
paper by H. A. Lorentz
papers concerning the subject have not
Presumably Einstein was
listing
nals have
been quite
as difficult as Einstein
evidence not so
much
come
to
my
only offprints sent to him,
because he must have read a good deal more.
is
my
one by E. Cohn, one by Mosengeil, and two by Planck. Other
theoretical
fore
Apart from
this
Nor
made
can access to jour-
out.
The
list
there-
of the state of his knowledge as of his
selective treatment of literature.
Einstein had only two months to write his Jahrbuch
article. 3 '
After one
month, he informed Stark that he had “so arranged the work that
The Patent Office
230
anyone couid find theory and
its
way with comparative
He had
applications so far.” 36
clarification of the
ease into the relativity
much
devoted
care “to the
assumptions used,” and he was anxious, by means of
and simplicity of the mathematical development,” to make
“clarity
work more
“the
his
attractive.” 37 In this, despite the pressure
of time, he
succeeded superbly.
The
report,
On
the Relativity Principle
and
the Conclusions
and range of
ltd 8 gave an excellent overview of the foundations
from
Drawn
the principle for electrodynamics, mechanics, and thermodynamics.
The
advances achieved by the theory as formulated in this report were
later
most
It
strikingly
summed up by Einstein
in his
Nobel
reconciled mechanics and electrodynamics.
It
lecture:
reduced the
number of logically independent hypotheses of the last-named.
It
enforced a cognition-theoretical clarification of the basic concepts. It unified the
impulse theorem and the energy theorem;
it
proved the essential unity of mass and energy. 39
However, what would not
digm of all
physics,
fit
into the relativity principle
was the para-
Newton’s theory of gravity. There were
also a
few
other problems, predominantly having to do with cognition theory
and
aesthetics.
We
do not know
first felt
at
what point between 1905 and 1907 Einstein
that his relativity theory as formulated in
On
namics of Moving Bodies could not be the final word.
probably gave
rise to further
thought
ited to “inertial systems,” that
is,
fairly
the Electrody-
One problem
soon: the theory was lim-
to referential systems in
uniform
nonaccelerated motion relative to one another. This restriction, as he later observed,
status of
“was really more
one single
state of
than the privileged
difficult to tolerate
motion,
as
was the case
in the theory of a
resting luminiferous ether, because that theory at least proposed a real
reason for that privileged status, namely the luminiferous ether.” 40
With
the discarding of the ether, the
demand
for a
broadening of the
theory seemed to Einstein the most natural thing in the world. But
what he
called his
“need of generalization” 41 was not enough; there
was another stumbling block:
“It
was only when
I
endeavored to pre-
Expert
Class
II
231
sent gravitation in the framework of this theory that
the special theory of relativity was only the
realized that
I
step in a necessary
first
development.” 42
we do not know
when these endeavors began, or how intensive they were, but we do know when the breakthrough came in October or November 1907, when the first half of his Again,
precisely
—
Jahrbuch
article
November all;
was ready and the second remained
he was not yet sure
1
to be written. 43
On
he would deal with gravitation
if
at
otherwise, he would surely have mentioned this to his editor.
When
the article was finished on
essentially an overview,
were followed by
pages, contained entirely
Under
the heading
December
new
1,
the
first
four parts,
which, on nine
a fifth part
material.
“The
and Gravitation,”
Relativity Principle
Einstein makes a connection between the generalization to any refer4T
system on the one hand and the
ential
on the
other.
What is
—
is
treatment of gravity
developed here, on the basis of a convergence of
the two problem areas
matic
relativistic
—
a
convergence
as surprising as
it
is
enig-
not an axiomatic theory but only the outline of the begin-
ning of a lengthy development which, eight years
later,
would
the “general theory of relativity.” But the outline already
is
result in
bold, even
revolutionary. If the relativity theory of 1905 was a revolution, then this revolution
too “devours
its
children.”
The
principle of the con-
stancy of the velocity of light, only just established, in the sense that the velocity
stein
field.
While
Christmas Eve 1907 was not origin,
“modified”
were
his colleagues
new ideas he had put forward
was already marching on. That was
was of Jewish
now
and direction of propagation of light are
influenced by a gravitational struggling to assimilate the
is
his destiny
and
festive in the Einstein
still
in 1905, Einhis greatness.
household.
He
and her Serbian Orthodox Church did not
observe the birth of Christ until January. So he used the break to write letters.
article
with
“During October and November
on the
new
I
was very busy with an
relativity principle, partly reporting
matters,” he informed
Conrad Habicht.
and partly dealing
“Now
I
am
con-
cerned with another relativity-theory reflection on the law of gravitation,
by which
I
hope
to explain the
still
unexplained secular changes
232
The Patent Office
in the perihelion distance of Mercury.” 44
despite
its
He had
thus focused on what,
minuteness, was a serious stumbling block in Newton’s
theory of gravitation. In a short postscript Einstein added: far
it
doesn’t seem to
before
it
did
work out
work
out.” It
.
.
but so
would take eight laborious years
—before, on November
the general theory of relativity in front of him.
15, 1915, Einstein
had
PART
III
CHAPTER THIRTEEN
From “Bad Joke” to “Herr Professor”
“I
must confess to you
sit
in an office for eight hours a day!
This
is
that
I
was amazed to read that you have But history
is full
how Johann Jakob Laub, Wilhelm Wien’s
to
of bad jokes.”
1
collaborator in
news that the “Esteemed Herr Doktor,”
Wurzburg, reacted
to the
from whom,
beginning of 1908, he had requested an offprint
at the
and for whose sake he was willing to come to Bern for three months,
was to be found not
Much
the
at the university
same may have been
1906 Ordinarius, or
full
but
felt
at the
Patent Office.
by Arnold Sommerfeld, since
professor, of theoretical physics in
Munich. At
the beginning of January he had written a letter which had given Ein-
other physicist has yet approached
me
with such frankness and benevolence.” 2 At the same time, Einstein
felt
stein exceptional pleasure:
it
necessary to tone
“No
down Sommerfeld’s compliments: “Because
of
my
lucky idea of introducing the relativity principle into physics you (and others)
now
feel quite
Those
greatly overrate
my
scientific abilities, so
physicists
Einstein was
who had
still
felt
already seen the light about his
I
work
“quite shaken” at the thought that Albert
employed
at the
Patent Office.
earned the kind of reputation that made the offer of a
so that
shaken.”
would probably have
only
much
He
had by then
a university chair
matter of time.
Einstein himself had been thinking of a change in his career ever since the beginning of the year, and he had probably discussed the matter
with Jakob Ehrat,
who had come from Zurich 235
over Christmas and
who
The New Copernicus
236
was himself thinking of becoming Marcel Grossmann he voiced
his “sincere
my
under
private scientific activities
The
of the past three years
efforts
less
wish to be able to continue
unfavorable circumstances.” 4
—twenty-five publications, culmi-
nating in the tour de force of the Jahrbuch
growing volume of
his scientific
sented not only an intellectual but also
all
Marcel Grossmann, Einstein’s
achievement even
if
more exhausting must
Patent Office.
at the
“lifesaver,”
Zurich Polytechnic in 1907,
at the
along with the
—would have repre-
a physical
How much
been on top of his work
that have
article,
correspondence
they had been his main occupation.
To
Patent Office “expert,” 3
a
had become
a professor
after a career in the school service,
and Einstein once more turned to him for advice. Einstein was aiming not
an academic post, but, with almost touching modesty,
at
at a
teaching post at the Technical College in Winterthur, 5 the institution
where he had worked
now
spring of 1901. “I
make
a
my
how
does one go about this? Could
admirable person as
a teacher
and
Would
etc.)?
there be any point in
Wouldn’t
citizen?
I
I
my Semitic my stressing my scien-
bad impression on him (no Swiss-German
appearance, tific
ask you:
in the
on somebody and verbally convince him of the great
possibly call
worth of
two months
as a stand-in teacher for
dialect,
papers on that occasion?” 6
We
do not know
terthur, but at the
apply:
he learned
gymnasium
about the
if
salary,
Einstein actually applied for a post in
—probably from Grossmann—of
in Zurich.
found
“With reference
it
He
first
would add that
I
new vacancy
corresponded with the principal
acceptable, and
on January 20 decided
to
to the advertisement of a teaching post for
mathematics and descriptive geometry, tion. I
a
Win-
would
also
I
hereby apply for that posi-
be prepared to teach physics.” 7
enclosed his dissertation as well as “the rest of
my
scientific
He
papers
published hitherto.” There were twenty-one applicants for the job; three of them were short-listed. Einstein was not as the records
contain no assessment of him,
among the
three,
we must assume
and
that his
application was not even considered.
Meanwhile, though, Einstein had another iron Habilitation. ties
He
and had
had abandoned
now
in the fire
—
his
his earlier opposition to the formali-
prepared the prescribed
thesis.
On
February
11,
— From “Bad Joke”
you
now
friends, has
time and after
To
Bern.
end
this
in the City Library, as well as the advice of several
induced
all
237
Gruber of his change of mind: “My con-
1908, he informed Professor versation with
to “Herr Professor
my
try I
me
change
to
my
intention for the second
luck with Habilitation at the University of
have submitted
a Habilitation thesis to the
Dean.” 8
And now the proverbially slow Bernese were suddenly in a hurry. Some of the professors were probably afraid that their earlier denial of a Habilitation to the only physicist in Bern who was known beyond the borders of Switzerland might cast a bad light on the department rather
than on the candidate.
The minutes
The
procedure was
Energy Distribution
a thesis entitled Conclusions from the
Theorem of Black Body Radiation Concerning ,
“The
speedily set in motion.
of a faculty meeting on February 2 report that Einstein
had submitted
tion.
now
thesis has
the Constitution of the Radia-
been circulated among the faculty members. Herr
Prof. Forster proposes in writing that the Habilitation thesis be ac-
cepted and Herr Einstein invited for this
proposal a resolution.” 9
ture,
On
physics,
a
The
colloquium.
made
a
trial lec-
,
unanimously recom-
privatdozent for theoretical
and the following day the director of education of the canton
By
of Bern issued the appropriate document.
document, Einstein’s
He
makes
Thermodynamics was given,
faculty thereupon
that the candidate be
faculty
Thursday, February 28, the
the Limits of Validity of Classical
along with
mended
On
The
a trial lecture.
did not keep
it.
thesis
To
the
was returned to him
judge by
its title, it
same mail
as the
at Aegertenstrasse.
must have been
a prelimi-
nary study for work to be published the following year. 10
Even before the formal proceedings, Einstein had
to spend a class
to
his
to
I
on lecturing
.
.
.
will
be optimally used,
i.e. I
would
like to
run
adapted to the degree of knowledge and the interests of the stu-
dents.” 11
While the professor and
the privatdozent very quickly agreed
on the delimitation between the main this
be understood
— whose lectures own colloquia were supplement— that he was anxious that “the time that have
by Professor Gruner represent a
let it
lectures and Einstein’s class
—the
conversation taking place at the tourist cafe Chalet Bovet
“knowledge and
interests” of the
quite another question. In his
few physics students in Bern were
first class in
the
summer semester
of
The New Copernicus
238
1908 Einstein had an audience of exactly three 12
—and these were not
students but his loyal friends from the Patent Office, Michele Besso »\
and Heinrich Schenk; and Lucien Chavan from the Postal and Telegraph Administration.
On
Tuesday and Saturday of each week, they
had to get up early and climb up the Grosse Schanze, where Einstein
would begin the
morning so
class
(on “molecular theory of heat”) at seven in the
that he and his colleagues could start
Office at eight.
Chavan
at least, as
is
shown by
written in French, 13 did not miss a single
In the winter semester, Einstein
from this
six to
more
seven o’clock, his topic
his meticulous notes,
his class to the evening,
were joined by
a
genuine
Stern from Lithuania; but he was not a physicist but a
student of insurance mathematics with an interest in science.
summer
the 1909
Patent
being “radiation theory.” At
civilized time, the three friends
Max
student,
at the
class.
moved
now
work
semester, the three friends
pursue their education under Einstein,
Max
When,
no longer chose
in
to
Stern remained his only
student. Einstein thereupon canceled the class.
The
circle
of friends of the newly appointed privatdozent was soon
joined by Johann Jakob Laub,
who
arrived in
Bern
in
March 1908 and
would henceforward pride himself on being Einstein’s
t
H. December
19 19 nr. 50
€ Inzc pr9 i
Berliner
fees
28 Jafjrgang .
fj
e
f
»
ts
25 Pfg.
Jllulfrirte 3cituna
brfiVn nit&
10.
“A
New
fturfdiiiiitKH
rim>
Sen Ifrlcimutlffrii
Giant
in
uiiillfle
ti Mi's
llmumljimn itiifmr
Jleptriiltut,
‘JlnnirlH'lruditinifl
SUpIcr un&
World History
.
.
.
bcOtulv
i
".'tcwlon rtlriftnmlifl fin#.
whose researches mean
complete overthrow of our views of nature,” 1919.
a
1
1.
Lecturing
at the
College de France, Paris, 1922
12. Einstein
about 1920,
theory of relativity.
a
time of intense public interest in the
13.
With Hendrik Antoon Lorentz, who was
father figure.
Einstein’s scientific
14.
With
his
second wife, Elsa, in Berlin, 1921.
From "Bad Joke”
The
to “Herr Professor
concepts of space and time which
sprung from an experimental physical
Their tendency
by
is
a radical one.
wish to present to you have
I
soil.
Therein
lies their
Henceforward space by shadows, and only
itself will totally decline into
a
itself
strength.
and time
kind of union of
The man who
the two shall preserve independence.” 38 cally
243
so bombasti-
prepared his audience for the epoch-making significance of his
exposition
whose
was Hermann Minkowski, the famous mathematician
young Einstein had avoided
lectures at the Zurich Polytechnic
but whose
class
on
analytical
mechanics he had appreciated
theoretical lecture there. In 1902
Minkowski had been
tingen to a chair specially created for
There Minkowski subscribed
Hilbert.
masters of Gottingen mathematics
him
Got-
invited to
at the insistence
to the belief of the
only
as the
of David
two grand
— Felix Klein and Hilbert—that the
fundamentals of physics were really too
difficult for physicists
and
should be handled by mathematicians.
Such
a
mind could not long overlook
trodynamics of
Moving
Bodies. Jointly
nized a few seminars on
Einstein’s paper
On
the Elec-
with Hilbert, Minkowski orga-
new developments
in electrodynamics in
1907-1908, which were followed by a lecture in Gottingen and publications of high quality.
he observed to
As
for the paper of his erstwhile student,
Max Born: “I really wouldn’t have thought that!” 39 Max Born even reported that Minkowski
had told him of his “great shock when Einstein published
which the equivalence of relative to each other
his
paper in
different local times of observers
moving
was pronounced;
for
he had reached the same
conclusions independently but did not publish to
There
work out
is
few
his assistant
Einstein capable of
first
a
them because he wished
the mathematical structure in
no evidence
at all
all
its
splendor.” 40
of “same conclusions”; one can excuse the
statement only by Minkowski’s tendency to confuse physics with
mathemadcs. That he should have discovered anything of relativity independent of and before Einstein
is
like the
theory
very doubtful.
But there could be no doubt about the glory of the mathematical structure
which Minkowksi had found
theory of relativity and which he flood of words.
now
in
and extracted from the
presented to his audience in
Minkowski presented not only
a
new and
a
exceedingly
elegant form of Einstein’s theory, but simultaneously a highly stylized
The New Copernicus
244
among
vocabulary which would earn relativity theory special notice physicists
and more generally.
of “world points” that life
He
made up
spoke, for example of a multiplicity
the “world,” within which the “eternal
of the substantial point” formed a “world line.” Einstein’s principle
of relativity was rededicated as the “postulate of the absolute world.”
For the
first
relations
time in the context of relativity theory, he stated that “the
under review only unfold their inner being of great simplicity
in four dimensions,”
and the mystical
was heightened by the
thrill
of the “fourth dimension”
fact that in this concept,
time figures as an
imaginary coordinate.
Minkowski concluded balance sheet:
would
“The
his address
absolute validity of the world postulate
like to believe, the true
ture, first hit
his
is,
if
not
all
as I
core of an electromagnetic world pic-
by Lorentz, further carved out by Einstein, and now
exposed .” 41 Even
between
with an apodictically formulated
his listeners
fully
were able to follow what came
programmatic introduction and
his definitive conclusion,
they probably gained the impression that here a
new
physics had been
born, cerebrally, out of mathematics, without recourse to experiments
and relying
solely, as
mony between Only tivity
a
Minkowksi assured them, on
“prestabilized har-
pure mathematics and physics.”
few of Minkowski’s listeners would have realized that
theory was here running a risk of being deprived of
foundations, but
among
theory of relativity
it
physical
those few was Jakob Laub. Having studied the
at its source,
he acquainted himself, on
Wurzburg, with Minkowski’s work and was astonished siasm
its
rela-
his return to
at the
enthu-
was arousing, especially on the part of the mathematician
Matthias Cantor.
If Einstein’s
work were not
available,
he wrote to
Bern, “we would find ourselves with Minkowski’s transformation equations for time
(as far as
the physical interpretation
is
the same situation, at best, as with Lorentz’s ‘local time.’
concerned) in ” 42
Minkowski’s torrents of words and his concept of four-dimensional space-time did not, from a physical point of view, offer anything new,
compared with Treating time
as
Einstein’s
theory or indeed even with Lorentz’s.
an imaginary magnitude
is
merely
a
mathematical
device which illustrates certain analogies between the three spatial
coordinates on the one hand and time on the other, and which makes
From “Bad Joke” it
to "Herr Professor”
245
possible for the Lorentz transformations of relativity theory to
be represented in scribed with the
a
four-dimensional Euclidian space and to be de-
same mathematics developed
for rotations in a three-
dimensional space. Even Minkowski’s dramatically emphasized “union” of space and time should be “relativized” inasmuch as the transformation equations
do not allow
for confusion
between the two:
a
time
coordinate always remains recognizable as such.
When,
few months
a
later,
Einstein read Minkowski’s lecture in the
February issue of Physikalische
Zeitschrift
he was not impressed by
and he regarded the four-dimensional formulation erudition.” 43
He
it
“superfluous
credibly reported to have said with a sigh: “Since
is
the mathematicians
understand
as
it,
pounced on the
relativity
theory
no longer
I
myself.” 44 Later, he poked fun at the mystical frisson of
the “fourth dimension” as a “sensation not unlike that of a ghost in the theater.
And
familiar
world
no statement can be more banal than
yet, is
four-dimensional time-space continuum.” 45
a
Minkowski’s four-dimensional presentation had been only
If
matter of elegance,
makers
—
a
it
could have been
during his
him-
efforts, in 1912, to generalize his relativity theory.
Now
was to discover
as “superfluous erudition”
but paid tribute to the “important idea, without which the theory of relativity might have remained stuck in
was not able
months
it
for
usefulness, as Einstein
he no longer saw Minkowski’s formulations
stein
a
the tailors and shoe-
left to
dictum of Boltzmann’s often quoted by Einstein. But
combined elegance and self
that our
after the
to express his gratitude to
Cologne
its
.
.
.
general
diapers.” 46 Ein-
Minkowski
in person; four
lecture, at the age of forty-four,
Hermann
Minkowski died of appendicitis. After the Cologne meeting the question was being asked
more how much longer stein’s
the “bad joke” in Bern could continue. Ein-
former fellow student Kollros
meeting
—
in April
Rome, he was
1908
strolling
more and
—
recalls
how
even well before that
at the International Physicists’
Congress
in
through the gardens of the Villa d’Este with
Lorentz and Minkowski: “Both of them acknowledged the great importance of the ideas introduced by the twenty-six-year-old scientist.” 47
Minkowski’s lecture in Cologne made
it
even clearer that Ein-
The New Copernicus
246
than in
stein
belonged in
culty
was that there was then no vacancy for
In the still
ties
a university rather
a
patent office.
The
diffi-
a physicist in his specialty.
decade of the twentieth century theoretical physics had
first
not quite “come of age” in the academic world. 48 At most universi-
was represented by “extraordinary”
it
whose
professors,
status
they came under the
Few
modestly. fessor
(who
full
is,
nontenured
“full” professor
of physics;
professor administratively and were paid only
universities could afford, in addition to the full pro-
in that case
second, equal
was below that of a
—that
was called professor of experimental physics),
a
professor, the professor of theoretical physics. Berlin
full
and Gottingen did have such an arrangement, though,
when Arnold Sommerfeld was appointed
as did
Munich
The young
in 1906.
privat-
dozent from Bern would have been an ideal choice for one of the nontenured professorships of theoretical physics, but there were barely
two dozen such posts these were it
filled.
The
in the
German-speaking countries, and
all
of
only exception was the University of Zurich, but
had no actual vacancy; the establishment of a nontenured professor-
ship remained to be wrested
from the
authorities.
Only
after involved
arguments was the post created and Einstein invited to take
Professor Alfred Kleiner in Zurich had been trying for a
it.
number of
years to lighten his teaching load by having a theoretical physicist
appointed.
He
had met with opposition from the cantonal education
authorities; but
when Paul Gruner was
nontenured professor, Kleiner rekindled authorities in Zurich
invited to his
Bern
in
1906
hope that even the
might now see the need for
a
as a
thrifty
second professor of
physics.
What former
is
more, Kleiner already had
—
candidate for the post
his
who in the meantime had found an German Museum in Munich. Kleiner persuaded
assistant Friedrich Adler,
interesting job at the
Adler to return to Zurich and saw to tation right
lished,
a
away, in
December
it
1906. 49
that Adler obtained his Habili-
The
post was slow to be estab-
even though the Social Democrat members of the Education
Council were eager to bring Adler to the university rade.” But
when,
in the winter semester of
as its first
“com-
1908-1909, Kleiner was
From "Bad Joke” elected rector of the university,
to "Herr Professor
looked
it
as if the
247
new
professorship
would soon be authorized.
man
between becoming
many
had always
vacillated
a physicist, a philosopher, or a politician.
His father
Friedrich Adler, a
was urging him toward
of
talents,
a professorship in physics,
own
while his
nations were in the other two directions. Adler believed that
if
incli-
he was
given the professorship he would be able to follow his philosophical interests rather than physics. It
is
likely that Kleiner gradually
came
to
the conclusion that Adler might not turn out to be a fully committed
him of
physicist and would, therefore, not relieve
workload
June
he had hoped. At any
as
rate, in a
1908, recorded by Adler from
19,
much
as
of his
tortuous conversation on
memory, 50 the professor
informed Adler that he would probably not be heading the
of can-
list
didates.
possible that influential people
It is also
Kleiner that he should consider another
had
tions
lately
may have
scientist,
aroused a lot of attention. Adler
suggested to
one whose publica-
named him
in a letter
written to his father that same day:
I
who
forgot to say
who on
will
principle and
most
likely get the professorship
will,
man by
name of
it
rather than myself, and
whom
and with
I
Einstein, I
who was
is
and on the other
Germany,
Office.
.
expect,
it is
all
.
.
a fine
what one wants
a
it is felt
that a
man
it
way they
like that
thing that this
and
.
.
.
is
a
same
For the
treated
him
in the
to be a scandal, not only here but
Objectively therefore,
difficulties,
A few
he gets
of course that, on the one hand,
they have a bad conscience about the
also in
if
a student at the
attended several lectures.
people involved the situation
past,
man
apart from any awkwardness, be very pleased. This [the]
time as
a
from the point of view of the people
involved, should certainly get it I
—
if
should
sit
in the Patent
the business goes the
man
way
I
has asserted himself despite
strengthens one’s belief that one can do
to do. 51
days later Einstein’s class on “molecular theory of heat” had
fourth person in the audience, his former supervisor Professor
The New Copernicus
248 Kleiner. Kleiner had
Laub: “That day
come
I really
“to inspect the beast,” as Einstein wrote to
—partly because
did not lecture wonderfully-
I
had not prepared myself well and partly because the situation of being inspected was getting on
my
When
nerves.” 52
Kleiner
made some
remarks about Einstein’s teaching, the candidate agreed and
critical
added that irritated,
“after
all,
they need not have invited me.” 53
no longer had
The
professor,
that intention anyway; and Friedrich Adler
reported to his father that, according to Kleiner, Einstein was “a long
way from being
therefore has changed, and the Einstein business
Einstein heard about
it
The
he holds monologues.
a teacher, that
he reacted
professorship has fallen through.
stoically:
There
closed.” 54
is
“The
situation
When
business with the
enough school-
are quite
masters even without me.” 55
His stoicism, however, ended when he learned from Laub that Kleiner’s
impression
of the
through the academic grapevine:
“I
in a letter for spreading unfavorable
my
had reached Wurzburg
“visitation”
now
seriously reproached Kleiner
rumors about me, thereby making
difficult position a definitive one.
Because such
a
rumor must
kill
any hope of getting into university teaching.” 56 Kleiner meanwhile,
we know from
Friedrich Adler, had
must propose Einstein
come around
in the first place, because
to the
as
view “that he
he could only make
a
proposal that would get through, and everyone was astonished that Einstein that he
still
had no position.” 57 Kleiner therefore informed Einstein
would gladly
invite
him
to Zurich provided Einstein could first
convince him that he had some talent
On
as a teacher.
Einstein’s suggestion, therefore, a lecture
was arranged
at the
Physikalische Gesellschaft (Physics Society) in Zurich, and in mid-
February 1909 Einstein
out for
set
this
“exam.”
colleague Ehrat and Ehrat’s mother could put
“One
is
far less
He
was glad that
him up
at their
aware of one’s life-and-death situation than
if
his
home:
one has
among strangers.” 58 This time the candidate met This is how Einstein summed it up for Laub: “I was
to blunder about
with approval.
really lucky. Totally against
my usual
habit
return to Bern, he wrote to Ehrat: “There
we
will
Kleiner,
many more on
whom
I
times called
sit
I is
lectured well.” 59 After his
now
a real
prospect that
comfortably together, because the stern
on Friday, expressed himself very benevo-
From “Bad Joke”
my
lently about the result of
to “Herr Professor”
249
‘exam’ and hinted that certain things
would probably follow soon.” 60 Kleiner immediately requested riculum vitae from Einstein and inquired
a cur-
he would be able to
if
start
the following semester. Einstein said that he would, “without having officially
league
informed myself on
this point.
But
I
know
that a former col-
month after giving notice.” 61 However, the not come through in time for the 1909 summer
the Office one
left
appointment did
semester, because overcoming
all
kinds of opposition within the
Zurich bureaucracy took some time.
The stein.
“stern Kleiner” immediately
Needless to
say,
composed
he emphasized that
his assessment of Ein-
his candidate
was “one of
the most important theoretical physicists” of the day “since his treatise
on the that.”
relativity principle
More
cations, in
original
[was]
fairly universally
remarkable
and
ideas,
a
in the conception
profundity aiming at the elemental. Also
the clarity and precision of his style; in
is
as
was Kleiner’s characterization of Einstein’s publi-
which he saw “an extraordinary acuteness
and pursuit of
acknowledged
man
has created a special language, which in a
many respects he
of thirty
is
a clear sign
of independence and maturity.” 62 Only on Einstein’s ability as a teacher was Kleiner reluctant to pass a final judgment, though he
expressed the belief “that Dr. Einstein will prove his worth also as a teacher, because he
open
to advice
is
too intelligent and too conscientious not to be
whenever necessary.”
This recommendation was received by the faculty commission
up
for
set
appointment of the new Extraordinarius the nontenured pro,
The commission had nine names before it. Friedrich Adler was even considered. The commission inclined toward Walter Ritz, a
fessor.
not
privatdozent in Gottingen, “because he
is
Swiss and, in the judgment
of our colleague Kleiner, exhibits ‘an exceptional talent, bordering on genius/
” 63
Ritz,
however, had to be excluded from consideration
because he was incurably
ill
with tuberculosis. 64
Thus everything now
pointed to Einstein.
On March ence Section
4,
II
1909, a secret ballot
among
the
full
professors of Sci-
of the Department of Philosophy produced ten votes
in favor of Einstein
and one abstention.
The
result
was immediately
passed on for confirmation to the director of education of the canton
The New Copernicus
250
of Zurich, along with some remarks, evidently considered useful, on Einstein’s Jewish origin. In these, the professors revealed the
creet anti-Semitism
then typical of academic
65 ,
were evidently trying to counteract. Kleiner,
circles,
same
dis-
which they
had
in his judgment,
emphasized that “about the personal character of Dr. Einstein nothing but the best reports are
known
made by
all
who know him .” 66 He
himself had
Einstein socially for six years and was “unhesitatingly prepared
to have
him
my
as a colleague in
supplement to
immediate proximity.” As
a
kind of
this character reference, the dean, Professor Stoll,
an
anthropologist, had this to say:
The above remarks by our colleague Kleiner, based as they are on many years of personal contact, were the more valuable to the commission, and indeed to the department Dr. Einstein
is
an
Israelite,
and
as a
whole, as Herr
as the Israelites are credited
scholars with a variety of disagreeable character
traits,
among
such
as
importunateness, impertinence, a shopkeeper’s mind in their
understanding of their academic position, cases with
that
some
among the
On
justification.
etc.,
and
the other hand,
Israelites, too, there are
in
it
men without
of these unpleasant characteristics and that
it
numerous
may be even
said
a trace
would therefore not
man merely because he happens among non-Jewish scientists there
be appropriate to disqualify a to be a Jew. After
all,
are occasionally people
even
who, with regard to
a mercantile
under-
standing of their academic profession, display attitudes which one is
otherwise accustomed to regard as specifically “Jewish.”
Neither the commission, nor the department therefore thought
Semitism”
it
compatible with
as a principle
on
its
as a
whole,
dignity to write “anti-
its
banner, and the information which
our colleague Herr Kleiner was able to furnish on Herr Dr. Einstein has put
our minds completely
at rest 67 .
Despite the extremely carefully formulated proposal, there was massive opposition to Einstein in the Directorate of Education
however, because of anti-Semitism but on Social Democrats,
who
political
—
grounds.
not,
The
held the Directorate of Education in the can-
tonal administration, were bitterly disappointed that anyone other
From "Bad Joke”
to "Herr Professor”
251
than their comrade Friedrich Adler should have been proposed by the university. Adler, for his part,
was in the awkward position of being
favored by his political friends in the administration, but not by the
oscillated for
—which
we have seen) had some time between mechanics, Mach, and Marx were
professor or the faculty. His interests
(as
—
gradually turning toward Marx; and he decided to put an end to the
which had been going on over
affair,
gesture,
by
telling
He
a year.
did so with a grand
everyone that Albert Einstein from Bern was the
better physicist and therefore should get the professorship.
There remained some problems with
salary. In line
with their
custom, the Zurich authorities wanted to give the nontenured pro-
gymnasium
fessor a salary significantly lower than that of a
teacher.
This would have been about half of what Einstein had been receiving Patent Office. Einstein remained inflexible on this point, and he
at the
“My pay is roughly the same as give me a lot less, but in that
got his way:
at the Office. Initially
wanted to
case
out.” 68
hours
On a
I
they
would have bowed
the other hand, he had to undertake to teach six to eight
week, 69 although nontenured professors, according to the
Zurich education law, had to teach only four to
On May
1909, by which time the
7,
six
hours.
summer semester was
in full
swing, Einstein was appointed by the Governmental Council of the
Canton of Zurich,
for the period of six years
customary for nontenured
professors, with a salary of 4,500 francs, plus “listener” and “examina-
He
tion” fees due under the regulations.
was
to
assume
his position at
the beginning of the winter semester on October 15, 1909. “So
am
an
official
now
I
of the guild of whores” 70 was his bitter summing-up of
the prolonged and annoying stage details, his
affair. If
he had known of
all
the back-
comment would have been even more vehement.
Before Einstein took up his professorship, he received an honorary degree. This, too, did not
come
to pass without incident, but
an innocent and comical nature, later:
“One day
I
as
received a large envelope at the Patent Office, con-
some words
even believe in Latin) which seemed to
interest,
basket.” 71
and therefore landed
Only
was of
he himself recalled four decades
taining an elegant sheet of paper with (I
it
later did
at
once
he learn that
this
in picturesque print
me
impersonal and of
in
the official wastepaper
was an invitation to
little
a cele-
The New Copernicus
252 bration
on July
founding of
8 of the 350th anniversary of Calvin’s
Geneva University and
on
that,
this festive occasion,
When
awarded an honorary doctorate.
there was
he was to be
no response from
Bern, the Genevans got their fellow citizen Louis Chavan to persuade Einstein to travel to Geneva, without Einstein’s having any clear idea
of what awaited him there:
So
I left
on the proper day and already
that evening
met
Zurich professors in the restaurant of the hostelry where
accommodated. come.
When
I
.
.
.
kept
to confess that
I
Everyone explained
had not the
with me.
I
My proposal
As
it
I
was
to
march
in
only had a straw hat and an informal suit that
I
would dodge
was firmly
it
a droll
rejected,
course as far as
my
was concerned.
was raining
heavily, the festive procession
streets of the old city to the as “rather
had
I
But the others were
following day
and the ceremony accordingly took participation
what capacity they had
in
faintest idea.
The
informed and briefed me. the procession, and
we were
they put the question to me, and
silent,
few
a
Cathedral of
St.
through the narrow
Pierre struck one reporter
too quiet and like a funeral cortege,” 72 but there was no
mention of
a
man
among all the dignitaries of office, who had arrived from
in a straw hat
gowns, uniforms, and chains
in their
the four
corners of the earth. During the subsequent ceremony at Victoria Hall,
Geneva concert
the richly decorated
Neuve, there was
a kind of
hall
behind the Place
academic mass baptism, during which no
fewer than 110 honorary doctorates were handed out. thus honored were
some of
stein.
He
probably owed his
at
a certain
Goschenen
first
Ernst Zahn,
a dialect
— and of course Albert Ein-
doctorate (honoris causa) to Charles
Eugene Guye, professor of physics
in
Geneva,
who had
investigated
the velocity-dependence of beta rays and in that context had
come
those
the great figures of science, like Marie
Curie and Wilhelm Ostwald, but also poet and station restaurateur
Among
no doubt
across the theory of relativity.
Einstein described the conclusion of the day as follows:
The
celebration ended with the
have attended in
my entire
most opulent
life. I
said to a
festive repast that I
Genevan
patrician
who
From "Bad Joke”
“Do you know what
next to me:
sat
were
here?”
still
opinion,
to "Herr Professor”
When
253
Calvin would have done
if
he shook his head and asked for
he
my
“He would have built a huge stake and burnt us all gluttony.” The man did not say another word and
I said:
for our sinful
thus ends
my recollection
Immediately before
of that memorable celebration.
Geneva, on July
this short trip to
1909,
6,
Einstein had handed in his notice at the Patent Office, effective
from October
15.
Haller placed on record that the Expert
“performed highly valued
services.
However, Herr Einstein
Office.
His departure
is
a
II
Class had
loss
to the
that teaching and scientific
feels
research are his real profession, and for that reason the Director of the
made no attempt
Office
to bind
him
to the Office
by better
financial
arrangements.” 73
As
for his “real profession,”
March
the middle of
come
to
Bern
to see
a
name of Ayao Kuwaki had admittedly, from Tokyo but from
Japanese by the
him
—not,
where since 1907 he had been studying under the most famous
Berlin,
physicists.
He
did not
want
The meeting must
stein.
he must have been pleased that about
to return to Japan without having
have been
because Kuwaki’s
success,
a
journey was taking him through Paris and Einstein
met Ein-
commended him
to
the care of Solovine “in the belief that you are sure to enjoy meeting
him.” 74 Kuwaki, Einstein’s
first
a future
professor at the University of Fukuoka, was
contact with Japan, whose physicists would soon
important contributions to
relativity theory.
Although Einstein owed and
his
his professorship, his
growing reputation to
any regrets,
left it to
work with
his relativity theory,
honorary degree, he now, without
other scientists while he himself devoted
energies to radiation theory playful
make
his “little
— along
all
his
with his by no means merely
machine.”
“I
am
ceaselessly concerned
with the constitution of radiation,” 75 he wrote to Laub,
who had mean-
while joined Philipp Lenard in Heidelberg. “This quantum question is
so enormously important and difficult that everybody should
on
work
it.”
Einstein was not alone in this view. In his lecture at the International
Congress of Physicists
in
Rome
in April 1908,
Lorentz had
first
The New Copernicus
254 suggested that
it
would not be possible
formula into the Maxwellian
to integrate Planck’s radiation
field theory,
and that
“more revolutionary” than Planck would wish
number of years
to
come Planck was
it
was therefore
Although for
to admit.
a
reluctant to recognize his formula
beginning of the end of classical physics, and particularly reluc-
as the
tant to follow Einstein’s views, his conviction
began to crumble
in
1908. Nothing, or not much, of this appeared in Planck’s publications,
but
was reflected
it
correspondence with Lorentz and
in his extensive
with Wien.
From
his position at the Patent Office, Einstein
debate in a survey paper,
this
On
had taken part
the Present State of the Radiation
Problem. As soon as he received his offprints, he sent one to
Lorentz in Leyden,
as “the
modest
in
Hendrik A.
result of several years’ reflections. I
have not succeeded in penetrating to a real understanding of the matter.” 76 Unlike Planck, criticized for “finding
who “made
and
per,” 77 Lorentz
it
totally
whom
Einstein, despite his great respect,
difficult to enter into the
wrong
objections to
arguments of others”
[his]
last radiation
pa-
must have replied most sympathetically. Not only was
this the start
of an “exceedingly interesting correspondence,” 78 but
from then on,
albeit at first
only in writing, Lorentz became Einstein’s
scientific father figure. 79
All
through the summer, Einstein worked on
“You can hardly imagine,” he complained pains
the
I
have taken to think up
quantum
it.” 80
theory. So
He would
had to give
also
his first
far,
a satisfying
however,
I
to
his radiation theory.
Johannes Stark, “what
mathematical execution of
have not been successful with
have liked to produce something
definitive, as
he
major lecture in September. But even without
breakthrough in quantum theory, his appearance convention in Salzburg was
a
memorable
at the
a
Naturforscher
event, both for Einstein’s
reputation as the most important physicist of the younger generation
and for the history of physics.
Only Bern.
a
Now
handful of his younger colleagues had visited Einstein in every physicist, including the top names, had an opportu-
nity in Salzburg to “take a closer look at the beast.” Einstein in turn
was able
to
meet
his
correspondents face to
face:
the universally
respected Planck and Sommerfeld, for instance, as well as
some
From "Bad Joke” younger
scientists. 81
to “Herr Professor”
And he must have
Zeiss
Works
in Jena,
scopic methods, to
by projecting
make
on
it
was
enjoyed the deliberately crowd-
Henry
pleasing opening address, in which
Siedentopf, of the Carl
with his newly developed ultramicro-
able,
the Brownian
movement
At the center of
a wall.
255
impressively visible
interest,
“problems of radioactivity on the one hand and the
however, were
relativity principle
on the other.” 82 Einstein could very easily have allowed himself to be lionized as the
founder of the
accordance with academic
relativity principle and, in
custom, could have shown his thanks by
a
comprehensive lecture on
the subject. Indeed, Planck had probably invited intention. 83
But that was not Einstein’s
similar occasions in the future. In the
lecture
was On
tivity Principle)
the
style, either in
now left
just that
Salzburg or on
words of Max Born (whose own
Dynamics of the Electron
Einstein
him with
in the Kinematics of the Rela-
relativity “to lesser prophets.” 84
Einstein himself chose instead the theme on which, in his belief,
“everyone should work,” The Nature and Constitution of Radiation
The assembled creme
de
la
creme of scholarship, who had come
85 ,
to
hear him on the afternoon of September 21, was assured that
we
are
.
.
.
standing at the beginning of a not yet assessable
but undoubtedly most significant development. to present tions,
is
largely
confidence in
them
my own
about
personal opinion, or the result of reflec-
which have not yet been adequately
nevertheless present
other
my
What I am
here, this
views, but to
among you may be induced
is
verified
by others.
If I
due not to an excessive
my
hope that one or the
to concern himself with these
problems. 86
These words
reveal a
lot: his
typical
modesty, combined with
a
decent
reference to his scientific existence on the periphery, outside the universities,
and to the widespread disregard of his work on radiation and
quantum theory
— but
also an attempt to point his colleagues in appro-
priate directions.
Right
at the
beginning, he set out his conviction
with considerable opposition
— that
stood and described solely as
a
light could
—which
still
met
no longer be under-
wave phenomenon, but
that, at the
same time, something “It
New Copernicus
The
256
like a
granular structure must be ascribed to
cannot be denied that there
facts
which show that
exists a large
group of radiation-related fundamental properties
light possesses certain
which can much more
easily
it:
be understood from the standpoint of
Newtonian emission theory than from the standpoint of wave theory.” For the
ment
future,
he ventured to predict that “the next phase of develop-
in theoretical physics will bring us a theory of light that will be
wave theory
susceptible to being understood as a kind of fusion of the
and the emission theory of
light.”
This
announcement of the combination of ticle,
an interpretation which would
may be
light as
wave and
He
first
light as par-
developed quantum
later, in fully
mechanics, be called “complementarity.”
seen as the
saw the aim and purpose
of his lecture as the argument “that a far-reaching change in our concepts of the nature and constitution of light
Of
indispensable .” 87
course, Einstein also referred to relativity theory, but only to
the extent that the inevitable.
The
abandonment of a pure wave theory of light seemed
abolition of the ether in relativity theory had already
“changed ideas on the nature of light in so light as a
sequence of
states
rived a second
far as it
does not und erstand
of a hypothetical medium, but instead as
something existing independently,
whose
is
just like
matter .” 88 Einstein de-
argument from the equivalence of energy and mass,
relationship he once
more
briefly
developed for his
listeners, in
order to attach the conclusion that this “something existing independently like matter” shares with a “particle theory of light the characteristic
of transferring inert mass from the emitting to the absorbing
body .” 89 After these preliminaries, he turned to radiation theory proper and
demonstrated to
his
audience that a direction has to be ascribed not
only to the absorption of radiation but also to
its
emission
contradiction of the Maxwellian theory that radiation
is
—in direct
emitted as a
spherical wave. Einstein demonstrated, moreover, not only that the
concept of energy quanta made
it
possible to derive Planck’s radiation
formula, but that from the validity of that formula necessarily followed a
quantum
structure
of radiation, and that, in consequence, the
Maxwellian equations could no longer be regarded
Hardly anyone, however, was prepared
as strictly correct.
to follow Einstein this far.
From "Bad Joke”
to "Herr Professor”
257
In the discussion which followed, his only supporter was Johannes Stark. Planck, representing the majority view,
was reluctant
with the greatest respect for Einstein’s achievement light
give
—though
— “to assume the
waves themselves to be atomistically constituted, and hence to
up the Maxwellian equations. This seems
my opinion,
is
to
me
a step
which, in
not yet necessary .” 90
Even though Einstein was unable
to convince either the authorities
or his younger colleagues by his bold outline of a future radiation theory, his
first
appearance before
achievement received
scientists .” 91 stein’s
And
a
its
few decades
major audience of physicists was
Max Born
nevertheless a complete success. stein’s
a
felt
that in Salzburg “Ein-
seal before the
later, it
assembled world of
would become
clear that Ein-
Salzburg lecture, in Wolfgang Pauli’s words, could be “seen as
one of the turning points
in the evolution of theoretical physics .” 92
CHAPTER FOURTEEN Professor
in
Zurich
In mid-October, in time
for the start of the semester, Albert Ein-
stein arrived in Zurich, with
Mileva and their son Hans Albert. In the
move he had overlooked
excitement of the
army
the police and
malities associated with removal to a different canton,
for-
and he therefore
mailed his “service book” and residence permit to Lucien Chavan with a request to notify the
Bern police and the
district
army headquarters
of his change of residence. “Things have started moving here,”
wrote to
my new
his friend in Bern. “I like
position a
lot.
But
1
he it’s
exhausting work.”
The at
moved
Einsteins
to the middle floor of a three-story building
Moussonstrasse 12 on the slope of the Ziirichberg, the
looking the
was
city. It
in the
Institute of the Polytechnic
on Ramistrasse dred yards
69,
down
are
immediate neighborhood of the Physical
and also close to the university’s
which Einstein could reach by
the Glorias trasse.
surprise that the Adlers
strolling a
On moving in,
had an apartment
in the
on very good terms with Einstein, who
lives
institute
few hun-
they found to their
same building. above
a
.
.
.
Bohemian household
“We
us, and, as it
happens, we’re closer to them than any of the other academics.
run
over-
hill
They
our own],” 2 Friedrich Adler re-
[like
ported to his father. Hans Albert and the Adlers’ daughter, Assinka,
became
friends
crowd of eight too
much
and would play
garden or in the street with a
in the
to ten children of their
for the parents, they could
turbed discussions. “The more
wrote in the same
letter,
“the
I
more
own
age.
When
withdraw to an
the noise got
attic for
talk to Einstein,” Friedrich I
258
realize that
my favorable
undis-
Adler
opinion
— Professor of him was
Among today’s
justified.
Zurich
in
259
physicists his
not only one of the
is
clearest,
but also one of the most independent minds, and
selves in
agreement on questions which the majority of other
we
find ourphysicists
would not even understand.” Following his sabbatical leave during the summer semester, Adler
was standing
in for the Ordinarius the ,
head of the department,
who
in
turn was substituting for the Rektor, the principal. In consequence,
Adler gave
a
number of lucrative freshman went with them,
ratory workshops that
now
lectures, as well as the labo-
so that the
two neighbors were
also colleagues. Einstein gave a four-hour lecture, “Introduction
to Mechanics,” attended
by seventeen students;
a
two-hour
“Thermodynamics,” attended by nineteen students; and “Physical Seminar”
on
a
class,
one-hour
problems of research, attended by
topical
twelve students.
“My new Jakob Laub.
profession “I
am on
is
my liking,” he reported to with my students and hope I’ll
much
very
to
very close terms
new professor being made on me. I am
be able to give some ideas to some of them.” 3 But the also discovered that “very great
taking lot
my lectures
demands
are
very seriously, which means that
I
have to devote
a
of time to preparation. Six hours a week plus one evening seminar
may not sound
too bad, but
a lot.” 4
it is
“my
Besso in Bern he observed that
Bern. But one learns a lot doing regretfully that
expected.” 6
He
added,
“It’s
due to
To
greater
my
a
postcard to his friend
really free time
it.” 5
“my new post makes
On
less
is
than in
Sommerfeld, too, he
said
demands on me than
had
poor memory,
I
as well as to the
now I had concerned myself with my subject merely as This may have been taken as a kind of fishing for compli-
fact that until
an amateur.” ments, but
it
probably meant no more than that in the past he had
practiced physics as a hobby,
gave his
official
on December
much
inaugural lecture
1 1,
on The
At the lectern Einstein taught in Bern as
a
—
like
playing the violin. Einstein
his first
but by no means his
Role ofAtomic Theory in the
really
was
a
beginner.
privatdozent to
a
The two
He
was well aware of that, and
Physics
classes
.
he had
handful of his friends could
hardly be considered training for the demands of course.
New
last
a
major university
for this reason did not
want
to
The New Copernicus
260 write a
book about
ence so
far, it
“As
relativity theory:
I
have
would be downright irresponsible
obligations until I’ve
become more
teaching experi-
little
familiar with
to undertake further
my new profession .”
As for the time-consuming preparations mentioned by Einstein letters, his
no evidence of
students certainly saw
later recalled that “the entire
7
in his
Hans Tanner
these:
manuscript he carried with him consisted
of a scrap of paper the size of a visiting card, on which he had outlined the ground he intended to cover with us .” 8
Tanner was the only
dent to take his doctor’s degree under Einstein, and of all his lectures Actually,
at
stu-
a regular attender
Zurich University.
Tanner regarded the scanty notes
an advantage,
as
because “Einstein had to develop everything out of himself, so that gained a direct insight into his working technique. able to witness the often curious paths along
which
.
.
We were
.
we
thus
a scientific result
is
sometimes reached.” This kind of participation in the creative process of science
may not
always have been easy for students accustomed to
pedagogically structured, methodical teaching; but any problems of
comprehension were mitigated by the
what
in those days
was
a totally unprofessorial
relationship with his students
revered teacher, Sommerfeld.
—
just
Thus
as
this
and indeed informal
he had promised
we
asked a
silly
own
whenever something
academic method proved successful:
was not long,” Tanner reports, “before we abandoned case
his
Einstein encouraged his students
to ask questions at any time during his lecture,
was unclear to them, and
had
fact that Professor Einstein
all
“It
shyness in
question.”
In the audience at the thermodynamics lecture, which was intended for advanced students,
was
also
Adolf Fisch,
who had
graduated from
the cantonal school in Aarau along with Einstein, had subsequently
studied at the “Poly,” and recalls that “Einstein
now was
a teacher in
Winterthur. Fisch
took great trouble to offer the students some-
thing of substance and something new.
He
kept asking
if
he was being
understood. During the breaks he would be surrounded by
women
students anxious to ask questions, and he would patiently and
kindly try to answer them .” 9 after his
custom
men and
The atmosphere was
evening seminar. Right from the to proceed to the Terrasse cafe
first
particularly informal
semester,
it
became
his
on the Bellevue, where the
Professor
Limmat
261
Lake Zurich, and continue discussions there
leaves
closing time. Arnold
young
Zurich
in
until
Sommerfeld would have been pleased with
this
professor.
Einstein’s relations with his colleagues
He must
were
also entirely amicable.
have been relieved to find that Alfred Kleiner, formerly
his
doctoral supervisor and now, as Ordinarius his superior, was putting ,
no
difficulties in his
way. “Kleiner
is
odd but
tolerable,” 10
Besso; and to
Laub he even described Kleiner
He’s treating
me
me.” 11
Two
and
like a friend
months
later
is
I
he wrote to Laub that although the head of
a great liking.” 12
have
very nice person.
not holding anything against
the institute was “not a superb physicist, he
whom
as “a
he wrote to
is
a splendid
Having observed the
assembled in Salzburg, Einstein evidently took
person for
scientific elite
tolerant view of
a
Kleiner’s professional mediocrity: “It seems that scientific reputation
and personal
qualities
nious person
do not always go hand
in hand.
To me a harmo-
worth more than the most sophisticated formula-
is
basher or system inventor.” 13 Nevertheless, his relations with Kleiner
had
among
a professional character; his friends
came
his colleagues
from elsewhere.
There was “lifesaver”
a joyful
from
Polytechnic.
his student days
He
and
now professor
of geometry
also developed a friendship with another
cian at the “Poly,” with earlier years,
reunion with Marcel Grossmann, Einstein’s
whom
his relations
Adolf Hurwitz. As
seminars but had
a student,
tried, unsuccessfully, to
at
— and
a
native of
become
Hurwitz’s home.
Bohemia
his assistant.
Extraordinarius. Stodola had briefly
was
a
student at the Polytechnic, and
cated to
him an
as a piece in a
recalled
how
When
Now
—chamber music
And Aurel
Stodola, pro-
on steam and gas
tur-
— actually attended the lectures of the
new
into genuine friendship.
in
Einstein had cut Hurwitz’s
fessor of mechanical engineering, an authority
bines
mathemati-
had been rather cool
they were brought together by their love of music
was played on Sundays
at the
met Einstein while
now
the latter
their acquaintance ripened
Stodola retired in 1929, Einstein dedi-
extensive article in a Festschrift for the occasion, as well
Zurich daily paper. In the newspaper
“to his delight and his
article,
uncomprehending alarm
splendid figure appeared in the auditorium” to attend the
Einstein Stodola’s
new
pro-
The New Copernicus
262 fessor’s lectures
on developments
in theoretical physics, “partly for the
sake of pure knowledge and partly with a view to utilizing what he had heard.
When
the class was over, Stodola, always readily spotting the
essential point,
would ask profound questions which often contained form.” 14
justified criticism in a refreshing
was
Einstein’s closest friend, however,
Zangger. Zangger, his senior by
renown and
as
as director
medical man, Heinrich
a
five years,
had gained international
of the Forensic Medicine Institute at the university
one of the pioneers of “disaster medicine,” and
not easily be overlooked in Swiss
Zangger had met Einstein
in 1905,
his views could
and academic
political
when he had been
circles.
wrestling with
some unfamiliar mathematical problems and Aurel Stodola had suggested that he consult Einstein in Bern
—who
in fact
had been able to
help him. As dean of the medical faculty, Zangger had supported Ein-
appointment
stein’s
became
friends. Einstein later
virtually unlimited”; 15
a
who
publications. 16
after his
arrival
men
the two
recorded that “his range of interests was
he was
could also be discussed and Einstein’s
and
in Zurich,
man
whom
with
physical problems
provided an impetus for
Einstein,
moreover,
at least
credited
one of
him with
“sound judgment also with regard to persons and things on which professional knowledge was really
much
his
too meager.” This proved a
considerable advantage, as Zangger was probably Einstein’s most
com-
mitted champion in dealings with the Swiss authorities, both in Zurich
and with the federal government in Bern. Later, Mileva had parted, Zangger was
whenever they were unable
With
a patient
to resolve their
after Einstein
and
mediator between them
problems themselves.
the exception of a few physicists and mathematicians, and per-
haps Heinrich Zangger, hardly anyone would then have been aware that the
To
newly appointed professor was one of the giants
most of his colleagues, he probably appeared
student in Zurich
—
a rather
as
in his field.
he had while
awkward eccentric with
a
still
a
sharp tongue,
who
“with his somewhat shabby clothes, his too short trousers, and his
steel
watch-chain” 17 did not
fit
the accepted image of a Swiss professor.
This view was prevalent not only among the the students and the assistants.
faculty,
but also
among
— Professor
Zurich
in
263
This changed dramatically when, during the spring break
March, Einstein was entific authority,
visited
by Walther Nernst, an unchallenged
and moreover wealthy and popular
invention of the “Nernst lamp”
AEG for
Rathenau of the
working
an assistant
as
technic, recalls that
was Nernst’s
it
be
George Hevesy, then
Chemistry
visit
Institute of the Poly-
which made “Einstein famous
had come to Zurich
a clever fellow if the great
Zurich to talk to him.’
ested in
of his
as a result
Then
an unknown.
as
and people in Zurich were saying: ‘That Einstein must
arrived,
Nernst
sci-
had sold the patent to Emil
million gold-marks.
at the Physical
in his circle. Einstein
Nernst
a
—he
in
— the
first
Nernst comes
all
the
way from
Berlin to
” 18
physicist to visit Einstein in Zurich
him because he had taken
—was
inter-
seriously Einstein’s paper of 1906
on the quantum-theoretical interpretation of the
specific heat of solids.
Nernst’s theorem on the behavior of thermodynamic magnitudes
approaching absolute zero was referred to by
“my theorem” namics by
inventor simply as
but would soon be called the third law of thermody-
his colleagues,
reflections.
stein’s
its
At
and
his
it
could be put on
Physical
University, Nernst had set in
a
Chemistry
new
footing by Ein-
Institute
of Berlin
motion an extensive program
for the
experimental investigation of these relationships in which Heinrich
Rubens, professor of experimental physics, participated both with teams within the university and tute in Charlottenburg.
Einstein’s
and
had
his
When,
quantum theory of
at the
Reich Physical-Technical
in 1909,
solids best
Insti-
Nernst came to believe that fit
both the measured values
theorem, Einstein was absolutely delighted. Henceforward he
—along with
Planck,
who
especially liked his relativity theory
another champion in Nernst. Nernst admittedly did not understand
much
of relativity theory but (unlike Planck) was ready to follow Ein-
stein’s
quantum
ideas,
even though only pragmatically and in his
own
specialized field, not in radiation theory generally.
Einstein was enormously pleased with the
Nernst
left
than he informed Jakob Laub:
to specific heat ited
seems to be
brilliantly
visit.
No
sooner had
“My predictions with
confirmed. Nernst,
who
regard
just vis-
me, and Rubens are busily engaged on their experimental
verifica-
The
data for
tion, so that
we
will
soon be enlightened about them.” 19
New Copernicus
The
264
diamond had given
investigations of
good agreement, but further
a
How-
other materials soon showed that this had been an exception.
few years Nernst’s concern with
ever, over the next
into the center of scientific interest and
moved quantum theory
this “revolutionary” physics to
thereby greatly helped
That
in this field, too, Einstein
enhanced
had
laid the
not, Einstein
summer semester
been
twelve.
For
Work
up
To Sommerfeld he
a piece
Advanced Stu-
a theoretician, this
appears to have
Hans Tanner
On
“My anxieties
the other hand, he
at the
five
now had
years younger than Einstein,
petent pianist, and playing duets with
cerned
And
as
an
assis-
a
who had just and Hopf had
Naturforscher convention in Salzburg and found them-
selves in tune not only in physics but also musically
Einstein.
might blow
about the labora-
taken his Ph.D. under Sommerfeld in Munich. Einstein
met
it
that he
him of some of his workload. This was Ludwig Hopf,
Nuremberg,
native of
of apparatus for fear
complained:
tory were largely justified.” 22 tant to relieve
and in
for
nerve-racking duty: he admitted to
scarcely dared to “pick
up.” 21
a price;
of 1910, in addition to his lectures and seminars,
who numbered
a
foundation 20 further
found that teaching exacted
he was put in charge of “Daily Practical dents,”
gain acceptance.
his reputation.
Famous or the
problem
this
him was
Einstein’s musings at the time
a
.
Hopf was
a
com-
form of relaxation
were indeed
tiring,
they were exclusively with quantum theory and
its
for
con-
almost
insoluble puzzles.
“The quantum theory
is
a certainty for
lantly after Nernst’s visit. specific heat, “still
me,” 23 Einstein declared jubi-
But that was true only of solids and their
and then only with the qualification that the theory was
rather unsatisfactory” because
our mechanics, and
all
“it
presupposes the invalidity of
attempts to adapt molecular mechanics to the
imperious demands of experience have been unsuccessful.” 24 Matters
were even worse regarding the quantum theory of radiation, whose problems had concerned Einstein ever since Planck published his radiation formula at the turn of the century. “In the matter of light
quanta
I
have not yet arrived
at a solution,
though
I
have discovered
Professor
some
significant things,” 25
1909.
The
Zurich
in
he wrote to Jakob Laub on the
next sentence sounded like
I
came
a similar
New
a
egg of mine
can’t hatch this favorite
see if
265
Year’s resolution:
“I’ll
Ten weeks
later
after all.”
message: “With regard to the quanta
interesting things, but nothing that’s ready yet.” 26 esting things,” described tion,” was, as first
by Einstein
mooted
to
wave character
a
—
it
of the “inter-
for radiation. In this context Einstein in a letter
to the “Almighty”
“Can the energy quanta on
Almighty
One
corpuscular and, simultane-
the one
seems-^-managed the
and
his sophisti-
hand and Huygens’s prin-
on the other be combined? Appearances
ciple
have found some
1905 and turned over one way and
in
Sommerfeld once again referred
cation:
I
“core of the whole ques-
as the
another in 1909, the compatibility of ously, a
day of
last
are against
but the
it,
trick.” 27
Einstein was obviously delighted that Sommerfeld wanted to
him
in
Zurich
at the
end of the semester, but he did not
encouraging him: “Because
I
visit
feel like
haven’t been able to produce anything
halfway complete on the problem of the quanta.” 28 That did not put
Sommerfeld
off.
At
his institute in
Munich
his colleagues
were sur-
prised that their professor should be in such urgent need of recuperation even before the for a week. 29
The
end of the semester that he had to
nature of that recuperation
is
a real
Zurich
revealed in a letter from
Einstein to Jakob Laub: “Sommerfeld was with cuss the light
travel to
me
for a
week
to dis-
problem and some points of relativity. His presence was
pleasure to me.” 30 Einstein had
now
the matter of quanta. Quite unlike Planck,
extent associated himself with
respected ally in
Sommerfeld had “to
a great
the application of statistics.”
efforts, the
week’s discussions produced
nothing that even came near to
a
breakthrough: “I haven’t got any fur-
ther with the constitution of light. it.” 31
a
my view on
But despite their combined
mental hidden behind
gained
There
is
something very funda-
This assumption was to be confirmed over
the next fifteen years. Meanwhile, however, Einstein succeeded, jointly
with Ludwig Hopf, in producing two papers 32 which supported his thesis that a
quantum theory of radiation would
donment of
classical physics.
up, “was disappointing for
all
call for a radical
Wolfgang
“The
result,”
those
who were
still
Pauli
aban-
summed
vainly hoping that
The New Copernicus
266
Planck’s formula might be derived merely by a change in the statistical
assumptions rather than through sical ideas
in the
autumn Einstein believed he could
end of the tunnel: “At
this
see the light
moment I am very hopeful
of solving
the radiation problem, moreover without any light quanta.
curious
clas-
concerning elementary microphenomena .” 33
At one point at the
fundamental break with the
a
how
I
am
very
the business will turn out .” 34 In this not merely revolu-
tionary but downright reckless approach he even toyed with the idea of
abandoning well-tested and sacred principles of physics: “One would have to give up the energy principle in later Einstein
its
present form.” But a
characterized his strenuous efforts by invoking the
Almighty’s adversary: “Again nothing has radiation problem.
The
come of the
been fascinating to glance over a
me .” 35
his notes:
it
would have
he designed
his shoulder as
It is
a physics
modified or even abandoned energy principle.
Although he owed
his
fame and
his professorship to his relativity
theory, and although he occasionally pondered
did not publish anything in that
university but, at the beginning of
On
House
that occasion he
board with clocks, to
is
in
Zurich
Zum
May,
it
Einstein
in his lecat the
to the Naturforschende
Riiden on the
Limmat embank-
reported to have covered
illustrate the
36 ,
on the subject was not
a
Gesellschaft at the Guild
it
nor did he deal with
field,
tures or seminars. Elis only lecture
ment.
solution to the
Devil merely played a poor joke on
most regrettable that Einstein did not keep
with
week
a
small black-
concept of simultaneity, and, after
an exhausting lecture, to have asked:
“What
is
the time, actually?
I
don’t have a watch .” 37 Einstein interest even
soon discovered that
among
circles
due to Ludwig Hopf,
relativity
theory was
arousing
unconnected with physics. This was partly
who was
fascinated not only
by physics but
also
by psychoanalysis, or “depth psychology.” Immediately after his arrival in Zurich, Hopf had called on the psychiatrist Carl Gustav Jung and nad introduced Einstein to him. Einstein was Jung’s dinner guest on several occasions, and there also met Eugen Bleuler, the director of the internationally famous Burgholzli psychiatric institution, as well as a
number of other medical men
interested in relativity.
“He
tried,
with
Professor
more or
less success, to
recalled, “but as
to follow his ficulties
Zurich
in
267
teach us the fundamental arguments,” Jung
non-mathematicians we psychiatrists found
argument .” 38 Einstein,
for his part,
seems to have had
dif-
with the psychiatrists, and in consequence the conversations
were not continued for long. Jung’s impression of stein
difficult
it
was that one could “hardly imagine
Evidently,
while the other
is
with Ein-
between
a greater contrast
The one
the mathematical and the psychological mentality. tative in the extreme,
his talks
quanti-
is
qualitative in the extreme .” 39
Jung not only made the common mistake of regarding
mathematics
as the essential aspect
of physics but also failed to per-
ceive the intuitive content of creative natural science.
Needless to
say,
loved
machine.” Paul Habicht, the instrument manufacturer,
“little
Professor Einstein continued to care about his be-
came over from Schaffhausen “got the
little
machine to function
rad, Einstein’s friend
and by then
several times and, to Einstein’s delight,
a teacher
traveled to Zurich.
all
right .” 40 His brother
Con-
from the happy days of the Akademie Olympia of mathematics in Schier, canton Grisons, also
They both
stayed with the Einsteins, and the three
of them tinkered and experimented at the university laboratory. For the spring break Einstein “cordially invited [them] to
experiments with the It’s
got to be finished
little
at
last
you .” 41 The three worked hard and
before
someone
successfully.
applied for, and obtained, a patent for the 42 ,
the final
machine and then button up the business.
long
the paper was published
make
Einstein,
The Habicht brothers machine”; and when
“little
the initiator, renounced any
— apart from
authorship and contented himself
else gets in before
a citation
of his original
—with
notation that
publication and the obligatory acknowledgment
a
the experiments had been conducted “jointly with A. Einstein at the
Zurich University laboratory.” tions: potentials
sured with
it,
of
less
The new machine came up
than one-thousandth of
to expecta-
could be mea-
a volt
so that “a single radioactive elementary process
.
.
.
could
readily be demonstrated with the instrument .” 43
Einstein followed the further career of the
“little
machine” with
intense interest. Paul Habicht presented the perfected invention at the
Berlin Physical Society and scored a huge success.
“The
fellows nearly
New Copernicus
The
268
stood on their heads,” 44 Einstein reported to Besso. “I’m tremendously
Habicht already has quite
pleased.
accuracy
its
few orders.” 45 However, Einstein
For one
in regarding the machine’s future as secure.
was mistaken thing,
a
left
something to be desired, and for another
within a few years, rendered obsolete by the
When Paul Habicht died in
tion technique.
new
it
was,
electronic amplifica-
1948, Einstein in his letter
of condolence to Conrad included a “recollection of the old days,
when
together with your brother
machine
I
worked on the
measurement of small
for the
voltages.
little
influence
That was
fun, even
though nothing useful came of it.” 46
Compared with with the
“little
Einstein.
his reflections
machine” must have been something
Much
problems in
about the intricacies of quanta, his work
the
same was probably true of
classical physics.
why
the sky
effect,” first described in
is
when
sent through the
a
beam of
medium.
It
light of
seemed
“opalescence” must be due to scattered light, but
what the
light of the
means
silly
1869, in which a bluish “opalescent” tint
appears in a gas or a liquid
combination
—but by no
His starting point was the “Tyndall
blue.
is
paper on fluctuation
This was once more concerned with
the reality of molecules and the childlike
question of
a
like light relief for
whatever color
plausible that this
it
was not
by
clear
primary beam was scattered. Tyndall
initially
assumed that the scattering was caused by minute contaminations the
air,
in
but Lord Rayleigh subsequently demonstrated mathematically
that the light was being scattered cules of the air
itself.
by the irregularly distributed mole-
This view was accepted until 1908, when Marian
von Smoluchowski 47 showed by density fluctuations
that the scattering of the light
was caused
in the gas or liquid, provided these fluctuations
extended over minute volumes within the range of one wavelength of the light. Einstein, subtle of
who
greatly esteemed
Smoluchowski
as
one of the “most
contemporary theoreticians,” 48 intended to develop
and particularly
to obtain an exact
erally scattered light: “I
am
this idea,
formula for the intensity of the
at present writing a
lat-
paper on the opales-
cence of gases and liquids,” 49 he informed his friend Laub in the
summer
of 1910. “Quantitative implementation of Smoluchowski ’s
Professor
in
Zurich
theory. I’ve finished with the basic part. It
What
is
269 an entirely
theory.”
strict
Einstein dispatched to Annalen in October 50 was a mathemati-
cally rather
complicated derivation of
a
why
formula explaining
from the sky opalesces blue during the day and reddish
light
morning and evening. Einstein saw the “main
the
in the
result” of his investiga-
tion as the fact that his formula “permits an exact determination of the
constant N,
the absolute size of the molecules.” 51
i.e.
more suggested
a
method
Thus he once
for the experimental determination of the
Avogadro number. That he made use of the blue of the sky
to convince
the last doubters of an atomic view of matter was entirely in line with his endeavor,
formulated ten years previously, “to recognize the unity
of a complex of
phenomena which appear
as totally separate things to
[sense] perception.” 52
Smoluchowski was delighted with Einstein’s “ingenious tion” 53 and regarded his paper
forward” in science. His
own
mula proved exceedingly
on opalescence
as a “substantial step
experiments for verifying Einstein’s for-
difficult,
however, because what
volume of the atmosphere
cently visible in the vast
calcula-
is
magnifi-
is
not easily imitated
working
in a small laboratory setup. Eventually, despite the difficult
conditions at the University of I
—he
had become
a
full
Cracow
sults
which
When
.
.
.
satisfactorily agree
stein in an obituary
The sical
“strict
1913
phenomenon
War
— Smoluchowski
justifying quantita-
“Improvised photometric measurements yielded re-
Smoluchowski died
a fine, sensitive,
Poland during World
professor there in
achieved a fine demonstration of the tive statements:
in
with the theoretical formula.” 54
in 1917, at the age of only forty- five, Ein-
mourned “not only the
brilliant researcher
but also
and benign person.” 55
theory” of opalescence was Einstein’s
mechanics and simultaneously
his last
last
paper on
major publication
clas-
as Extra-
ordinarius at the University of Zurich.
Ever since April 1910 Einstein had been, Zurich. After less than
six
months
it
in a sense,
became
“on
clear that, as
call” in
had been
expected, the post of an “extraordinary” professor could only be a
halfway station for him, pending an offer of
came from
the
German
a
regular chair. This offer
University in Prague, and
if
the appointment
The New Copernicus
270
procedure 56 had not again been so protracted Einstein might have
left
Zurich after two semesters there instead of after three.
The
—
initially
prepared to
move
informal to
—inquiry
as to
Prague must have come in March 1910, because
on March 30 Friedrich Adler wrote been asked
“if
he would accept
to his father that Einstein
had
another university.” 57
On
a post at
who was
April 29 Einstein informed his mother, sister
will
and brother-in-law
in Berlin, of
probably be invited to
it
will be.” 58
“some rather interesting news.
I
with
a
Em getting now. I’m not yet allowed to
But he did
tell
Friedrich Adler, because Adler
reported to his father the same day that in Prague,
then staying with her
a great university as a full professor,
considerably bigger salary than say where
whether Einstein would be
it
and that Einstein headed the
was the German University
list
of names for the post of
professor of theoretical physics. 59
In Prague the academic procedures had begun as early as January, as Elofrat
pich, the
— an honorific in the Austrian monarchy— Ferdinand Lipincumbent of
semester of 1910.
a chair,
intended to retire in the
The department had
up
therefore set
mission, which included the mathematician
whom convention. On
summer
a small
com-
Georg Pick and met
the
experimental physicist Anton Lampa,
Einstein had
burg
April 21 the department
at the
Naturforscher
in Salz-
approved the recommendations of that commission to the effect that the chair of mathematical physics should
become
a chair of theoretical
physics, with the cabinet for mathematical physics being simultane-
ously converted into an institute of theoretical physics.
It also
proved the appointment proposal, with Einstein heading the immediately passed
it
on
authorities, the
expert opinion.
It is
and
to the Ministry of Education in Vienna. 60 In
order to lend greater weight to
and royal
list,
ap-
its
recommendation
department had asked
to the imperial
Max
Planck for an
probable that Planck described Einstein as one of
the most important physicists and the inspired inventor of relativity theory, though with regard to that he could not judge yet nately, a
quantum theory he would point out 7
,
whether Einstein was always
book by Max Planck had been published
spring of 1910, with a euphoric statement
naming
right. 61
Fortu-
just then, in the
Einstein’s relativity
theory in the same breath as Copernicus; this was bound to impress
Professor the ministers and indeed
Emperor
in
Zurich
271
Francis Joseph. This
is
what Planck
had written on the theory of relativity and the resulting revision of the concept of time: In boldness
probably surpasses anything so
it
achieved in
far
speculative natural science, and indeed in philosophical cognition
theory; non-Euclidian geometry
And
child’s play in
is
comparison.
yet the relativity principle, in contrast to non-Euclidian
geometry, which so
far has
been seriously considered only for
pure mathematics, has every right to claim real physical meaning.
This principle has brought about
a revolution in
our physical pic-
ture of the world, which, in extent and depth, can only be
com-
pared to that produced by the introduction of the Copernican
world system It is
62
r
.
probable that toward the end of April Einstein had been
informed by Anton Lampa about the main aspects of the developments in Prague.
Then,
for a while, there
from Vienna, and Sommerfeld:
Prague
“I
after that the
was no news either from Prague or
news was not good. In July he wrote
won’t get to Prague.
—has made
difficulties .” 63
The
To Laub
—
ministry
as I
to
hear from
he was more outspoken:
“I
was proposed only by the department; the ministry, however, has not accepted the proposal because of my Semitic origin .” 64
It is
impossible
now to establish the precise role played by anti-Semitism, but we do know that the ministry wished to appoint not the foreigner listed in first
place, but the
second candidate, Gustav Jaumann, professor
at the
who was Austrian. Such
disre-
Technical College in Briinn (now Brno)
gard of proposals from universities was by no means unusual in che Austrian monarchy.
Johannes
The
Stark, but the
previous year the department had favored
appointment had gone to Anton Lampa
65 ,
an
who was now championing the foreigner Einstein, though unsuccessfully. The “most humble submission of the most obedient
Austrian,
Minister of Education and Instruction, Karl Count Stiirgkh,” to His Imperial and Royal Majesty Francis Joseph contained the statement:
“Although the Collegium of Professors attaches special importance to the appointment of Professor Dr. Einstein, listed in
first
place, in
view
of his brilliant achievements in the area of modern theoretical physics,
The New Copernicus
272 I
yet believe that negotiations should
Jaumann
in Briinn, listed in
be initiated with Professor
first
second place.” 66 Here ends the
first
part of
the appointment procedure.
Although Einstein would have to wait
for
some time
for his full profes-
sorship and the “big salary,” the offer from Prague meanwhile was
him
benefiting
His students, on the
in Zurich.
Tanner, had addressed
initiative
of
Hans
with fifteen names, to the
a petition, signed
“Honorable Directorate of Education of the Canton of Zurich” questing
it
“to
do
its
utmost to preserve
teacher for our university.” 67
manner he succeeds
They
this
pointed out that “in an admirable
physics so clearly and comprehensibly that
we
would prove of great benefit
problems of theoretical
it is
moreover he manages
rapport with his listeners that
The
outstanding scientist and
in presenting the difficult
to follow his lectures;
a great
pleasure for us
to establish such perfect
are convinced that such teaching
to our university.” 68
Directorate of Education shared that opinion and within three
proposal to the Governmental Council, even
weeks submitted
a
though the
from Vienna had by then become known
refusal
“It appears,” the protocol
the threatening danger of
moment
the
of the Governmental Council
Herr Professor
feels that
in Zurich.
states, “that
Einstein’s departure has for
disappeared owing to a negative attitude by the supreme
state authorities of Austria.
sity
re-
The
Educational Council nevertheless
Herr Professor Einstein should again be
by some kind of improvement
our univer-
tied to
in his position.” 69 It
was decided,
therefore, to raise Einstein’s annual salary “in the event of his further
staying at the University of Zurich francs to 5,500 francs.” 70 this decision Einstein
son, Eduard,
The
became
raise
on October
from 4,500
15, 1910,
was well timed, for two weeks
after
His second
a father for the third time.
was born on July 28.
Although both Einstein and Mileva were fond of Zurich, he was acutely aware that as an Extraordinarius he was not an equal
the faculty.
And although
in the future, a
more
his financial situation
would be
member
of
less strained
he was clearly determined to take the next opportunity of
radical
change
in his position.
surprise turn of events in Prague.
This opportunity came with
a
Professor
in
Zurich
273
summer of 1910 Gustav Jaumann must have heard that while the ministry in Vienna wished to appoint him to the post in Prague, the faculty had listed him only in second place. To this he is Sometime
in the
reported to have angrily declared that he “would have nothing to do
with
a university that
real merit.” 71
was chasing
after
Jaumann confronted
modernity while being blind to
the ministry with exorbitant salary
demands and thus caused the breakdown of
negotiations. 72 In conse-
quence, Count Stiirgk, the minister, had no choice but to
come back to
the foreigner, Einstein.
On
September 20 Einstein received an
invitation for a discussion of
appointment terms, and on September 24 he traveled to Vienna. 73 His salary
was agreed
exchange
a little
to at 8,672 Austrian crowns, 74 at the official rate of
over 9,000 Swiss francs and thus a handsome increase
over his pay in Zurich. also have to
become
The
fact that as
a subject
not bother him unduly,
an Austrian professor he would
of His Imperial and Royal Majesty did
were prepared to overlook
as the authorities
his retention of Swiss citizenship.
More
difficult, evidently,
was the problem of
religion. In Switzer-
land Einstein had always described himself as “without religious
denomination” on
official questionnaires,
in Francis Joseph’s empire. In the
but
this
was not acceptable
view of the old monarchy
it
was
inconceivable that a person without religious denomination could
swear
a
proper oath of allegiance.
When the
Einstein, he simply declared that he
was
a
problem was explained
Jew, whereupon “Mosaic”
was entered on the form. 75 Einstein scarcely saw
this
concession to
Austrian bureaucracy as a return to the religion of his forebears.
was simply prepared,
to
in return for a full professorship, to render
He
unto
Caesar that which was Caesar’s, without feeling particularly disturbed about
it.
When
his friend Paul Ehrenfest,
as his successor in
Prague
whom
in 1912, declined to
Einstein showed no understanding: “It worries
he wished to propose
make
me
spleen of being without religious denomination; the sake of your children? Besides, once
can return to
Although
this curious all
you
this concession,
that
you have the
why not drop
it
are a professor here
for
you
hobby.” 76
obstacles had
now been removed,
the appointment
The New Copernicus
274
was some time
means
December
in coming. In
certain that
I
will get
in various places that I’ve
away from Zurich. d me,
December
far
who approved
Count it
Stiirgkh,
been stated I
was
submit the pro-
only on January
January 20 Einstein applied for release semester from his duties in Zurich.
by no
no appointment has come.” 77 Not
16 did the minister,
posal to the emperor,
it’s
“It’s
been appointed to Prague, and indeed
promised appointment. But so until
Einstein wrote:
at the
On February
6,
1911. 78
On
end of the current 10 the Governmental
Council met his request, regretting “that the university
is
losing the
outstanding scholar and that the cantonal authorities had not been given a chance to try to keep It is
not quite clear
why
for our university in the future.” 79
him
Einstein did not try to obtain in Zurich
what was being offered him
in Prague. After
all,
Prague was not
a
“great university,” as he had said to his mother, and certainly not a center of research in physics. In fact, “there
was no doubt that
at this
German University in Prague was suffering from a loss of importance among German universities.” 80 Einstein possibly believed time the
was nothing more to be gotten out of Zurich, and perhaps
that there
he was also reacting to certain “conflicts” within the department, referred to in a letter
“Einstein
knows
from Kleiner to
a colleague, to the effect that
that he cannot expect
any personal engagement on
the part of representatives of the department.” 81 At any rate, settled that Einstein
would move
to
Prague
it
was
as a full professor in the
spring.
At the beginning of
his last
semester in Zurich, while he was
waiting for confirmation from Vienna, he had a pleasant surprise. In early
November he had
received a letter from Emil Fischer, the
famous professor of chemistry in Berlin: “Your great theoretical papers in the
field
of thermodynamics,” he wrote, “have caused a sen-
sation in the world of science, and in our circle there
is
frequent talk of
them, especially since Herr Nernst has occupied himself with the experimental verification of your conclusions concerning the law of
Dulong and was acting
Petit.” 82
as a
But the
real surprise
go-between for
was very pleased “that German
a
man
was the news that Fischer
in the chemicals industry,
scientists like yourself,
who
Herr Planck,
Professor
Zurich
in
275
and Herr Nernst have taken over the leadership in feels that it is the
brilliant
work
a little
— altogether
and 1912.”
himself saw
fit; it
The
first at
in
tied to
that
to be
annual
three
once, and the other two
any obligation or
as
it
he
restriction.
German nationality fifteen years previbeing included among “German scientists”; he
given up
ously, did not object to
conveyed
promote
recipient of the donation was to use
would not be
who had
Einstein,
marks
15,000
installments of 5,000 marks each, “the in 1911
to
by material support.” This support proved
generous
exceedingly
Germany
duty of wealthy people in
and he
this field,
his sincere thanks, first to
Emil Fischer, whose
had
praise
honored and even more greatly embarrassed” him, consid-
“greatly
ering that “every day
I
am keenly aware
of how impotently
the urgent problems of our science,” 83 and also to the
pared to donate such considerable sums” and assure “that
I
will apply the
sums entrusted
to
am
man “who
whom
me
I
facing is
pre-
he wished to
as conscientiously as
possible.”
The
generous donor was Dr. Franz Oppenheim,
a
cofounder and
shareholder of the Aktiengesellschaft fur Anilinfabrikation, better
known
as Agfa,
who
lived in a princely
and could rightly regard himself served as treasurer to the
as
He
readiness to accept his
anonymous
in
Berlin-Wannsee
one of the “wealthy people.”
German Chemical
greatest benefactors. 84
Emil Fischer “not
mansion
He
Society and was one of its
was “very pleased” 85 to learn of Einstein’s
to disclose
would be more agreeable
offer.
my
He
name, because
Professor
to
requested his go-between I
believe this
way
Einstein
was
Einstein.”
delighted that “the capital promised would indeed greatly facilitate his scientific
work.” 86 There
is
no information on how the money was
used.
In January 1911 Einstein received not only the confirmation of his
appointment
in Prague, but also
from Hendrik Antoon Lorentz
an “exceedingly cordial” invitation for a lecture in
Leyden. “You can
hardly imagine,” Einstein wrote to his scientific father figure,
much
I
am
“how
looking forward to making your personal acquaintance.” 87
At the same time he thought
it
a “curious
undertaking to bring theo-
The New Copernicus
276 retical physics to
timidity, as
encounter
I
am
Leyden. And
yet, I
am
not gripped by any sense of
convinced that with you and those around you
a friendly attitude
I
will
and not severe criticism.”
As Mileva’s mother happened to be
them
visiting
Zurich and
in
looking after the two children, the Einsteins could travel together.
They boarded where
it
burns
down
their train
on Wednesday, February
8,
and from Basel,
stopped, sent a postcard to Friedrich Adler: “If the house or anything else amusing happens, please cable us c/o
H. A. Lorentz, Leyden.” 88 The following day they arrived
Prof.
Leyden, where die Lorentzes put them up.
The
lecture
in
was on Friday,
followed in the evening by long conversations with Lorentz; these
continued the next day,
such
first
in a small circle with brilliant colleagues
Heike Kamerlingh Onnes and Willem Hendrik Keesom, and
as
in the evening
once more
just
On
with Lorentz.
home, they
for Antwerp, where, before returning
left
“favorite uncle” Caesar
No “Now
Sunday the Einsteins visited the
Koch.
sooner was he back in Zurich than Einstein thanked Lorentz: I
am
back here in
my
study, filled with the
memories of the wonderful days which your proximity. radiating
.
.
.
There
so
is
much
from you that throughout
my
I
kindness and stay
that kindness and honor.” 89
all
had of Lorentz was even brighter later declined
beautiful
was permitted to spend
after his
in
human warmth
was not even possible
it
for the tormenting conviction to develop that
recipient of
most
I
am
an undeserving
The image that visit, and when
Einstein
Einstein
an appointment to the University of Utrecht in the
Netherlands, he apologized to Lorentz “with a heavy heart, like one
who
has done a
wrong
Lorentz continued
to his father.” 90 Einstein’s
after Lorentz’s death.
At
profound respect for
his graveside Einstein
pointed out that “his unfailing kindness and generosity, his sense of justice,
combined with an
made him
a leader
intuitive insight into
wherever he found himself. Everyone followed him
gladly, because they felt that
he never wanted to dominate them, but
always only to serve them.” 91 recorded:
people and conditions,
“To me,
encountered during
And even
personally, he
my life.” 92
in his old age,
meant more than
ail
Einstein
the others
I
Professor
move
Before his drawers.
A few
along with
lesser papers
had to look
—who
Ludwig Hopf
as his assistant
after
was
his doctoral student,
on
right.
not been theory
Univer-
but also his
since April
1910 editor-in-chief of the Social Democrat paper Volksrecht a
last
extraordinary professorship, he had
hoped “that Adler would succeed me.” 94 Adler, however,
no more than
in
Then he
who had
first
,
accompany
assistant’s post at the
of Basel. 93 Tanner was not only Einstein’s
own
to
a subject related to the kinetic
him obtain an
doctoral student. As for his
now
—had checked and put
Hans Tanner,
of gases. Einstein helped
offered
desk
his
were completed and sent off to Annalen
able yet to complete his thesis
sity
up
whole bunch of corrections, including the big mistake
a
Prague
to
277
to Prague, Einstein wished to tidy
his doctoral thesis that
him
Zurich
in
,
had
one-hour “Cognition-Theoretical Introduc-
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27. In 1934, the Pittsburgh Post-Gazette reported that Einstein
saw no
«f
*««»!
practical applications for the “energy of the atom.”
,
28. In 1938, in collaboration with
published The Evolution of Physics.
Leopold
Infeld, Einstein
29. In 1939
and again
in 1940, Einstein signed letters to President
Franklin D. Roosevelt urging quick action on the part of the administration in organizing nuclear research in the United States.
With J. Robert Oppenheimer, then
30.
director of the Institute for
Advanced Study, about 1947.
Honoring Einstein on his seventieth birthday, Princeton, 1949 (from left: H. P. Robertson, E. Wigner, H. Weyl, K. Godel, 1. 1. Rabi, Einstein, R. Ladenburg, J. R. Oppenheimer, and 3
1
.
G. M. Clemence).
32.
With
Israeli
premier David Ben-Gurion, Princeton, 1951.
next year, following
Chaim Weizmann’s
death,
The
Ben-Gurion offered
Einstein the presidency of Israel. Einstein was unable to accept.
33.
With Niels Bohr, James Franck, and
Isidor
I.
Rabi, 1954.
34.
On NBC
comments on the U.S. governhydrogen bomb, 1952.
television, Einstein
ment’s decision to develop the
Jewry, Zionism, and
Weizmann was
a
Trip to
499
older than Einstein. 36 Born in a village in
five years
had studied chemistry
Belorussia, he
America
in
Germany and
Switzerland,
taking his degree in Fribourg at the same time as Einstein
Zurich Polytechnic with University of Geneva, sity and, as a result
dent.
a
teaching diploma. After
Weizmann found
a post at
a
left
few years
of some useful patents, became financially indepen-
manufacture of explosives. At
Lord
Balfour;
Weizmann became
Office,
at the
Manchester Univer-
During the war he developed important improvements
Office under
first
when
in the
he worked for the British
on
his adviser
Palestine.
His diplomatic
1917, which assured the Jewish people of a
2,
War
Balfour took over the Foreign
masterstroke was his cooperation in the Balfour Declaration of
vember
the
No-
homeland
in
Weizmann became president of the World Zionist Organization. He was an intelligent man of worldwide interests, able to combine idealism with practical politics. Though capable of making speeches in many languages, he continued to prefer Yiddish, his Palestine. In 1920 4T
mother tongue. Shortly before his departure,
Weizmann had
received a surprising
telegram from American Zionists, advising him to jettison his promi-
nent traveling companion. Einstein’s exorbitant demands for fees from a
few universities had become known also outside academic
that he
was expected to prove of questionable value
as a fund-raiser. 37
Weizmann, who had been unaware of Einstein’s attempt nomic freedom,”
instructed his
American followers
circles, so
to
to earn “eco-
pour
oil
on the
troubled waters; on no account would he dispense with the most
famous of
all
Jews.
became apparent
as
That Weizmann had made the soon
as the
Rotterdam entered
right decision
New
York harbor.
“Einstein fever” had erupted.
An
impressive welcoming committee, with the mayor of
and the president of the
city council, awaited Einstein;
reporters, photographers, and even the sive
odd
film
New
York
but droves of
cameraman with mas-
equipment, stormed past them to board the Rotterdam in order to
be the
first
to catch sight of the strange
and wonderful
man who had
unhinged Newton’s world. Einstein proved to be an exceedingly attractive
and profitable media personality, even though he did not
Splendor and Burden of Fame
500
know any
English. At one time, in Zurich in 1913, he had
learn the language, “slowly but thoroughly,” 38 but
of
little
begun
it
to
seems to
have stuck.
The tivity
question put to
first
theory in
a
all
in fun”
explain his rela-
few sentences. Years of experience with reporters had
prepared him for
more
him was how he would
kind of opening and
this
—he had
answer ready:
his
“It
— “not too
used to be thought that
would be
things disappeared from the world, space and time
According to the
seriously and if
left.
however, space and time disappear
relativity theory,
along with the things.” 39 This kind of platitude pleased the reporters and, the following day, their readers. Actually, the only really witty
remark seems understood
to have
been made by Weizmann. Asked whether he
relativity theory,
he
is
said to
crossing Einstein explained his theory to
man
was the
every day, and on our
it.” 40
Nevertheless, Ein-
of the moment, impressing the reporters with his
“geniality, kindliness effect
me
he really understands
arrival I realized that
stein
have replied: “During our
was heightened
and interest in the as,
little
things of
to the delight of the crowds,
life.” 41
This
he walked down
the gangplank with his pipe in one hand and his violin case in the
—
other: “like an artist
a musician.”
The motorcade made Jews cheered their
for City Hall, in front of which thousands of
idol. Inside,
honorary citizenship was to have been
bestowed on Einstein, but one of the
city councilors
had developed
last-minute doubts whether this relativity business was not after
the
all,
and
it
ceremony
Warburg,
a
took
a
few days for these doubts to be assuaged and
to be restaged. Einstein
was to be looked
after
Commodore
Hotel.
One
there, to Einstein’s great delight, his schooldays in
Munich;
cessful physician in
Almost
by Felix
wealthy partner of the banking firm of Kuhn, Loeb
Company, who had arranged comfortable accommodation ionable
humbug
at
as
Dr.
of the
was
first
people to
Max Talmud,
Max Talmey
his
&
at the fashcall
on him
mentor from
he had become
a suc-
New York. 42
once the fund-raising campaign began
—sometimes with
splendid dinners in exclusive hotels in a circle of wealthy Jews, but
more
often at meetings attended by the whole spectrum of American
Jews, from small storekeepers to rich bankers and fashionable doctors,
Jewry, Zionism, and
who wanted be paraded
Weizmann and
to hear
like a prize bull,
Trip to America
a
see Einstein. “I
and make
a
501
had to
thousand speeches
let
myself
at big
small meetings,” Einstein reported.
Whether he
the major meetings
Weizmann presumably had
is
questionable;
really
spoke
much
We
do have
a report
at
taken
note of Blumenfeld’s warning about Einstein’s unpredictability orator.
and
as
an
of a meeting on April 12, attended by an
audience of eight thousand: following Weizmann’s address Einstein confined himself to such a short statement that he could not possibly
make
a false step
—“Your
spoke very well for That’s
all I
all
Weizmann, has spoken, and he
leader, Dr.
of us. Follow him, and you’ll do the right thing.
have to say.” 43 At smaller meetings, especially
at students’
or medical associations, Einstein would appear on his own, particularly
when
these were concerned with donations for
Hebrew
University in
Jerusalem, a topic on which there was no dissent between Einstein and
Weizmann. Weizmann, however, had come
to the
United States not only
for
fund-raising but also in order to get the local Zionist organization to
adopt his
Jew among
the nine
Supreme Court, and leader of the American
Zionists,
political line.
justices of the
saw Jerusalem rather rather than the
For the
as Einstein did
—
first
as a cultural center
homeland of the Jewish people,
difficult negotiations
the administrative
United
Louis Brandeis, the
work
States, Einstein’s
time to give lectures
at a
let
of Jewry
alone a Jewish
state.
between Weizmann and Brandeis, or
in connection with
Keren Hajessod
for
in the
presence was not needed, and thus he found
few
universities,
now
for fees left to the dis-
cretion of his hosts.
On April
1
versity in
5
Einstein began a series of three lectures at Columbia Uni-
New
York, which had
the previous year, had awarded stein
him
lectured at City College of
invited
its
spoke in German, the lecture
week he him
first
him
in 1912
and which,
Barnard Medal. Although Ein-
hall
was packed. The following
New York—which
no doubt gave
particular pleasure, because this city institution enabled
many
impecunious Jews to study there. His lectures were translated into English paragraph by paragraph; and the young interpreter,
who
dis-
played great competence with both Einstein’s language and his mathe-
Splendor and Burden of Fame
502
matics, soon acquired the reputation of being
understood
relativity theory.
Einstein and
on
Weizmann
next traveled to Washington
—Weizmann
and Einstein because he was to speak
political business
annual convention of the National
Academy of
at the
Science. Despite the
the professor from Berlin got a rather frosty recep-
official invitation,
tion in the
one of the few who
American
capital.
The
Zionists had
an invitation to the White House, but
by President Harding.
When
hoped he would receive
this idea
had been turned down
was patiently explained that Einstein
it
had not signed the Manifesto of Ninety-three, and that he was Swiss, traveling
vanished.
on
Confederation passport, the misgivings suddenly
a Swiss
He
was even allowed to accompany representatives of the
American academy into the White House
for a reception with the
president. Nevertheless, the pattern of hospitality cally significant level
was below
and was very different from the
cumstance which, two weeks
later,
on
May
20,
a politi-
pomp and
cir-
would accompany
Marie Curie’s reception by President Harding. 44 But then Marie Curie was French.
There followed
few days
a
at
received an honorary degree
Princeton University, where Einstein
on
May
9.
The
lessons of
Washington
had been duly learned, and Einstein was introduced from the outset a Swiss,
with
a professorship in
Leyden, the Netherlands. Naturally,
his association
with Berlin could not be totally concealed, but the
cial tribute to
the
new honorary doctor u
standards, because
as
stressed his loyalty to
offi-
moral
he refused to join with others in condoning the
invasion of Belgium.” 45
John Hibben, the president of the university, hailed Einstein as a new Columbus of science, who sailed on his own through alien seas of thought.
The ceremony
suffered
and one newspaper described
Marx
Brothers:
stood, he sat
When .
having been stage-managed by the
Dr. Einstein was supposed to
.
.
steered about by
little
finally
when
sit
down he
the smiling,
tugs at his sleeve, was to
hood from President John Grier Hibben he turned the confusion upon the president.” 46
receive his doctoral
back in
as
when he should have stood and
confused scholar,
his
it
from problems with communication,
— Jewry, Zionism, and
a
That afternoon Einstein gave the
America
Trip to
first
503
of his four lectures on the
theory of relativity within the framework of the Stafford Little Lectures.
was
As expected, the lecture
filled to
hall,
one of the biggest
in the university,
bursting, not only with students and faculty
also with sensation-seekers,
many
of
Lor those unable to follow German,
ment gave an English summary just as in Berlin: for the
whom a
at the
members, but
had come from
member
far afield.
of the physics depart-
end of each
lecture.
But
was
it
second lecture, the following day, there was
plenty of room for anyone interested. These lectures were collected in a little
book, Einstein’s second, published
Press and then in England by
Methuen
by Princeton University
first
—
tribute to the desirable “concentration of
in order that
Au
ions” in
might con-
it
Leyden before
being republished in Germany. 47 4T
During
a
reception in honor of the famous visitor, a rumor sud-
denly flew through the land, repeating the
movement of
room
that Professor
Dayton C. Miller of Cleve-
Michelson-Morley experiment, had established
the earth through the ether. Publication
shortly. Miller
had constructed
Mount Wilson,
in the
would follow
a substantially larger apparatus
hope that the ether
drift
a
on
could be observed
there better than in the basement of a laboratory; and he believed he
had succeeded in proving If Miller’s result
lapse
tific
in a series of measurements in April 1921.
was correct, the whole
and Einstein’s
theory,
it,
would be
edifice of relativity
lectures, instead of dealing
just a beautiful, refuted
would
with an established
dream. For reasons of scien-
etiquette, Einstein could not very well declare Miller’s result to be
nonsense, so he produced one of his classical apergus: “The Lord is
col-
subtle, but malicious
While
Miller’s
they were wrong
he
is
not.”
measurements are now of only
mathematician Oswald Veblen,
years later,
when
historical interest
—Einstein’s remark has been carved
Einstein’s reference to
the
God
new
God
who was
present,
in stone.
The
was so impressed by
that he immediately jotted
it
down. Nine
building of the mathematics department was
completed, he recalled the words and had them engraved, in gothic script, in the
chimneypiece of the Fine Hall
common
room. Along
with Einstein’s approval, Veblen received his interpretation: “Nature conceals her secrets by exaltedness, but not by cunning.” 48
Splendor and Burden of Fame
504
The
week
relaxing and stimulating
exhausting tour with
in Princeton
Weizmann through
was followed by an
Even
the Midwest.
Einstein time for talks with colleagues. In Chicago, for the
so, it left
first
time,
he met Robert Andrews Millikan, then the foremost physicist in the
United
States, to
whom
Einstein was linked through the experimental
There was, of
side of the photoelectric effect.
lecture at the University of
course, an obligatory
Chicago and even
Yerkes
a side trip to
Observatory in Wisconsin. Cleveland was the
“new Columbus” had and
a large
two men.
last stop.
led
Weeks
most Jewish businesses
crowd had assembled
A
military
taking Einstein and
of media hype about the Jewish
at the railroad station to
band headed
Weizmann
to close for the day,
a
motorcade of two hundred
to their hotel.
Weizmann
tion of the Zionist Organization,
welcome the
At the annual conven-
succeeded, against Justice
managed
Brandeis, in getting his policy adopted. Einstein, meanwhile, to escape the turmoil
Case
Institute of
and the intrigues and
cars
visit
Professor Miller at
Technology. They spent “one and
a half
hours in
conversation about the ether drift experiments” 49 before Einstein
returned to In
New
New York. York,
at the
end of May, shortly before
Europe, Einstein, rather exhausted but
satisfied,
his departure for
drew up
a balance
sheet in a letter to Besso:
I
have two enormously tiring months behind me, but
the great satisfaction of having been of
much
I also
have
use to the Zionist
cause and of having ensured the foundation of the university. It’s a
miracle
I
stood up to
it.
But
now
it’s
done and I’m
left
.
.
.
with
the agreeable knowledge of having achieved something really
good and of having less
battled bravely for the Jewish cause, regard-
of all protests by Jews and non-Jews.
Most of our
tribal
com-
panions are more clever than courageous; that I’ve had ample opportunity to notice. 50
It
soon emerged, however, that
as a fund-raiser
Einstein had not been
quite as successful as he had assumed. Instead of the expected $4 million to $5 million, only $750,000
had come in by the end of the year. 51
Jewry, Zionism, and
Back
in Berlin, Einstein told Ehrenfest
Jewish identity: “Zionism really represents
I
505
about his newly confirmed
new Jewish
a
can give the Jewish people once more joy in glad
America
Trip to
a
existence. ...
its
one that
ideal, I
am very
complied with Weizmann’s invitation.” 52 In the journal Jiidische
Rundschau he described his strongest impression: “Not until
America did
I
discover the Jewish people.
was
in
had seen many Jews, but
I
neither in Berlin nor elsewhere in
Germany had
Jewish people. This Jewish people
saw
I
I
I
encountered the
America came from Russia,
in
from Poland, or generally from eastern Europe. These men and
women by
have preserved
isolation
sound sense of nationality, not yet destroyed
and dispersal.” 53
when he spoke
On May
a
30, Einstein
a concrete picture in
They were
gland, the country which,
on
traveling
On June
finished.
by mounting the
their
own,
as
Weiz-
8 they arrived in
En-
solar eclipse expedition,
exemplary manner met Einstein’s ideal of the interna-
tional republic of scholarship. In that spirit, he
tion
mind
and Elsa moved into their cabins aboard the
mann’s mission was not yet
in such an
had
of his “tribe.”
British steamship Celtic.
had
He now
from Manchester University
had accepted the
to give the traditional
invita-
Adamson
Lecture.
England, however, did not consist exclusively of internationally
minded,
let
alone
pacifist, scientists like
Einstein was to have received the
Eddington.
A
year earlier,
Gold Medal of the Royal Astro-
nomical Society for 1920, in accordance with
a
majority vote of the
membership. Einstein was informed of the honor and, despite some strident squabbling about the peace treaty
foreign policy, he had begun
the spring
hand and
A
I’ll
making preparations
be going to England to have
to have a look at the
few days
later,
money
regret,
award the medal it
to
Some
for his journey: “In
medal pressed into
a letter
had to cancel the
confirmation of the award had at the chauvinistic lobby.
a
involved with
my
business from the other side.” 54
though, he had received
who, with profound
hand
among people
last
from Eddington,
invitation: the board’s
moment been
sabotaged by
a
British patriots evidently preferred not to
at all, for the first
someone from the enemy’s
time in thirty years, rather than capital.
Splendor and Burden of Fame
506
Eddington asked Einstein not to take the embarrassing matter personally and regretted “that this promising beginning of a better international attitude has suffered a reverse theless certain that a better attitude
took time;
ress
it
is
from reaction.
Society, after having
simply acknowledged that England was
more
much more
than the United States. Besides, he wanted to give
Gold
been honored prestigious
Copley Medal of the Royal Society. 56 Einstein took no
this reason,
never-
finally received the
the year before, in 1925, with the incomparably
For
am
making progress.” 55 This prog-
was 1926 before Einstein
Medal of the Royal Astronomical
I
offense;
difficult
a lecture in
he
ground
London.
and because he knew virtually no English, he had
asked Erwin Freundlich, whose mother was English, to act as his guide
and interpreter. Freundlich took charge of Einstein immediately on his arrival in Liverpool. First of
by addressing
Hebrew
the
a
Einstein continued his
all,
Jewish students’ association, appealing for support for
University in Jerusalem. In the afternoon, in a festive set-
he gave the Adamson Lecture
ting,
new mission
at the
University of Manchester
and afterward received an honorary degree. Einstein spoke in German, but this failing was more than compensated for by his other qualities.
The
Manchester Guardian remarked that “the excellence of his dic-
tion, together
from
his eye
with the kindly twinkle which never ceased to shine
through the sternest arguments, did not
fail
to
make
their
impression upon the audience.” 57
For the next few days Einstein was Lord Haldane’s guest Haldane, the
Viscount Cloan,
a fascinating
man
wide
interests
London.
with exception-
—which embraced the theory of reconciliation with Germany—was undoubtedly the
ally
as
first
in
relativity as well
ideal host for
Einstein.
From sympathy
his student days in
for
Gottingen, Haldane had retained great
Germany. Despite
Fabian Society, he
first
became
his left-wing socialist links
British Secretary for
with the
War;
in this
capacity he traveled to Berlin in 1912 in a sensational but unsuccessful
mission to divert the two nations from their collision course. In 1915,
because of his association with Germany, he was no longer acceptable as
Lord Chancellor
in the
War
Cabinet, and henceforth concentrated
Jewry, Zionism, and
on
his scientific studies.
tivity.
Although
theory of
it
These
a
misunderstood the philosophical implications of the
relativity, the
book was displayed
London,
invitation to
while Einstein was in America; of the University of London.
in it
all
little
volume.
details,
its
him
10 Haldane
straight to a
Astronomical Society, the body which had its
in bookstores along with
had been arranged
included a lecture at King’s College
On June
railroad station and drove with
disallowed
507
resulted in a book, The Reign of Rela-
Einstein’s “generally comprehensible”
The
America
Trip to
first
met Einstein
meeting of the Royal
awarded him and then
Gold Medal. In an address Eddington
British contribution to the confirmation
at the
recalled the
and propagation of the gen-
eral
theory of relativity; and Einstein was able, in Burlington House, to
see
Newton’s
ber
6,
ments
portrait, in front of
which
J. J.
Thomson on Novem-
1919, had called relativity theory “one of the greatest achieve-
human thought.” Only afterward did Haldane his fine home in Queen Anne’s Gate, St. James’s
in the history of
conduct
his guest to
Park.
In the evening Haldane gave a splendid dinner in Einstein’s honor.
The former Lord
Chancellor would have liked to welcome Lloyd
George, but
as the
prime minister wished to distance himself from
Berliner, the
list
Canterbury.
Among
Laski of the
a
of prominent guests was headed by the archbishop of the intellectual luminaries present were Harold
London School of Economics and George Bernard Shaw;
and with two of the guests
North Whitehead
—Arthur
—Einstein
Stanley Eddington and Alfred
could even talk physics. However, the
conversation appears to have been dominated by the archbishop of
Canterbury, who, despite intensive reading, had been unable to discover what relationship relativity theory had to religion; as
a result,
Einstein became the victim of small talk at a level where the fourth
dimension blended into the
spiritual. 58
There were dinners with such money) and Rayleigh had met
at the
Abbey
man
lordships as Rothschild (the
of the radiation law,
whom
restful.
man
of
Einstein
Solvay Congress in Brussels).
On Monday, ster
(the
The weekend was more
accompanied by Haldane, Einstein
and, with a gift of flowers for the
paid tribute to the giant
visited
tomb of
upon whose shoulders he
Westmin-
Isaac
Newton,
stood. This gesture
Splendor and Burden of Fame
508
was duly emphasized by Haldane
when
in the afternoon,
at
King’s
College he presided over Einstein’s public lecture, in order to take the
wind out of the
of anyone
sails
The
speaker from Germany.
who might
feel hostility
toward
posters and tickets avoided any reference
academic posts,
to Professor Einstein’s origin, present residence, or
while pointing out that the proceeds would go to the Imperial Relief
Fund
a
to mitigate the deplorable plight of
these shrewd measures, not one
hand
war
stirred at the
War
victims. Despite
beginning of the
event to welcome the speaker with applause. But after his speech, given in
German with humor,
verve, and a
warm
tribute to
Newton, 59
there was a standing ovation. Haldane and Einstein could be
more
than satisfied with this step toward German-English reconciliation.
In the course of this journey of nearly three months, Einstein had
acted not only as a representative of Jewry, but also as an unofficial
Weimar
ambassador of the new
Republic. Back in Berlin, he became a
much-sought-after source of information.
June 30
at the invitation
A report which
of the president of the
he gave on
German Red
Cross, in
an exclusive setting, was attended by Reich President Ebert and several cabinet ministers. But what Einstein said and wrote
on
this
and similar
occasions was received with indignation in America and largely can^
.
celed out the success of his trip.
An
article
which Einstein wrote
for Berliner Tageblatt6 ® about his
impressions of America and which was reprinted by contained, along with enthusiastic admiration,
observations
—
for example,
many newspapers,
some
rather critical
on Prohibition, the lack of
taverns, the
overvaluing of money, and political isolationism (“not worthy of that country”). The
New
York Times regarded Einstein’s remarks as biting
the hand that had fed him; but this
American
sensitivity at
may
have been due more to
being lectured by the Old
World than
to the
—was
set off
actual content of Einstein’s article.
A
more
serious incident
by an interview with both recklessly and
a
—
Dutch
in fact, a veritable disaster
journalist, in
tactlessly. 61
Not only
which Einstein had spoken
did he
mock
the Americans’
excitement over a scientist whose work they did not understand; but he also accused
American men, even though they were hardworking, of
Jewry, Zionism, and
a
Trip to
America
509
who spend fog of extravagance .” 62 The New
being nothing but “the toy dogs of the women, .
.
.
to
wrap themselves
followed
its
in a
the
money
York Times
English version of the interview with an editorial in which
Einstein’s gaffes
were attributed to
of himself and his companion to
his
disappointment
make more than
the special mission for which they
came
to the
at “the failure
a partial success
United
States.”
of
Three
days later, after a flood of letters from outraged readers, there
came
another editorial, with the real reproof: Dr. Einstein will not be and should not be forgiven for the
they believed the guarantors of his
who honored him because greatness in his own domain.
That he
is
boorish ridicule of hospitable hosts
is
small out of that
quence, however, for cialists
of
the world
like
it is
domain
a matter of
a peculiarity shared
no great conse-
by many other spe-
eminence, and in no degree reduces their value to
63 .
Einstein immediately declared that the interview had been wrongly
reported and, by to
way of limiting
American reporters
in Berlin.
the damage, said a few pleasant things
This was
partially successful, but the
matter of the “toy dogs” was not forgiven for a long time, forgotten.
speak and
Once
how
again Einstein had been taught a lesson
to keep silent while in the spotlight.
much less on how to
CHAPTER TWENTY-SIX
More Hustle, Long Journeys, Lot of Politics, and
a
a Little
Physics
return from America, Einstein spent just one month in Berlin. Then he met his two sons and with them went vacationing in the small village of Wustrow on the Baltic coast, staying very modestly at the local bakery. The contrast with the grand style of his
After
his
—
—
visits to
America and England could hardly have been
stein
was happy with the simple
been
settled,
life.
now
seventeen, had
assured, intelligent, modest.” ^
Since his conflict with Mileva had
he had enjoyed the company of his sons, even
not developed entirely along the Albert,
greater, but Ein-
lines
“become
if
they had
he would have wished. Hans a
sound, independent fellow,
Tedel (Eduard), eleven years
old,
was
-
“lively, roguish”;
but both, to their father’s regret, had a “somewhat
—without metaphysical needs.”
mercantile spirit evidently did
all
three of
1
Vacationing together
them some good: “They have turned out
splendid,” he exulted to Ehrenfest, “and
we
are one heart and one
soul.” 2
In mid-August, straight from their vacation, Einstein and his sons
went to
to Kiel to
work
Hermann Anschiitz-Kaempfe
seriously
on
a technical matter, a
to sail
novel gyrocompass. Einstein
must have been concerning himself intensively with
some
time, since
on the Forde and
this
problem
by the end of 1920 Anschutz considered
worth 20,000 marks
—
in cash,
his
for
work
“because otherwise there might be
questions of a tax nature.” 3
Because
a
mechanically mounted compass has certain inherent
shortcomings, Anschutz had for some time toyed with the idea of a novel construction.
The
concept, to which Einstein contributed, was a
510
1
More Hustle, Long Journeys sphere floating on
and without field.
cushion of magnetic lines of force, without contact
a
friction,
held centered in a fixed position by the magnetic
The arrangement
tricky matter.
At
51
first
of the electromagnetic
experiments were
was
fields
made with
a ring
in itself a
of eight elec-
tromagnets grouped around the lower part of the sphere, until Einstein conceived the idea of using a single coil located within the
sphere.
A great deal of development was necessary before the new compass was ready for marketing
1925.
in
between Einstein and Anschutz,
The
as well as
extensive correspondence
Anschutz’s
staff, testifies
to
the passion with which the former Patent Office clerk involved himself
There was always
in this task.
a
room ready
for Einstein in Anschutz’s
house, so that Kiel at times became a second
home
for
him
—not only
because of the gyrocompass but because of his love of sailing and his friendship with the head of the firm. After his
first
stay in Kiel he
added the following remark to an otherwise technical wonderful days in Kiel continue to revolve in
my
“The
letter:
head.” 4
The young
Einsteins also sent Anschutz a polite thank-you letter.
In physics, too, Einstein once
more turned
He was
to experiment.
anx-
ious to resolve the fundamental question whether electromagnetic radiation ally,
from an atom propagates
in the
form of what was then
as a spherical
wave or unidirection-
called “needle radiation”
described in his
quantum theory of emission formulated
have thought of
a
—that
is,
in 1916. “I
very interesting and quite simple experiment about
the nature of light emission,” he wrote to Born. “I hope
I
can carry
out soon.” 5 Einstein believed that the propagation of light in persing media tion
as
—media
—must be different
with
a
it
dis-
frequency-dependent index of refrac-
for spherical
This difference should be observable
waves and for needle radiation. in the radiation emitted
by
fast
atoms, and should clarify the true nature of radiation.
This experiment occupied Einstein’s attention for the year, even during his travels. In
Hans
Albert.
The
Bologna, “where wretches!” 6
He
mid-October he went
rest of the
to Italy with
occasion was an invitation from the university of I
am
to give
saw Florence
my
lecture in Italian,
for the first time, but the
those poor
most important
Splendor and Burden of Fame
512
news he had
for Besso
on
light emission in progress in Berlin.” 7
Underneath he drew
minimum
at least a
went
a sketch
of
Leyden, to
dis-
of his duties as a visiting professor, but
also,
the experimental setup. Via Zurich, Einstein
charge
experiment on
a postcard was: “Interesting
to
and more importantly, to discuss with Ehrenfest the quantum problem and the experimental investigation of the nature of light. Einstein did not have to do the experiment himself. After he had
presented ber
theoretical basis to the Prussian
its
1921, 8 Emil Warburg, as
8,
its
president, put the
Physical-Technical Reich Institute, as well as ers, at
Academy on Decem-
the service of the project. Einstein
some
equipment of the
efficient research-
worked out the
of the
details
who performed the Einstein was delighted when the findings
experiment with Hans Geiger and Walther Bothe,
work swifdy and
successfully.
agreed with the calculations he had derived from the hypothesis of needle radiation. optics
was now
year.
He was
was convinced that the
finished.
no
tion field has
He
“We now have
real existence,”
traditional
definite
proof that the undula-
he informed Born
once more euphoric: “This
is
model of wave end of the
at the
my greatest scientific
expe-
rience in years.” 9
On January
19, 1922, Einstein
reported the successful outcome to
the academy, but he withheld his lecture from publication because he
had to acknowledge that objections being raised by
were
justified.
Von Laue had been making
had convincingly
time, and
set
Max von Laue
these objections for
them out the day before the
some
session of
the academy According to Laue, the experiment itself was correct, but .
it
was not conclusive, since the same
waves
as for
needle radiation.
made between again,
to
was “a
Born
classical
result
a
by one hope.” 10
But one’s got to
alone stops one from making booboos.” 11 his situation as follows: “I
a lunatic
me,
else the
asylum.
face of nature,
.
.
.
He
reported
monumental booboo (experiment about
light emission with canal rays).
to distract
be
theory and quantum theory. Einstein, once
“made
that he had
for
No distinction could, in consequence,
wiser, but the poorer
little
would be obtained
suppose
it’s
a
To
live
with
that.
Death
Ehrenfest he described
good thing that
I
have so
much
quantum problem would have long got me
How
miserable the theoretical physicist
and in the face of his students.” 12
is
into
in the
More Hustle, Long Journeys
513
Distractions, as Einstein called them, were plentiful.
once had been merely tific
and
institution
next ten years.
He
a
famous physicist was
new
a
now
The man who
a social
pattern was emerging for his
was no longer
just a physicist,
and scienover the
life
but a representative
Weimar
of science generally, as well as being a representative of the
—not necessarily
Republic and of Jewry earned him some
hostility,
in that order of priority.
This
but also a good deal of honor.
At the beginning of 1921 Einstein was accepted into the Pour
le
Merite for Science and the Arts, the exclusive Order of Merit limited to thirty holders.
Felix Klein,
Along with Einstein, the Gottingen mathematician
the painter
Hauptmann were
Max
Liebermann, and the poet Gerhart
inducted. At the age of forty- two, Einstein was by
•r
youngest
far the
a
of this august
circle.
honor and fortunately involved
a great
him
member
little
The Order
of Merit was
work, though
it
earned
reproof from Nernst because, on public occasions, Einstein
never wore his insignia.
Rather more work was involved in his membership in the senate of the Kaiser
Wilhelm
Society, to
which he belonged
until 1925. In addi-
tion there were countless commissions and boards that
of having Einstein as
a
member. Most of these
charge conscientiously, even though deep
them.
When Wilhelm
years, resigned his
Westphal,
to boast
duties he tried to dis-
down he had
who was
wanted
little
interest in
Einstein’s junior
by three
membership on the board of the Einstein Founda-
tion for professional reasons, Einstein, along with his official letter of
thanks, regretting his departure, added a few handwritten lines: “As a private individual
I
am
glad that from the sphere of cigar-smoking self-
important gods you have found your way back to the sphere of persons active in the field of science.” 13
Nevertheless,
when he was
in Berlin, Einstein conscientiously
and
regularly joined the “self-important gods” in the academy, or, by pref-
erence, the Physical Golloquium. their spurs in the exciting scientific
Young
He
win
atmosphere of Berlin, found him
practicing democrat, invariably friendly helpful.
researchers, anxious to
a
—even cordial—receptive, and
neutralized the inevitable halo of authority that sur-
rounded by him by humor and self-mockery. In the colloquium he
Spiendor and Burden of Fame
514
made no cilor.
distinction
The
between arguing with
a student
and
coun-
a privy
students liked that, though the privy councilors liked
it less.
But then the privy councilors had to deal with the students, preparing
them
him-
for a doctorate or Habilitation, while Einstein could confine
self to occasional lectures
With
and rare seminars.
moved
the same relaxed informality, Einstein also
which, even after the end of imperial Germany, were exalted.” In the case of bankers
and
called
still
“most
from
industrialists this followed
their generous patronage of the Kaiser stein Foundation.
in circles
Wilhelm Society or
With Walther Rathenau he
the Ein-
often discussed political
issues before Rathenau, in 1922,
became foreign
during his brief period in
Einstein had buried his bolshevik
ideas since the
first
office.
few months
minister, and also
war and was prepared
after the
the government of the democratic center under Chancellor
conditional confidence: “After
all,
men who now
the
of government are not responsible for the present those responsible are the very people
He
also continued his Zionist
the Soviet People’s
cherin
—who
is
Commissar
tine. 15
What
his
bear the burden
difficult conditions;
work
at the
highest level by meeting
Georgiy Chi-
for Foreign Affairs,
said to have revered Einstein “like a
Union and ways of
Wirth
who now criticize most loudly.” 14
bassy on Unter den Linden to discuss with the Soviet
to give
him
god”
—
at his
em-
the situation of Jews in
emigration to Pales-
facilitating their
Einstein learned in that conversation merely confirmed
his belief in the
need for
His colleagues,
who had been
in their profession,
Sommerfeld
Zionist
movement.
regarding Einstein as the greatest
were often aghast when they read
papers of his political
broke under that
a
activities
or views.
Some
in the
man
news-
personal relationships
strain.
in
Munich,
for instance,
was firmly convinced that an
interview with Einstein on the front page of the Paris Figaro must be “a
lie
from
start to finish”
because
it
showed such
a lack of
good
When Einstein read the article, though, he had to disappoint Sommerfeld. He had neither given nor authorized an interGerman
behavior. 16
view, but the text nevertheless was based at a
on some
table talk he
had had
party in Berlin. “I recognize our conversation in the article.
It
More Hustle, Long Journeys what
states
only illuminated by French Bengal
I said,
merfeld learned in
this
Germany and not only would remain
that he
mans had played As
defeat.
way not only why that he
a Swiss citizen,
different views
war and well deserved
a feeble
is
who
for the
comparison.
their
Sommerfeld, Einstein wrote
from one’s own.” However,
Munich, reported to Einstein: “As
bomb
1914 on the condition
respect an honest person even
merfeld did not reply, but Anschutz,
feld, a
in
left
but also his view that the Ger-
a disastrous role in the
“One should
Som-
light.” 17
Einstein had originally
had returned
a postscript in his letter to
the margin:
515
He
when he
in
holds
proved vain. Som-
this plea
always spent the winter in
way your
gave
it
to
letter hit
me
Sommer-
in utter despair,
despairing of you and of mankind.” 18 For the next few years their cor-
respondence almost ceased; the few
letters that
were exchanged were
restricted to trivialities, even in scientific matters.
On
the other hand, the Figaro interview had a positive reception in
France, and this to
renew an
may have induced
Einstein’s old friend Paul Langevin
invitation to lecture at the College de France, originally
envisaged for the autumn of 1914. Einstein had already declined invitations
from the French League
for
Human
Rights and from the
Philosophical Society, mainly in order to avoid political complications,
and thus found himself greatly embarrassed by Langevin’s friendly gesture.
He would
were very
more as a
have loved to accept
sensitive about this,
sensitive.
it,
but his
German
colleagues
and presumably the French were even
French scholars were continuing the shooting war
kind of paper war; they had not forgotten the unfortunate “Mani-
festo of the Ninety-three”
tional boycott of
German
and generally saw to scientists
it
that the interna-
and academic organizations was
maintained. In view of this unpromising situation, Einstein regretfully
had to decline the
invitation: “I can think of
that talking with yourself, Perrin, and little
room
as in the past,
Mme.
and presenting the
felt
he
nothing more beautiful Curie in relativity
a
comfortable
theory to your
students with a subjective note,” he wrote at the end of his long letter, after carefully politics
weighing the pros and cons. “But the great public and
have long since got hold of me and tried to
fit
me
to their pur-
Splendor and Burden of fame
516 poses. ...
to be asked also about
would be certain
I
concerning Franco-German relations, and wise than truthfully,
on
that
.
.
me
sympathies either
Dear Langevin,
.
cannot comply with your request, because
I
views
could not answer other-
answer would not win
or on the other side of the Rhine.
this
me
my
as I
my political
I
am
pains
it
fond of
you.” 19
However, Einstein could not get
of the feeling that, by
rid
declining the invitation, he had chosen the path of least resistance,
whereas
A
him.
French friend had taken
his
week
later
a considerable risk in inviting
he informed Langevin that he had changed his
mind, and why: “Further reflection and
Rathenau convinced
chance conversation with
that, despite all the
my
misgivings voiced in
should have accepted your invitation. In one’s efforts gradually
letter, I
to
me
a
remedy the misfortune of
petty considerations;
this
war one should not be deflected by
you and your colleagues have not allowed them
to deflect you.” 20
In a carefully formulated letter Einstein informed his colleagues in the Prussian
Academy of
induced him to accept serve
the
it,
restoration
the invitation and of the reasons which had in particular that “this event
academic
circles
would take
says, are truly dreadful,”
good a
intended to
German and French
of relations between
scholars.” 21 In spite of all his
is
intentions, though, he expected that
dim view of his
trip.
Count Kessler recorded
“These
he
circles,
“He
in his diary.
is
overcome by disgust when he thinks of them.” 22 arranged
Einstein
March
28. “I
am
not bringing
most comfortable better.” 23
Langevin
with
alone.
The
my wife,
that
he
because
I
simpler and
would
think that
less official
Other arrangements included keeping
his
quite like to have a arises;
that
is
maybe something can
after all
least,
who
we
be
will is,
the
accommodation want
the other hand,
to have I
would
politicians if the opportunity
be achieved about the misfortune
being carried into the world from your beautiful
but not again,
word with one or two
On
on
everything
secret and avoiding private invitations. “Moreover, I
absolutely nothing to do with journalists.
arrive
city.” 24
Last
he was looking forward to meeting his “good Solo”
functioned in Paris as his translator and publishing agent.
More Hustle, Long Journeys For
had “shuffled off
his sake, too, Einstein
ensure that
we have
On March
28 Einstein was met
exit, in
at the
French frontier station by
his
When
the
Gare du Nord
Nordmann. 26
in Paris, they did not take the usual
order to avoid the waiting journalists: like
they disappeared in the darkness across the tracks.
have amused Einstein, but
was
kinds of things, to
all
time for existence.” 25
a little
friend Langevin and the astronomer Charles train arrived at the
517
made
it
refused to
meet
Einstein, and in the
the subject had been ended
when
outcome of his
Academie des Sciences
thirty of
31, Einstein
visit
Physical Society had firmly
its
a
debate on
members threatened
leave the hall in protest as soon as Einstein entered
When on Friday, March
of smugglers,
The maneuver must
sense, since the
The French
entirely uncertain.
still
a trio
began
to
it.
his lectures at the
Col-
lege de France the audience had been carefully selected and limited by
way
the
tickets
who had
also
were
issued. Paul Painleve, a
been minister of war and
president of the
Chamber
renowned mathematician
now
held the high office of
of Deputies, had operated as a circumspect
controller of the admission tickets.
Madame
Curie was present,
as
were Ffenri Bergson and even the Nobel laureate Charles Guillaume,
whose objections hend.
No
to relativity theory not even Einstein could
Germans,
either
from the embassy or
invited.
Despite some misgivings
French” 27
—Einstein
—
“if
only
my
journalists,
comprehad been
beak were better suited to
lectured in the language of his hosts, with an
accent and carefully, but clearly and simply. Langevin sat next to him, to help him, like a prompter, a father
ject
when he was
searching for a word, or like
attending his son’s debut on the stage of the world.
The
sub-
matter was that of his Princeton lectures, which Solovine was
just
then translating into French but which had not yet been published. After a
weekend without public appearances, Einstein continued
his lectures at the
College de France, emerged successful from
a
debate with Guillaume, and on Thursday was the center of a discussion at the Philosophical Society. Press reports ranged from amicable to enthusiastic; attacks
by nationalist papers were isolated exceptions.
Splendor and Burden of Fame
518
As the German embassy summed was “a sensation which the
it
up
intellectual
in
its
report, Einstein simply
snobbery of the
capital
would
not do without.” 28 In the end Einstein even risked an interview.
had
also
been able to
government
With embassy
talk to politicians,
but only those
held no
office.
German
the public his visit was such a success that the felt it
had to warn Berlin not to assume that “Einstein’s suc-
cessful appearances in Paris
were proof that
mans could once more, untroubled, resume French
who
He
intellectual life
in the field of science
their
and cultivate them on
a
former relations with
personal basis.” 29 Ein-
been more optimistic.
stein himself appears to have
Ger-
To
his wife
he
reported with great satisfaction that she could “hardly imagine the
sympathy with which
I
was met here. In
political matters, too, I
and good
have
found nothing but calm consideration of
affairs
understanding, incomparably better than
had expected. Tomorrow
I
will for
we’re off by car to the war ruins.” 30 It
was Charles Nordmann who, early
April 10, picked
up the guest with
in the
a car.
morning on Monday,
Along with Nordmann,
Langevin, and Solovine, Einstein drove through a landscape laid waste, through wrecked towns and villages. Aghast, he stood in front
of the fortifications and trenches in which, a few years before, millions of
men had
lost their lives. After a
Germany in He made a detour
the train to
Anschutz in self
day of profound shock he boarded
the evening. via
Kiel,
where he successfully supported
a patent suit before the district
court and informed him-
on progress with the work on the gyrocompass. Back
wrote to Romain Rolland that he was “happy that
went so harmoniously, and having contributed a
little
I
my
in Berlin
he
stay in Paris
entertain the pleasant conviction of
to the
rapprochement of the minds.” 31
He
thanked Solovine for “unforgettable days, but damnably exhausting ones, they
When the
still
stick in
my nerves.” 32
Einstein went to the
same experience
academy meeting on April
as after his
American
trip.
20,
Most of
he had
the seats
around him remained empty, since the modest attendance enabled the privy councilors to distance themselves from him. 33
More Hustle, Long Journeys
On
the other hand, at a
German-French
519
friendship rally in the
Reichstag on June 10, 1922, Einstein was feted. This had been organized by the
German Peace
Cartel, an
amalgamation of the
A
Fatherland League with other pacifist organizations.
New
like-minded
delegation from France attended, led by Professor Victor Basch.
“The
demonstration was most impressive,” noted Count Kessler, the prin-
German
cipal speaker for the
side.
“Basch, Einstein and
reaped
I
tumultuous applause lasting several minutes.” 34
Two
weeks
later Einstein
been shot and not the
The
any longer.
in Berlin
first
killed
had to ask himself seriously
by
its
he could stay
foreign minister, Walther Rathenau, had
a reactionary in the street
incident of
if
on June
24.
This was
end of the war there had
kind. Since the
been over three hundred murders “from the right” and twenty-two left.” 35
“from the cal
To
Einstein, Rathenau’s death
was not only
a politi-
warning, but also a painful personal loss and a tragic confirmation
of his
own view
that
Rathenau should never have become foreign
minister. It
was probably
menfeld had spent
had
tried to
have been
after Einstein’s return a
long evening
at
from Paris that he and Blu-
Rathenau’s home. 36 Blumenfeld
win Rathenau over to Zionism, whereas Einstein would
satisfied if
Rathenau had given up
his ministry.
He
gave his
reasons in an obituary: “Given the attitude which a large section of the
educated strata of
Germany
adopts toward the Jews,
I
believe that
proud reserve on the part of Jews would be the natural thing life.” 37
Einstein had never followed his
own maxim, and
in public
Rathenau,
who wished to achieve great things and perhaps even become a German Disraeli, was not prepared to follow it either. “Rathenau lacked psychological understanding of his own position,” Einstein said on one occasion, explaining
his misgivings to
Blumenfeld. “If he were
offered the post of Pope he’d be quite capable of accepting. tell
you, he wouldn’t
had been
a
make
a
bad job of
good German foreign
it
either.” 38
And
Rathenau
minister, anxious to guide
let
me
in fact
Germany
back, cautiously, into the family of nations. This was denounced as the servile policy of a
Jew; hence his assassination.
Splendor and Burden of Fame
520
Einstein had reason to fear that he too was a target of the death squads.
He
therefore cut his lectures short and with his wife disappeared into
the Anschutz workshops in Kiel
anyway
39
in order to
,
Commission
Nations.
He
it
himself, as a
he had intended to do
as
an expert witness
for
political conflict.
in a
“bogeyman.”
did what he had, in vain, advised Rathenau to do
withdrew from areas of the
fact
be available to Anschutz
lawsuit, or, as Einstein put
He now
—which in
On July
—he
he resigned from
1
Cooperation of the League of
Intellectual
had been invited to join that body only in May, along
with H. A. Lorentz, Marie Curie, and Paul Painleve, and he was the sole after
member some
hesitation, for reasons
Geneva, “that
a
Jew does
would
I
all
public matters.
have no desire to represent people
I
certainly not choose
ideas ...
such,” he wrote to a friend in
is
well to practice reserve in
have to admit that
also
had accepted
which were confirmed by the murder
of Rathenau: “The situation here
I
He
of a nation excluded from the League.
me
who
and with whose
as their representative
do not agree.” 40
Next, in a letter to Planck, he canceled a firmly promised lecture at the Naturforscher convention in Leipzig at the end of September:
“The
fact
is
that
I
have been warned, by people to be taken entirely
seriously (and independently in the
immediate
future,
by
several of them), not to stay in Berlin
and especially against making
ance anywhere in Germany.” 41
He
informed Marie Curie, of “resigning
a public
appear-
even considered the idea,
my
post in the
as
Academy and
he as
Director of the Kaiser Wilhelm Institute as unobtrusively as possible,
and to
settle
tions for this
down
as a private individual
somewhere.” 42 His prepara-
were already under way.
Anschutz thought
it
a “great sensation”
when
his guest
confronted him
with his intention of settling in Kiel and earning his livelihood, the days of the Patent Office, by practical work. “Einstein
is
Berlin and everything connected with
and
it
in terms of visits
matters, and horribile scriptu wants to go into technology.
as in
weary of
So he
official first
of
me if I had any use for him, and if he could be of any value to my firm.” To employ the world’s greatest physicist in his factory was a all
asked
— More Hustle, Long Journeys prospect which, because of
him: “after
all, it is
But
giant-eater. in his escape
I
historical dimension, “almost scared”
its
no small matter
regard
it
521
to stand before
all
the world as a
very pleasant task to support Einstein
as a
from Berlin into the
relative tranquillity here.” 43
Einstein’s ingenious idea of ensuring the frictionless rotation of a
gyrocompass by locating
sphere had been patented by
a coil inside the
the Anschutz firm 44
on February
tion to navigation.
There was therefore no question
would welcome Einstein
22, 1922,
and represents
his contribu-
that Anschutz
He
“as a very valuable collaborator.
is
so
delighted with the gyrocompass and works so enthusiastically on
all
the tricky questions involved in this bold construction that
I
could not
wish for anything better than being able to approach him with
problems
new
his
at
life:
in quietude,
any time.” 45 Einstein, for
“The prospect of
his part,
was looking forward to
downright normal human existence
a
combined with the welcome chance of
the factory, delights me.
And
my
practical
work
in
then, the wonderful scenery, sailing
enviable.” 46 Einstein had already considered buying a house, a splendid villa
—though with
a
neglected garden
—though he
quickly dropped
the idea because the Empress Auguste Viktoria had spent several years
of her childhood in that house, and he was afraid that the people of Kiel would “regard the purchase of a property with such a history by a
Jew
as
an act of provocation and take their revenge on me.” 47
But in any
case, a
few days
later his intention to
informed Anschutz that he would
move was
gone: he
He
used his
after all stay in Berlin.
wife as an excuse: she had a horror of any change and did not feel up to
running
whole house any longer. In
a
of correction, he had himself
come
ness of quietude
an
fin Kiel] is
himself better than in Berlin; in
on
fact, as
way
to the conclusion that “this busi-
illusion. a
Elsa pointed out by
small
Nowhere can he submerge
town he would be exposed
as
a platter.” 48
This hectic episode following Rathenau’s murder did have an enjoyable postscript for Einstein. Anschutz,
southern
had
a
Germany and intended
with
its
a fine
to
to be at his factory only periodically,
house built on the bank of the Schwentine, near
would occupy floor,
who was moving back
upper floor whenever he came to
his factory.
Kiel.
The
He
lower
view of the garden and the water, was equipped
as a
Splendor and Burden of Fame
522
permanent refuge
complete with
for Einstein,
a boat at the jetty out-
window, so that he might combine work on the gyrocompass
side his
with his hobby of sailing.
Meanwhile, despite the threatening
Einstein had re-
situation,
turned to Berlin about the middle of July. “Here matters are in turmoil
murder of Rathenau,” he wrote
since the hideous
being constantly warned, officially
though
absent,
my
have given up
I
am
I
really here.
am and am
to Solovine. “I
lecture course
Anti-Semitism
On
strong.” 49 His caution was not of long duration.
very
is
August
the
1,
anniversary of the outbreak of war, he took part in a great antiwar rally in the Berlin Lustgarten.
outside the
And he even
spent a marvelous
summer
just
city.
Einstein had for
some
years toyed with the idea of buying a sailing
boat and a weekend cottage somewhere on the water near Berlin. 50
Brandenburg
Sailing and the
lakes
were to him the best things about
His money would probably never be
Prussia.
house, so he pursued his dream in a
sufficient for a
country
more modest way. He rented
a
small shack in the garden settlement of Boxfelde.
To
Berliners, Boxfelde
was “out
actually in the territory of the
in the country,”
though
town of Spandau, which had
it
just
was
been
incorporated into greater Berlin. Einstein’s plot was on a picturesque
bay formed by the Havel River, called Scharfe Lanke, where he could
moor
The plot was smaller than
his sailboat.
his
drawing room
in
Haberlandstrasse, and the whole shack was barely the size of his study. 51 Einstein
was fond of retiring to
one could disturb him. The
and reside in have
much
between
him
as a
become
where no
for
no more
“The boys
are here
could bear
it
fine.
summer of
him
apartment in town and
my yacht.” 52
1922.
as his
guest in Kiel. “I oscillate
my castle,
His neighbors
He
which has proved more
in the settlement
popular and peaceable weekend
model gardener. to
castle,”
my Spandau castle,” he reported to Anschutz, who would
watertight than
ber
his sons in the
preferred to have
my
“Spandau
fact that his wife
than two days at a time suited him
Here he put up
his
visitor,
remem-
though not
as a
allowed the weeds to take over and the property
so untidy that in September 1922 the district administra-
More Hustle, Long Journeys tion
warned him
would be
that the plot
at once. 53 Einstein
relet unless
523 it
was put
in order
promised to do better and protested “that we too
continue to have the greatest interest in renting the plot.” 54
summer of
In the course of the
1922, Einstein allowed himself to be
persuaded, mainly by letters from Marie Curie and by the
visit
of
a
from the Geneva headquarters of the League of
representative
Nations, to reconsider his withdrawal from the Commission for Intellectual Cooperation. 55
meeting
stituent
Nor
association’s centenary
Max von Laue By
was to be celebrated. In
his place
gave the great keynote address on the theory of rela-
staying away, Einstein saved himself an experience of intel-
lectual poverty
years earlier,
ducted
in August.
did he go to the Naturforscher convention in Leipzig, at
which the
tivity.
But he stayed away from the organization’s con-
and malice. Unlike the Bad Nauheim meeting two
when
the dispute about relativity theory was
con-
still
of scientific etiquette, Leipzig became the scene of
at the level
gross anti-Semitic boorishness.
The
tone had been set by Philipp Lenard,
second edition of
his foolish
prefaced the
but not malicious pamphlet JJber Ather
und Urcither {On Ether and Primal Ether) with Scientists.” In this
when he
a
“Reminder
to
German
he inveighed against “the confusion of concepts,
who knew nothing about race, surrounding Herr German scientist.” He got worked up about the “well-
hidden from those Einstein as a
known Jewish
characteristic of immediately shifting factual
to the field of personal quarrel,”
“sound German
spirit.”
Then
and he called for the cultivation of
“the alien spirit will yield
the spirit which emerges everywhere as a dark clearly seen in
problems
anything that relates to the
all
by
itself,
power and which ‘relativity
is
theory.’
so ” 56
Lenard’s followers distributed appeals outside the lecture rooms in Leipzig, objecting to the fact that the
attached too
much importance
management of the congress had
to relativity theory.
They
therefore
called for a counterdemonstration.
This anti-Semitic politician
in
activity
Munich, Adolf
Volkischer Beobachter
was entirely Hitler,
in the spirit of an obscure
who
in
the
equally obscure
had ranted: “Science, once our greatest pride,
is
Splendor and Burden of Fame
524
today being taught by Hebrews, for
toward
a deliberate, systematic
whom
.
.
science
.
only
is
a
means
poisoning of our nation’s soul and thus
toward the triggering of the inner collapse of our nation.” 57 However, the fact that this lunacy
became
one to conclude that
was already playing
Weimar
the
Even
it
official
policy in 1933 should not lead
major role in physics
in
Republic of the 1920s.
Wilhelm Wien, were
far-right nationalist physicists, such as
too intelligent in their
field
to
make themselves and
Semitism look foolish by arguing against nard remained alone with
a small
That
relativity.
He
handful of quacks.
their is
anti-
why Le-
irritated
even
like-minded colleagues not only by his opposition to rela-
politically tivity
a
theory but also because he
felt
that
on the
twenty-fifth anniver-
sary of the discovery of X-rays, he should have been
honored
as their
codiscoverer.
The
organized struggle against relativity theory virtually collapsed
with the Leipzig convention. Certainly not
a single “antirelativist”
1933—-not even
appointed to any professorship of physics until
Johannes Stark, the Nobel laureate of 1919, Lenard’s only
ally
was
who was soon
to be
of any scientific repute. That the author of the
theory continued to get into conflicts was entirely due to
politics,
not
to physics.
Einstein was spared the decision of whether he should or could stay on in Berlin.
He was
to
go to Japan and would be away from Germany for
A Japanese
the best part of six months.
him
for
what would now be
publishing house had engaged
called a publicity tour. 58
The
connection
between Einstein and the Kaizosha publishing house was established, without consulting Einstein, by Bertrand Russell. In 1921 Russell was in Japan in the service of this publishing
wing alive
periodicals.
—that
is,
house and
its
Asked who were the three most
who
should be invited next
and Lenin, without offering
a third
progressive
left-
significant people
—Russell named
Einstein
name. As Lenin was otherwise
engaged, the publishing house decided to approach Einstein.
A member
of the firm,
who was
traveling in
Europe
at the time,
was immediately ordered to Berlin, where, an appointment having been made by the Japanese embassy, he called
at Haberlandstrasse.
More Hustle, Long Journeys Einstein,
who had
in
returned from America, was again astonished
just
the interest people
America he had
showed
him and
in
his theory.
felt “like a cheat, like a
the people what they expected,” 59 he told
from Japan.
He
During
his
at
triumphs
con-man, who didn’t bring
Count Kessler. Nevertheless,
September 1921, Einstein accepted the
after three conversations in
offer
525
wanted to “see East Asia while the turbulence
here continues, he might at least get something out of
it.” 60
unlikely to have regretted the fact that this trip was concerned
He
is
more
with commercial than with political aspects. In January 1922 stein
formal contract was signed, under which Ein-
a
would, during
six- week
a
popular lectures in public.
The
when £700 was deducted for an excellent deal so much
—
sojourn, give six scientific and six
fee,
£2,000, was very generous. Even
travel expenses, the
remaining £1,300 was
so that, given the shrinking value of the
mark, he could afford to ask the academy to “suspend payment of salary
from October
on
“indefinite” because
Palestine
—
this
for an indefinite period.” 61
1
his return
The
my
period was
journey he wanted to stop over in
had long been an ardent wish of
his
—and then accept
an invitation to Spain.
When Einstein and his wife left Berlin at the beginning of October, this
was seen by many
as a safety
measure following Rathenau’s
assassi-
nation.
That was not
earlier,
but Einstein was very glad “to have the opportunity of
longed absence from Germany, which removed
enhanced danger without been awkward
for
been signed
exactly true, as the contract had
my
me from
a
a
pro-
temporarily
having to do anything that might have
my German
friends
and colleagues.” 62
After a few days in Zurich and one day in Bern, the Einsteins boarded the Japanese
steamship Kitano
Maru
in
Marseilles.
pleased to find that the passengers were nearly
Japanese, “a quiet, refined company,” 63
all
who would not
Einstein was
English and disturb him.
On
the six-week voyage he had intended to read several books and do a
lot
of work, but his stomach rebelled again; despite intensive treatment
by
a
Japanese doctor,
nently cured.
Still,
a fellow
calls at
passenger, the condition was not perma-
Colombo, Singapore, Hong Kong, and
Shanghai were of great touristic charm, even though he thought the
Splendor and Burden of Fame
526
poverty appalling and travel in a rickshaw pulled by a rassing: “I felt acutely
hideous treatment of
These beggars
ashamed
human
in royal shape
man embar-
to be partly responsible for such a
beings, but could
pounce
in droves
do nothing about
on every
it.
stranger, until
how to beseech and to beg so one’s heart is wrung by them.” 64 His trip may have helped him escape the political upheavals, but not the hullabaloo. Sometimes, when the
he has surrendered to them. They know
ship entered port, his
honor
“
Deutschland Deutschland iiher Alles ” was played in ,
—the wrong thing
for a Swiss
—and often he was caught up
German associations. The most beautiful memory of the trip was Hong Kong, both
in the social events of
its
for
scenery and because of its small Jewish community. Although most
of the 120 Jews living there had immigrated from Arab countries, Einstein
immediately saw them
fairly
convinced that the J ewish race has more or
as his “tribal
companions”: less
“I
kept
am now
itself
pure
over the past 1,500 years, as the Jews from the Euphrates and Tigris countries are very similar to ours.
A sense
of belonging together also
quite strong.” 65
On November
1
7 Einstein
landed in Kobe: the next day he arrived in
Tokyo. The Kaizosha publishing house had made and had every reason to be guest. “His journey
the
reported.
in America.
such a crowd of people lessly
with the publicity value of
through Japan was
German embassy
had experienced
satisfied
The
careful preparations
like a
its
triumphal progress,” 66
enthusiasm eclipsed anything he
“At Einstein’s arrival in
at the station that the police
Tokyo
there was
could only help-
watch the dangerous throng.” 67
The
following day Einstein gave his
audience of two thousand. translator
—the
mitted the
He
in front of an
spoke in German, interrupted by the
Jun Ishiwara. In 1910, Ishiwara had subJapanese paper on relativity theory; in 1912 he had physicist
first
worked with Arnold Sommerfeld visited Einstein in Zurich.
verve, perhaps because he fee: 3
yen,
in
Munich and during
The procedure was
reported to have endured for
mous entrance
first lecture,
that time
had
slow, but Einstein
is
five
hours and to have spoken with great
knew
that his listeners had paid an enor-
enough
to
buy ten meals.
More Hustle, Long Journeys Einstein’s host, Sanchiko
527
Yamamoto, the head of
the Kaizosha
publishing house, systematically pursued his aim of turning Einstein’s visit
not only into an intellectual event but into solid
high cost of admission to the lectures; by
profits:
a special issue in
by the
December
of the popular-science journal Kaizo, which quickly sold out and was reprinted; and tions.
by increasing the press runs of the
The German ambassador
that “the entire journey of the
cuted as
The
a
recorded, not without pained surprise,
famous man has been mounted and exe-
commercial enterprise, and
contract, in so far as
a rather profitable
any terms have leaked
something humiliating for Einstein licly
firm’s other publica-
one
at that.
out, even contained
—he was not allowed
to speak
pub-
outside the scheduled lectures! His learned words, converted into
yen, flowed into
Mr. Yamamoto’s pockets.” 68 4T
Yamamoto had shown some lectures and official rest,
when
in planning Einstein’s tour, with
engagements alternating with pleasant periods of
the Einsteins, superbly cared for, could enjoy the scenery,
the culture, and the people. 69
day
skill
Thus
Imperial Academy, a
at the
kabuki theater performance.
Chrysanthemum Feast
the
first
visit to
The
lecture
was followed by
wonderful gardens, and
a a
following day, at the traditional
in the imperial gardens,
which celebrates the
union between the imperial family and the people, Einstein was not just a guest
but the center of attention. “Not the empress, not the
prince regent or the imperial princes were the ones to hold court, but, instinctively or deliberately, everything revolved
The German embassy
has
us impressive accounts of
left
approximately 3,000 participants
what the day wanted
.
signified. All eyes
at least to
around Einstein.”
.
.
“how
the
because of Einstein totally forgot
were turned on Einstein, everyone
shake hands with the most famous
man
of the pres-
ent day.” 70
This incomparable tribute was followed by the tific
lectures in
Tokyo,
series
some 120
scholars with a
knowledge of physics. Jun Ishiwara was invariably present,
who had
visited Einstein in
Meanwhile the half-true,
press
and untrue
six scien-
held, for reasons of fairness, in turn at the great
universities of the city, before an audience of
Kuwaki,
of
Bern
in
March
campaign continued
stories;
as
was Ayao
1909.
in top gear, with true,
with poetical tributes to the great
Splendor and Burden of Fame
528
many
teacher; and with
caricatures.
One
may have
factor that
con-
tributed to Einstein’s great popularity was that the Japanese characters for “relativity principle” bore great similarity to those for “love”
More serious The ministers
“sex.” 71
council.
whether
a
and
matters seem to have occupied the cabinet
of Her Imperial Majesty not only argued about
layman could hope to understand Einstein’s lectures on but even conducted a sophisticated debate on what
relativity theory,
“to understand” actually meant. 72
The two weeks to the north,
in
Tokyo were followed by
where the
was welcomed
visitor
poem, “To the Great Einstein”; and next the ancient imperial city of Kyoto.
Under
a four- week tour: first
in Sendai with a heroic
to the south, to
Nagoya and
his contract Einstein
had to
Yamamoto
give only another four lectures, but the publisher
per-
suaded him to give two more, always with the high admission fee of
yen and with
3
of publicity. At the ETiversity of Kyoto, moreover,
a lot
Einstein allowed himself to be coaxed into giving an improvised lecture,
on December
how he had come
17,
immediately before continuing his journey, on
to create the theory of relativity.
The world
has
reason to be grateful to the Kyoto professors and to his translator, Ishiwara,
who took
his
speech down, as this lecture
statements in which Einstein described,
is
one of the few
only in rough outline, not
if
only the end result, but his struggle with the problems and the back-
ground to
The
their solution.
last
stop
on the tour was
Kyushu. There he gave violin at the
home
YMCA.
in
Eukuoka, on the southern island of
his final lecture,
had
a
at
Christmas he played his
After a few relaxing days, including
of Hayashi Miyake, the doctor
ship, Einstein
and
who had
rousing sendoff on
attended
December
some
at the
him on board
29, as the “great
teacher from the west.”
Einstein was glad he had followed the “sirens of East Asia”: “Japan was
wonderful. Refined customs, lively interest in everything, intellectual naivety but good intelligence
—
a splendid
people in
a
picturesque
land.” 73 Surprisingly, the “loner” recorded that in Japan he
the
first
time seen
absorbed in
it.” 74
He
a
healthy
human
society
kept a romantically tinted
had “for
whose members
memory
are
of both the
More Hustle, Long Journeys land and
people.
its
train journey
529
was painfully reawakened on August
It
1945: his
6,
had taken him through Hiroshima.
Einstein had found Japan a fascinating experience, but primarily as a
His
tourist. a
visit to
Palestine
on the return
profoundly moving experience which marked
He
disembarked
at
Port Said on February
—present-day Lod—
train to
Lydda
founded
as recently as 1909,
old city of David. For the
on the other hand, was
trip,
a small
his future
1,
life.
1923, and traveled by
town between Tel Aviv,
and Jerusalem, the three-thousand-yearfew days the Einsteins were the guests
first
of Sir Herbert Samuel (the future Lord Samuel), the high commissioner of the British-mandated territory of Palestine. Like Lord
Haldane, Samuel belonged to the species of British “gentlemen phi4T
who had
losophers”
a passionate interest in relativity theory.
would correspond with Einstein
years to come, albeit not
At the time, Samuel was the supreme authority
frequently. estine,
many
for
Samuel
and he accorded Einstein the honors of
in Pal-
a state visitor, includ-
ing a salvo of guns to salute his arrival at the high commissioner’s residence.
The Sir
next day being the Sabbath, Einstein took a simple walk with
Herbert along the massive
city walls built in the reign of
the Magnificent, allowed the magic of the in the evening called
Prague,”
who was
Old City
on Hugo Bergmann, the
attempting to build up
to act
Suleiman
on him, and
“serious saint
a library.
Not
from
every sight
gave Einstein the same kind of pleasure, as his diary reveals: “Then
down
to the
companions
Temple Wall (Wailing
Wall), where dull-minded tribal
are praying, faces turned to the wall, rocking their bodies
forward and back.
A
pitiful sight
of
future.” 75
Orthodox Judaism with
its
remained
alien to him.
The men
men
with
fixation
a past
but without
on Talmudic
a
tradition
in their long black caftans, with
beards and sidelocks, and with their big hats, were tribal companions
— that
was beyond any doubt
them he reacted with Infinitely
more
—but
whenever he encountered
irritation.
attractive to
him were
the Jewish construction
workers, artisans, and farmers he saw over the next few days.
were
a living refutation
of his
initial
They
skepticism, expressed in Berlin,
Splendor and Burden of Fame
530
possessed those
skills
which were indispens-
able to the development of their colony.
Now
he watched Jews who,
about whether Jews
still
having come to Palestine from the ghettos of eastern Europe, without
any training
in
were handling
occupations,
practical
bricklayers’
trowels as the most natural thing in the world, or were cultivating a
made
soil
fertile
only by great
Moreover, to Einstein’s
effort.
they were practicing something like socialism
same wage It
was
this practical
came from
ment than
his visit to
One
it
“What
emotion and
more
event
intellect, his
pioneer
a
settle-
to
called
A modern Hebrew city
commercial and
incredibly active people, our Jews!” 76
The most important
of his strongest impres-
the Jews have achieved here
few years arouses the greatest admiration.
infinitely
made him
would one day become, but already
their “Little Chicago”:
Tel Aviv meant
else, that
Tel Aviv, then more of
raised out of the ground, with a lively
An
foreman earned the
work, more than anything
the great city
by the Jews in a
a
as his assistant.
believe in the future of a Jewish Palestine. sions
—
delight,
intellectual
The honorary
him than
that of
life.
citizenship of
New York.
—which for Einstein perfectly combined
Jewishness and his “scientific aspirations”
was the ceremonial inauguration of Hebrew University. The honor had been reserved for him,
as there
the greatest Jewish scientist,
who
could be no person
for
many
more
fit
than
of his “tribal companions”
was their greatest Jewish contemporary altogether. The university had
become
so dear to his heart that he had utilized the stopovers
voyage to Japan to publicize
it
among Jewish communities,
on
his
for in-
Now, on the afternoon of February 7, 1923, he on Mount Scopus, from where Alexander the Great first
stance in Singapore. 77
was standing
saw the Great Jerusalem and where Titus
rallied his
Roman legions
for
the destruction of the Temple. In a provisional hall, draped with the insignia of the British
Mandate, with
and with symbols of the twelve
flags
of the Zionist movement,
tribes of Israel, Einstein
was to give the
first lecture.
Menachem Ussishkin, the president of the Zionist Executive Council, who had been one of the party on the American trip, put the event in historic context:
More Hustle, Long Journeys
531
Three thousand years ago King Solomon built a house Lord of the world on Mount Moriah, and his first prayer house was that peoples.
Now,
should become
a
we
we pray
are building this house,
that
up on the stage which has been waiting
you these past two thousand years
There was probably no moment bitterly that, during his
it
78
in Einstein’s life
Munich
when he
it
by
Hebrew.
heart: “I, too,
whence the Torah and
He had no
am happy to
all
light
its
enlightened world, and in the house, which
of wisdom and science for
regretted
schooldays, he had, from “lazi-
to have the first sentence of his address translated into
and laboriously learn
for
.
ness and frivolity ,” 79 neglected to learn
in the country,
all
house of science for the whole world. Professor
Einstein, please step
more
in this
should become a house of prayer for
this as
to the
is
choice but
Hebrew
for
my address
read
emanated to
ready to become
the peoples of the east .” 80
him
With
the
all
a center
apologies
that he could not give his address in the language of his people, he
continued in French.
During Zionist
his
second week he toured the country in the company of schools, factories, and a congress of the His-
officials, visiting
tadrut trade union
— everywhere
hailed and revered for his proud
avowal of Judaism and his pride in the Jewish people.
He
had bound-
admiration for the kibbutzim and their struggles against hunger,
less
poverty, and malaria.
While not seeing much of a
future for the primi-
tive-communist kibbutz experiment, he believed in building up
a
Jewish society: I
greatly liked
my
tribal
workers, and as citizens. tile.
It will
become
a
companions
The
land,
in Palestine, as farmers, as
on the whole,
moral center, but
will
succeed
will
not very
fer-
not be able to
On the other hand, I am
absorb a major part of the Jewish people.
convinced that colonization
it
is
81 .
After a stop at the picturesque Lake of Genezareth he returned to
and
Jerusalem for one more day, gave
a lecture in a
found himself confronted with
question which, unuttered, had
a
crowded
accompanied him throughout Palestine: Would he come
hall,
again, this
Splendor and Burden of Fame
532 time to stay? absolutely
On
want
the final evening he recorded in his diary:
me
to have
ranks on that question.
He
Jerusalem and are assailing
My heart
never returned, not even for
Zionism
at a certain distance.
he had grown in Palestine,
no
in
if
saints described himself,
says yes, but
a visit.
He
my
in closed
reason says no !” 82
preferred to be attached to
But he readily accepted not before.
me
“They
He whose
a role into
which
people recognize
certainly with a touch of irony, as a
“Jewish saint .” 83
The voyage
continued to France.
straight to Berlin, but first
went
From
there he did not return
to Spain for
two weeks
84 .
Barcelona,
Madrid, Toledo, and Zaragoza were stages on his tour, during which academic lectures, addresses, and honors of every kind alternated in rapid succession. Einstein was admitted as a corresponding
member
of
the academy, was given an honorary degree, and was received by the
The German ambassador reported, without exaggeration, “that never in human memory has a foreign scholar met with such an enthuking.
siastic
By
and extraordinary reception in the Spanish capital .” 85 the time he returned to Berlin in the middle of March, after an
absence of just under
six
months, he had been awarded the Nobel
Prize and, as a curious consequence of that distinction, had officially
become
a
German and
a Prussian.
PART
VI
CHAPTER TWENTY-SEVEN Einstein Receives the Nobel Prize
and
Consequence
in
Becomes
In September 1922, when the
a
Prussian
tickets for the trip to
been ordered, Einstein received
Japan had long
from Svante Arrhenius,
a letter
a
4T
prominent member of the Royal Swedish Academy of Sciences
Stockholm and chairman of the committee responsible Prize for Physics. Arrhenius had
come
for the
in
Nobel
to Leipzig to the Naturforscher
convention, learned there about Einstein’s travel plans, and with rather obvious hints endeavored to
make him change
his
mind:
“It will
probably be very desirable for you to come to Stockholm in Decem-
and
ber,
if at
that time
you
are in Japan that will be impossible.”
Leipzig Arrhenius had evidently informed state
of
affairs,
to reliable in
Max von Laue
1
In
about the
which Laue promptly related to Einstein: “According
news which
I
received yesterday, events
November which would make your
may be
taking place
presence in Europe in
Decem-
ber desirable.” 2 Einstein instantly realized that this concerned the awarding of the
Nobel Prize on December cryptic
10,
but even though Arrhenius, in the
manner of academy members
matters of the prize
—who are sworn to secrecy on
—hinted that Einstein’s absence might jeopardize
the vote in the academy, Einstein did not hesitate for a
my
contract irrevocably
pone the journey.”
He
ties
me
to Japan,
I
am
moment: “As
quite unable to post-
saluted his Swedish colleague “in the
the invitation envisaged for
me
will, as a result,
hope
that
only be postponed and
not canceled.” 3 His absence did not matter. While Einstein was some-
where between Hong King and Shanghai, en route
535
to Japan,
it
was
Unified Theory
536
Time Out
in a
Stockholm on November
announced
in
for Physics
had been awarded to him.
9,
of Joint
1922, that the
Nobel Prize
We do not know when Einstein was informed of this honor;
it
cer-
Nor do we know
tainly did not merit an entry in his travel diary.
his
spontaneous reaction to the apparent motivation behind the wording of the award: “in recognition of his merits for theoretical physics, more particularly for the discovery of the law of the photoelectric effect.”
Reference to an achievement dating back to 1905 saved the Swedish
Academy from
a delicate situation;
by then the academy needed Ein-
—
more than he needed the prize except, of course, money that went with it. The members of the academy had
stein as a laureate
for the
realized for a
they were
number of years
less clear
Einstein had
to
whom
The committee
a
prize;
it for.
Nobel Prize
in 1910,
by Wil-
he had once unsuccessfully applied for an
Ostwald based
assistant’s post.
had to be given the
about what he should receive
been nominated for
first
helm Ostwald,
that Einstein
his
nomination on
for the physics prize,
whose
five
relativity theory.
members had
to
examine and evaluate the proposals before passing one of them on to
—which in turn would submit to the academy vote — recommended that Einstein’s name should be
the physical class
whole aside
for a
it
as a
set
pending experimental confirmation of his theory. 4 This was not,
at the time, unreasonable.
After 1912, Einstein’s for his
relativity
name was
repeatedly put forward, not only
theory but also for his
Brownian movement, and
statistical
work on
the
later also for the photoelectric effect. 5 After
1917 Einstein was being nominated by an ever-growing circle of those entitled to
From
make nominations, but
that year
there was
onward the nominations
no coordinated campaign.
also listed the general theory
of relativity and the perihelion of Mercury.
The for a
theory of relativity gave the committee considerable problems,
number of
reasons.
A
principle or a theory certainly
was not
a
“discovery” in the sense of Alfred Nobel’s bequest. Nobel’s directions,
and the experimental positivism of the trend-setting physicists
at the
University of Uppsala, were significant. In 1908, the committee’s pro-
Einstein Receives the Nobel Prize
Max
posal to award the prize to the theoretician
by the physical
rejected
class. 6
537 Planck had been
Because the committee was reluctant to
trigger a similar conflict again, theoretical concepts were, for a long
time, outside consideration.
the prize for 1918; those
(Not
1919 did
until
who nominated him
Planck receive
included Einstein.) Pref-
erence was given to “effects,” such as those of occasionally to practical matters such as an
Max
Zeeman
or Stark, and
improvement
in the inten-
of a lighthouse beacon (1912) or a steel alloy (1920). Besides, there
sity
was no expert on the committee
who might have
explained the impor-
tance of relativity theory to his colleagues. After the spectacular results of the solar eclipse in 1919,
would be
inevitable that relativity theory
Svante
chairman,
Arrhenius,
personally undertook
(who had
prize for chemistry for 1903), cally,
he
justly
prepare
to
though
highly
this task. Uncriti-
found in the literature
—not
entirely justified criticism but also the absurd statement
Gehrcke from Berlin
a
only
by Ernst had
that the precession of Mercury’s perihelion
long been explained independently of relativity theory. As
Nobel Prize went not
a
been honored with the
was not quite up to
listed all the objections
became
short-listed. In 1920, the
detailed expertise for the committee. But Arrhenius, intelligent physical chemist
it
a result, a
to Einstein but to Charles Guillaume, for his
stainless steel alloys.
The on
tise
following year, Allvar Gullstrand was charged with the experrelativity theory. Gullstrand
tributed so
much
was
a physiologist
to the understanding of the
human
who had
con-
eye as an optical
system that in 1910 he could have received not only the prize for medicine
—
as in fact
relativity,
he did
—but
also the prize for physics. In the theory of
however, he was no more than an eager dilettante, and
essay in consequence contained major misunderstandings. 7 mittee, confused,
recommended
his
The com-
that the awarding of the prize for
1921 be suspended until the following year. In 1922 the
number of nominations of
increase. Again, the expertise
not discharge
his task
Einstein had continued to
was performed by Gullstrand, who did
any better than the year before. However, one of
the committee members, Carl
Wilhelm Oseen, professor of physics
at
Unified Theory
538
in a
Time Out
of Joint
Uppsala, came up with the idea of basing Einstein’s nomination on his photoelectric effect, especially since Einstein’s formula had by then
been experimentally confirmed by Millikan. Oseen was therefore instructed to prepare a second expertise,
on
that subject. This turned
out to be so brilliant that the committee recommended that the prize
awarded to Albert Einstein for
for physics for 1921 be
his discovery of
The proposal was adopted first by the physical class and, on November 9, by the plenary meeting of the Swedish Academy. The prize for 1922 went to Niels Bohr, “for his the law of the photoelectric effect.
researches into the structure of atoms and the radiation emitted by
them.”
In judging the theory of relativity the committee did not exactly distin-
guish
—though fortunately no one knew that at the time.
itself
by no means
rationale for choosing Einstein was
Still, its
a mistake. Elis expla-
nation of the photoelectric effect by the “heuristic viewpoint” of light
quanta was certainly worth
a
Nobel
Prize,
and Arrhenius rightly
pointed out in his citation that “an extensive literature has sprung up in this field, testifying to the exceptional value
of this theory. Einstein’s
law has become the foundation of quantitative photochemistry, in the
way
that Faraday’s law
is
that of electrochemistry.” 8
That the rather conservative Swedish Academy should have honored Einstein for the one paper which he himself had called “very revolutionary” in an amusing, ironical touch. All the same, the
mittee did
awards to
show
a sense
Max Planck in
to Millikan in 1923
early
quantum
—
a
of historical perspective by
1918, to Einstein and
Bohr
its
com-
successive
in 1922,
and then
kind of recapitulation of the exciting story of
theory.
Bohr immediately alluded in his touchingly
to the
symbolism of this sequence when,
awkward German, he observed
in his congratulatory
—quite apart from your great input into the world of human ideas —your fundamental contribution should letter to Einstein “that
.
outwardly be acknowledged before
I
.
.
also
myself was considered for such an
honor.” 9 Einstein, on board ship returning from Japan, replied: “Dear, or rather beloved, Bohr! Your cordial letter reached
me
shortly before
Einstein Receives the Nobel Prize
my departure me
just as
from Japan.
much
I
can
say,
might have got the prize before
without exaggeration, that
Nobel
pleasure as the
me
539
Prize.
I
particularly
find
your
charming
it
gave
fear that
you
— that
real
is
Bohr.” 10
On
his return to Berlin, Einstein learned that
some
investigations
ensuing from the award of the Nobel Prize had shown that he was
German and
The
Stockholm because
arisen in at the
a Prussian.
a
question of Einstein’s citizenship had
a laureate
was always accompanied, both
presentation ceremony and at the succeeding
festivities,
diplomatic representative of his country. Indeed, should
by the be
a laureate
unable to receive the prize in person, his place would actually be taken
by
his country’s representative.
German minister claimed by the German minister, Rudolf
In Einstein’s case, both the Swiss and the that privilege. In response to inquiries
Nadolny, the Berlin Academy cabled, sure of victory: “Einstein
is
a
Reich German.” His Swiss colleague was surprised, because Einstein invariably traveled
embarrassing
on
a Swiss passport,
moment
arose when,
the Foreign Ministry in Berlin
but withdrew gracefully. 11
on the day was
German
a contradictory
after all a Swiss national.
avoid a diplomatic disaster, evidence had that the
after the presentation,
came through with
finding, to the effect that Einstein
now
An
To
to be found in Berlin
minister had in fact been Einstein’s only legitimate
representative.
The
lawyers of the Berlin
discovered that on July
1,
Academy put
later also the
Moreover, by taking up
Academy he had become an “indirect German citizen, even though he had not nationality. 12
Academy
Upon
that he
nationality,
I
oath on the Prus-
his post at the Prussian
state
and hence
official”
expressly given
a
up any other
return Einstein immediately informed the
had expressly kept another nationality when he was
invited in 1913: “As
my
his
and
1920, Einstein had taken an oath on the
Reich Constitution and nine months sian Constitution.
their heads together
I
attached importance to
made my acceptance of
dent on the fulfillment of
this condition,
no change being made
a possible invitation
which
in fact
in
depen-
was complied
540
Unified Theory
with.
I
have no doubt that
isterial files; I also
leagues
In the
know
Time Out of Joint
in a
this state
of affairs can be verified from min-
that this state of affairs
known
is
to
my
col-
Haber and Nernst.” 13 Einstein had always been regarded as a Swiss national by
fact,
German
authorities.
Thus before
appointment to the board of
his
the Physical-Technical Reich Institute the question had been raised
member
of that body, since the Reich
whether
a foreigner could
Institute
sometimes worked on confidential problems of relevance to
be
a
the military. In the petition to the Kaiser, although these misgivings
were played down, the point about a citizen
his citizenship
is
clear: “Einstein is
of Switzerland, but this fact should prove no obstacle to his
invitation to the Board.” 14
Einstein, therefore, else that
he asked for
was so certain that he was Swiss and nothing
his
medal and
scroll to
be sent to him through
the Swiss legation in Berlin. However, these had already been handed
German minister, Nadolny. The Nobel Foundation found tactful way out by having them presented to Einstein, with Nadolny’s
over to the a
agreement, by the Swedish minister in Berlin, Sten Ramel.
However,
a
prolonged search of the
files
and an extensive correspon-
dence revealed nothing about an arrangement concerning Einstein’s nationality dating to 1913 or 1914, let alone about any release
German
nationality. Clearly the authorities,
simply forgotten to resulting
from
and Einstein himself, had
settle this issue definitively.
all this
from
was explained to Einstein
The in
legal situation
June 1923 by
a
senior official of the Ministry of Education. Einstein evidently had not
given up hope that something would emerge from the
requested that his “possible Prussian nationality not be outsiders.” 15 Six
Einstein
made
for
he
public to
when nothing new had been discovered, document for the Prussian Academy dated Feb-
months
finally, in a
files,
later,
ruary 1924, declared that the relevant ministerial counselor in the
Ministry of Education “firmly holds the view that the
Academy had
entailed
nothing contradicting
this
objection to this view.” 16
acquisition
my employment
of Prussian citizenship
view emerges from the
Nor
files.
I
in as
have no
did anyone have any objection to the
Einstein Receives the Nobel Prize
541
German
fact that Einstein retained his Swiss nationality alongside his
nationality. Nevertheless, in the
wake of
was
definitively established that he
Nobel
his
German and
a
Prize
it
had been and had
a Prussian,
been so since 1914.
The medal and
scroll
of the Nobel Prize were handed to Einstein in
Berlin, but not the prize
money, which, because of the German cur-
rency restrictions, he had asked to have transferred directly to Switzer-
His only obligation under the
land.
by the laureate
in
statutes
was
be given
a lecture to
Sweden. Arrhenius suggested to Einstein that he not
wait until the following
Nobel event
in a
gloomy Swedish December,
but rather discharge his duty on the occasion of the Scandinavian Sci5
entists
Convention in Gotenborg in July. Although the
ture customarily dealt with the subject for
laureate’s lec-
which he had been honored,
Arrhenius gave Einstein freedom of choice. However, that
one would be exceedingly grateful for
a lecture
“it is
certain
on your theory of
relativity.” 17
Thus
it
happened that even
tinued to be on the move.
Leyden and went his lecture,
to
Sweden
after his return to Berlin, Einstein
He
May as a On July 1 1
spent
in July.
visiting professor in
Goteborg he gave
in
Fundamental Ideas and Problems of the Theory of Relativity to ,
an audience of two thousand which included the king. 18
have preferred to speak on his current reflections on theory, but he regretted “that gravity
and
manner.” 19
con-
my new
electromagnetism
He would
a unified field
theory on the essential unity of
cannot
be
He therefore presented unified
shaped
field
in
popular
a
theory to a small circle
of experts at the Technical University.
On
his return
journey he made
Niels Bohr. His host
met him
two were instantly engrossed
a
detour to Copenhagen to see
at the railroad station.
in talk of physics, but this time they
pletely forgot the world
around them:
“We
talked so animatedly that
we went much
too
years later.
don’t
“We
because Einstein
at
stops, but
that time
was
we rode
com-
took the streetcar and far,”
Bohr
got off and traveled back, but again
know by how many
As always, the
to
really full
related
we rode
and fro by
too
many far. I
streetcar,
of interest.
I
don’t
Unified Theory
542
remember
if his
interest
Time Out
in a
was more or
of Joint
less skeptical
rode to and fro on the streetcar, and
—but
in
any case we
can well imagine what the
I
people thought about us.” 20
of 120,000 Swedish crowns associated with the Nobel
The sum Prize
—increased by
stein to
interest accrued in the
thank Arrhenius for his
“capitalist care”
his lecture directly to Switzerland.
of
meantime, which led Ein-
What
—was transferred
should have marked the end
financial worries triggered a frightful row.
all
after
Mileva and his sons
were disappointed that the money (approximately 180,000 Swiss accordance with the divorce court ruling, was deposited in
francs), in
an inaccessible trust account, with only the interest Einstein complained that
Hans Albert had “on
at their disposal.
the occasion of the
arrangement of the N. Pr. written such an ugly and arrogant I
cannot meet with him
this year.” 21
The
letter that
embittered father could do
nothing but cancel their planned joined vacation. “And the wife also doesn’t write like
someone who knows
that at times
one has
virtually
given [her the shirt off one’s back].” 22 Sensible
men
like
Heinrich Zangger and
Hermann Anschutz
vened in these delicate family matters, acting aged
at least to settle the dispute
as mediators,
inter-
and man-
with Hans Albert. At the end of
August 1923 Einstein with both sons was Hermann Anschutz’s guest
at
Lautrach Castle in southern Germany, which Anschutz had purchased
and made habitable. Subsequently the reconciled father spent two
weeks
September with Hans Albert
in
Anschutz had provided for him
as a
in Kiel,
in the
permanent refuge.
“I
small
am
flat
again
completely reconciled with Albert,” Einstein reported from Kiel. “I
my hidey-hole
am
... in
we
are having a wonderful time, and are able to
and
here with him at the Anschutz factory, where
make music together
sail.” 23
It
took
a lot
longer for his anger with “the wife” to evaporate.
Mileva had to write to Haber repeatedly before, through his intervention, Einstein
stopped being annoyed with her. Eventually the Nobel
money was used
buy three multifamily houses on the Ziirichberg; the rent income from them was to ensure the permanent finanPrize
cial
to
security of Einstein’s
first
wife.
Einstein Receives the Nobel Prize
From
Kiel, Einstein
Bonn. This was the
went first
543
directly to the physicists’ convention in
time since the unfortunate event in Bad
Nauheim
three years earlier that he took part in a congress in Ger-
many. In
fact,
he was participating even though the convention had
been planned not purely event. Since
as a scientific
was taking place
it
meeting but
in the Rhineland, into
Ruhr) French and Belgian troops had marched 1923 to ensure
German
also as a patriotic
which
the
(like
beginning of
at the
reparation payments, the physicists intended
their convention as a demonstration against the brutal policy of “mort-
gaged production capacity.” Because of that aggressive occupation, which represented the factor in the
economic catastrophe of galloping
immediately upon
his return
from Japan, had,
resigned from the League of Nations
final
inflation, Einstein,
for the second time,
Commission
Cooperation. Risking approval by the public and by
for Intellectual
false friends
from
the right, he proclaimed his conviction “that the League of Nations
has neither the strength nor the good will to implement
its
great task.
As
it
right to be
in
a
serious-minded
pacifist I
any way connected with
As
for the Solvay
do not therefore consider
it.” 24
Conference of 1924, he did not even want to be
both because of the boycott of his
invited,
German
colleagues and
because of the occupation: “If I took part in the congress,” he wrote to
Lorentz
would
—
justifying his refusal,
in a sense aid
and abet
a
painfully feel to be an injustice.”
but surely with
a
course of action which
He
—
heavy heart I
strongly and
also believed that “the
the Belgians have over the past few years sinned so
much
“I
French and
that they
no
longer represent outraged innocence.” 25
With felt
his
tendency to sympathize with the underdog, Einstein
now
himself at one with the gagged Germans. Since he was prepared
anyway
German
to reconcile himself to the inevitable fact of his Prussian nationality,
unable to take
its
he went to the convention
at
and
Bonn; but he was
intention of being “a moral equivalent of a naval
demonstration against France” quite seriously: “The wolves cannot slough off their skins, and one’s got to howl with them in
manner. ”26
a
comradely
Unified Theory
544
in a
Time Out of Joint
Einstein had not registered to give a paper in Bonn, but he found the event “most interesting, and I’ve had discussions.” 27 His colleagues gratefully
my say now
acknowledged not only
contributions to the discussions, but even
showed by being
present.
The
more
though
I
his
so the solidarity he
political animosities
of earlier years had
vanished, and so had the scientific controversies: “I saint,
and again in the
am
treated like a
don’t feel too comfortable in that garb,” 28 he reported
before the convention was even over.
Following the meeting in Bonn, Einstein spent two weeks with Ehrenfest in Leyden. As always, this was a very stimulating time
own
not nearly long enough for his friend or for his as a visiting professor.
with a longer stay of
—but
guest performance
Soon, though, he was to meet his obligations
six
weeks, as a result of what was happening in
Berlin.
Einstein had been back in the capital for exactly three weeks received a warning that his fore,
life
was
in danger.
On November
he took to his heels and returned to Leyden.
Planck, addressed to Einstein in Leyden,
only in hints
—
for the “ghastly events”
precipitate departure.
The
is
A letter
our only source
when he 7,
there-
from
Max
—and then
which had caused Einstein’s
coincidence of the dates, however, suggests
that the threat of an attempt
on
his life
might have been connected
with the Beer Hall Putsch in Munich, where Adolf Hitler hoped, by
marching on the Feldherrnhalle, to overthrow the republic. Einstein had attracted the hatred of extreme right-wing circles not
only by his fame but chiefly by his continuous commitment to the of the political spectrum.
Human
Rights,
Not only was he
active in the
which had developed from the
League
New
left
for
Fatherland
League, but in 1921 he had taken part in the foundation of a Society of Friends of the
New
Russia, even
becoming
a
member
of
its
central
committee. 29 In the autumn several newspapers reported that Einstein
was planning blatt
a trip to the Soviet
Union; 30 on October 6 Berliner Tage-
announced that he had already
ning of November there was
left for
a story that
Moscow, and
at the begin-
he had spent three days in
St.
Petersburg. 31
However, Einstein was
actually in the Netherlands
and in Berlin.
— Einstein Receives the Nobel Prize
Neither in 1923 nor preferred to
show
at
any
later date did
sympathy
his
for the
he
545
the Soviet Union; he
visit
communist experiment from
a
uncertain whether Einstein had in fact ever toved j
safe distance. It
is
with the idea of
a trip to the
workers’ paradise, or whether the news-
paper stories were based only on the hopes of Soviet institutions. False or not, these reports of Einstein’s flirtation with diabolical bolshevism
were evidently
him
sufficient for
murder of Rathenau,
to find himself once more, after the
of right-wing extremists.
a target
Planck, while disapproving of his colleague’s political activities, was nevertheless alarmed “that you’ve
come back
no wish
to
any step
now
that
He
to us.”
left
and, as your wife
tells
me, have
sincerely urged Einstein “not to take
might make your return
to Berlin impossible finally
4T
and for
all
time.
No
doubt
a lot
come your way now, because having
of tempting offers and invitations will
foreign countries have long envied us for
this precious treasure.
But please think
love and revere you, and don’t let
infamy of a vicious pack of dogs
them
also of those here
suffer too
much
for the abject
whom we must get under control.” 32
Planck involved the Berlin authorities, even initiating the
files
who
a scrutiny
of
of notorious psychopaths with an inclination to death threats,
but he was unable to discover any concrete evidence of the origin of the threat to Einstein. letters to
He
implored Einstein
Ehrenfest and Lorentz
—not
—
and through
directly
to sever his relations with the
Prussian Academy; he could do or not do whatever he thought necessary,
but he should retain his
in the life of the
academy
official
residence in Berlin and participate
to the extent of at least
one lecture each
year. 33
Einstein does not seem to have viewed the affair in quite so dra-
matic
a light as Planck.
“Your kind
deal of pleasure,” he wrote
time
now
there [has]
letter to
from Leyden on December
no longer
[been] any reason
vere in this (really quite pleasurable) exile.” 34
more
Ehrenfest gave
lectures to students in
why
I
6.
a great
“For some
should perse-
He intended
Leyden and return
me
to give a few
to Berlin shortly
before Christmas. Then, abruptly, he referred to an enclosed paper as “a sign
of
life”
—
for the Proceedings of the
Academy
whole business had indeed been nothing but
,
just as if the
a “pleasurable exile.”
Unified Theory
546
There was
clearly
no room
in a
Time Out
of Joint
makeup, and no
for fear in his personal
sooner was he back in Berlin than he wrote to Michele Besso that he
had “experienced
a
lot in the
meantime. But outward experience
remains on the surface, and the main thing
science.” 35
is
now
After three eventful and exciting years, Einstein was steer his life into calmer waters,
to reflection.
To
also
be more conducive
that end Berlin, for whatever reasons,
The
the most suitable place. to
which would
political situation in
anxious to
seemed
assets
—and
his wife’s considerable assets
least his foreign
income
in accounts in
been saved from devaluation.
him
Germany had begun
calm down. With the introduction of the Rentenmark in the
1923, and the resultant end to the inflation, his
to
fall
of
own modest monetary
—had
melted away; but
New
Leyden and
York had
The German economy showed
recovering, though the “golden 1920s” were to last
at
signs of
no more than
half
a decade.
He was unwilling to embark on foreign journeys in He
the near future.
had explained to Weizmann that he would always be ready to sup-
port the Zionist cause, and
more
especially
appeals, letters, or addresses, but only if
attend congresses. 36
He it
University, with
he did not have to
travel or
declined an invitation from Millikan, who, as
president of the California Institute of
planning to develop
Hebrew
Technology
into an elite institution.
He
in Pasadena,
was
also declined to tour
— and he declined countless invitations to attend con-
South America
ferences and give lectures in
Germany and elsewhere
in Europe.
He
confined himself to a few trips to Leyden and Switzerland, and of course to his refuge at the Anschutz factory on the Kieler Forde.
From
there he wrote in
May
1924: “Political conditions have calmed
down, and, thank God, the far-too-numerous don’t worry too much about me any longer, so that my life has become more tranquil and undisturbed.” 37
However,
at the
urging of Madame Curie and his revered H. A. Lo-
rentz he again joined the
and even attended
its
Commission
for Intellectual
Cooperation
fourth session in Geneva, where on July 25,
1924, he was introduced to the distinguished circle with a eulogy by
Henri Bergson. Einstein approached international understanding
in an
Einstein Receives the Nobel Prize entirely pragmatic
manner. His
547
concern was to standardize the
first
terminology of physics and chemistry, and he supported the creation of an international meteorological
Commission was in
better than
Geneva. “There’s hope
office.
“The League of Nations
had thought,” he wrote
I
may
after all that things
after his stay
get better in
Europe.” 38
enough stimulation
Berlin certainly had
to offer Einstein, scientific as
well as social. For several years, he had been considered an ornament to
any salon or party in the worlds of
Typical of many was
a
banquet of bankers
even though Einstein
hotel,
hundred ‘prominent < the intelligentsia,”
figures’
felt a bit
and the
politics, finance,
at Berlin’s
arts.
famous Kaiserhof
of an outsider there. “About a
from the world of
politics,
banking, and
whom
Einstein had
noted Count Kessler, with
spoken most of the time; “a mixture of capitalism and socialism, mostly
on
a Jewish basis.” 39
Einstein would often discuss political matters with Gustav Strese-
mann, the foreign
minister;
Hauptmann, the famous
he was an acquaintance of Gerhart
dramatist; he
was
a
frequent guest at the
house of Samuel Fischer, the publisher; and he indulged
music through
Many
artists
his love of
friendship with Erich Kleiber, the conductor.
a close
considered
it
a privilege to paint the
famous man’s por-
trait,
and Einstein fondly remembered
Max
Liebermann, whose incomparable sense of humor he admired
even more than his
more
like
him than
his sittings at the
skill as a portraitist: “I
like
me, but that actually improved
Unlike the picture of the old
man
at
of hair and his careless Chaplinesque attractive, impressive
found that
man, whose
apartment of
it.” 40
Princeton with his chaotic attire,
is
features, eyes, speech,
that of astonishing youthfulness,” wrote Charles
when he met Einstein
the forty-three-year-old Einstein
is
tall
on
and mere
first
impres-
Nordmann
his visit to Paris:
(about 1.70 m), with broad shoulders and
scarcely bent back. His head
—the head
mane
Einstein in midlife was an
presence aroused and indeed compelled attention. “One’s sion
was
his picture
in
a
which the science of
Unified Theory
548
in a
the world was newly created tion. ...
Time Out
—instantly
of Joint
attracts lasting atten-
A little mustache, dark and very short,
mouth, very
red, rather big, with
its
adorns a sensuous
corners betraying a perma-
nent slight smile. But the strongest impression youthfulness, very romantic and at certain
is
that of stunning
moments
irresistibly
reminiscent of the young Beethoven who, already marked by
life,
had once been handsome. And then suddenly laughter erupts and
one
is
faced with a student. 41
That such them,
a
man
impressed women, and
hardly surprising. Vera
is
crossing to America, described flirtation.” 42 Elsa Einstein
himself be impressed by
Weizmann, who met him on
him
could
let
as
still
the
“young, cheerful and given to
smile at her Alberti’s flirtations,
but in 1923, after his return from Japan, she was by no means so sure of her husband. After his stepdaughter Use’s marriage, another young
woman, Betty Neumann, had become violently in love with her. Unlike his
his secretary,
two marriages,
and Einstein
fell
this relationship
aroused emotions that profoundly touched him. Nevertheless, this great love ended at the conclusion of 1924,
when he wrote
to “dear
Betty” that he “must seek in the stars that which was denied earth.” 43
This sounds
like
grand renunciation, but
it
was merely
variant of the justification he had given at the age of eighteen,
parted from his It
folly,
first love,
him on a
when he
Marie Winteler. 44
was perhaps not only Einstein’s detached observation of human but also his renunciation of Betty
Kessler, a sensitive chronicler, to jot trait in Einstein’s facial
Neumann,
down: “The
that led
Count
ironical (narquois)
expression, the ‘Pierrot lunaire’ quality, the
smiling and doleful skepticism that plays around his eyes, emerge ever
more
strongly.” In Einstein’s features Kessler believed he could dis-
cern that the
man was
“smiling not only at the surface, but at the roots,
of human conceit.” 45
wish to put some distance between himself and his personal entanglements was a factor in Einstein’s decision to leave Berlin for
Perhaps
three
a
months and undertake
a
major
trip to
needed to do was reactivate invitations from
South America. All he
scientific organizations in
Einstein Receives the Nobel Prize
549
Argentina, Uruguay, and Brazil. Three years earlier he had declined
now they suited him. At the beginning of March 1925 he embarked in Hamburg for a three-week voyage. He submitted to the traditional ceremony when the ship crossed the equator; he lectured them, but
the ship’s officers on relativity theory; and every day in his cabin he
played string quartets with
some passengers and
the leader of the
ship’s band.
His reception in Buenos Aires was exceedingly
not only on
cordial,
the part of his Argentine hosts but also on the part of the colony. This surprised
him
a little, as
German
three years earlier the represen-
German colony had vigorously refused to invite or honor a “defeatist,” who during the war had “made propaganda against Germany and therefore was a traitor to the Fatherland.” 46 The fact that these people were now feting him as an “exponent of German culture” gave rise to one of his sarcastic comments: “A funny lot, these tatives
of the same
Germans.
me
To them
I
am
and yet they keep putting
a stinking flower,
into their buttonhole.” 47
Meanwhile, political
as expected, Einstein
and academic leaders of the countries he
lectures in the
now
session he was
Academy. difficult to
not
was boundlessly honored by the
“I
familiar spectacular settings,
accepted as a foreign
was asked very stupid
visited.
and
member
gave his
in a ceremonial
of the Argentine
scientific questions, so that
remain serious,” 48 he noted in
his diary.
out on this trip with any expectation of
set
He
was
it
But then he had
fruitful discussions
about physics.
He
even met
a
few
relatives
from the maternal, grain-trading
of his family, including his cousin Robert Koch,
who had
attended the
cantonal school in Aarau with him: “We’ve grown old.” 49 “tribal
companions” he
solicited donations for
Hebrew
side
Among
his
University in
Jerusalem and was enthusiastically feted by them, “because to them
Em lot
a
kind of symbol of cooperative activity
of pleasure because
I
among Jews.
It
gives
me
a
expect great things from the unification of
Jews.” 50 After three weeks in Argentina, Einstein went on to Montevideo.
Receptions by the president of the Republic of Uruguay and by notables in politics and science ensured a
full
program, which also
Unified Theory
550
in a
Time Out
of Joint
included a cheerful evening with students, “guitar and singalong,
rarely in to
my
with
finally
violin.” 51 In
my life,”
come up
so
much
for air.”
He
Uruguay he met “genuine
so that “with
land and the Netherlands
—
as
I
cordiality as
sometimes had
more human and
lot
with his sympathies for Switzer-
—he attributed
this to the country’s small
This led him to the conclusion: “The devil take the big
them
their madness. I’d cut
do
that love
found Montevideo “a
pleasant” than Buenos Aires, and
size.
all
all
me
up into small ones
if I
states
and
had the power to
it.” 52
In conclusion, there was one
Janeiro provided the customary
more “big
The German
German
German but
club Germania.
“visit
at least a
summed
it
up
as “great
has been most useful
his participation in
fun without any real
few quiet weeks during the voyage.” 54
For two months Einstein again treated
at the
of
cause.” 53 Einstein himself, returning to Berlin after a
three-month absence, interest,
circle
ministers in each of the countries he visited unani-
mously reported to Berlin that Einstein’s for the
Rio de
Brazil.
not only within the
festivities,
the Jewish community, but also at the
state,”
his colleagues in Berlin to
academy meetings, before leaving them once more
end of July to attend the League of Nations session in Geneva.
In Zurich he looked in
on Mileva and
and he
his sons;
visited his
old friend and frequent “lifesaver” Marcel Grossmann, who, he was
shocked to
had developed multiple
find,
sclerosis.
From
Switzerland
he returned straight to Kiel, where he spent August sailing on the
Forde and working on the gyrocompass
Epoch-making changes
in physics
at the
Anschutz
factory.
were by then imminent. At one
point, Einstein believed that he himself had accomplished a
forward.
On July
9,
major step
before his departure for Switzerland, he had sub-
mitted to the academy his Unified Field Theory of Gravity and Electricity convinced of having “hit on the right solution.” 55 It was not the first ,
and not the
last
theory about which he spoke with such assurance.
He
had to admit to himself that with regard to the microcosm, the difficult question remained unresolved “whether this field theory is compatible with the existence of atoms and quanta” 56 also
on the
;
still,
he
felt
sure that he was
right track to solving the riddle of the quanta.
— Einstein Receives the Nobel Prize
At about the same time,
becoming
blind alley
breakthrough toward the solution was
discernible, but along totally different
surprising lines.
revolution
a
if
551
and
—
to Einstein
The new quantum mechanics emerged:
ever there was one.
—certainly not
a
To
a scientific
Einstein’s mind, though,
theory but
a
construct
of, at
it
was
a
most, tempo-
rary validity. Einstein’s future course
is
characterized by these two great themes:
the struggle for a unified theory that would simultaneously solve the
quantum problems criticism of
quantum mechanics.
lasting successes.
with
a smile.
The
in Einstein’s sense,
and
became
It
own
never-ceasing
a lonely
road without
his
His isolation increased over the years, but he bore
Failure never
fact that Einstein
made him
pursued
it
despair.
this
road with unshakable persever-
ance and inexhaustible optimism to the end of his
life
had to do with
a
transformed concept of the cognition of nature, which evolved and
became consolidated tivity. Its
after the
triumph of the general theory of
origins can be found in wartime Berlin.
rela-
CHAPTER TWENTY-EIGHT "The Marble Smile of Implacable Nature”:
The Search
for the
Unified Field Theory
By the time Einstein gave in
Goteborg
his
Nobel
on
lecture
relativity
theory
he had long since turned his mind to
in July 1923,
new
problems. Because of their complexity, these did not seem to him suitable for a public lecture, but he
wanted to give
small glimpse of what he was after.
“The
his
audience
at least a
intellect seeking after
an inte-
grated theory,” he declared, “cannot rest content with the assumption that there exist
two
other by their nature.”
1
independent of each
distinct fields totally
He
did not realize then that with these words
he was describing what would be his passionate
scientific quest to
the end of his days: the search for a unified field theory of gravity and
electromagnetism.
His longing was to remain flected, Einstein
he
lost
pondered
unfulfilled. Yet,
undeterred and unde-
over the years and decades
this unification;
himself in ever more abstract reflections, studied advanced
mathematics, and entangled himself in the most complex calculations.
For two decades he never doubted that the problem could be solved. Eventually a
“most of my
moment came when he had intellectual offspring
of disappointed hopes.” 2 But
still
to admit to himself that
end up very young he continued
shakable optimism, inspired by a task which had
During the
first
decade of his quest, he
his side, or at least interested colleagues;
isolation could
no longer be overlooked
persistent critique of
still
his search
become had
a
with un-
his destiny.
few
scientists
on
but with advancing age his
—and
quantum mechanics.
552
in the graveyard
it
He
was made worse by
his
was entirely aware of
“The Marble Smile of Implacable Nature this,
scoffed at himself as a “petrefact,” but never ceased to “sing his
When he realized that he had very little time left, he
lonely old song.” 3
had the
He
553
latest calculations
on the unified theory brought
died the following night.
The
to his sickbed.
unfinished task had been with
him
to
his final breath.
For most of
generation of physicists, this in
its
and even more so
his contemporaries,
work was not only unfinished
unduly
if
that the progress of physics
the indisputably greatest scientist
final three
decades of his
Of course,
he
life
would not have suffered
among them had
—roughly from 1926 on—
managed
still
spent the
sailing.
produce an occasional
to
but, at least
Even devoted admirers of Einstein
later phases, totally useless.
would not dispute
younger
for the
fine study, the
4T
kind that would have been a respectable lifework for a researcher. Equally, his critique of side in that
its
But
remained
How
did
whelming else
—
a foreign it
in his
no
result, but,
from which he never emerged?
factors
and perhaps even
—yet these
Einstein’s motives,
above
all,
no consequences.
—who, over two decades of over-
had transformed and enriched physics
middle years adopted
creative vigor
stand up to his and
body, of scarcely any importance to physics.
happen that Einstein
creativity,
it
positive
its
his great passion, his vision of a unified field
theory, produced not only It
quantum mechanics had
proponents were forced to make
similar reservations.
less inspired
a
no one
course which ended in a blind alley
It is
a
as
quite possible that a decline in
touch of old-age stubbornness were
factors are far less interesting than the question of
which guided him and focused him on
The vision which induced
his goal.
Einstein to pursue his lonely road was a fun-
damental theory for the whole of physics, based on
would not only unify the two
field theory.
This
areas but also explain the existence and
properties of elementary particles,
and
it
would
clearly
establish
natural constants such as elementary charge, velocity of light, and
quantum of
action. Ultimately,
through deduction alone,
a
quantum
theory was to emerge that would conform to Einstein’s idea of an objective description of nature.
Unified Theory
554
Time Out
in a
Einstein was thus aiming at what today everything.”
He was
loosely called a “theory of
encouraged by the spectacular success of the gen-
—
theory of relativity
eral
is
of Joint
a
powerful temptation for
a
theoretical
researcher to tackle this greatest of all tasks. His vision had taken shape
before the
as a realizable project
refused to abandon
when
it
new quantum mechanics;
the radical transformation of physics by
quantum mechanics was making
his
concept
at best questionable, if
not indeed obsolete, was seen by most of his colleagues reasons for his failure.
new
particles,
new
The
forces,
that he
as
one of the
other reason was that, ever since the 1930s,
and new
had been
fields
identified,
whose
very existence suggested that Einstein’s program was too narrowly conceived.
become
Even
if
he had been able to complete
a “theory of everything,”
and certainly not
microcosm. Einstein therefore did not achieve day
this
whether
is
it
it is
impossible to see
achievable at
The world which sented
and the
how he
gravitational.
would not have a
theory of the
his objective,
and to
could have achieved
it
or
all.
Einstein intended to
itself fairly simply.
it, it
comprehend
There were two
These were equal
theoretically pre-
fields,
the electromagnetic
in their
dependence on the
location of their potentials and in their great reach. But they were very different in
strength
—with
regard to strength, in
between them would be represented by
a
Another difference between them was the
fact that
to universally attractive gravity, electrical charges,
repel
i.e.,
fact,
the ratio
figure with forty zeros.
masses are subject
they have only one sign; whereas
being either positive or negative, both attract and
one another.
Along with the
fields,
of course, there was solid matter, whose ele-
mentary building blocks were believed to be the electron and the (roughly two thousand times heavier) proton. Both occurred in countless multiplicity,
though invariably with an absolutely
identical
mass
and charge, which called for an explanation from fundamental principles.
Atomic nuclei were then,
in the absence of other possibilities,
thought to be composed of protons and electrons, held together by strong electrical forces.
Within
this
orderly framework
it
must have seemed natural
to
"The Marble Smile of Implacable Nature begin the search for field
“theory of everything” with a search for
a
known
of which the two
was neither the
As early
first
as 1912,
nor the
when
fields
last to
Germany, made the
matter, one which
would be
a unified
specific aspects. Einstein
undertake that
task.
Einstein was deeply involved in the generaliza-
tion of his theory of relativity,
wald,
555
Gustav Mie, then
first
attempt
at a
would simultaneously
a professor in Greifs-
comprehensive theory of
establish the “unity of the
from what mathematicians
physical world picture.” Proceeding
call a
“nonlinear” extension of electrodynamics within the framework of the special theory of relativity,
would
result
from
Mie hoped
his field equations as
“thought necessities.” However, fulfilled
that the electron and the proton
when David
mathematically deducible
hope was disappointed; nor was
this
it
Hilbert, in his Fundamentals of Physics integrated ,
Mie’s theory into the general theory of relativity.
We do not know when,
despite the lack of any physical starting point,
Einstein intensively took up the problem of a unified field theory.
may
well have pondered the question in the early
He
months of 1916,
while working on his major article The Fundamentals of the General Theory of Relativity, there are so,
some
indications that he
but he certainly revealed nothing about
ever,
he must have given
it
a lot
it.
By March
his
is
a
—the
somewhat
as the
had already begun:
technical
way of saying a
tensor of the electromagnetic
that
twenty-nine and
field.
stranger to Einstein. In 1913, a
privatdozent at Gottingen,
to the Swiss Technical College in Zurich. a
was
Weyl
Does
this
mean
make
a
it?
Weyl was no
from
I
term that could be
the problem had been solved even before Einstein was able to
contribution to
,
construction of Maxwell’s equa-
had derived from the gravitational potentials understood
how-
Electricity
actually given birth to the offspring that
absolutely unable to produce
from g^y” 4 This
1918,
paper Gravity and
discloses that Einstein’s struggle for unification
tions
have done
of thought, because a letter to Her-
mann Weyl, complimenting him on “And now you have
may
when he was only
Weyl had been
invited
There he had been
able,
colleague’s proximity, to watch the genesis of the general
Unified Theory
556 theory of
relativity.
Thanks
Weyl soon succeeded
in a
Time Out of Joint
to his stupendous mathematical
in presenting Einstein’s theory
(completed in
more elegant shape than
author had, by
1916) in a mathematically
making use of a newly developed method shifts” to
skills,
its
called “infinitesimal parallel
extend Riemann’s geometry, which before long gave rise to
the mathematics of “affine connections.” In the spring of 1918 Einstein,
then sick in bed, read the galleys of Weyl’s book Space Time ,
Matter “with genuine enthusiasm.
The
concept of the work
is
It is like a
to the Prussian
it
.
.
.
magnificent.” 5
Shortly after writing this book,
theory and sent
masterful symphony.
,
Weyl had completed
to Einstein with the request that
Academy for
publication in
its
his unified
he should submit
Proceedings. Einstein
it
was
again enthusiastic, but not for long, because he soon discovered a
major
Weyl’s presentation there were no invariant linear
flaw: in
elements, which, in physical terms,
meant
that the yardsticks for
space and time depended on their earlier history. Thus, for instance,
hydrogen atoms which had traveled over different distances
would have
to exhibit shifts in their spectral lines
—
in total contrast to
observation.
Four weeks
later,
therefore, Einstein’s praise
gentle irony: “Your argument
from agreeing with pure thought.” 6
wish to
reality
it is
in
of wonderful homogeneity. Apart
is
certainly a magnificent achievement of
Weyl gloomily complained
know about
was enveloped
this business at
all.
to Einstein “that
you don’t
Naturally this worries
me
a lot,
because experience has shown that one can rely on your intuition.” 7 In fact,
Weyl
s
theory could not be developed into anything useful; on
the other hand, the “Eichin variance” he had used in
time was subsequently to prove
a
it
for the first
powerful mathematical instrument in
quantum mechanics and quantum
field theory.
Despite his reservations Einstein supported publication of Weyl’s paper, which, because of the paper shortage in the fourth year of war,
had met with some opposition from the Berlin academicians.
When
it
eventually appeared in Proceedings Einstein recorded his criticism in a ,
brief note at the end. 8 Einstein’s
first
intensive contact with unification
was thus primarily
"The Marble Smile of Implacable Nature critical.
557
Nevertheless, his examination of Weyl’s ideas
certain impressions to
which he
left
him with
However, he did not
later returned.
yet believe that natural laws could be discovered by mathematical constructs alone.
First of
could do to explain elementary particles. In the spring of
relativity
1919 he
Einstein intended to establish what the general theory of
all,
tried to
demonstrate “that there are indications to support the
idea that the building blocks of the electrical elementary structures
forming the atoms are held together by gravitational forces.” 9 These indications, however, vanished
more
All the
soon
after publication.
he took up the proposal of the
gratefully, then,
Konigsberg mathematician Theodor Kaluza that the four-dimensional world be extended by
opened up new
a
further dimension. This fifth dimension
formulation of
possibilities for the
field theory.
The
objection that this was just a mathematical fiction, devoid of any relation to space or time,
was softened by the
fact that, in the end,
it
was
once more restricted by meaningful supplementary conditions and that, in this
way, contact was smoothly reestablished with the four-
dimensional continuum of the real world. Einstein admired the formal unity achieved by this detour through the Kaluza’s paper to the Prussian lished a paper
Academy
fifth
me more
Very soon, however, he discovered
same was true of
a
theory in tions.” 11
a
way
that
in the physical sense.
who had earned of light and who now
proposal by Eddington,
skills
to
modifying and extending Weyl’s
would stand up
to “Einstein’s yardstick objec-
Soon, however, Einstein thought he saw
and, during his voyage to Japan, tried to develop
he praised the voyage
as “a
the elec-
Once more mathematics
himself undying fame by proving the deflection applied his mathematical
while he even
method too
that with this
had proved elegant but unproductive
a
of reality than any other.” 10
tron remained a foreign body in the theory.
the
and himself pub-
in 1921,
on the five-dimensional method. For
believed that this idea “smells to
Much
dimension, submitted
a solution
it.
wonderful existence for
On a
the
himself
way back
ponderer
—
just
Unified Theory
558 as in a
Time Out of Joint
in a
monastery. Plus the warmth of the Equator.
from the
lazily drips
Warm
water
spreading tranquillity and vegetation-like
sky,
twilight.” 12
What
he had put down on paper on board
General Theory of Relativity seemed to ,
at
Port Said he instantly posted
behalf submitted
This was ciple,
it
it
him
so important that
to Berlin,
to the Prussian
where
Max
on
the
arrival
Planck on his
Academy on February
15, 1923.
between Eddington’s formalism and Hamilton’s prin-
a link
of which Einstein euphorically believed that
it
“leads to a theory
almost free from arbitrary steps, one that conforms with what at
On
ship, entitled
we know
present about gravity and electricity, and which unites both types of
field in a truly perfect
academy about
lectured at the
supplemented
manner.” 13 Back in Berlin, Einstein himself
his reflections
this
concept in the spring
of. 192 3
and
with two more papers, though by then
with the sobering realization that physically interesting results were refusing to
come
taken hold
.of
up. “Generally speaking, a rather resigned
me
is
fine
and good, but Nature
dance.” Yet he would not give up. it is
has
concerning the whole problem,” he reported to
Weyl. “The mathematics
through and
mood
“The whole
of a strange beauty; above
it,
idea
is
leading us a
must be carried
however, hovers the
marble smile of implacable Nature, which has given us more longing than intellect.” 14
In the
summer
of 1922, having skeptically reviewed
all
past attempts at
a unified theory, Einstein wrote: “I believe that, in order to real progress,
one would again have to find
from Nature.” 15
He was
then
make any
a general principle
wrested
still
hoping for inspiration from physics.
At times he had even looked
for experimental approaches to the
relationship between an electromagnetic field and gravity. In Zurich in
1913, probably unaware of Faraday’s investigations
century
earlier,
more than
he had asked himself whether there could be
half a
a gravita-
was analogous to electromagnetic induction. 16 Sometime around 1922 he tried to get Walther Gerlach to take up tional effect that
experimentally the question whether moving matter produced a netic field.
“What
waterfalls.” 17
mag-
mind was measurements along currents or But Gerlach, who had just made a name for himself in I
had
in
— "The Marble Smile of Implacable Nature the discovery of directional quantization
ment”
—was unwilling
thought
a rather
559
— the “Stern-Gerlach experi-
to interrupt his academic career for
what he
vague suggestion.
Einstein’s refusal to be discouraged
was due to the
fact that
from
“wresting principles from Nature” he gradually drifted toward mathematics. This change in Einstein’s
formerly simply cognition
itself,
a
way of thinking, with mathematics
tool of the physicist
distinguishes
—becoming
more than anything
the source of
else the
going physicist of his youth from the lonely seeker of his
We
have seen that
as a
scholarship with almost
thorough-
later years.
young man Einstein viewed mathematical
amused skepticism. Not
until his generaliza-
tion of relativity theory did he acquire a proper respect for
its
sub-
fact
that
s'
tleties.
He
something
was no doubt profoundly impressed by the like a prestabilized
harmony emerged between Riemann’s
geometry, a subject originating from purely mathematical reflections,
and the laws of gravity; but
this did
not then change his pragmatic
atti-
tude to mathematics.
Whenever he had an
opportunity, he would explain to mathemati-
cians that their abstract art, unless
it
paid due regard to facts, was pure
speculation and not physics. “It seems to
me
estimate the value of formal points of view,” he
that
you greatly over-
somewhat condescend-
ingly, in 1917, lectured the Praeceptor Math ematicae at Gottingen, Felix
Klein. Klein had examined certain transformations of Maxwell’s equations,
The
which Einstein had described
as lacking
any physical meaning.
formal points of view “are of course very valuable whenever an
already discovered truth has to be definitively formulated, but they
nearly always to
Weyl
fail as a
heuristic aid.” 18 Einstein’s letters
similarly reflect a persistent belief in the
and postcards
primacy of physics
over mathematical speculation detached from experience. In 1918 Einstein vigorously rejected the suggestion that in the general
theory of relativity speculation had proved superior to empiricism.
“But
I
believe that this development contains a different lesson, almost
the opposite, namely that a theory, in order to deserve confidence,
has to be based on generalizable
facts.
.
.
.
Never has
a truly useful
19 and profound theory been discovered by pure speculation.” But by
Unified Theory
560
in a
Time Out
of Joint
1923 he was, nevertheless, about to turn toward the mathematicalspeculative approach.
was
It
Nobel
in his
lecture that Einstein first clearly proclaimed
mathematics to be the only signpost in the search for
we cannot
“Unfortunately
facts as in the derivation
tional
a unified theory:
in these efforts base ourselves
on empirical
of the theory of gravity (equality of gravita-
and inert mass), but we are limited to the criterion of mathe-
matical simplicity, which
is
not free from arbitrary aspects.” 20 By
finding the simplest differential equations that can be submitted to an affine connection,
“we may hope
gravitational equations
tromagnetic
to arrive at a generalization of the
which would include
also the laws of the elec-
field.”
Einstein even believed that the paper he had written on his return
voyage from Japan represented
partial fulfillment of that hope,
a
though he had to add the reservation that he was not yet certain “whether the formal connection thereby gained can truly be regarded as a contribution to physics so
physical connections.” 21
It
long
as
does not provide any
it
did not provide
them
new
—but Einstein was not
discouraged.
He drew
his
optimism and perseverance from
the general theory of relativity, which in his
him
as a
wrote:
his
development of
memory now
appeared to
triumph of mathematical speculation. At the age of
“The
fifty
he
success of that experiment [in deriving] subtle natural
laws from the conviction of the formal simplicity of the structure of reality,
by
a
purely mental process,
now
encourages
me
along this speculative road, the dangers of which everyone follow
it
to proceed
who
dares
should permanently keep before his eyes.” 22 Einstein’s mis-
fortune was due not so
much
to the fact that
he was not deterred by the
dangers of mathematical speculation, but that he altogether lost sight of them.
Thus
in his
Spencer Lecture, given in Oxford in 1933, he ele-
vated mathematics to the “real creative principle.” 23
he compressed tence: .
.
.
a
“Coming
A
few years
later
kind of intellectual minibiography into a single senas I did
from
the gravity problem turned
skeptical empiricism of [Mach’s] type
me
into a believing rationalist,
i.e.
into
"The Marble Smile of Implacable Nature a
person
who
561
seeks the only reliable source of truth in mathematical
simplicity.” 24
At the very beginning of natural science based on mathematical laws, Galileo
had enthusiastically declared that the “magnificent book
of the universe” was “written in mathematical language
understanding of which one stumbles about Since then
many
as in a
.
.
.
without an
dark labyrinth.” 25
researchers have experienced the well-nigh miracu-
lous relationship between mathematics and physics. Indeed, a theoretical physicist
without an awareness of that harmony or
mathematical beauty and elegance would not get
far.
In
sense of
a
fact,
many
a
magnificent discovery has been theoretically anticipated by the conviction that an elegant mathematical structure
must have
its
The most spectacular, though not the
in physical reality.
counterpart
only, instance
•r
of this
is
the theoretical postulation of “antimatter” by P. A.
But just
as the theoretical physicist
is
M.
Dirac.
helpless without mathematics,
so mathematical speculation unrelated to reality remains void. Einstein
allowed himself to be seduced into a belief that mathematical criteria
were “the only
reliable source of truth,”
he believed
said
it
and in
his
Spencer Lecture he
to be “true in a certain sense that pure thought
is
capable of comprehending reality.” 26 This indicates a reckless overesti-
mation of the matics alone
—
possibility of a
mistake he would not have been capable of in his most
productive years. Yet this tained
him
understanding nature through mathe-
faith,
sus-
for decades in his search for the unified field theory.
As Einstein’s own mathematical his
though ultimately unproductive,
skills
work on the general theory of
were not exceptional, ever since
relativity,
he had ensured that he
would have the help of an outstanding mathematician, Jakob Grommer.
Grommer
vations
27 ;
his
is first
name
his later papers,
mentioned
but most of the time
The
last
mention
January 1929, which means that
no
coworker
in Cosmological Obser-
stands alongside Einstein’s at the head of
acknowledgments. 28
for twelve years
as a
is
it
—longer than anyone
figures in the concluding
in a publication
Grommer else.
traces in Einstein’s correspondence,
some of
by Einstein of
collaborated with Einstein
But
Grommer
left virtually
and the many people
who
Unified Theory
562
knew
in a
Time Out
Einstein in Berlin never mentioned
of Joint
Grommer. There was
a
reason for his shadowy existence.
Grommer came from
Jakob Litovsk.
We
an eastern Jewish family in Brest-
do not know the date of
his birth, or
even the year.
It is
reported that he was a studious disciple in the local yeshiva, intending to
become
a rabbi.
One
of the requirements for an aspiring rabbi at the
time was that he should marry the daughter of an older rabbi. In intention
Grommer
failed,
not for any lack of Talmudic scholarship
but because of the refusal of the older rabbi’s daughter.
Grommer
that
suffered
this
from
a
The
fact
was
disease of the lymphatic system,
described picturesquely as elephantiasis because
it
leads to a shapeless
enlargement of the extremities.
The
failed rabbi,
Hebrew, turned
who
until then
to mathematics,
had spoken only Yiddish and
went
to Gottingen, and soon pro-
duced an essay which so impressed David Hilbert that he wanted to accept
it
immediately
Grommer had gymnasium).
as a doctoral thesis.
never graduated from high school
Still,
(a
a hitch,
Yeshiva was no
Grommer, and the (not exactly decided to grant him a doctorate. 29
was probably Hilbert who drew Einstein’s attention to
standingly gifted to Berlin to
this out-
young Jewish mathematician. Grommer thus moved
work with
post; Einstein
though:
Hilbert championed
liberal-minded) faculty eventually It
There was
Einstein. This
was not an
official assistant’s
took care of Grommer’s livelihood by sums from the
budget of the Kaiser Wilhelm Institute for Physics, from an American foundation, and eventually from a fund provided for Einstein’s researches by wealthy Berliners. 30
In 1928 fessor in
Grommer
Minsk and
Soviet Republic.
He
a
returned to his homeland.
member
of the
He became
Academy of
the Belorussian
died in 1933.
Einstein did not long remain satisfied with his theory of 1923. his
pro-
a
With
next fundamental publication on unified field theory, in the
summer of
1925, he officially announced that this theory “does not
present the true solution of the problem.” 31 But he cheerfully added
good news: “After believe
I
ceaseless searching over the past
two years
have found the true solution.” 32 This sequence
I
now
— an unsenti-
— "The Marble Smile of Implacable Nature
563
mental revocation followed by joyful announcement of the “true solution”
—would characterize Einstein’s
The
later years.
“true solution” of 1925 was also based
but
affine connections,
it
new
took
on the mathematics of
paths. Einstein sought first of
the formally simplest term for the law of the gravitational
field,
all
and
next the “most natural” generalization. In this extended framework unlike in earlier theories metrical.
—the fundamental tensor
This Einstein regarded
tensor he tried to identify its
its
is
no longer sym-
an opportunity: in dividing the
as
symmetrical component with gravity and
antisymmetrical component with the electromagnetic
tedly, the reconstruction
only by recourse to case of weak fields.
mere
six
few
a
field.
Admit-
of the Maxwellian equations was possible artifices,
That was
all
and even then only for the limiting
that this exceedingly
printed pages) had to offer
compact paper
—not much for
Unified Field Theory of Gravity and Electricity.
The
a
(a
study entitled
touchstone of the
theory was whether the existence of the elementary particles could be derived from
it;
but in this regard Einstein had to confine himself to
the statement that he had begun to address the problem in cooperation
with Jakob Grommer. Despite this shortcoming, Einstein was quite delighted with his
new theory. During a Besso that he saw in with
At
reality. ...
rectness.” 33
Only
“boring League of Nations meeting” he wrote to it
“a splendid possibility that probably conforms
macroscopic range
least in the
days
later,
don’t doubt
eight weeks later, his optimism had left him.
have again great doubts about
Two
I
nothing was
my
left:
its
cor-
“Now I
work,” he reported to Ehrenfest.
“My work
of the
last
summer
is
no
good.” 34
Nevertheless, this paper could have turned out to be one of Einstein’s
most spectacular achievements and interpreted:
it
Einstein;
it
only
it
had been correctly understood
could have provided nothing
cal basis for the existence
edge in 1925,
if
than the theoreti-
of antimatter. But given the state of knowl-
this potential discovery
actually
less
became
a
not only went unrealized by
major obstacle to him
in his further
reflections. It is
probable that in his investigations of the structure of general
Unified Theory
564 field theories
seemed
to
Time Out
of Joint
Einstein had encountered a problem which he at
ignored or pushed aside, or it
in a
endanger
of 1925 he presented Theory of Relativity
35 ,
at least did
not pursue any further because
However,
his goal of a unified theory.
in a short paper entitled Electron
it
It
first
in the
fall
and General
concerns the fundamental characteristics of
such theories under mirror images of the space and time coordinates. Einstein demonstrated that in any relativist field theory in which gravity field
is
represented by a symmetrical tensor and the electromagnetic
by an antisymmetrical tensor, the following applies because of
invariance with regard to space and time mirroring: for every possible field
corresponding to an elementary particle with positive charge
there also exists a field describing a particle with negative charge but
with identical rest mass. In later terminology
means
this
m and charge e there “antiparticle” of the same mass m but with a charge —e.
elementary particle of mass
that for every
must
exist
an
At the time, however, physicians knew of only two kinds of elementary particles
—electrons
as the carriers
as the carriers
of positive charge
—and
of negative charge and protons this
knowledge was believed
be definitive and unalterable. However, since the mass of a proton
to is
nearly two thousand times the mass of an electron, there was, in that limited framework, an
charged elementary
asymmetry between negatively and
particles.
Any theory
mass of negatively and positively charged
positively
postulating an equality of
particles
was therefore
in fla-
grant contradiction to what was then regarded as valid experience.
Resigned, Einstein concluded that “the endeavor to amalgamate elec-
trodynamics and the theory of gravity into
symmetry theorem was “no longer If only Einstein
had interpreted
a unity” in the light
of his
justified.” 36
his
theorem
to
mean
that alongside
the negative electron there must also exist an as yet undiscovered positively
dicted
charged “antielectron” of identical mass, he would have preantimatter
framework of
in
an
exceedingly elegant
“classical” physics.
the younger physicist P. A.
M.
As
it is,
Dirac,
this
who
manner within the
achievement belongs to
in 1930
deduced the
exis-
tence of antimatter by linking the special theory of relativity to the
new quantum mechanics. Two
years later,
when
antimatter was
first
"The Marble Smile of Implacable Nature"
565
observed in cosmic radiation, in the form of the positively charged antielectron, the positron, Dirac’s theory
was triumphantly confirmed.
Einstein’s paper, however, remained unnoticed, and he himself
never referred to a
it
in later years. It
may be
seen as
a typical instance
of
“premature” discovery, whose implications are not suspected even by
its
author. Instead, Einstein had to resign himself to the fact that the
unified theory had receded into the distance and
approaches. Meanwhile, the
would require new
new quantum mechanics provided
a
highly promising theory of the microcosm, but this was a theory which Einstein viewed with great skepticism on fundamental grounds.
CHAPTER TWENTY-NINE The Problems
of
Quantum Theory
In the summer of 1925,
a
Field Theory to the Prussian
Academy, Einstein received
Max Born
week
after
submitting his paper Unified a letter
in Gottingen, containing the first details of a
pleted study by Heisenberg: correct and profound.”
1
“looks very mystical, but
it
With
from
newly comcertainly
is
of genius the twenty- four-
this stroke
year-old Heisenberg, a student of Sommerfeld, Born, and Bohr, had
sketched out the main features of a
new quantum
theory, illustrating
it
by two simple applications. Heisenberg’s paper was the prelude to
a
time of intense, exciting creativity, which over the next two years led to the formulation of
microcosm
—the theory which has
as
it
left its
end of
Among
it (I
don’t).” 2
he did not believe in
his life
the founders of
theory of the
stamp on twentieth-century his reaction
was unambiguous: “Heisenberg has
In Gottingen they believe in to the
as a full-fledged
But when Einstein read the paper,
physics.
neous
quantum mechanics
was
laid a big
as sponta-
quantum
He persisted in his
egg.
rejection:
it.
quantum mechanics, Erwin Schrodinger
was the only one who understood Einstein’s skepticism. All the others
—Einstein’s
coevals, like
Bohr and Born;
as well as the
generation, including Heisenberg, Dirac, and Pauli face,
and eventually
live with,
new quantum mechanics more than anyone
else to
younger
—simply had
to
the fact that Einstein never accepted the
as a valid theory.
Einstein himself had done
champion the “old” quantum theory, but
in
1925 the reins were taken over by other, mostly younger, men, and
quantum mechanics were only critical. tragedy,” Max Born wrote, “for him, who now
Einstein’s contributions to
“Many
of us think
it
a
566
The Problems of Quantum Theory has to travel his path in loneliness, and for us, standard-bearer.” 3 Born, however, for
nor in
‘‘tragedy,” neither in his old age
been
just as “alone”
during the
In
all
decades of his
quantum
things concerning
years been ahead of his time
the very threshold of the still
at the
After two
more
his
younger
loneliness to be a years,
when he had
as
he would be
life.
physics, Einstein
—right up to the
new quantum
first
had for twenty
months of 1925,
to
mechanics. This had begun
Patent Office, with his concept of light quanta,
which he himself described followed two years
his
felt
with his ideas about light quanta
final three
while he was
lack the master and
his close friendship with Ein-
all
was wrong here: Einstein never
stein,
who
567
later,
as
“very revolutionary”; this concept was
by the
first
quantum theory of
solid bodies.
years, at the Naturforscher convention in Salzburg, he
surprised his colleagues with his farsighted prediction “that the next
phase of development in theoretical physics will bring us light that
may be understood
as a
theory of
a
kind of fusion of the undulation and
emission theories of light.” 4 Ele meant that light must be neither continuous waves nor discrete energy quanta, but
two
—some third form,
as yet
some
“fusion” of the
unknown. However, even the most con-
centrated reflection did not bring
him any
closer to
implementing
his
prediction.
Atomic physics entered an enormously productive phase
in 1913,
influenced by Niels Bohr and his model of the atom. Bohr’s model,
with
its
ad hoc discrete quantum
“classical” physics,
states,
ran counter to
all
ideas of
and Einstein reacted enthusiastically. Einstein was
merely an observer, though, since
just
then he was totally immersed in
the generalization of his theory of relativity.
Only when he had accom-
plished that task did he return to his other great theme.
In 1916 Einstein published papers of incomparable elegance in which
he described the emission and absorption of radiation general
quantum concepts. 5 He succeeded
quantum-governed”
justification
him was the
more important
to
propagated not
as a
wave but
producing
a
most
“totally
of Planck’s radiation formula; but
fact that
as a
in
in only the
electromagnetic radiation was
stream of aimed particles, so-called
Unified Theory
568
Time Out of Joint
in a
now
“needle radiation,” in which energy quanta were nite
momentum
—
a
second property, along with energy. As
the existence of light quanta was “as
Two
good
of quanta, even though
This situation
I
am
long
will persist so
still all
as a
a result,
as certain” 6 for Einstein.
years later he confirmed his view: “But
reality
also given a defi-
I
no longer doubt the
alone with this conviction.
mathematical theory
is
not suc-
cessfully developed.” 7
The
first
indications were that the road to a mathematical theory of
quanta would be long and
difficult,
because “chance” had for the
first
time entered the quantum processes. Direction and time of emission of a light
quantum cannot be
to itself to decide
quantum
predicted; in a sense, a light
when and
in
what direction
from an atom.
exits
it
Einstein described this as “a weakness of the theory
.
.
.
that
it
the time and direction of the elementary processes to ‘chance.’
The
discovery of what he put between quotation
is left
leaves
”8
marks— chance
had made Einstein uneasy from the outset. “Chance” undermines and thus topples the framework of
causality
classical physics. Philoso-
phers, loosely speaking, regard causality as the relationship
cause and effect; to physicists, however,
meaning.
From
unambiguous
a given initial state, a
regularity, in such a
between
has a precise pragmatic
it
system develops over time with
way
that
all
its
future states are
,
determined
as solutions
continuum.
A
light
of differential equations in the space-time
quantum whose
future state
dictably through “spontaneous” emission was
body
in
any
comes about unpre-
bound
to be a foreign
classical theory.
Einstein would have loved to be able to take back this annoying
discovery of chance and look for a causal description of processes.
1920. “Is
“The
business about causality irks
quantum
light absorption
me
a lot,”
I
must confess
most reluctant
to give
that
up
I
he wrote in
and emission ever conceivable
terms of the demand for complete causality or does
remain?
quantum
a statistical rest
lack the courage of conviction.
complete causality.” 9 In fact,
in
it
But
I
am
was not long
before he returned to a firm insistence on complete causality.
Over the next few
years, Einstein
thought
problems, but he did not really become
a great deal a
member
about quantum of the growing
—
r
The Problems of Quantum Theory group of atomic
wanted Lines
book
to write, a
and with
like
would never have
Sommerfeld’s Atomic Structure and Spectral
its
continually enlarged revisions
the headlong development of the “old”
even wish to give lectures in dents in Zurich,
Much details
that
I
“it is
as I struggled
insight.”
.
and
written, or even
published in 1919, which immediately became the bible
first
,
physicists. Einstein
569
.
.
not
with
“Besides,
I
quantum
physics.
this field, because, as
my
it,
became the chronicle
I
place to lecture
He
—of
did not
he told some stu-
on quantum theory.
hardly succeeded in achieving any real
never bothered to gather together the
many
of which the quantum theory at present consists, so
artifices
couldn’t give you a comprehensive overview.” 10
Einstein was not interested in a patchwork of details and
he was fascinated by fundamental questions, such
as
artifices;
the role of
4
“chance” and the dual wave and the corpuscular aspects of radiation.
decade after his lecture in Salzburg he was
Yet
a
this
problem;
his colleagues
all
magnetic radiation rethinking physics quanta. Indeed, the remark that
as
more and more
if a
on
his
own
with
regarded the wave theory of electro-
the final word.
Bohr amused
still
his
Even Niels Bohr, who was
radically,
would not
believe in light
growing number of followers with
telegram arrived from Einstein confirming the
existence of light quanta, he
— Bohr—would use that telegram
as the
strongest proof against them, because the information from Berlin
would have been transmitted by waves and received an antenna. affected
The
in
Copenhagen by
universal rejection of light quanta was not even
by the Nobel Prize which Einstein received
explanation of the photoelectric effect
in
1922 for his
—an explanation based on
light
quanta.
In 1921, Einstein hoped that an experiment would prove that “needle radiation” was a stream of particle-like structures. 11
admit that even with
his plan for the
“monumental booboo.” Nevertheless,
He
soon had to
experiment he had made
in the
end
it
a
was an experiment,
not any theoretical argument, that helped the quantum concept to
At Washington University physicist Arthur
in St.
Louis in 1923, the American
Holly Compton was investigating the diffraction of
Unified Theory
570
in a
Time Out
of Joint
hard X-rays on electrons. Compton’s observations were totally incom-
On
patible with the idea that X-rays
were electromagnetic waves.
other hand, his observations
perfectly into a picture of particles
bouncing off the electrons ticles
fit
like billiard balls; the deflection
was explained by the
fact that
the
of the par-
they had clearly defined energy
and momentum. Theoretically, the experiment could be interpreted entirely within the sacrosanct laws of conservation of energy
momentum. The “Compton
effect”
—the name by which the phenomenon obknown
served in this crucial experiment soon became ture
—by no means
settled the issue, though. Rather,
problem by demonstrating,
in Einstein’s words,
it
in the litera-
exacerbated the
“that not only in
regard to energy transfer, but also in regard to the impact radiation behaves as
Here we
still
and
effect, the
consisted of discrete energy projectiles.” 12
if it
have Einstein’s “as
if”
conclusion, familiar from his
“heuristic viewpoint” of March 1905.
Among physicists, about
a
change of
however, Compton’s experiment soon did bring
attitude,
and Einstein’s light quanta
respectable. In 1926, these structures
sessing energy and physicists
if.”
this belated
No
rest mass,
became
but pos-
—were named “photons.” A year
were considering photons every
without any “as basked in
momentum
—with no
at last
later,
bit as real as electrons,
one would have blamed Einstein
triumph, but that was not his
if
he had
style.
Meanwhile, Einstein was feeling exceedingly unhappy about the kind of “fusion” of the wave and particle aspects of light demanded by
quantum mechanics within Bohr’s concept of complementarity. This was not what he had expected. Ever since
his years at the Patent Office, Einstein
turbed by a duality pervading the whole of physics. All
had been
dis-
field theories
described the world as a continuum, reflected mathematically by partial
differential equations;
but
at the
atomic level both matter and
radiation consisted of discrete building blocks
tons— and of
own its
light quanta.
—electrons
and pro-
This dualism was intensified both by
his
and by the success of Bohr’s model of the atom, with discrete energy levels. In 1917, Einstein was seriously doubting that reflections
— The Problems of Quantum Theory
571
the well-tested classical tools of mathematical physics were able in the (useful),
new
i.e. if
a
situation: “If the
molecular view of matter
is
correct
portion of the world has to be represented by
a finite
number of moving particles, then
the continuum of present-day theory
He suspected
contains too great a multiplicity of possibilities.” insufficient limitation of possible solutions to the
quantum
The
theory.
to formulate statements
on
continuum (space- time).
...
a
to be
fail
in the face of
how it is
possible
discontinuum without resorting to
For that unfortunately we
How much
mathematical form.
me
question seems to
that the
continuum equations
was the reason “why our present means of description the
suit-
still
painful effort
I
still
a
lack the
have already spent
along these lines !” 13 It
way out of
seems, however, that he soon saw a
the problem
using the well-tested continuum theory he so loved. This was the idea
of “overdetermination,” a mathematical situation that arises
number of equations
is
number of
greater than the
when
the
variables. In the
general theory of relativity Einstein had found overdetermination useful at an important point: the transition
from Riemann’s geometry
to the limiting case of the Euclidian world.
For physics, the
starting
point in the ideal case would be a unified theory whose equations
included at least those for the gravitational netic field. Einstein
was hoping, on the
field
and the electromag-
basis of this
and some other
conditions, to discover a suitable “overdetermined” system of equations that
would permit only
discrete solutions,
quantum conditions and elementary
identified with
Implementation of this idea would have met plete
which could then be
comprehension of
theoretical
would have been embedded
his criteria for a
com-
Quantum phenomena
reality.
in a natural
particles.
way
in the well-tested
and
indispensable continuum theory of classical physics and would have
been deducible from
between
particles
it;
all
such calamities
as
chance and the dualism
and waves, or between continuum and discon-
tinuum, would have been merely temporary obstacles during
a transi-
tional stage of theoretical confusion.
The vision was not
of
a
attainable;
cussions, and
it
“theory of everything” through “overdetermination” it
did not play a major part in the theoreticians’ dis-
played no part at
all
in the progress of physics.
But
it is
Unified Theory
572 a
in a
Time Out
of Joint
key to Einstein’s concept of progress. Without
be
why he
understand
difficult to
felt
this vision,
it
that his stubborn search for a
quantum
unified field theory was also overwhelmingly important for
theory
—and
it
would be even more
never accepted quantum mechanics
Younger
as the last
it
was not the whim of
word.
who
pigheaded elderly
a
in reasoning that left
was an attitude rooted
him no
choice.
man
He
—
was
it
a
believed that he at least surmised the direction in which
the “promised land” should be sought; and he a
why he
understand
difficult to
physicists derided Einstein’s attitude as intransigent or
reactionary; but
visionary
would
must have regarded
it
as
kind of intellectual surrender that “chance,” which he himself hoped
to explain,
had simply been elevated into
a principle
by the champions
of quantum mechanics.
The
hint of a search for “overdetermination” appears abruptly in a
first
letter to
Max Born
in
been thinking about
must look tions
January 1920, and
this for
some
time. “I continue to believe that one
for such an overdetermination
and that the
solutions
suggests that Einstein had
it
through
no longer have continuum
how??” 14 The two question marks were certainly was for Einstein to formulate the process, just can’t
my
manage,” he complained
favorite
idea of
its
equa-
differential
character. But
justified:
easy as
it
execution evaded him. “I
a little later, “to give solid
shape to
comprehending the quantum structure from
overdetermination through differential equations.” 15 It
took almost four years before Einstein considered publishing
something on “overdetermination.”
He
eventually wrote a paper in his
“cheerful exile” in Leyden, where he had gone to escape the threats to his life in Berlin. In
Prussian
December
Academy on
1923,
his behalf.
statement of hope than a
Max
Planck submitted
However,
result, as
this
it
to the
paper was more of
was reflected
in
its title,
a
Does the
Field Theory Offer a Possibility of Solving the Quantum, Problem? 16
Einstein sets out the problem in his introduction, concluding with a rhetorical question:
can the quantum conditions of natural processes
be “adequately described by tions”? is
He
a
theory based on partial differential equa-
continues optimistically: “Quite certainly;
all
we have
to
do
‘overdetermine’ the field variables by equations.” 17 This sounds
The Problems
of
Quantum Theory
573
simple enough but becomes exceedingly complex over the next few pages, and at times even opaque. Einstein readily admits that one vital
deduction
“is
not
as
cogent
“that the equations set out
His paper, he remarks,
one might wish.” Nor does he claim
as
by
me
really
have any physical meaning.”
have achieved
will
mathematicians to cooperate and
if it
purpose
its
“if
it
induces
persuades them that the road
here embarked on can be pursued and should certainly be thought
through to the end .” 18 In
Einstein was presenting not a theory but a road
fact,
that led not so later
much
to results as to further questions.
he admitted the problems of
hopes he
still
held for
and the connection with what
ficult,
becoming
less ancfiess direct.
Yet
it is
a
road
few weeks
approach but also expressed the
his
“The mathematical
it:
A
—
is
aspect
is
enormously
accessible to experience
a logical possibility
describing reality without a sacrificium
dif-
intellectus .” 19
No
is
of accurately
one, however,
took up Einstein’s suggestion, and he himself was unable to achieve
any significant progress with
While
his
method of overdetermination.
Einstein’s endeavors with overdetermination
were being largely
ignored, Niels Bohr galvanized the world of atomic physics with the crisis of the “old”
reflections that propelled
toward his
its
Only
climax.
few weeks
a
quantum theory
after Einstein’s paper,
Bohr and
younger coworkers Hendrik Kramers and John Slater published
a
radiation theory without light quanta, in which anything concerned
with quanta was
However,
fitted into the interaction
this “rescue”
of the description of radiation in space by the
Maxwellian equations exacted energy and
momentum
of radiation and matter.
a
high price: the conservation laws for
had to be abandoned for individual processes
and were henceforth to be valid only
statistically.
As always, Einstein was intensely interested time he was not enthusiastic: “That idea mine, but
I
referring to
don’t think he
some
the Patent Office.
theory
Bohr
21 ,
is
an old acquaintance of
a real fellow ,” 20
reflections he
Now
is
in Bohr’s ideas, but this
had made, and
he wrote, presumably rejected, while
still
at
he raised “a hundred objections” to Bohr’s
most of them highly
for having prematurely
technical,
and he strongly
criticized
abandoned the laws of conservation and
574
Unified Theory
hence
causality. “I
would not
causality without a great deal far.
The
Time Out
in a
like to
of Joint
be driven into abandoning
more opposition than has been shown
idea that an electron exposed to a ray
moment and
chooses the
intolerable to me. If that
gambling casino than
by
the direction in which so, I’d rather
is
strict
be
a
its it
own free
so
decision
wants to eject
is
cobbler or a clerk in a
a physicist.” 22
Bohr’s theory of radiation without light quanta was actually only an
intermezzo;
it
came
to an early
end
as a result
of
experiment
a brilliant
by Bothe and Geiger, which proved that energy and
momentum were
conserved for each individual process. Meanwhile, Einstein had some considerable successes, moreover with papers on fact that
they were written “on the side”
focused on the unified theory23
were
his last contributions of
selves have assured
Toward
him of a
—
quantum
his
main
theory.
The
interest
was
—does not diminish their value. These
high creative power and would by them-
place in the pantheon of physics.
the end of June 1924, Einstein received a letter from a
Indian physicist, Saryendra
Dacca and had not so cations. 24 “Because
send Einstein an
far called
we
article
Einstein's ideas. Bose
without recourse to
Nat Bose, who taught
are
all
much your
at the
young
University of
attention to himself by his publidisciples,” 25
—which represented
Bose
felt entitled to
a brilliant
development of
was able to derive Planck’s radiation formula
classical
electrodynamics, by treating radiation as a
gas consisting of Einsteinian light quanta, similar to a gas consisting of
“normal” molecules but with
a
modified way of counting. In the event
that Einstein approved, Bose asked
him
to arrange for the paper to be
published in Zeitschrift fur Physik.
The editor of the Philosophical Magazine of the Royal Society London had rejected the article, though Bose did not mention this his letter. Einstein,
esting derivation” 26
by the unknown Indian, translated the
beyond the
it
—more
particularly
Bose’s novel
statistical
statistics.
article into
for publication without delay. 27 Einstein clearly
than the author himself— that
method of counting had implications
specific case of radiation. It contained the
new quantum
in
however, immediately liked the “exceedingly inter-
German, and submitted realized
in
far
foundation of
a
— The Problems of Quantum Theory
575
Ever since Boltzmann, physicists had been counting atoms
— an
illusion taken over
method put an end
Bose’s
from
daily
atoms and molecules. This
new way
this idea to material structures
“loss of individuality” called for a
of counting objects of the microcosm, one which differed
essentially a
classical physics.
and hence were devoid of
in principle,
any individuality. Einstein extended as
and from
life
to this: identical light quanta, he argued,
were not distinguishable, even
such
at
if,
they could be numbered and individually identi-
least in principle, fied
as
from the
classical
way.
It led, as
Einstein soon discovered, to
“hypothesis about an interaction between molecules of an as yet
quite mysterious nature ,” 28 with equally mysterious effects
on ob-
served phenomena. Bose’s paper was the Prussian
still
Academy
Single-Atom Gases
29 ,
in
with the printer
own
to present his
when
Einstein appeared at
paper,
Quantum Theory
of
which he applied Bose’s method to material gas
molecules, on the basis of a formal analogy between radiation and a gas. Six
months
Einstein continued this
later,
in the conviction that “the analogy lar gas
must be
a
Einstein’s
now
some
additional “reflections
as free as possible
method
equally for radiation and matter.
“Bose-Einstein is
statistics.”
What
into a
It
lowest energy
would be possible levels.
result
was
his general-
statistics valid
soon entered the
literature as
characterizes Bose-Einstein statistics
occupied by any number of particles so than
he supplied
on the quantum theory
quantum
that particles are indistinguishable and any
more
after that,
from arbitrary hypotheses .” 31
most important methodological
ization of Bose’s counting
in a Second Treatise
between quantum gas and molecu-
complete one .” 30 Three weeks
as a theoretical basis
of ideal gases,
work
32 .
quantum
level
may
be
In consequence, the particles
in classical statistics
This enabled Bose to offer
—crowd into the
a natural
explanation
of Planck’s formula for quantum gas, and Einstein supplied an equally natural interpretation of the so-called third law of thermodynamics in
an atomic or molecular gas, according to which entropy disappears
at
absolute zero.
The new
statistics
enabled Einstein to make remarkable predic-
tions concerning the behavior of matter at extremely tures,
such
as the
low tempera-
disappearance of viscosity in liquefied gases.
I
his
Unified Theory
576 “superfluidity”
Keesom
was subsequently discovered by Willem Hendrik
Leyden, in 1928.
in
Time Out of Joint
in a
The
concept of the “Bose-Einstein con-
densation” has proved useful to this day whenever matter in “degenerate” states has to be described.
From
his Second Treatise
acter
quantum
the analogy between ,
gas and molecular gas Einstein, in
drew the far-reaching conclusion
must be assigned not only
that a
wave char-
to light but also to matter, “by
assigning to the gas, in an appropriate manner, a radiation process and
by calculating tion analysis
its
was
interference oscillations.” 33 His mastery of fluctuasufficient for
him
to put forward this astonishing
claim; but for a further interpretation he ideas of Louis de Broglie, the
whom he had met at the
had to have recourse to some
younger brother of Maurice de Broglie,
Solvay conferences.
Louis de Broglie had submitted
a doctoral thesis to Einstein’s
friend Paul Langevin in Paris in the spring of 1924, a thesis
went
far
beyond the customary scope. For each material
Broglie postulated a simple relation between
its
which
particle,
de
momentum and
its
wavelength. This was something totally new, and a bold shot at the
unknown,
for until then particles
had been regarded
as
compact con-
centrations of mass, which had absolutely nothing to do with waves.
De
Broglie’s hypothesis could be justified only a posteriori, in that
it
permitted what Einstein later called a “very remarkable” 34 geometrical interpretation of Bohr’s
quantum conditions within the atom.
Langevin was so astonished stein a
at
de Broglie’s idea that he sent Ein-
carbon copy of the thesis and asked him for an unofficial second
opinion.
It
must have struck
a familiar
had discovered that relation between particle,
momentum
a
because of lack of experi-
difficulties
and
five
with the energy and
years later the
while, however, atomic physics, as if it
new
it
and wavelength of
theorem. 35 Langevin followed Einstein’s advice: de Bro-
glie received his doctorate,
a
momentum
though he had not published
mental evidence and because of
chord in Einstein: he himself
Nobel
Prize.
Mean-
were not entangled enough, had
hypothesis which would not be easily integrated.
Einstein soon turned Treatise
it
to everybody’s advantage. In his Second
he was able to show that de Broglie’s material waves corre-
— The Problems
Quantum Theory
of
sponded exactly to those which had followed from studies,
his
577
own
fluctuation
with the result that the two arguments supported each other
and jointly came close to certainty. In Einstein’s cautious formulation, “it
seems that an undulatory
field is associated
process, just as the optical undulatory field
is
with every motion
associated with the
move-
ment of light quanta.” 36 Einstein was so fascinated by material waves that at the annual
meeting of the Society of
Scientists
and Physicians
in
Innsbruck in
September 1924 he suggested that experimenters might search
phenomena
fraction and interference
however, was hopeless, because
in
for dif-
molecular beams. 37 This,
— he himself demonstrated —their wavelengths are mostly conin his
as
Second Treatise a few months later
siderably smaller than their molecular diameter, so that any such effect
would not be susceptible
to experimental verification.
On
the other
hand, prospects were more favorable for slow electrons: by the
summer first
of 1925 Walter Elsasser in Gottingen was able to show some
indications of such waves, and in 1927 the existence of material
waves was experimentally confirmed by the diffraction of electrons on crystals.
With more
his
work on the quantum theory of
led the “old”
threshold of the
quantum theory
gases, Einstein
to a peak, bringing
new quantum mechanics, and
in
some
it
close to the
respects even
beyond. Thus the road he had taken in 1905 came almost but at a
new
level
had once
full circle,
of understanding. Then, Einstein had suddenly and
unexpectedly placed his quantum hypothesis alongside the wave theory of optics. rial
Now, two
decades
corpuscles with a wave
field.
later,
The
he was able to connect mate-
fact that
immaterial light and
material corpuscles both have characteristics of particles and waves
doubt appealed to
The
no
his desire for “generalization.”
fact that particles
and waves were
nomena, however, would not have appealed
still
two separate phe-
to Einstein.
dualism of waves and particles was not resolved in the mechanics, for which in
many
instead, to his regret, duality
And
new quantum
respects Einstein had blazed the
was actually consolidated
this
trail
as a principle.
CHAPTER THIRTY Critique of
Quantum Mechanics
After a quarter-century
of improvised quantum theory, the
breakthrough to quantum mechanics and
two years represented by
a
a collective
physics, mathematics,
—
a
commentary and
for
mere
fascinating interplay of
1
it
a
intellectual effort
and cognitive theory. Here, of course,
can be presented only to the extent that Einstein’s critical
completion within
though turbulent
generation of physicists
brilliant
its
this story
provides a background for
what others saw
as his lonely
road.
We
have already seen his reaction to Heisenberg’s impressive
opening in July 1925, the “quantum egg”: unlike the physicists tingen, he did not believe in that others, too, initially
it.
had
at
Got-
Heisenberg’s concepts were so radical
difficulties
with them
—Niels Bohr,
for
one, and even Heisenberg himself. Everyone could understand that
Heisenberg had unhesitatingly rejected the disparate patchwork of existing
quantum
correct. In
its
theory, dismissing
its
models
as, at best,
place he was proposing a fundamentally
accidentally
new quantum
mechanics, which included only relations between observable magnitudes; thus there
within an atom
was no longer any
—
it
talk of the “path” of
was appropriate to speak only of frequencies and
amplitudes of radiation processes. This sounded thinking, but
it
an electron
like
good
positivist
involved opaque physics and strange mathematics.
Heisenberg’s most bizarre innovation was that the result of multiplying certain magnitudes depended on the order in which the multiplications
were performed. Nothing of the kind had existed
578
in physics
Critique of before, even in the “old”
Quantum Mechanics
quantum
579
theory; but in Heisenberg’s theory,
“noninterchangeability” was an essential element, even though he was
unable to state what mathematical structure was in fact involved.
Max
Born, a trained mathematician, soon discovered that his pupil’s strange calculation
amounted
maticians.
While Heisenberg
Copenhagen
to matrix calculation, a
in the late
his physics into correct
way
method
familiar to
mathe-
traveled to Cambridge, England, and
summer, Born and Pascual Jordan transcribed mathematics, developing his assumption
all
the
to the first appearance of the “interchangeability” relation for the
position q and the
momentum p
This “commutator” was Jordan
also
found
momentum
but for
all
qp = h/2iri.
—independently of Born
—by Paul Adrien Maurice Dirac
position and
—
of a particle: pq
at
Cambridge, not only
magnitudes which physicists
and for call
4T
“canonically conjugate.” In his presentation of
quantum mechanics,
reduced to the most abstract structures, Dirac (who was then only twenty-three) was also able to express a system’s motion equations
with
this
new
term.
Thus
the “commutator”
became the signature of
new quantum mechanics and even mathematically marked
the
break with
traditional physics.
all
Over the following months Born, Heisenberg, and Jordan oped
their
the
famous “three-man paper” on what was now
devel-
called “matrix
mechanics.” Along with an extended presentation of the foundations, it
pointed the
way
to
some noteworthy
applications.
Heisenberg pre-
sented the basic features and mathematical basis of the theory in an article
completed shortly before Christmas. Meanwhile, Wolfgang
Pauli had described the hydrogen
the delight of Niels Bohr,
with
A
this
first,
whose
atom by the new methods, much
scientific career
was closely associated
touchstone of atomic physics.
improvised conference on quantum mechanics was orga-
nized in Leyden as a sidebar event on the
H. A. Lorentz’s doctorate on December from
to
Berlin,
fiftieth
anniversary of
11, 1925. Einstein
had come
and Bohr from Copenhagen. Paul Ehrenfest, the host,
proudly presented his two young students Samuel Goudsmit and
Georg Uhlenbeck, who had
just discovered a
new property
of the elec-
Unified Theory
580
tron: torque, or “spin.” Spin
other aspects of the
For
his return trip
Time Out of Joint
was almost
understanding the electron, and as the
in a
was
it
as vital as
mass and charge to
as eagerly discussed in
Leyden
new quantum mechanics. 2
Bohr had chosen the route
via Berlin, so that
could continue his conversations with Einstein on the
To Bohr
train.
they were “a greater pleasure and more instructive than
I
he
can say.” 3
Although we know nothing about the subject matter of these discussions,
we may assume
would not have
left
that Bohr’s enthusiasm for the
Einstein unimpressed.
When
new
physics
Einstein drew up a
balance sheet for physics for 1925, he too regarded matrix mechanics as “the
most interesting thing that theory has produced
in recent
times.” His admiration, however, had a substantial admixture of mistrust:
“A
veritable witches’ multiplication table, in
which
infinite
determinants (matrices) take the place of cartesian coordinates. Exceedingly clever, and because of
its
great complexity safe against
refutation as incorrect.” 4
Nevertheless, matrix mechanics must have exerted a strange fasci-
nation over Einstein over the next few months, because he reported to
Born
in Gottingen:
“The Heisenberg-Born
breathless, gripping the thinking
ideas are keeping everyone
and pondering of everybody inter-
ested in theory. Dull resignation has been replaced in us thick-blooded creatures
by
unique tense expectation.” 5
a
leave out the question
not clear in his
He
was
whether the theory was true
own mind where
the
tactful
enough
to
—or perhaps he was
new development would
lead.
Soon Einstein met the man who had aroused this “unique tense expectation,” young Werner Heisenberg. He and Heisenberg had already exchanged
a
few
congratulated
letters.
him on
Thus Heisenberg records
his theory as early as
that Einstein
had
1925 and had suggested
a
face-to-face discussion of its foundations, in a letter signed “in genuine
admiration, yours, A. Einstein.” 6
may
Even though quantum mechanics
have rather alarmed him, Einstein remembered his
own younger
years and was fond of youthful Hotspurs with unconventional ideas.
The
opportunity for the desired conversation arose on April 28, 1926, after Heisenberg, en route to Copenhagen to assume a position as a
Dozent with Bohr, had given
a lecture in Berlin. Einstein
asked
Critique of
Quantum Mechanics
Heisenberg to accompany him to
What
the two
men had
structed by Heisenberg
more
home on
his
to say to each other
—though not
581 Haberlandstrasse.
was eventually recon-
until four decades later,
and then
in Heisenberg’s voice than that of his host. 7
“But surely you don’t seriously believe” frontal attack
on the
central
dogma
of the
—Einstein new
said,
physics
opening
his
—“that one can
include only observable quantities in a physical theory.” Heisenberg retorted, as indeed
Born and Bohr would have done,
lowed the basic idea of
relativity theory, in
that he had fol-
which “absolute” time,
because unobservable, had been replaced by time measured by actual clocks and synchronization procedures. But Einstein did not
understand
this the
way Heisenberg
did;
to
on the contrary, “Only the
theory decides what can and what cannot be observed.” 8 ally,
want
More
gener-
Einstein’s dfd not approve of Heisenberg’s talking about “what
one knows about nature, instead of what nature physical sciences can only concern themselves with
The
really does.
what nature
really
does.” 9 Einstein’s disinclination to accept Heisenberg’s arguments also have
been due to the
fact that
two weeks before
this visit,
may
he had
already formed the impression that “the Born-Heisenberg business
probably not correct.” 10
The
is
reason was that an alternative had mean-
while emerged, which was a lot closer to his
While matrix mechanics had reached
own way of thinking.
provisional goal with the
a
“three-man paper,” Erwin Schrodinger, entirely on ing for a totally different approach to the
his
own, was search-
quantum
riddle. Schro-
dinger, then thirty-eight, held the professorship in Zurich that had
begun ment,
Einstein’s academic it
career— but
had been upgraded to
a
full
for Schrodinger’s appoint-
professorship. In the past,
Schrodinger had only sporadically concerned himself with quantum theory, but this changed dramatically in
when
Einstein’s Second Treatise
1925 drew his attention to the importance of de Broglie’s material
waves. Schrodinger tivistic
later
made some
unsuccessful experiments with
a rela-
wave equation (which he ultimately rejected but which would
be rediscovered as the Klein-Gordon equation). Then, during the
Christmas vacation of 1925, he discovered
a nonrelativistic
equation
Unified Theory
582 for a material
quantum
wave
Time Out
of Joint
from which he succeeded
field,
in calculating the
of the hydrogen atom by conventional methods.
levels
On January to Annalen
in a
26, 1926, Schrodinger sent this trailblazing discovery
— and
this
was only the prelude to
a creative
resulting in five papers altogether, written at roughly vals
up
to July 21, 1926. In these papers,
pects of the title
of the
interas-
papers continued the
Quantization as an Eigenvalue Problem.
Schrodinger’s
first
publication,
at
the beginning of April, was
—unlike the abstract “witches’ multipliof matrix mechanics — physicists found themselves on
received enthusiastically. cation tables”
monthly
he developed different
new wave mechanics. Three of these
first:
explosion
Here
the familiar territory of partial differential equations; the discrete
energy
levels of the
hydrogen atom emerged naturally and
inevitably,
rather like the nodes of a vibrating chord.
Max
Planck had drawn Einstein’s attention to Schrodinger’s work
“with justified enthusiasm,” 11 and Einstein studied the paper “with great interest.” In
machine, but
fact,
he found
a clear idea
—and
it a
revelation:
logical in
its
“Not such an
infernal
application.” 12
Schrodinger’s article was of major importance because, as
author noted,
it
its
offered information “on the relationship of the
Heisenberg-Born -Jordan quantum mechanics to mine.” Using modern functional analysis, he demonstrated in a mathematical tour de
two
force that the
theories, while totally different in content
and
mathematics, were nevertheless mathematically equivalent to each other, once
explained
one had got down to the fundamental structures. 13 This
why
for
all
specific
problems the two theories invariably
yielded the same results. Instead of speaking of matrix or wave
me-
chanics one could now, with every justification, speak of a single quan-
tum mechanics. Pleasing though this synthesis
odd.
may have been, it was also rather This quantum mechanics now took two shapes: one version was
based on the visually comprehensible image of real material waves, while the other proscribed
all
images, declaring
all
visualizable
models
misleading and devoid of content. Just as outspokenly as Schrodinger had criticized matrix mechanics, so
its
founders
now
reacted against wave mechanics. As for
its
alleged
Quantum Mechanics
Critique of
Heisenberg curtly remarked:
visualizability,
And
Pauli had a few strong words to say to
583
“I think
it’s
rubbish.” 14
“Dear Schrodinger” when
a
cutting reference by Schrodinger to “the local Zurich superstition”
became known. 15
The
Schrodinger’s wave functions could not
critics insisted that
possibly describe de Broglie’s material waves, because they diverged
too quickly, whereas an electron remained concentrated as point mass for
applied to anything relating to
was
clear, especially in
wave mechanics
Besides,
eternity.
all
quantum
leaps.
And
a virtual
when
failed
in formal terms
it
multielectron systems, that Schrodinger’s waves
did not even propagate in physical space, as one
would expect material
waves to do; they propagated only in the abstract structure of the configuration space. Einstein,
looked
this difficulty.
though
“We are
all
of admiration, had not over-
full
here fascinated by Schrodinger’s
new
theory of quantum levels,” he wrote in June 1926. But then he continued: “Strange as
ness of the idea
What,
quite astonishing.” 16
,
in
June 1926, Schrodinger
complex wave function
Max Born step.
to introduce a field in the q space, the useful-
anything, did Schrodinger’s calculations
if
Founh Paper
is
it is
mean? In
his
tried desperately to give his
a realistic interpretation.
Meanwhile, though,
cut the Gordian knot and advanced understanding by a vital
In a brief note, described as “provisional,”
On
the
Quantum
Mechanics of Impact Processes he considered “only one interpretation ,
possible”: that the
wave function was
finding an electron at cally
a definite level.
material waves, which
real
measure of the probability of
a
17
As
had been the starting point of
become purely
Schrodinger’s reflections, were to
de Broglie’s physi-
a result,
abstract probability
waves.
Born’s mathematics was sketchy; and the correct version
not the wave function but
its
—was added only
probability
absolute square that
at the
proof stage,
already venturing out on an even
mending
that “determination be given
Four weeks
same
title as
more up
which
in
he was
as a note. Still,
recom-
atomic world.” 18
was completed, under the
the note, with correct mathematics and
tion of the concept of probability,
it is
proportional to
significant path:
in the
later a full-length version
is
— that
a
precise defini-
quantum mechanics
differs
584
Unified Theory
meaning
substantially
from
preamble to
this paper,
and
field
Time Out of Joint
in a lottery or in classical physics. In a
Born referred
to his
famous friend and col-
up “a remark by Einstein on the relationship between
league, taking
wave
its
in a
he said something to the
light quanta;
effect that the
waves merely served to show the way to corpuscular quanta, and in context spoke of a ‘ghost
” 19
field.’
Thus
appeared in the role of midwife to the to
fact,
new
physics
—
first
time
in this case even
interpretation.
its statistical
In
Einstein for the
this
Einstein in 1924 was so impressed by light quanta that he
was inclined to assign them
a
higher degree of reality than light waves,
contrary to the overwhelming evidence in favor of the wave theory of light.
He
never published these ideas, but he discussed them exten-
sively with his colleagues.
he told Pauli that “to
For instance,
his feeling
undulatory character of
at the
something shadowy attaches to the
light”; Einstein believed that the
was “increasingly produced
acter of light
Innsbruck convention
as a
wave char-
secondary aspect and
indirectly.” 20
According to Born, Einstein to Maxwell’s
of
now downgraded
quantum, the
a light
particular path,
momentum.” rial
it
“ghost
carrier of
though the
assigned the role of “guide field” field”: “It defines
the probability
energy and momentum, adopting
field as
a
such possesses no energy and no
In view of this analogy between light quanta and mate-
particles,
thought
still
as
worked out not
least
by Einstein himself, Born
reasonable “to regard the de Broglie-Schrodinger waves as
a ‘ghost field’ or rather as a ‘guide field.’
“guide field” as causally over
probability amplitude,
a
time
” 21
—
in
Born then interpreted
this
which, while unfolding
accordance with Schrodinger’s equation
permits no more than probability statements about the future states of a system.
He summed up
this paradoxical situation in
an elegantly for-
mulated theorem of quantum mechanics: “The motion of particles lows probability laws, but probability
itself
fol-
propagates in conformity
with the law of causality.” 22 After the publication of his paper, Born reported to Einstein that
he was dinger
s
now
very happy, because
wave
field
as
a
‘ghost
“my
idea of interpreting Schrd-
field’
according to your under-
Critique of
standing” 23 was proving ever
Quantum Mechanics
more
—though of course the
useful
propagated not in ordinary space but in
interpretation:
tistical
respect.
The
“Quantum mechanics
But some inner voice
theory offers a
Man’s
secret.
throw
dice.” 24
For
lot,
my
but
tells
it
me
field
configuration space. Ein-
a
however, vigorously objected to serving
stein,
585
as a
godfather to the sta-
calls for a
that this
is
great deal of
not the true Jacob.
hardly brings us any closer to the Old
part, at least, I
am
This disclaimer of Born’s suggestion, stein’s first consistent rejection
December
in
new
of the
convinced that he doesn’t
physics.
1926, was Ein-
Of course,
his ref-
erence to an “inner voice” was no argument but more a statement of faith;
but precisely because of that
two friends did not then
it
was
a
“hard blow” 25 to Born.
was the beginning of
realize that this
The
a life-
long dispute between them on a fundamental question: what physical
knowledge actually meant and actually could achieve
in the realm of
atoms and quanta.
Quantum mechanics was soon same time
lems, but at the questions.
Thus
it
able to address and solve
gave
many prob-
new and exceedingly complex arose when an attempt was made
rise to
conflicts invariably
and
to assign to a particle, at a given point in time, a definite position q a definite
physics
momentum p. What had been
a
matter of course in
—never even questioned— developed into
the microcosm. Pauli described
it
a
in these words:
classical
stumbling block in
“One can view
world with the p eye and one can view it with the q eye, but if one to open both eyes together, one gets confused.” 26 This paradox
many others (as
in
quantum mechanics), proved impossible
had occurred several times before)
principle
—
principle,
it
the
tries (like
to resolve, and
was therefore elevated into
a
in this case Heisenberg’s “indeterminacy” or “uncertainty”
which explains why
it
is
impossible to open “both eyes
together.”
The tions
situation described
by Pauli has
its
reason in reciprocal rela-
— the mathematical core of quantum mechanics. Their
consequence
is
inevitable
that the product of the fluctuation square of
canonically conjugate variables, such as position and impulse,
is
two
always
Unified Theory
586
Time Out
in a
Ap
greater than Planck’s quantum: Aq* strated
of Joint
> h/4 tt. Heisenberg
by closely argued thought experiments that
statement describes the actual situation
mathematical
every observation or mea-
at
surement. If the position of an electron
this
demon-
is
accurately determined by
irradiation with extremely shortwave light, then the electron inevitably
undergoes
a
change in
momentum
in such a
way
that the product of
both uncertainties can never be smaller than Planck’s quantum of effect.
The
time had
now come
for
Heisenberg to draw far-reaching con-
clusions about the structure of natural laws: “In the precise formulation of the law of causality,
can calculate the future,’ the
first
one.
We
the present in
‘If
it is
we
accurately
know
we
the present, then
not the second clause that
is
wrong, but
cannot, as a matter of principle, gain knowledge of
all its
causality in whatever
determinants.”
Any hope
of restoring the law of
manner was described by Heisenberg
ductive and pointless.”
With massive
finality
as
he declared: “Because
experiments are subject to the laws of quantum mechanics invalidity of the law of causality
is
“unpro-
definitively established
.
.
.
all
the
by quantum
mechanics.” 27
—before the uncertainty of complementarity— Einstein
In February 1927 principle
principle,
and before Bohr’s
in a lecture to the
Mathe-
matical-Physical Department of Berlin University had declared that
nature demanded “not quantum theory or wave theory, but nature
demands from us
a synthesis
of the two concepts, although so far this
has exceeded the intellectual powers of physicists.” 28 This, incidentally,
was the view he had
1909. But what he
now
first
expressed at the Salzburg congress in
read about uncertainty, about Heisenberg’s
definitive dismissal of causality,
seemed to him 1909 nor In
to be neither the
and about Bohr’s complementarity “amalgamation” he had envisaged in
a synthesis.
March
1927, in an article
on the two hundredth anniversary of
Newton’s death, Einstein referred
to his
many
colleagues
who had
abandoned Newton’s foundations of classical physics by declaring that “not only the differential law, but also the law of causality
—previously
?
Critique of the basic postulate of bility
all
Quantum Mechanics
natural science
—had
587
Even the
failed.
possi-
of a space-time construct that could be unambiguously assigned
to physical events
is
being disputed.” Although Einstein conceded that
the radical champions of quantum mechanics had not set forth on their
road “without weighty arguments,” he urged them to remember their
“Who would
great forerunner:
have the temerity today to decide the
question whether the law of causality and the differential law, these
two premises of Newton’s way of looking
at nature,
must
last
definitively
be abandoned?” 29
As Einstein was unable to discover any inherent error
quantum
in
mechanics, he tried to keep the debate open by offering a causal native to the statistical interpretation.
Academy
to the Prussian
Does Schrodinger’s
a
On May
paper with
Wave Mechanics Determine
Completely or Only in a Statistical Sense
nounced
he submitted
15, 1927,
a cautiously
the
In his
alter-
questioning
title:
Motion of a System
first
paragraph he an-
would “demonstrate that Schrodinger’s wave me-
that he
chanics suggests that each solution of the wave equations should have it.”
But
this is all
was printed of Einstein’s only independent attempt
at a
quantum-
motions of the system unambiguously assigned to that
mechanical theory, because
its
author withdrew
doubt for good reasons. Only the vived in the It
files
seems that
by the horns and
a
few days
later,
no
page of the galley proof has sur-
of the academy. 30 after this fiasco Einstein
determined to take the bull
directly challenge the central statements of
mechanics, to prove that
improvement.
first
it
He
it
was only temporary and was
quantum
in
need of
evidently intended to do this at the Solvay Confer-
ence which had been called for October 1927 in Brussels.
Einstein had stayed away from the the war
—
in 1921 because of his trip to
solidarity with his
almost
a
first
German
colleagues,
two Solvay Conferences America and
who had been
in
after
1924 out of
excluded.
Now,
decade after the end of the shooting war, the “paper war” of
the scholars was also
coming
to an end.
As
a
result,
Hendrik A.
Lorentz, in his traditional role of president, was once again able to invite
German
physicists to Brussels.
The
conference was to be about
Unified Theory
588
Time Out
in a
“electrons and photons,” and the
summit of quantum-mechanics
of Joint
of participants promised
list
a
physicists.
old masters Lorentz and Planck could hardly be blamed for
The
having watched the headlong development of the past two years rather
uncomprehendingly.
The middle
generation was represented by Bohr,
Born, Ehrenfest, Einstein, and Schrodinger
— the
last
two of these
adopting a predominantly skeptical attitude. Finally, there were those
who had
earned quantum mechanics
its
reputation as “boys’ physics”:
Pauli was only twenty-seven and Dirac and Heisenberg only twentyfive,
but they were already highly experienced and highly conscious of
having created the modern physics of the twentieth century.
Madame
Einstein, along with
member
He
of the Scientific Committee.
by Lorentz
However, After
Curie and Paul Langevin, was a
on the
to deliver a report
to
and
fro
I
a report in a
state
of
affairs.
manner
The
this
the
quantum theory
purpose. This
is
in the
is
I
am not
would corre-
that
reason
been able to take such an intensive part
ment of
of quantum mechanics.
have come to the conclusion that
competent to give such spond to the actual
state
he withdrew his original acceptance:
in June 1927
much
had, moreover, been asked
that
I
have not
modern develop-
would have been necessary
as
due partly to the
fact that
my
for
receptivity
is
too small to fully follow the tempestuous development, and partly to the fact that
tation
I
do not approve of the purely
upon which these new
Nevertheless,
all
those
ward
As
to his presentation as
far as
theories are based. 31
who had
quantum mechanics through
statistical interpre-
letters
heard of Einstein’s rejection of or rumors had been looking for-
one of the highlights of the event.
can be judged from the
official
report of the proceedings,
Einstein did not take any major part in the discussions; whenever he did take part, he prefaced his remarks
by the admission that he “had
not penetrated deeply enough into the nature of quantum mechanics.” 32 But
argument was more
lively at the club
Universitaire and over meals in the hotel.
Whereas
of the Fondation
Pauli and Heisen-
berg tended to disregard Einstein’s objections, Bohr took them very
Quantum Mechanics
Critique of
589
His very thorough reconstruction of the discussions, 33
seriously.
written with profound sympathy, shows that Einstein was not only dis-
turbed by the
statistical interpretation
abandonment of
of elementary processes and the
but also worried by
causality,
a
suspicion
quantum mechanics implied some novel instantaneous remote which would be in conflict with relativity. These arguments between Bohr and Einstein have rightly,
been described
as a struggle
of Titans over the
friendliness. Ehrenfest,
and often talked to each of the two 1
a.m.
Bohr would come
until 3 o’clock”
—on
dialogues between
with ever intent
new
my room
to
his return to
account of the congress.
often,
and of
full
of good
always present
—“Each night
separately
to say just one single
Leyden gave
was wonderful for
“It
Bohr and
examples.
men
who was
effects
last riddles
the universe. For the participants, however, they were
humor, charm, and
that
word to
at
me
his students a lively
me
to be present at the
Einstein. Einstein, like a chess player,
A kind oiperpetuum mobile of the second kind,
on breaking through uncertainty. Bohr always, out of a cloud of
philosophical smoke, seeking the tools for destroying one example after another. Einstein like a jack-in-a-box,
morning. Oh,
it
contra Einstein.
was
delightful.
He now
But
I
am
popping out fresh every
almost unreservedly pro Bohr
behaves toward Bohr exactly
as the
cham-
pions of absolute simultaneity had behaved toward him.” 34
While
Einstein’s coevals
were saddened that the greatest among them
would not allow himself
to be convinced, the exponents of “boys’
physics” just shrugged their shoulders, regarding his stance as “reactionary.” 35 Einstein, however, proved his greatness, if only silently, his
by
nominations for the Nobel Prize. That he should have proposed
Louis de Broglie for his material waves in 1928, along with the Americans Davisson and
Germer
Broglie’s prediction,
surprising year’s
is
prize,
was
that in his
for the experimental confirmation of de
in line with his scientific sympathies.
nomination
letter, anticipating
What
is
the following
he suggested that the theoreticians Heisenberg and
Schrodinger be considered. After prolonged reflection he came to the conclusion that “de Broglie should have priority, because his idea certainly correct, whereas
it
is
still
problematical
how much
is
of the
Unified Theory
590
in a
Time Out of Joint
grandiosely conceived theories of the two last-named scientists will
This curiously formulated proposal of Heisenberg and
survive.” 36
Schrodinger must have had the value of rarity in Stockholm.
The development and
application of
quantum mechanics
released an
undreamed-of explosion of knowledge, but Einstein did not in
it.
When
he received the
recalled, with a
Max
Planck Medal in June 1929, he
touch of nostalgia, his unfulfilled dream of explaining
quantum conditions through overdetermination of tions in the space-time
continuum of
stands unattained, and there shares
my
participate
hope of getting
is
differential
a field theory:
equa-
“This goal
probably no expert to be found
to an understanding of reality
by
still
who this
means.” 37 Using some arbitrary terminology, he criticized the structure of the laws of to the
quantum mechanics
hope that physics would
“supercausality”
— though he
as “subcausality”
eventually,
left his
by
and clung
his road,
arrive at
audience in the dark about the
difference between this concept and ordinary causality.
Untroubled by these questions of principle, the quantum mechanics physicists were solving one problem after another, from the details of
atomic spectra to the electronic theory of metals. Naturally,
Einstein was impressed by these successes, and he publicly announced that he “greatly admired the achievements of the physicists
young generation of
grouped together under the name of quantum mechanics”
and that he believed “in the profound truth contained in except that
I
think that
its
restriction to statistical laws will
rary one.” 38 Shortly afterward, however, his harsher; he was prepared to concede to
bottom of things by
Although Einstein was
this
a
tempo-
quantum mechanics only the it
was “not possible
semiempirical means.” 39
in the minority
not entirely alone. His most prominent
who found
be
judgment again became
very inferior status “semiempirical,” insisting that to get to the
this theory,
with
ally
this
judgment, he was
was Erwin Schrodinger,
the statistical interpretation so appalling that he sometimes
regretted having created wave mechanics.
At the next Solvay Conference,
in
October 1930, Einstein was again
present, “like a jack-in-the-box,” with an exceedingly sophisticated
Critique of
Quantum Mechanics
591
thought experiment designed to refute uncertainty. Imagine
The box
with radiation.
filled
and closing after light
has a pinpoint shutter, whose opening
By weighing
controlled by a clock.
is
box
a
the box before and
emission the energy of the light could be accurately deter-
mined while the clock was accurately recording the time
—contrary
to
the principle of the uncertainty of energy and time. If Einstein
intended to throw Bohr off stride with
this
thought
experiment, he certainly succeeded, according to an eyewitness account: tion.
“To Bohr
He was
this
was
a
heavy blow. At the
extremely unhappy
all
moment he saw no
through the evening, walked from
one person to another, trying to persuade them be true, because physics.
if
that this could not
all
mean
Einstein was right this would
But he could think of no refutation.
the end of
never forget the
I will
two opponents leaving the university
sight of the
club. Einstein, a
majestic figure, walking calmly with a faint ironical smile, and trotting along
by
his side,
After a sleepless night stein’s
own weapons. The make
Bohr managed
to refute Einstein with Ein-
uncertain elevation of the clock during the
Bohr
we have no
that,
sive point.
of
all
met
energy and time. 41 Unfortu-
for
record of Einstein’s face
things,
rela-
amount necessary
the working of the clock inexact by the
for the uncertainty relation to be
nately
Bohr
extremely upset.” 40
weighing operations must, according to the general theory of tivity,
solu-
he had overlooked
when he was informed by relativity
theory on
This surprising reversal of fortune evidently
left its
a deci-
mark on
Einstein, because he never again tried to refute any statements of
quantum mechanics.
He
had even come to the conclusion that
quantum mechanics would
survive.
In
at least
above everyone
them
at the
else deserve the
top of his
Nobel Prize
list:
this
time without
a
men who I am con-
“the two
for physics.
vinced that this theory undoubtedly contains
aspects of
he again proposed
1931
Schrodinger and Heisenberg for the Nobel Prize, reservations and placing
some
piece of definitive
truth.” 42
Even though Einstein now acknowledged the exceptional Heisenberg’s achievement, this did not
peace with quantum mechanics, least of
mean all
that he had
status of
made
his
with the interpretation by
592
The
Pacifist
and the Bomb
Bohr and Heisenberg which came
to be
known
interpretation.” In the future, however, his
quantum mechanics described that
it
described
as the
argument was not that
individual processes incorrectly, but
them incompletely. The search
description of nature
“Copenhagen
would occupy him
for
to his last breath.
a
complete
CHAPTER THIRTY-ONE Politics, Patents, Sickness,
and
a
"Wonderful Egg”
After the exciting and exhausting first half of the 1920s, Einstein wanted nothing more than to “be left in peace,” so he could 1
He
devote himself to physics undisturbed.
but for
a
few years,
after his return
from South America
of 1925, he got reasonably close to did not wish to give up: his versity in Jerusalem
tion of the
it.
There were two
which he
and on the Commission for Intellectual Coopera-
though, was he always
a
in
Geneva. In neither of these bodies,
comfortable partner; and he finally walked out
in protest.
Closest to his heart, undoubtedly, was
Hebrew
had inaugurated
his address
The same
summer
in the
tasks
that;
membership on the board of Hebrew Uni-
League of Nations
on both of them
never quite achieved
February 1923 with
in
University, which he
on Mount Scopus.
year, while in Berlin, he accepted the editorship of the first
volume of the new
university’s Scripta
Mathematica
contributing a paper written jointly with
He
important one. 2
also accepted
et
Grommer,
membership
in
its
Physica himself ,
albeit
not
a
very
academic council,
consisting of nine scholars, together with his Berlin colleague August
von Wassermann, the director of the cine of the Kaiser
When
in
Wilhelm
Institute for
Society.
1925 the direction of the university was entrusted to
board, Einstein was of course invited to be a at the
time of
America, and
Experimental Medi-
its
it
member
of
it.
a
However,
constituent meeting in Tel Aviv he was in South
was only
at its
second meeting,
593
in
Munich
in
Sep-
Unified Theory
594
Time Out of Joint
in a
tember 1925, that he realized that not everything
in
Jerusalem would
be going the way he had hoped. Einstein’s idea had been an academically elite institution, certainly
taking account of the special needs of the Jewish colonization of Palestine,
but autonomous and solely dedicated to the highest scientific
standards, based
on the unity of research and teaching. This view met
with only partial understanding on the part of American Jewry.
Because the right to lay
money came predominantly from them, they claimed the down the guidelines for the new university. They wanted
to content themselves with a teaching institution at college level and to
keep control of staffing positions for people
—largely with
from wealthy American Jewish
was
in
New
president of the university was a former
Judah Magnes, who was
vehement
a
champion of American
with
Munich; and although both men were
York
rabbi,
interests. Einstein
Magnes beginning with
conflict with
families,
main consideration.
scholarly achievement not always the
The
an eye to finding prestigious
the meeting in
there were exceedingly
pacifists,
angry and implacable exchanges between them, including threats by Einstein to resign. stein in Berlin
and
Chaim Weizmann
tried to mediate:
tried desperately to stop
him from
he
visited Ein-
leaving the board
on account of Magnes. Weizmann, worldly-wise, was ready 3
to settle
^
for half a university rather than
none
at
all;
Einstein, unwilling to
com-
promise, would rather have no university than half a university, or one
he regarded
as bad. 4
Einstein’s later
summary of this controversy was exceedingly bitter,
even considering his usual sharp tongue for
him something
like a
—possibly because
disappointing love
affair:
it
had been
“The bad thing
about the business was that the good Felix Warburg, thanks to his financial authority, ensured that the
was made the director of the through
romantic and incapable Magnes
institute, a failed
his dilettantic political enterprises
to his influential family in America,
him honorably
to
some
who
American
who,
had become uncomfortable
much hoped
very
exotic place. This ambitious and
surrounded himself with other morally inferior men, allow any decent person to succeed there.
rabbi,
.
.
.
to dispatch
weak person
who
did not
These people managed
and
Politics, Patents, Sickness,
a
"Wonderful Egg”
595
to poison the atmosphere there totally and to keep the level of the institution low.” 5
In 1928, Magnes’s authority, originally confined to financial and administrative matters, was officially extended to appointments as well.
At
of academic autonomy
this point, Einstein felt that his principles
had been
totally
undermined and resigned from the board
as well as
from the academic council. The only favor he was prepared
Weizmann and Hebrew
to
do
for
University was to resign quietly, without
a
public fuss. 6 In the hope of a better future he assured Selig Brodetzky, the vice-president of the board, that he would “never cease to regard
my
the fate of the Jerusalem university as a matter close to
The main
thing
university. I
that
is
hope
that
we
all
heart.
.
.
.
have the same goal, namely to serve the
my method will contribute
to that goal.” 7
4T
As
for the
League of Nations Commission, Einstein already had one
From 1924
resignation and return behind him.
attended the commission’s regular meetings, which were
tiously
always in July, even though he did not get “international person” he felt
it
better and
more
field.” 8
his
shirk,
is,
in
no matter how great
The wearying
my
his
to ensure that
conviction, a duty
which no
routine of the meetings was compensated for by
Zurich or for
a brief
all,
make
H. A. Lorentz, who
use of this opportunity
hike with his son Eduard.
Although nominated ad personam Einstein rather ,
representative of
the
achievements and in whatever
acted as chairman. Besides, he was able to
a
among
an
among nations renders disaster we have lived through.
encounters with Marie Curie and, above
for visits to
as
sincere understanding
cooperate toward that aim
one can
out of them. But
by the world war, and
impossible a repetition of the terrible
To
much
duty “to restore unity
his
nations, so boundlessly destroyed a
he conscien-
to 1927
,
felt
Germany, which had been admitted
himself to be
to the
League
of Nations only in 1926. In the flush of solidarity he even, on one occasion, publicly called
Germany “my own
fatherland.” 9 Privately,
however, he liked the French “better than our tions
between the wartime enemies, who were
he remarked that he would “probably not
lot”;
still
far
and on the
rela-
from reconciled,
live to see these different
Unified Theory
596
worlds amalgamating. But feeling that
I
in a
amuses
it
Time Out
me
to
watch them both, without
belong to the one or the other.” 10
he would occasionally get
Inevitably,
and become involved in January 1926 in
Paris,
tired of diplomatic suavity
One
fierce quarrels.
when an
When
such occasion was in
“Institute for Intellectual
tion” was established in order to provide a
commission.
of Joint
permanent base
Fascist Italy intended to delegate
education, Alfredo Rocco, to the committee of the stein insisted that
its
education, which the
even wanted to stand
new
institute,
as a
will
Ein-
individuals.
with the Fascist minister of
a “wild struggle
man
for the
minister of
its
members should be independent
Proudly Einstein reported
Coopera-
remember
as
long
he
as
lives.” 11
He
candidate against Rocco; but he was unable
to prevent Rocco’s election to the committee, because Mussolini
threatened to walk out of the League of Nations.
Even apart from
this incident Einstein
had no
illusions
about the
—unlike 1923, when he had demonstratively resigned from the commission — he praised the League of Nations “the only League. But
now
as
we have, and while we should not of it, we have no right to deny it our
great instrument for peace that
hold back with our criticism cooperation.” 12
In 1927 Einstein supplemented his League of Nations
membership
in a “consultative
committee of
work with
intellectual
workers”
under the International Labor Office in Geneva. But meanwhile he continued to be involved in something
have regarded
more
—not exclusively but predominantly
of equipment. As
many
is
mind might
a military piece
of his friends have recorded with astonish-
ment, however, Einstein possessed “the curious thing that
sensitive
incompatible with those efforts for peace. This was
as
the gyrocompass
a
gift
of shaking off any-
disagreeable to him, just like the water off a duck’s
back.” 13
Immediately sion, Einstein
went
after the sessions of the
League of Nations Commis-
had spent the whole of August 1925
in Kiel,
where he
sailing with his
son Hans Albert while supervising the gyro-
To
Anschutz he “could not be grateful enough for
compass program.
the wonderful hiding place
you have created
for
me
in Kiel.” 14 In
Politics, Patents, Sickness,
and
October 1926, when Einstein again looked
on board
tests
ority of the
a
to
on the Anschiitz
factory,
Anschutz compass over the older three-gimbal system, so
were being made
The
for serial production.
was mainly the navy that showed
seem
in
597
torpedo boat of the Reich navy had proved the superi-
that preparations it
"Wonderful Egg”
a
fact that
interest in the instrument did not
bother the pacifist Einstein any more than
bothered
it
Anschutz.
Although Anschutz had remunerated Einstein generously
gyrocompass project was now contrac-
years, Einstein’s share in the
he was to receive three percent of the
tual:
sales price
ment, and three percent of any revenues from
was not with the Kiel distribution
company founded by Anschutz
of each instru-
licenses. 15
proved so superior to
ment
for
Even the test
them
— and
British Sea
other systems that
for
many
it
it
became standard equip-
other navies, including the Japanese.
Lords and the U.S. Navy were impressed by the
tions both eventually decided firm’s chronicle recorded:
trend, and
articles.
In tests by the French and Italian navies,
all
a
German navy was being equipped
samples they had bought, although after weighing
upward
contract
primarily to evade the ban
imposed by the treaty of Versailles on exports of military the small
The
Dutch firm Giro,
firm, though, but with the
From 1927 onward, with the new compass.
in earlier
all
considera-
on domestic manufacturers. Proudly, the
“We
were
when World War
at the
II
beginning of
a
strong
broke out, the warships of
navies of any importance, except the Anglo-Saxon ones,
went
all
to sea
with Anschutz gyrocompasses.” 16 Einstein also benefited,
if
only modestly and temporarily, from
this
From 1928 onward his share was transferred to him Koopmansbank in Amsterdam: initially just under $300 a
development.
from the year,
and
1939, the Einstein,
later first
$700
to
year of
by then
$800
—not vast wealth,
World War
II,
in Princeton, sent a
the
but useful sums. In
money
reminder
did not arrive, and
in
January 1940.
He
was, however, informed that Giro had been in liquidation since 193 8. 17
The
parent firm in Kiel, whose owner had died in 1931, no longer
needed
a
Dutch branch
to
circumvent armaments controls. Einstein,
no longer receiving any payments from the German Reich, was
at least
spared any disquieting thoughts on the propriety of earning royalties
Unified Theory
598
from
device which guided
a
in a
Time Out of Joint
German U-boats and Japanese
aircraft
carriers.
No
sooner had the gyrocompass reached the stage of production than
Einstein turned to another entirely practical problem: the “perfect” in particular, the silent
the Einsteins
strasse
—
home on Haberland-
refrigerator. In their
still
used an old-fashioned icebox, possibly
because in electric refrigerators the motor and compressor both
made
of noise and because the coolant, which often leaked, was not
a lot
entirely safe.
young
Working with Leo
physicist
who had come
Szilard
—
brilliant
a
and
from Budapest and estab-
to Berlin
—Einstein
designed an
lished himself as a Dozent at the university original cally.
A
moved
pump which was
versatile
driven not mechanically but electromagneti-
liquid metal (sodium, potassium, or a mixture of the two)
to and fro in a tube
which thus functions
by an alternating electromagnetic
like a piston.
The
coolant
is
is
field,
by periodic
liquefied
decompression, and the consequent evaporation produces the desired
This elegantly conceived
cold.
moreover, In first
pump would
be inherently tight and,
silent.
November 1927
Szilard
and Einstein jointly applied for their
patent for a novel refrigerator; 18 this was followed over the next
two years by seven more patents, which concerned either
details
of the
induction motor or ever-new variants to protect the original patent. 19
The
basic idea
was
also registered in the
United
in the Netherlands, as well as at Einstein’s
States, in Britain,
and
former place of employ-
ment, the Patent Office in Bern, where his friend Michele Besso concerned himself with some “editorial criticism.” 20 Szilard meanwhile, at the research laboratory of AEG, after the realization
Not state
only did the
was looking
of this elegant idea. That cannot have been easy.
alkali
metals have to be kept in
a
permanent
liquid
through high temperatures; they were also highly reactive and
corrosive,
and therefore
difficult to handle.
Although prototypes were
constructed, 21 they did not lead to a marketable product.
The
engi-
neering was too demanding, and the market during the Great Depression was too unfavorable.
were now quieter and
Above
all,
conventional electric refrigerators
safer, so that there
was no further need
for an
and
Politics, Patents, Sickness,
a
“Wonderful Egg”
two inventors had been hoping to make
alternative. If the
They seem
they were disappointed.
599
a
fortune
to have received only small fees
from AEG. 22 until
much
pump
—not
Not Szilard
later did
an application emerge for the Einstein-
in refrigerators but in nuclear reactors.
suggestion, the electromagnetic
expense after
World War
II for
pump was
developed
At
Szilard’s
considerable
at
use in metal-cooled breeder reactors
and melted sodium reactors, though again without great success.
In 1926, Einstein’s
him
together gave
appointment. “As trial
work
a result
my
who had been
League of Nations work and for
a justification
matters in which
cannot keep up
at the
I
ending his favorite
got involved
I
have so
little
with lar
a
waiting in vain for a
more prolonged
stay
become too
and so he proposed that it
its
jocu-
‘Quite simply, Einstein becomes our emeritus pro-
Leyden.” 24 However, Einstein
actually earned
infertile
and came up
their heads together
This means: henceforward he
fessor.’
I
by Einstein,
wise decision which Ehrenfest conveyed to Einstein “in “
that
left
justified.” 23
Leyden put
professors at
formulation”:
duties,
time
position in Leyden,” he confessed to Ehrenfest,
appointment to appear
The
scientific
of the League of Nations and several indus-
the visiting professor. Einstein added: “I have also for this
his patents
by
felt
is
no longer expected
to
come
to
too young for a pension without
his salary
his presence in
be paid to him only
Leyden; otherwise,
it
if
he had
should be
“used for the benefit of the institute or of young physicists.” 25 This proposal, Ehrenfest
felt certain,
would “be received by
all
concerned
The benefit fund must have grown to a Einstein made frequent private visits and once, in
with great jubilation.” 26 respectable size.
February 1928, came
Academy
for a
commemoration of H.
age of seventy-five. But he fessor,
of the Prussian
as the official representative
A. Lorentz,
made only
who had
died at the
a single stay as a visiting
pro-
over several weeks in 1930.
Needless to
say,
Leyden was not the only place
Einstein: invitations
learned
how
were arriving
to decline,
in vast
that
was interested
in
numbers. But by then he had
and sometimes he even gave
free rein to his
600
Unified Theory
impish moods.
When it was
in a
Time Out
of Joint
suggested that he might participate in the
musical inauguration of the First International Congress for Sexual
Research by taking on one of the two violin parts in Brahms’s string sextet (Op. 18),
he replied: “Unfortunately
the strength of either
my
sexual or
my
don’t feel in a position, on
I
musical capacities, to comply
with your kind invitation.” 27
Most of the time he support an event
expressed his regrets with less humor. Asked to
at the Berlin
People’s Observatory in
he grumbled: “Can you believe that as a
I
bellwether with a halo. So count
Treptow
am tired of figuring me out.” 28 When he
Park,
everywhere received an
from Reich Chancellor Wilhelm Marx, Einstein did not
invitation
even decline in person but had his secretary write respectfully”
— “that
—admittedly, “most
Herr Professor Einstein unfortunately cannot
comply with the Herr Reich Chancellor’s
invitation for
Nov. 30
as
he
has a previous engagement for that evening.” 29 Perhaps he did not particularly like
managed
Marx,
to keep
a Catholic
Center
politician;
unwelcome interruptions
Soon, however, there came an enforced
now
but anyway he
arm’s length.
at
rest,
because of
a serious
ill-
March 1928 he had, as on a few earlier occasions, accepted an invitation from Wilhelm Meinhardt, the chairman of the board of ness. In
Osram, who had
a chalet at
Zuoz
in the Swiss Engadine. Einstein
bined duty and pleasure by delivering the inaugural address versity classes in
Davos
(also in Switzerland).
com-
at the uni-
These were intended
to
promote understanding by bringing together teachers and students from several nations. This event, the place
on March
18,
192 8. 30
To
first
congress of
its
kind, took
help fund this nonprofit enterprise
Einstein even agreed to be the violinist in a spontaneously formed string trio. 31 in
However, from what was planned
as a restful
recuperation
an Alpine winter landscape, Einstein returned to Berlin gravely
During
that time he had
one of
his
courtroom assignments
expert witness, this time in a patent suit between
before the Reich Court.
He went
by
AEG
sick.
as
an
and Siemens
train to Leipzig, submitted his
expert opinion, and at once returned to the Engadine. Arriving in
Zuoz
at night,
he trudged uphill through deep snow for several hun-
dred yards to the Meinhardt chalet, carrying
a
heavy bag. 32 This effort
Politics, Patents, Sickness,
and
"Wonderful Egg”
a
601
no doubt aggravated by years of
led to a dramatic circulatory collapse,
neglecting his health. His friend Zangger was urgently contacted, and he, as Einstein later gratefully acknowledged, “devotedly cared for
corpse
” 33
my
The when the
and arranged for careful transportation to Berlin.
patient described
what he had
danger was over: “But
I
felt like
on
that journey only
was close to croaking, which of course one
shouldn’t put off unduly .” 34
His treatment in Berlin was taken over by Janos Plesch, able physician with the patients the
title
way some people
falling sick, Einstein
who
of professor,
a fashion-
collected prominent
collect postage stamps.
Even before
had been Plesch’s most precious trophy
at his
opulent stag parties, along with Fritz Haber, the pianist Artur Schnabel, the violinist Fritz Kreisler,
The the
and the diplomat Count Rantzau
and wines served
exquisite food
menus designed by another
35 .
at these parties are reflected in
guest, the artist
Max
Slevogt.
Einstein’s medical friends, the respectable professors Moritz Katz-
enstein and Rudolf
Ehrmann, were
annoyed that he should
clearly
have entrusted himself, in his condition, to such
“Ehrmann stein all,
absolutely rejects Plesch, mainly
informed Zangger, but he defended
one
toward
isn’t all
a flashy practitioner.
on human grounds,” Ein-
his choice of a doctor: “After
such an unblemished angel oneself; therefore indulgence
other
little
pigs .” 36
Einstein was a very obedient patient, but not because of any confi-
dence in Plesch’s medical entist Einstein
skill.
On the
contrary, as an experienced sci-
informed Plesch that he “had always been convinced
that our necessarily primitive thinking
must inevitably prove inade-
quate to something as complex as a living organism, and that only patience and resignation, along with a healthy sense of indifference to one’s
He
certainly
bulletins
from
own
existence, can help at
needed these
his sickbed
qualities,
my heart,
rather troublesome. Plesch has
accumulation of
and see
if
Plesch
fluid in the is
all .” 37
because for
many weeks
now
really
despite ten weeks in bed,
is still
“I
diagnosed pericarditis, with an
pericardium.
.
.
.
We’ll wait for the result
right .” 38 In addition to strict
scribed a salt-free diet and diuretics
the
was
continued to be depressing.
feeling rather lousy, because
humor and
bed
rest,
Plesch pre-
—treatments which took time. Not
Unified Theory
602 until the
summer was
in a
Time Out of Joint
Einstein sufficiently recovered to continue his
convalescence on the Baltic.
He
where he had some-
did not return to the island of Hiddenses,
times gone in previous years, and where Berlin’s fashionable
often in the nude. Instead, he rented a
gentsia enjoyed the simple
life,
house in Scharbeutz, then
a sleepy little vacation place
Liibeck. trees
“Here
I
am
been on the
he wrote on
Baltic for
a postcard to Ehrenfest.
some months now, and
strengthening again. Only here have tence one leads in the city and solitude. It
is
realized
I
how happy one
my
“much
Spinoza’s letters with
pleasure”:
“We
have
vital spirits are
what an
idiotic exis-
can be in quietude and
He
wonderful for contemplation .” 40
also
on the bay of
forced to just laze about under splendid beech
Baltic ,” 39
on the
intelli-
“He knew
was reading
the liberating effect
of rural remoteness .” 41
But
his health continued to fluctuate. “I
he rejoiced worse:
after his arrival,
“My
heart
just before
is still
am
a lot better already ,” 42
but in September things again looked
rather slack .” 43 His wife’s worried assessment
their return
to
Berlin was:
“My husband
has gained
strength. But he has not recovered his former freshness and vigor.
He will have
.
.
.
to content himself with living at a very leisurely pace .” 44
This, however, would not have been to his taste. Besides, he had
plunged into an exciting line
now
with
a decision
scientific adventure, a
new
unified theory, in
he had made under the beeches of Scharbeutz:
“I
believe less than ever in the essentially statistical nature of events,
and have decided to use what
my own predilection,
little
energy
my
sickness
I
have
area of general relativity,” he jubilantly still
sick in bed.
viable and of long
“Whether the
life is still
new mathematics, not
as
laid a
bird hatching
itself
me .” 46 He
radical sacrifices.
from
it
will
Meanwhile
I
be
am
had thought up
a
but as part of his great objec-
unified theory of gravity and electricity.
was prepared to make
wonderful egg in the
in the lap of the gods.
an end in
me .” 45
announced toward the end of
blessing the sickness that has thus favored
tive, a
accordance with
regardless of the present bustle around
“In the tranquillity of
May, while
me in
is left
His
To
reach that goal he
earlier attempts
had been
designed so that the general theory of relativity was contained within
Politics, Patents, Sickness,
and
a
"Wonderful Egg”
the unified theory, or could be derived from
When
this criterion.
that
some
it,
but he
he believed the “bird” to be
substantial aspects of his finest theory
now
viable,
603
discarded
he declared
“must be consigned
to
the junk room, despite their successes.” 47
As Einstein was feeling too weak to attend the meetings of the
Max
Prussian Academy,
Planck submitted two papers on
his behalf: a
purely mathematical prelude on June 7 and the physical application
a
later. 48
week
Einstein’s mathematical innovation
geometry and
was an amalgam of Riemann’s
limiting case, Euclidian geometry. In Euclidian
its
geometry the concept of parallelism Riemann’s “warped” geometry
now had
distances. Einstein
it
is
defined for
distances, but in
all
makes sense only
for infinitely small
succeeded in implanting what he called
“distant parallelism” into Riemann’s geometry; this
compare the directions of finite
line
made
it
possible to
elements in curved space. 49
In this space-time continuum with distant parallelism, Einstein
obtained
new
kinds of tensors and invariants, from which he was able
to construct physical concepts; but he did not yet succeed in deriving
from
terms equations which corresponded to those for
his involved
electromagnetic to Scharbeutz
cover
a
fields
on the
and for
gravity.
Baltic in the
With
these problems, he
summer, and only there did he
dis-
promising way of deriving the equations he needed.
Back
in Berlin in the
fall,
there was a lot of work to be done before,
around the turn of the year, he was once more euphoric: “But the that
went
which
the nights,
name of
I is
pondered about and calculated nearly
now
all
ready before me, compressed into
‘unified field theory.’
colleagues will ... at
the days and half
7
pages under the
This looks old-fashioned, and
first stick
Because in these equations there
best,
my
dear
their tongues out as far as they can. is
no Planck’s
h.
But when they have
clearly reached the limits of their statistical mania, they will remorsefully return to the
space-time idea and then the equations will provide
50 a starting point.”
“He
Elsa shared his enthusiasm in an abridged form:
has lately worked magnificently and solved the problem which
has been his
On
life’s
January
again by
Max
dream
10,
it
to solve.” 51
1929, the paper was submitted to the academy,
Planck, because Einstein had every reason to avoid the
Unified Theory
604
in a
Time Out
of Joint
attention of the press. Strange things had been appearing in the newspapers, even
more
bizarre than anything that had
been reported
during the excitement over relativity after the confirmation of the deflection of light.
It
began with
November
4,
a report
from Berlin carried
in
New
The
on Verge of Great
1928, under the headline “Einstein
Discovery; Resents Intrusion.”
Whether
York Times on
the source of the story had
been Einstein himself or gossip among
acquaintances remains
his
uncertain; at any rate, though, he had learned his lesson.
Ten
days
New Work,
Will
Not
later the headline
was “Einstein Reticent on
‘Count Unlaid Eggs.’
academy on January
” 52
When
10, there
Planck presented the paper to the
was no end to the amazement that what
was popularly called the “riddle of the universe” might have been solved by Einstein in so few pages.
The
Prussian state ministry, con-
fused by the fuss in the newspapers, asked the tive
academy
for “authorita-
information” but was told that the academy was not in the habit of
commenting on
scientific
papers submitted to
grams demanding information arrived from
hundred curious
its
meetings. 53 Tele-
over the world, and a
all
—but they were
academy
journalists besieged the
told to wait for the routine publication of the paper
Wisely, the printing was set for the unusual
on January
He
had established himself comfortably
country residence,
a large
30.
number of a thousand.
During the weeks of tense anticipation Einstein was nowhere found.
all
at
to be
Janos Plesch’s
property on the west bank of the Plavel
Gatow, which Plesch had purchased from
at
manufacturer of shoe
a rich
polish. s4 In addition to the impressive villa (after
the residence of the British city later stayed there
pavilion,
during her
where Einstein could
World War II it was commandant, and Queen Elizabeth II
visits to Berlin),
live
there was also a neat
whenever he chose. There he was
own throughout the winter, cooking for himself— “like the hermits of old. And to one’s surprise one notices how delightfully long the day is and how unnecessary a large part of all that busy and idle on
his
activity.” 55
That stein’s
activity
article
peaked on January 30.
were instantly sold
out.
The thousand
New
copies of Ein-
printings were hastily
— Politics, Patents, Sickness,
made
—three
of them, at
and
"Wonderful Egg”
a
thousand copies each,
a
record for the
a
academy’s Proceedings. This had nothing to do with the
window of
London department
a
scientific
Eddington reported that one copy had fetched up
interest of the paper. in the
605
store, all six
pages pasted up
next to each other, with “big crowds of people pushing forward to read it.” 56
On
February
the
1
New
of Einstein’s paper on the
comprehensible to the account of
York Herald Tribune printed
last
page of
section.
More
new theory itself, no
readers than the
its
its first
a translation
readily
doubt, was
transmission by telex, which was described as a great
its
achievement. Because telex channels were restricted to
technical
sequences of numbers and
letters,
the Tribune' s Berlin correspondent
had arranged with some physicists of Columbia University
to
encode
the formulas. Einstein’s text, complete with the coded equations, was
keyed into the machine, in Berlin, and then the experts in
New
York
decoded the chains of symbols and reconstructed the formulas
one can judge.
correctly, as far as
Einstein could not understand the hullabaloo, and indeed got angry
any of
if
his friends
became involved
in
Hans Reichenbach, who had reported on Vossische
it
—such
as the
“Einstein’s
philospher
New Theory”
in
Zeitung on January 25. 57 Meanwhile Einstein was himself
writing a popular
article,
though not for the German papers.
appeared in the Sunday edition of The
New
York Times on February
1929, and the following day in The Times of London. 58
was partly due to
No
doubt
attractive fees, but also partly to Einstein’s
relaxed attitude toward any fuss
made
It 3,
this
more
across the water.
Before the publication of his paper, Einstein had given his only
new theory
interview on his Its
to an English paper, the Daily Chronicle.
readers thus learned firsthand:
moves electrons
the force which
atoms
is
the
make
the
is
life
more than premature.
We
upon
teapot
—
it
was
just a little
this planet.” 59
do not “know”
time, viewed dispassionately, the a
in its annual course
same force which brings
possible
that
about the nuclei of
in their ellipses
same force which moves our earth
about the sun, and heat which
“Now, but only now, we know
to us the light and
This statement was
to this day; and even at the
new theory was not even
breeze that soon died down.
a
tempest in
606
Unified Theory
in a
Time Out
of Joint
In his unified field theory Einstein had developed a set of equations
which he was convinced correctly described the electromagnetic and gravitational fields.
knowledge but
However, any connection not only with empirical
theory of relativity, was
something for the distant
still
thorough examination of the
Riemann metric
the
own
also with accepted theory, including his
future:
“A more
show whether
equations will have to
field
general
in conjunction with distant parallelism really
supplies an adequate interpretation of the physical qualities of space.” 60
In the ficulties:
fall
of 1929, he believed he had dealt with the remaining dif-
“The
latest results are so beautiful that I
dence in having found the natural
But he
field
completed the marvelous theory, to the
my
December
lively mistrust
colleagues in the field.” 62 This was
when he submitted
12,
a variety.” 61
equations of such
he was alone in that confidence:
also realized that
rejection of
have every confi-
“I
have
now
and passionate
still
the case on
the “beautiful results” to the
academy. 63 In 1925,
when
Einstein
attempted
first
“affine connections,” his colleagues
tion
—regarded
— according
his “objective as attainable
This time, they reacted
first
a unified
to Born’s recollec-
and highly important.” 64
and then
skeptically
theory based on
—not only
critically
because Planck’s quantum of effect was missing but also because Einstein
was abandoning several achievements of the general theory of
relativity.
Wolfgang
Pauli,
whom
Ehrenfest called the “scourge of
God” because
of his sharp tongue, lived up to this
Einstein. Pauli
reminded Einstein of his own interpretation of the pre-
title
in a letter to
cession of Mercury’s perihelion and of the deflection of light by the sun: “All this
would seem
to be lost in
general theory of relativity. But
I
your extensive demolition of the
stick to that fine theory,
being betrayed by you. With your remark that you are
even
still
far
if it is
from
being able to assert the physical validity of the derived equations you
have in effect silenced your to
them now
is
critics
to congratulate
among
you
(or
the physicists! All that
had
I
is left
better say: express their
condolences?) on your having gone over to the pure mathematicians.”
The
letter
continued in
this tone,
and Pauli concluded by betting Ein-
stein that “within a year, if not before,
you
will
have given up that
Politics, Patents, Sickness,
whole
and
a
distant parallelism, just as earlier
"Wonderful Egg”
607
on you gave up the
affine
theory.” 65
Einstein thought this forceful letter “quite amusing
Avoiding
superficial.”
all
a
man who
is
certain that he
unity of natural forces from the correct viewpoint
you
did. I don’t
maintain
the correct one. But
at all that the
road
do maintain that
I
natural road that has so far
come
to
my
.
.
is
is
said,
had
justified to
entitled to write as
have taken
I
intellectually
is
judge them dismissively.
come down from
And
opinion.
months have
the
when,
up
in
you
most
the
it is
.
moon and
it is
by no
Forget what you have
.
still
a
mind
as if
had to form
it
you
a fresh
until at least three
elapsed.” 66
would have
wrong but because of his time
all,
.
then' don’t say anything about
Incidentally, Pauli
to give
necessarily
knowledge. Until the mathe-
and immerse yourself in the problem with such just
a little
viewing the
matical consequences have been correctly thought through
means
but
he reproved Pauli with
specific questions,
Olympian kindness: “Only
.
lost his bet
limit. It actually
his distant parallelism.
—not because
he was
took Einstein two years
He made no
excuses for himself
January 1932, he admitted to Pauli: “So you were right
rascal.” 67
after
CHAPTER THIRTY-TWO Public and Private Affairs
Public excitement over
merged smoothly
March
.
The newspapers
14.
on
into the excitement over his fiftieth birthday,
published enthusiastic tributes from
These included the communists
sides. .
Einstein’s unified theory in January 1929
—the “revolutionary
all
proletariat
salutes the great revolutionary of the natural sciences as a fellow
.
fighter against the dark forces of ignorance, barbarism
tion”
1
— and
the popular bourgeois writer Emil Ludwig,
“He
claimed:
is
and reac-
who
pro-
magician and what hangs about him seems
like a
magic .” 2
There was even copies, containing this
a
in a limited edition of eight
hundred
some of the doggerel Einstein was fond of writing;
a vignette of Einstein’s portrait,
Isenstein, a sculptor, in bronze.
tion and
Tower
—
as
It
was
designed by Harald
also created a portrait bust of him, cast
C. H. Becker, the minister of culture, informed Einstein
as “a lasting
On his birthday, at his
who had
3 .
This bust was purchased by the Prussian Ministry of Educa-
“state telegram”
was
volume
was published by the Society of Friends of the Jewish Book
adorned with
by
slim
on
—was to be erected
his birthday
at the Einstein
symbol of your great achievements .” 4 however, Einstein had disappeared. Once again he
comfortable hideout in Plesch’s pavilion.
He had
left to
Elsa
the task of receiving well-wishers and dealing with basketfuls of mail, telegrams, and presents.
from the Berlin
city
There were countless
government which
the millennia be listed
among
one
name “would
over
said that his
those immortals
608
eulogies, like the
upon whose
scientific
Public and Private Affairs
mankind has of the universe
discoveries rests the concept that
rounding
He
it .”
thanked most of his well-wishers with verses
—which he seemed
easily than his formulas.
—copied photo-
to be able to shake out of his sleeve
To
who had
his colleagues,
missed him
weekly Colloquia, he added: “Relying on the saying that you
at the
can’t keep a
may hope
weed down,
I
have slowly recovered to the point where
to take part again in our
Among
his personal letters of thanks, the
“happy one.” Einstein asked Freud:
my case?
You,
who
most interesting
the
many
comedy of
errors.
is
the
for being a
“Why do you emphasize happiness
got into the skin of so
of humanity, have had no opportunity to
Among
I
Wednesday mysteries .” 6
one to Sigmund Freud, who had congratulated Einstein
in
sur-
5
graphically
more
609
many
slip into
people, and indeed
mine .” 7
presents was one which gave rise to a grotesque
The
well-connected Janos Plesch
quainted with Gustav Boss, the mayor of Berlin
—who
was
ac-
—had suggested that
the city of Berlin might give Einstein great pleasure by the gift of a
house on the water. Plesch,
as
he himself pointed out, had acted
“behind Einstein’s back .” 8 Boss, however, approval.
He
first
made
sure of Einstein’s
then got the approval of the city government, and he
even believed he knew the exact property, presumably again through Plesch.
Near
chased the
Plesch’s country residence the city had recently pur-
Neu Cladow estate on
the Havel, with a small chateau and a
large park. In the park, near the riverbank,
was an elegant “nobleman’s
residence,” and this jewel was to be given to Einstein. Although Einstein
would not
actually
own
it,
he would have
dence. This was a generous birthday present
a lifelong right
—and
of resi-
an unusual one,
without precedent in republican Berlin.
But when Elsa turned up to inspect the property, she was informed
by an
aristocratic
gentleman that “she had no business on the
The gentleman was
entirely right:
when
the previous owners sold the
property they had, in the contract, reserved for themselves right of residence.
which
it
The
may have owned
city,
therefore,
but which
it
estate .” 9
a
long-term
had given away something
had no right to dispose
of.
An
610
Unified Theory
alternative
would be
in a
was proposed, by which
Time Out of Joint grounds
a substantial part of the
sliced off the estate, but this too failed in the face of the
contract.
While the newspapers were publishing
sarcastic
commentaries on
public incompetence, other properties were hurriedly proposed,
them
unsuitable.
estate,
One was
situated behind the stables of the
had no access to the water, and,
and
flies.” 10
Another was next to
a terminal
direction with noisy screeching. Eventually stein should find a plot of land himself,
present to it
him
of
Gatow
as the journalists quickly dis-
moment because
covered, “cannot be used at the
all
of a plague of midges
where it
streetcars reversed
was suggested that Ein-
which the
city
—but that he would then have to have
would buy and
a
house
built
on
and pay for that himself.
The newspapers sequence
it
came
got hold of this compromise proposal, and in con-
knowledge of some acquaintances of Ein-
to the
stein’s, a
family called Stern,
Potsdam
at the
who
lived in
Caputh,
south of
a village
meeting point of Lakes Templin and Schwielow.
Sterns were prepared to
sell
The
Einstein an unused part of their property,
about one-third of an acre, on Waldstrasse. This was three minutes’
walk from the water, but forest,
it
was on
edge of the
a slight elevation at the
with a distant view of the Brandenburg lake scenery. Einstein
knew Caputh from Meanwhile, the entitled to give
sailing,
city
away
and he was agreeable.
government had discovered that
a right of residence,
it
was perhaps
but not to make
a
purchase
followed by a donation. In order to meet the budget requirements, therefore, a proposal was
made
at the city deputies’
24 that “for the purpose of the donation of gift to
a
property in Caputh
honor Prof. Einstein on the occasion of
approximately 20,000 marks be the land acquisition fund.” 11 As
the political arena, and there
it
made
available
a result,
meeting on April as a
his fiftieth birthday,
from the resources of
the project had
moved
into
got stuck.
After Einstein had already applied to the Prussian Forestry
Admin-
istration for the purchase of an adjoining strip of land, in order to
round off the property to be given him
as a gift,
and indeed had sub-
mitted his building plans for the house in Caputh, the
German
Nationalist opposition in the city parliament exploited the situation to
Public and Private Affairs attack the Social-Democrat majority, insisted
a
announced under
14, the Berliner Tageblatt
“Public Disgrace Complete
The
on
1
debate from which
would be excluded, and delayed the decision
the public
May
61
a
—
on
until,
banner headline
—Einstein Declines.” on matters concerning Ein-
Tageblatt usually well informed ,
reported that in a letter to the mayor of Berlin, Einstein had
stein,
“with gentle sarcasm pointed out that the affair of this gift to honor
man
for
him now
possible that Einstein had meanwhile
realized that the gift of a plot of land
republic, especially for a
was much too short and that
him had gone on too long
it.” 12 It is
to be able to accept
life
with
would seem rather strange
The
socialist leanings.
in a
plan was
strongly reminiscent of gifts of land by emperors and kings, even
though
it
was on
a
considerably
more modest
scale than, for instance,
Bismarck’s estate, Sachsenwald. At any rate, Einstein decided to build his
house on
mind on
a plot paid for
by himself, and he refused
change
his
this point.
During the search
for a plot, a
young
architect,
had attached himself to Einstein, hoping to
Wachsmann was employed by
fame.
to
a
Konrad Wachsmann,
profit
from
his client’s
timber construction firm in the
Lausitz region; on the basis of its prefabrication methods he designed a
country house with clean style.
but
13
it
somewhat suggesting the Bauhaus
lines,
Except for the foundations,
it
was to be
built entirely of
wood,
was to be winter-proof and equipped with central heating.
While
was being
it
Caputh, in
a
Einsteins spent their
first
summer
in
rented and very sparsely furnished old house in an over-
grown garden by the Einstein’s
built, the
most
of his friends.
water, with
its
own mooring. Tied up
beautiful birthday present, paid for jointly
It
(Porpoise), a fine,
was
a
to
by
it
was
group
a
215-square-foot dinghy cruiser, the Tiimmler
comfortable mahogany-fitted vessel “given to
me by
high finance.” 14 While Elsa, supervising the construction of the house,
was getting on the
architect’s
and the workers’ nerves, Einstein
enjoyed himself sailing on the Havel lakes and pondering the unified theory.
Rural
improving:
almost
life
“My
pleased
him enormously, and
heart isn’t bothering
as before.” 15 In
me
his
anymore, so that
August he even traveled to Zurich
was
health
for a
I
feel
week
Unified Theory
612
Time Out of Joint
in a
—
for the
World
fallen
eighteen months previously.
ill
Zionist Congress
his first
moved
In September 1929 the Einsteins
described
it
large living
“very
as
artistic,
major
he had
into their house. Elsa
very modern! Only four bedrooms, a very7
room, maid’s room, and bathroom. The most modern cen-
heating system and hot water in every corner.” 16 This modernity,
tral
however, did not extend to the furnishings. suaded the famous Bauhaus ture a
trip since
—
at a special price,
good advertisement
artist
Wachsmann had
Marcel Breuer to design the furni-
of course, since such a famous client would be
for the Bauhaus.
But when Einstein saw some of
the designs, he protested that he was “not going to
me
continually reminds
had to watch
a
number of
his creation
idea; instead,
at a
into the house
time
on furniture
Wachsmann
elegant and efficient fittings
when much of the
Einsteins’ savings
—although naturally only from the account
disharmony in the interior decoration. In
had the conservative
—who —now
on Haberlandstrasse. This
tastes
artistic
had gone in Berlin,
not from accounts abroad. Besides, Einstein was not in the ried about
that
being completed by whatever pieces of furni-
ture could be spared from the apartment
reduced costs
sit
of a machine shop or a hospital operating
room.” 17 So nothing came of that
was responsible for
per-
least
wor-
matters he
of any average middle-class person; the
avant-garde had never appealed to him.
Once they had moved resented exceeded
all
in, his
new property and
the lifestyle
I
am
broke
rep-
new
little
as a result.
The
his expectations: “I like living in the
wooden house enormously. Even though
it
sailing boat, the distant view, the solitary fall walks, the relative quiet; it is
a paradise.” 18 Ele left his refuge
Prussian Academy, and
evening
I
now and
must radio Edison
only for some meetings of the
then for some public occasion: “This
direct to
America on
his birthday
—
beanfeast for the journalists. I’m going to Berlin specially.” 19
The
official
reason for Einstein’s trip to Paris was that he was being
awarded an honorary doctoral degree by the Sorbonne. The situation had changed since his last visit eight years previously. There were no
more
political
dated at the
problems; Einstein did not even mind being
German embassy
accommo-
in the splendid Palais Beauharnais
Public and Private Affairs
which made him something of
On
Republic.
to physicists less to say
a
613
representative
the day after his arrival he gave the
and mathematicians
about his
met with Maurice
new
at the Institut
Weimar
of the
first
of two lectures
Henri Poincare, need-
unified field theory; 20 and in the evening he
Solovine, his old friend from his days in Bern.
On November
9
came the solemn inauguration of the new
when traditionally the honorary German ambassador reported, Einstein
semester in the Aula of the Sorbonne, degrees were presented. As the
“was honored by ovations lasting several minutes, which clearly characterized his rank with regard to the other honorary doctors, as well as
The
the unique esteem he enjoys in the French world of science.” 21
solemn ceremony
at the
Sorbonne was followed by meetings of the
Societe Frangaise de Philosophic and the Academie des Sciences.
“Everywhere he was met with the greatest warmth and the most natural respect, and a conversation with as a great
honor.” 22 Apart from the
him was
official
events there were conversa-
and Paul Fangevin,
tions with Eouis de Broglie
universally regarded
maticians Elie Cartan and Jacques Hadamard.
as well as the
mathe-
Only Marie Curie was
missing: she was in America.
The newspapers had
already reported that Einstein would be
accepted into the Academie des Sciences as an
circumstances during his
there
visits
all
associe
etranger
,
and
suggested that this was in-
tended. 23 Einstein, however, objected to the fact that his friend Paul
Langevin had
still
not been elected. Langevin had long been
of the Royal Society and of
he had succeeded Lorentz Solvay and hence
many
other learned societies; and recently
of the Institut Physique de
as president
as the chief
a fellow
organizer of European physics.
Out of
loyalty to Langevin, then, Einstein initially declined this honor: “It to
me
not
a
would be exceedingly painful revered friend Langevin
is
to be elected to this
member
understand the feeling that motivates
The week’s visit ended with German ambassador, to which had been derful,
ego can
invited.
Back in
even though still
it
a
me
of
it.
I
am
body while sure
will
in this request.” 24
formal dinner at the residence of the
the cream of the French intelligentsia
Berlin, Einstein
found
his stay in Paris
“won-
my
shaky
represented the extreme stress that
stand up to.” 25
you
my
Months
later
he
still
recalled “the beautiful
614
Unified Theory
days in Paris, though
I
am
in a
Time Out
happier with
my
of Joint
relatively quiet existence
here.” 26
In April 1930 Einstein
moved back to
his
house in the country, accom-
panied by his wife and the indispensable maid.
Helen Dukas, came over from
tary,
Now and
again a secre-
had been keeping
Berlin; she
Einstein’s papers and correspondence in order since April 1928 and
had almost become
a
member
of the family. Helen Dukas, like Elsa,
had been born in Hechingen; and Elsa had personally selected
young woman and had made
The
sure she was reliable in every respect.
family also included Elsa’s daughters,
who had
husband, Rudolf Kayser,
Caputh and thus were
Then
their
able to spend
Margot and
own rooms
Ilse,
in the
weeks and even months
and Use’s house
at
there.
there was Dr. Walther Mayer, called “the calculator,” a
mathematician from Vienna and the author of geometry,
this
a
book on
whom Einstein had brought to Berlin as his
differential
assistant
toward
the end of 1929. Their collaboration started promisingly and produced a joint
paper 27 submitted to the Prussian Academy. Einstein greatly
appreciated Mayer, describing
him
have long had
he were not
in
Caputh
To
a professorship if
off and
Berliners,
on
—not
as “a splendid fellow
in Einstein’s
Caputh was
a
Jew.” 28 Mayer also lived
house but nearby. back of beyond”
really “at the
reached by train to Potsdam and from there by bus
— and
who would
a
—
it
was
rather infrequent
Einstein did not even have a telephone installed there.
summer while the house The happy homeowner had been
Nevertheless, the quiet rustic existence of the
was being
built did
not
last
long.
rather too generous with his invitations, and everyone came: his sister
Maja, his son Eduard, other
relatives, friends, fellow physicists
from
Berlin and abroad, and a parade of prominent figures, from the cele-
brated poet Gerhart
Hauptmann
to the
famous Indian poet and
philosopher Rabindranath Tagore, an apostle of the mystical wisdom of the East.
Tagore, then on
a
world tour, did not want to miss visiting Ein-
stein,
but the villagers of Caputh must have been surprised to see him
arrive
—on July
14,
1930
—
in a flowing
gown and with
a large en-
Public and Private Affairs tourage.
The
down what
stein’s terrace.
Einstein’s
and
A few weeks
fruit
his host later, it
from the
busily wrote
had to say to each other on Ein-
appeared in print
29 ;
but there was
wisdom
tree of eastern or western
—hence
comment: “The verbal dialogue with Tagore was
because of communication
failure
who
entourage included two secretaries
their master
no wonderful
615
and should of course
difficulties,
never have been published .” 30 Despite
this,
a total
was reprinted many
it
times.
Einstein was so fond of his rural existence that he stayed away from the physics Colloquium and even the weekly meetings of the academy,
turning up only
when Planck
or he himself submitted
a
paper
now
neither of these was a frequent event. “Apart from the
tors
who come and
go, life
idyllic,” Elsa said
is
of a
— and by
many visihappy summer in
Caputh. She was even enthusiastic about her husband’s energy: “Albert
working
is
as
he has hardly ever worked before. Has thought up
the most wonderful theory.
only
it
It’s
getting
more
beautiful every day. If
proves to be true ///” 31 But her loyalty was of no use; the theory
of distant parallelism had nothing more to yield, and even Einstein’s
Mayer produced nothing
collaboration with Walther
further that was
suitable for publication.
To
the Berliners Einstein was
became the
subject of
was responsible for
still
the world’s greatest scientist, and he
numerous anecdotes. For example, Janos Plesch
a story
about something that occurred when he
and Gustav Boss, the mayor of Berlin, were with Einstein country house.
from
a
When
at his
the wind brought the pungent smell of sewage
nearby sewage treatment plant, the mayor
felt
somewhat
responsible for this unpleasantness and put the embarrassed question to Einstein
whether
this did
country. Einstein’s answer
ment” 32
— “Now
—soon made the rounds
“He was not
when he was
not annoy him
and again
in Berlin;
afraid of lasciviousness.
One
I
return the compli-
and Plesch
is
staying in the
at ease
said of Einstein,
with him .” 33
Einstein was not only the subject of countless anecdotes but also an object of humor.
These jokes were inspired
in part
by
his increasingly
conspicuous appearance. Comedians in nightclubs and cabarets often
Unified Theory
616
made cheap
Time Out
of Joint
jokes about the supposedly unworldly professor,
mane of hair and musician than
As
in a
violin case
made him look more
like a
down-at-heels
a scientist.
a violinist Einstein
was greatly feared. “Einstein’s bowing was
that of a lumberjack,” a professional violinist recalled. 34
had long ago given up regular practicing. have his playing
who
Fischer,
whose
Still,
No
doubt he
he could not bear to
daughter of the publisher Samuel
criticized, as the
him
frequently accompanied
at the piano,
informs
us.
She herself witnessed repeated outbursts of anger: once, playing the
Bach concerto
Hauptmann poet
—
for
two
good
a
violins,
he suddenly shouted
violinist
who was
at his partner,
Eva
the daughter-in-law of the
— “Don’t play so loud!” According to Tutti Fischer, Einstein got
a lot Still,
more
excited over musical disputes than scientific disputes. 35
he actually performed publicly in the second movement of the
Bach concerto,
at a
But
a benefit concert for the welfare
as this
was
concert in the Oranienburger Strasse synagogue. 36
and youth department
of the Jewish community, perhaps the beauty of his tone was not very important.
Despite the relaxed atmosphere in Caputh and in the Einsteins’ town apartment, their guests did not always feel comfortable. hardly miss the fact “that relations between inexplicably cool. there.” 37
The
magnet
acts
mann, he had
— among others—had observed, acted on women
on iron
clearly
filings” 38
and did not find
this effect in the
breaking off his relationship with Betty
not contented himself,
with seeking his happiness in the
stars.
as
ization that he
Although he remained married
company of
was not suited to the role of a
fall
husband.
woman, not much younger than
widow, elegant and exceedingly
large villa
faithful
his real-
of 1925, Einstein had frequently been seen in the
a beautiful
had an exquisite
Neu-
he then wrote to her,
he confronted her, with characteristic directness, with
Since the
were
atmospheric disturbances were due to the fact that Ein-
least disagreeable. After
to Elsa,
his wife
could
Frau Einstein was there, and yet she was not
stein, as his architect
“as a
him and
They
lifestyle,
attractive.
keeping
on the Wannsee. 39
It
a car
himself, a
This woman, Toni Mendel,
and chauffeur, and living in
a
had become Einstein’s custom to
Public and Private Affairs
many
spend
a
day and many
night there, at one time even mooring
a
on the Wannsee. Einstein never made
his sailboat
extended family, even Einstein showed
if
arrived to pick
him up
On
Einstein was not a for
many
at the theater,
for an evening at the theater, there
man
to
worry about such
years remained his regular
and even
sailing at
there was
women. He had
all
came
to
could not bear at
scenes, and so
companion
affect his relationship
left
at concerts
with Toni
friend, again with limou-
who owned
there was Margarete Lenbach,
all.
Toni
Berlin in 1932.
“the Austrian,” a very pretty, youngish blond, stein’s wife
let
to be seen in public with
sine and chauffeur, Estella Katzenellenbogen,
shops. But above
—Elsa would not
Herr Professor was “fond of
By then he had long had another woman florist
noisy
Caputh. But she was not the only
no shortage of pretty women eager
Mendel, though, even when she
a
weakness for pretty women.” 41 And
a
This did not seem to
a genius.
was
for his night out. 40
one; as the housemaid recalled, the at pretty
his
one occasion when Toni Mendel
apartment while the car waited below
in the
looking
this rela-
diplomacy in standing up to her husband;
little
him have the necessary petty cash
and
of
she was only just tolerated by his wife. Elsa
instead, she tried to bully him.
Mendel
a secret
and Toni Mendel seemed somehow to belong to
tionship,
row
617
a
chain of
known
as
whose presence Ein-
Despite Elsa’s attitude, “the Austrian”
Caputh regularly once
week, and, again according to the
a
housemaid’s recollection, the Frau Professor on those days had no choice but to clear out and travel to Berlin early in the morning to do
some shopping. 42 Although Einstein cared
little
about the gossip in Berlin, and
about the outrage of the villagers
whom
at the
he would go sailing or drop anchor
less
female companions with
among
the reeds, he was
anxious about his reputation with posterity. All the letters between
him and Toni Mendel, even those first in
Zurich and then,
request. 43
From none
in later years
like himself, in
of the
when
America, were destroyed
women, not even from
shadows of history.
like his
at his
“the Austrian,”
have any written traces of affection been preserved for intended these women,
she was living
us.
He
clearly
daughter, Lieserl, to vanish in the
618
Unified Theory
Time Out of Joint
in a
KB Einstein’s desire to keep his private
who hoped
to write about
him
life
private
—most of
all
was clear to everyone
his stepson-in-law
Kayser, an editor of Neue Rundschau and an advisor to the
Rudolf Fischer
S.
publishing house. Kayser was planning to publish a biography in con-
nection with Einstein’s
The arguments
fiftieth birthday.
used by Einstein to dissuade Kayser were probably
same which he used on David Reichinstein, another prospective
the
biographer,
some time
later.
Einstein thought
“in
it
bad
biographies or autobiographies published of persons the most he
taste to
have
living.”
still
would accept accounts “which relegate personal aspects
the background.”
And
finally,
no doubt remembering the
fuss
They
me
regard
to
about
my
per-
as vain
and
Moszkowski’s book in 1921, he pointed out that “people of sonal circle are alienated as a result.
At
Even though such views do
publicity-seeking, and quite naturally so.
not in themselves greatly concern me, they yet considerably complicate
my
whereas
life,
I
as
you can well imagine, and create
love a harmonious one
Having forbidden
atmosphere,
a tense
more than anything.” 44
his son-in-law to publish in
Germany, but not
having ruled out publication abroad, Einstein suggested the same to Reichinstein. Although this was
“in
still
bad
taste,”
“the authors really needed, or rather need, to
they cannot be expected to wait until
I
am
he conceded that
make money, and
dead.” 45 However,
that
when he
had read parts of Reichinstein’s manuscript he wrote to the author that
“my good script
will
is
now
anywhere and
definitively at
an end.
If
you publish
any manner, then everything
in
will
between us forever.” 46 The book nevertheless appeared 1934,
much
manu-
be finished
in
Prague
in
to Einstein’s displeasure. 47
Kayser’s biographical sketch appeared in a
this
pseudonym, 48 but with
a short
New York in
1930 under
(and no doubt promotional) foreword
by Einstein himself, confirming that the author was well acquainted with him. But Einstein’s assertion that he had read the book and found all
the facts accurate cannot be true, in view of several bad mistakes.
Einstein probably avoided this book, as he did
about him, following “a rule to which
I
have
all
subsequent books
strictly
adhered ever since
Public and Private Affairs
my
newspaper fame. In
this
way one
619
doesn’t get spoiled by praise or
depressed by blame.” 49
Einstein himself often used the device he had suggested to his biogra-
When
phers: publishing abroad.
appeared in The
German
New
—but
Field Theory
only have been his fee
regarded in
a
newspaper
Germany
as a
—
in hard
article
on
his
breach of scien-
etiquette.
He
chose
written in
method
this
Berlin
also for a very personal text,
which he had
1920 but allowed to be published only in
in
America. 50 Under the
title
thoughts on the
his
may not
concern that writing
also his
own work might have been tific
New
York Times and The Times of London, but in no
paper, the reason
currency
The
his article
The World
“existential
as I See It Einstein sketched out ,
of us
situation
derived, at times even to the choice of words,
earth-dwellers,”
from Schopenhauer.
He
listed his ideals as
“goodness, beauty and truth” and praised “the mys-
terious ... as the
most
beautiful thing
not profound or original insights, and all, it is
if
experience.”
These
are
they have any significance
at
only that Einstein did not shrink from perpetuating the cul-
tural values of a bourgeoisie that
new
we can
culture.
These cozy
ideas
was scarcely capable of creating any
might have been
set
down by any
pro-
fessor or schoolmaster.
Einstein’s resolute championship of social justice and democracy, especially the
demic
American version, would have been more unusual
Now
circles.
and again, though,
a
very
in aca-
German and
very
romantic cult of genius shows through. Einstein describes “personality” as the “really valuable quality: it
alone creates things noble and
sublime, while the herd as such remains dull in thought and dull in feeling.”
This kind of elitist contempt for the
common man
been voiced, or even written, by any reactionary academic
could have
—but not so
the harsh words which Einstein had for the military: “If anyone can take pleasure in marching to music in line, dressed by the right, then
1
already despise him; he only received his brain in error, as his spine
would be quite many, where
sufficient for him.” If this
a field
had been printed
in
Ger-
marshal had for the second time been elected
Unified Theory
620
president, Einstein
in a
Time Out
of Joint
might well have found himself facing
a criminal
charge.
In a revealing and very intimate passage, which sees the
how he
world but about
ambivalence:
“passionate
his
sense
not about
he explores
of social justice”
marked lack of
“strangely contrasted with a
a
never belonged wholeheartedly to the
my own
a
how he
source of
had always
need to attach himself
human communities.” He
either to individuals or to
who
sees himself,
is
state,
is
a real “loner,
my
the homeland,
family, but experienced with regard
circle
of friends, or even
to
these ties a never abating feeling of outsiderness and a need for
all
solitude.
.
.
.
One
experiences clearly, but without regret, the limit of
communication and consonance with other people.”
When freely ...
and
he was directly,
less
more
steeped in Schopenhauer and speaking
he described
an unattached person,
his life in Berlin as that of “a
who was fond
of everything.” 51 This sounds
of looking at the comical side
bombastic, but
less
Gypsy
it
describes only one
aspect of Einstein’s fluctuation between his loner’s need for indepen-
dence and his growing urge to intervene in social and matters
—such
as his pacifism
and
political
his appeals for resisting the draft.
Einstein had always been a pacifist, virtually by nature; but his
tude during
World War
I
was
and did not go beyond that of
The
fact that in the late
due to
his
essentially that of a private individual a small circle
at the failure
enforce disarmament and proscribe war.
To me
gas, Einstein
a call for the refusal
try to
of the League of Nations to
When
the League achieved
successes, such as codifying the rules of warfare
ning the use of poison cism and
of like-minded people.
1920s he turned into a militant pacifist was
disappointment
some minor
impose certain
quite pointless.
atti-
War
responded with
fierce public criti-
of any kind of war service:
rules
and restrictions on war seems to
simply
is
no game and cannot be con-
ducted according to the rules of a game. such, and this can be done
and ban-
most
War must be
effectively
opposed
as
by the masses through
an organized wholesale refusal of military service already in peacetime. 52
Public and Private Affairs
This
first
621
declaration, at the beginning of 1928,
by greetings and messages
flood of statements, and pacifist organizations,
was followed by
a
members of
to
with the result that Einstein soon rose to be the
hero of militant international pacifism.
He
was
aware that with regard to
fully
my
were “stronger than
problem
this
reason.” 53 His words, moreover, were often
aggressive, implacable, and anything but peaceful. cult
problem of
a “just
his feelings
For him, the
diffi-
war,” discussed by international lawyers and
philosophers from Grotius to Kant, was settled: military service,
without exception, was preparation for organized murder. This
is
what
he wrote in the “Golden Book of Peace” of the World Peace League
in
Geneva:
No
person has the right to
long
as
he
is
in systematic
prepared, at the
murder or
call
himself a Christian or a Jew so
command
of an authority, to engage
to allow himself to be misused in any
way
whatever in the service of such an enterprise or the preparation for
it.
54
Asked what should be done “I
if war
would absolutely refuse any
endeavor to induce regardless of the
my
direct or indirect
friends to adopt the
broad cross-section of situation changed,
fist
less
commitments,
was soon forced to
quantity of
“I
and
for
human
would have no objection
i.e.,
the courts.
human
life.” 56
I
I
especially shocking
who was
am
against
appreciate
life.
among
a
had nothing
“In principle,” he
to the killing of worthit
only because
more
is
I
do not
the quality than the
This assessment of human
viewpoint of quality and quantity
self,
moreover
revise his views.
Einstein’s rigid pacifism, they
or even harmful individuals;
it is
and
connection with the death sentence, in the midst of his paci-
trust people,
and
attitude,
be, regarded as scandalous
still
do with unconditional respect in
service
nations. Einstein himself, as the political
all
Whatever the roots of wrote
same
war
judgment on the causes of war.” 55 Such statements
were, and no doubt would
to
came, he had an unequivocal answer:
life
from the
the jargon of the “master race,”
coming from someone who regarded him-
regarded by others,
as a
humanitarian
pacifist.
But
Unified Theory
622
in a
Time Out of Joint
anyone examining Einstein’s attitudes
time and again
will
come up
against glaring contradictions. Einstein evidently was able to live with
them, possibly because he did not even notice them.
Germany
In
all
military matters continued to enjoy great respect,
despite the horrors of the world war; but Einstein’s call for a refusal of military service was largely academic there, since under the treaty of
Germany had only a small army and no conscription. Still, wherever a young man was arraigned in court for refusing to serve
Versailles,
whether
in Finland or in
Poland 57
—Einstein would
writing to ministers and to military courts.
compromise: even the
militia
On
raise his voice,
this issue
system of Switzerland
—
a
he made no
country quite
incapable of aggression, and a system to which he had paid his personal tribute ever since his forty-second birthday
did not
now
when, in 1929, the
principles
He
escape his condemnation. 58 security,
by paying
his
army
even stuck to his
tax
pacifist
and perhaps the very existence,
of his “tribal companions” in Palestine was endangered.
Despite his ambivalent attitude toward Zionism and his anger
way Hebrew
at the
University was developing, Einstein attended the six-
teenth Zionist Congress in Zurich in August 1929. This event was the
crowning culmination of Weizmann’s
efforts to unite all organizations
involved in building up a Jewish Palestine under an umbrella Jewish
Agency—-regardless of any naturally under his
The
own
political differences
between them, and
presidency.
speakers at the opening session
—on
Sunday, August 11
included the most prominent advocates of a Jewish homeland in Pales-
such
tine,
as Felix
Warburg and Lord Samuel (former
British governor
of Palestine), and of course also Albert Einstein. Typically, he sin-
welcomed
cerely
those rest
who .” 59
.
.
call
“the
courageous
and
efficient
minority
themselves Zionists” and then continued: “But we, the
The demonstration
unimpressed. In the evening
of Jewish unity did not leave Einstein
at the
Grand Hotel Dolder he wrote on
the hotel’s elegant notepaper: “This day the seed of Herzl and
mann
of
has ripened in a wonderful way.
Not one
Weiz-
of those present
remained unmoved.” Weizmann wrote below, “Mille amities. Je t’embrasse,” 60 and kept this precious document to the end of his life. Soon,
Public and Private Affairs
men were
however, both
623 had ripened on con-
to discover that the seed
tended ground.
No
sooner had Einstein returned to Berlin than the newspapers
reported serious attacks by Arabs on Jews in the Old City of Jerusalem. Excesses spread across Palestine like wildfire; hundreds of Jews were brutally British
done
to death in
Elebron and Safad before the troops of the
Mandate succeeded
had for
in quelling the revolt. Einstein
a
long time ignored the conflict between the long-settled Arabs and the
Jewish immigrants, and he had underestimated
even after the out-
it
break of the revolt. Misreading the actual state of to hold Britain’s policy of “divide
affairs,
he tended
and rule” responsible for
all
the
problems. In a statement published
first
in
England and then worldwide, Ein-
4T
stein sharply
British
condemned
the Arab marauders and the failure of the
Mandate; but unlike most Zionists, he
action but for a fair settlement based
not wish to
live in
British bayonets.
When
a
on everyone’s
interests:
“Jews do
the land of their fathers under the protection of
They come
speaker at
called not for punitive
a
as friends
of the kindred Arab nation.” 61
meeting in Berlin demanded that the Arabs be
punished according to the law, Einstein reproached him for having “spoken like Mussolini” and ciliation.” 62
When,
shown
finally, several
murder had been sentenced
“a lack of the spirit of con-
Arabs
who were found
guilty of
to death, Einstein, jointly with the Inter-
nationale of Military Service Refusers, approached the high commissioner of Palestine with a request for the sentences to be
commuted
to
imprisonment. Einstein also appealed to
Weizmann
to seek
ways of “peaceful
cooperation” with the Arabs; otherwise “we would have learned
nothing from our 2000 years of suffering.” 63 In an exchange of with the editor of an Arab journal in
Jaffa, Einstein reiterated his
conviction that “the two great Semitic peoples
.
.
.
have
mon
future” 64
trust
through sensible cooperation. His suggestion of
if
only they could find
letters
a
way
a great
com-
to abolish mutual misa secret
council
of four Jews and four Arabs to represent and harmonize their interests vis-a-vis the British
unrealistic.
Mandate was, of
course, both arbitrary and
Unified Theory
624
An
important scientist
in a
who had
expected by his colleagues not so
Time Out
of Joint
passed his
much
fiftieth
birthday was
to produce exciting
new
dis-
coveries as to be a dignified representative of their discipline and a wise
organizer of research. Einstein had persistently evaded this second role
while giving a dazzling performance in the
as a representative
first:
of physics for the public. Newsreels suggest that he derived a good deal of pleasure
from
this role
—for instance,
in
August 1930, when
he opened the Seventh German Broadcast and Phono Exhibition of the radio tower in Berlin. Wearing an elegant
at the foot
mane of prematurely gray
hair
blown by the wind, he stepped up
microphone-studded rostrum and,
to the
carried by
all
German
suit, his
as his address
was being
radio stations, began “Dear present and absent
listeners.” 65
He
did not overlook the opportunity to urge his audience of mil-
lions to
show
greater respect for science and technology:
listen to the radio, give a
thought also to
how men came
“When you
to possess this
wonderful instrument of information. Because the prime source of technical achievement
is
the divine curiosity and the playful urge of
the tinkering and pondering researcher, just as tive fantasy
much
as the construc-
of the technical inventor.” Citing a chain of scientific
ancestors, he paid tribute to Oersted, Maxwell,
and Hertz, and among
the technological pioneers to Reis and Bell; but he also rated the
all
commemo-
“army of anonymous technicians, who so simplified the
instruments of radio communications and adapted them to mass
manufacture that they have become accessible to everybody.” C. P.
Snow would
later describe as the
problem of the “two cultures”
Einstein dealt with in a single brief remark:
ashamed, those
who
thoughtlessly
What
“They should
make use of the
all
be
miracles of science
and technology, without understanding any more of them than the
cow does of the botany of the
plants
his expectation that broadcasting
it
eats
with enjoyment.” However,
would perform
a
unique function “in
the sense of international conciliation” was not fulfilled; and less than
three years later
propaganda.
it
was being used in Germany
as a tool of the vilest
Public and Private Affairs
625
Since 1923 Einstein had not exercised his right to lecture at the uni-
Thus
versity.
interest
was
the greater
all
sional lecture, not only because of his
“Among
an orator.
to a wider audience”: this
a
did give an occa-
fame but because of his
the 60 colleagues in the
due preparation, convey
can, after
when he
more or
talents as
Academy most of them less laborious instruction
was how Fritz Haber characterized the
average level of academic rhetoric
when he thanked
Einstein for
having undertaken a public lecture. “But the combination of professional ability, skill of presentation,
needed
for shaking such a
and personal freshness which
is
—that
is
performance out of one’s sleeve
found in you alone.” 66 In consequence, the hall was invariably crowded
no matter whether he spoke
tured,
Working Group of just
under
a
when
to the Mathematical-Physical
the university in Hall
No.
122,
accommodating
thousand, on Theoretical and Experimental Aspects of the
Wilhelm Society
Question of the Generation of Light, 61 or to the Kaiser
Goethe Hall of the Harnack House
in the
Einstein lec-
in
Dahlem, with
of 450, on Physical Space and the Ether Problem
6%
For
stein did not use prepared manuscripts; at most,
a capacity
his lectures Ein-
he referred to
a
few
notes on a scrap of paper.
A magnificent and well-documented instance of Einstein’s skill as a speaker was his address in June 1920 at a festive meeting of the
German
Planck’s doctorate the time,
way
to Planck himself
first
which Einstein
in
To mark the fiftieth anniversary of Max Max Planck Medal was presented for the first
Physical Society.
and then, by Planck, to Einstein. 69 The
in his acceptance speech paid tribute to the
achievements of his “revered master”
development, the way he opposed
as the basis
of his
own
with the quantum
his struggle
riddles to the already established statistical interpretation,
he
and for setting an example of achievement of oratory that Plesch
is
back of
and the way
thanked Planck for stimulating and supporting his
finally
is
—
scientific integrity
a
shoemaker’s
bill
all
this
rarely found in science. 70
to be believed, Einstein
had jotted down
just before the
scientific
a
own work marks an
And
if
Janos
few words on the
meeting, and then only
Unified Theory
626
in a
Time Out
of Joint
because he feared that he might be overcome by this tribute to his great father figure. 71
Einstein’s admiration of the “master,” however, stopped short of will-
become
ingness to
enough,
this
Planck’s successor at the university. Naturally
most prestigious position had
to be offered to Einstein
because of his “unique position”; but “a confidential inquiry has
first,
revealed that
Herr Einstein does not wish
to see
any change
in his pre-
sent relationship with the faculty, which fully satisfied him.” 72 His
comment on the prolonged search for “Thank God I am aloof and don’t have to
a successor to
participate
to in this race of the intellects. Participation in
it
Planck was:
more than I want
has always seemed to
me a bad kind of slavery, no less than a hunger for money or power.” 73 What mattered to him most was preserving his own independence. By then one could hardly have visualized him in the
strict
routine of fac-
ulty meetings and classroom teaching.
When
Erwin Schrodinger was eventually appointed, Einstein had
new colleague
not only a
he
felt
trian
in
In
—
common with
—than with the stiff-necked Prussians.
While
his
work
physics, Einstein self
more
that he had
many respects Schrodinger who was Aus-
new friend.
but, soon, also a
in Berlin represented an
enormous enrichment of
had always been rather reluctant to concern him-
with organizational matters. Throughout the two decades of his
directorship
helm
no
start
was made on the construction of the Kaiser Wil-
Institute for Physics (the institute
money from
era,
with
this
was largely due to
As early
as 1914,
built only during the
Nazi
the Rockefeller Foundation in America), and his
when
own
—
lack of interest.
in connection with his
—the foundation of
Academy
Prussian
was
a
Kaiser
appointment to the
Wilhelm
Institute for
Physics under his directorship was being considered, Einstein had
wanted
his salary to
stitute. It
be settled independent of the Kaiser Wilhelm In-
might well turn
out,
he
said, “that I
for the directorship of the institute
so that
I
might
and
... the
find myself induced to lay
am
not the right person
work connected with
down
it,
that office.” 74 Because
Public and Private Affairs
627
of the war, the institute was not actually founded until 1917, and then
only
as a provisional expedient,
existed only in the attic of
without
its
own
director, Einstein,
its
building or
though
it
staff. It
did have a
fund for financing physical research. After his trip to Japan, Einstein delegated
von Laue, and he wanted
this
proper institute was set up:
K.W.
he wrote to
Institute,”
“Then
turing.”
according to
“I
I
its
management
to
Max
arrangement to continue even when
would
like it best if
his colleague,
a
you were given the
who was
tired of “lec-
would enjoy going there myself and taking part
my abilities.” 75
But Einstein did nothing toward the
real-
ization of such an institute.
Not
until
March 1929
did Einstein, jointly with colleagues from
the board, submit a proposal for an institute of theoretical physics.
This would concern in
itself also
with topical experimental problems and
consequence would be rather expensive.
would be more than gone
justified
expenditure, however,
because “theoretical physics has under-
development unprecedented
a
The
in the history of the discipline, a
development so powerful and successful that we are almost embarrassed
when looking
science. It
for anything
would be no exaggeration
has over the past quarter-century
most
light
fields.” 76
Institute
comparable in the entire history of to say that theoretical physics
become
.
.
.
the center from which the
and the strongest inspirations radiate for
activity in other
The following day the scientific staff of the Kaiser Wilhelm in Dahlem were emboldened to propose to the president the
establishment of an Institute for Theoretical Physics, in order to
remedy the
“lack of an intellectual center.” 77
Implementation of these plans was of money. This was remedied a year
at first
prevented by
later, in
April 1930,
Rockefeller Foundation provided the colossal
sum
a shortage
when
the
of $655,000 for
building an Institute of Cell Physiology and an Institute for Physics. 78
The
Institute of Cell Physiology,
directorship,
was inaugurated
Physics did not even have
The
Americans,
director,
were
its
who had
under Otto Warburg’s energetic
as early as 1931;
but the Institute for
questions of staffing settled by then. largely relied
bitterly disappointed
on
Einstein’s prestige as
when they
visited Berlin
its
toward
Unified Theory
628
in a
the end of 1930. Einstein had just a
rumor
Time Out
left for
of Joint
America, and there was even
that he had accepted a position at the California Institute of
Technology. Friedrich Glum, the administrator of the Kaiser Wilhelm
was able to refute
Society, with the title of director-general,
this
rumor, though he admitted that Einstein was “erratic in his decisions”
and
a “difficult” personality,
for anything.”
Glum was
and that “with him one has to be prepared
not even able to provide any information on
Einstein’s position in the institute: “Einstein could very well
the institute and find
it
but
a suitable place for his activities,
would prefer
possible that he
move
into also
it is
own home and do
to stay in his
his
thinking there.” 79 Einstein in fact did prefer to do his thinking at home, so that Planck,
who had become some
nack’s death, had
president of the society after xAdolf von Har-
difficulty
establishing the Institute.
applying the Rockefeller
The American
a
While
his friends,
Institute
when
Einstein had long
and maybe he himself, believed that with the acqui-
country house the “Gypsy” had settled down, Einstein was
getting ready for another journey.
the
Wilhelm
Germany.
sition of his
way
Kaiser
into being in 1936, under the director-
ship of Peter Debye, but this was at a time since left
promise, even after the
its
National Socialist seizure of power, and so
come
money and
foundation, despite consider-
able misgivings, did not wish to revoke
for Physics eventually did
Max
to California
—
Mount Wilson
and using
a giant
stars
were showing him the
in an entirely scientific sense.
The
astronomers of
observatory, financed by the Carnegie Foundation
hundred-inch reflector telescope, come up with sen-
sational observations
and discoveries that cast
ture of the universe. Moreover, that wonderful
The
a
new light on
the struc-
one of the guests in Caputb during
summer of 1930 had been Aj-thur Fleming,
the board of the California Institute of
Technology
president of
in Pasadena,
which, under Millikan’s presidency, had developed into a top-ranking university.
When
Fleming renewed Millikan’s
invitations, Einstein
now showed
Wilson observatory and the discoveries
by the
earlier unsuccessful
great interest, because of the
theoretical processing of
fine physicists
its
Mount
astronomical
of Caltech, such as Richard Chase
Public and Private Affairs
Tolman and Paul
To
Epstein.
629
cooperate with them, not just
as a “table
ornament,” was so tempting to Einstein that he declared himself ready to spend the first
A
fee of $7,000
A
professor.
two months of 1931 there
was agreed on;
more permanent
this
as a “research associate.” 80
was the annual salary of
a senior
association at an even higher fee was
being considered. Einstein’s ready acceptance of this offer
was connected with the
universe, and possibly also with a probing search for a
new
orientation,
but probably not with this earthly vale of tears or the political situation in
Germany. Admittedly, the economic
ther deteriorated since the
fall
ment. tists
who,
down
in the
economy measures of Heinrich
The growing army for lack of
of unemployed included
money, had
its
Young
Plan, and
Briining’s govern-
many young
scien-
But no one, not even
lost their jobs.
the politically attentive Einstein, suspected that the
was nearing
fur-
of 1929, because of the worldwide
depression, the reparation payments laid the consequential
Germany had
situation in
Weimar Republic
end.
mar
Einstein certainly did not allow politics to
his
summer. In
the Reichstag elections of September 14, a previously unimportant splinter group, the National Socialists
Hitler
—received over
six
But
their “Fiihrer,”
Adolf
million votes; and in consequence the worst
kind of anti-Semitism established force.
—under
itself in
in reply to a worried inquiry
the parliament as a political
from the Berlin
Jewish Telegraph Agency “whether united Jewry
is
office of the
necessary for
defense,” Einstein confidently replied:
For the time being a
I
see the National Socialist
movement only
as
consequence of the momentarily desperate economic situation
and
as a childish disease
believe,
is
always called
tion results
of the Republic. Solidarity of Jews,
for,
I
but any special reaction to the elec-
would be quite inappropriate. 81
For one more year he would
still
than some others, he realized that
Before his trip to America’s
be able to
feel
secure
Germany was on
West Coast
—
until,
sooner
a fatal course.
Einstein spent a few weeks
traveling through Europe. First he took part in the Solvay Conference
Unified Theory
630 in Brussels
from October 20
to
Time Out
in a
October
netic properties of matter, attracted
him
of Joint
25. Its real subject, the less
mag-
than did the continuation
of the debate on quantum mechanics, although he was unable to convert anyone to his point of view. 82
This was followed by three days in London. Einstein had promised to participate in an event staged
by two organizations dedicated
alleviating the hardships of eastern
to
European Jews. Herbert Samuel,
who had been Einstein’s host as high commissioner of Palestine, was now England’s postmaster general. He had invited Einstein to stay at home, and Einstein had accepted with “great
his
made
the business of a Jewish saint will not only be will
become
a
joy”: “In this
easier for
manner me, but
downright pleasure.” 83
Sir Herbert,
whom
with
Einstein conversed mainly in French,
arranged some pleasant dinner parties for him and conducted him to the Strangers’ Gallery of the
House of Commons. Even
the charity
dinner at the elegant Savoy Hotel, presided over by Lord Rothschild, turned out to be an agreeable occasion, especially thanks to George
who was
Bernard Shaw. Shaw,
then seventy-four,
made
a spirited
speech in front of the microphones and film cameras in honor of Einstein, praising
him
in the
same breath
creator of universes. 84 Yet there were his address to
make
as
Ptolemy and Copernicus
as a
enough sparks of malicious wit
the guest of honor, as
shown
in
in the film clips,
laugh heartily.
The still
following day,
amused about the
when he was Weizmann’s guest, Einstein was “monkey comedy” at the Savoy, when most of
the guests were unsure
whose hand they should shake
Rothschild’s or the “Jewish saint’s.” 85 stein
told his host,
dreamed
that he
Sir
come
such matters: “Je ne suis pas
From London
the
He
to England. ‘practical.’
was not
really suited to
” 86
Einstein traveled to Zurich, but with a stopover in
Laeken Palace. The previous
year, while visiting his favorite uncle Caesar
on
to the station Ein-
in the kind of public events for the
Brussels in order to visit the “royals” at
stein had,
way
—Lord
Herbert, that in younger years he never
would take part
sake of which he had
On
first
May 20,
Koch
in
Antwerp, Ein-
1929, been invited to the palace by
Queen
Eliza-
Public and Private Affairs
beth of Belgium. Elizabeth,
member
a
631
of the former Bavarian royal
family of Wittelsbach, was musically minded; and Einstein had played
with her and
a trio
a lady-in-waiting,
taken tea with her, and tried to
explain his physics to her. 87 At that time the king had been trip,
but he was
now
received with touching cordiality. purity and goodness that
Then came
trios (there
was
Then everyone
—no
potatoes, just that. ... is
seldom to be found.
an English lady musician and
and very cheerfully.
the feeling
is
where
These two simple people First
we
we
left
and
I
liked
it
was
are of a
chatted for an
few more hours,
was alone with the
servants, vegetarian, spinach with fried I
I
played quartets or
also a musical lady-in-waiting) for a
Royals for dinner
a
present. This second visit was described by Ein-
stein in a lively letter: “I drove to the Royals at 3 o’clock,
hour.
away on
there enormously and
I
am
egg and
sure that
mutual.” 88
His impression was correct.
between Einstein and the
An
“royals,”
unusual friendship developed
which was
part at certain turning points in his relationship had nothing in
crowned heads occasionally
common
life.
to play an important
From
the very start this
with the familiar convention of
cultivating intellectual giants.
A
shared
view of the world war, during which King Albert had manfully stood
by
his tortured people, while Albert Einstein in Berlin
distanced himself from
and
scholarship
—
all
German this
had manfully
chauvinism, a shared interest in music
undoubtedly promoted
mutual
under-
standing. But the friendship between Einstein and the “royals” far
beyond
a
harmony of interests. The
Queen”
the “Dear
to the
touching testimony to
a
end of
letters
his life
went
which Einstein wrote
—the king died
in
1934
to
— are
deep and enduring sympathy.
In Zurich Einstein was the guest of honor at the celebration of the seventy-fifth anniversary of the foundation of
University.
The honorary
doctoral
ETH,
degree,
the Swiss Technical
awarded to the man
rejected for an assistant’s post years earlier, probably
him than
his
count.
He
Besso
visit
many
home
at Mileva’s
leagues in Zurich.
to
other doctorates, which he had long ceased to
stayed at the
him
meant more
The
of his “past one,” 89 had his old friend
apartment, and enjoyed seeing his col-
only shadow cast on his stay was concern about
Unified Theory
632
who was
son Eduard,
his
and had musical
in a
Time Out
of Joint
studying medicine, was highly intelligent,
but was showing serious symptoms of mental
talent,
instability.
Back
had three weeks
in Berlin, Einstein
left
before his voyage to
The trip to America was to have been a working visit, without much public fuss but Einstein himself saw to it that the opposite happened. He could by now shrug off the excessive interest California.
—
the press solo.” 90
showed
But
I
make becomes
not stop him from sounding
this did
This was
self.
“Any squeak
in him:
a lengthy article called Religion
a
a
trumpet
vigorous solo him-
and
Science
,
which on
New
York
common among
edu-
cated freethinkers, but then emphasized a higher level of “cosmic
reli-
Sunday,
November
9,
took up the
first
four pages of The
Times Magazine. Einstein reproduced the critique of religion
giosity,”
devoid of
all
anthropocentric echoes and based on “the
miraculous order that manifests of ideas.”
From
this
strongest
Between the
lines,
but that the
was
latter
scientific
research.” 91
was deeply
this article
religious.
remained deservedly unnoticed when it
it
in Ein-
— Reform Jews, enlightened Protestants, Unitarians — the orthodox of regarded
“cosmic religiosity”
Quakers, and
all
faiths
it
atheism or “the sheerest kind of stupidity and nonsense.” 93 At any Einstein had again
become
a topic
number of telegraphed
vast
which arrived
Haberlandstrasse from America
would be
at
a hectic trip.
as
rate,
of interest in America at the right
moment, and the
this
was
triggered violent controversies in Ameri-
Although there were many who recognized themselves
stein’s
in fact
but not to be overlooked, was a statement that, in
republished in Germany, 92 ca.
religiosity,
and noblest mainspring of
this sense, Einstein
Whereas
nature as well as in the world
he concluded not only that there was no conflict
between science and cosmic “the
itself in
invitations
made
and proposals it
likely that
CHAPTER THIRTY-THREE Farewell to Berlin
The long voyage to California ber
1930,
2,
on board the Belgenland
Einstein was to travel several
started in
Belgian steamship on which
a
,
Antwerp on Decem-
more times over
the next few years. His
party included his wife; his secretary, Helen Dukas, as “girl Friday”;
and the “calculator,” Walther Mayer, because Einstein intended to
work during
the voyage. In his luxury suite on the upper deck he
“uncomfortable, like a con the elegantly restrained
man and
indirect exploiter”;
demeanor of the
staff,
he
felt
felt
compared with “odd with
his
peasant manners,” and he invariably “dressed negligently, even for the sacred sacrament of dinner.” During the stopover at Southampton, he 1
had an opportunity to admire the
results of British education: “In
gland even the reporters are restrained. single ‘No’
is
Honor where honor
is
En-
A New
due.
enough.” 2 This would be very different in the
World. Originally, Einstein had not intended to go ashore during the five
days
when
attention.
the Belgenland was in
But The
New
New
York harbor,
in order to avoid
York Times had already decided that
it
would
be impossible for him to avoid the press, unless of course he had himself
locked up in the purser’s
photos
—of the
safe,
“and even then there would be
safe.”
As the Belgenland approached
New
York, there were “countless
telegrams, so that the ship’s radio operators were sweating,” 3 a foretaste
of what was to come.
The
the most fantastic expectation.
Long
Island, as well as the
arrival in
New
York was “worse than
Hordes of reporters came on board
German Consul 633
with his
at
fat assistant
634
Unified Theory
Time Out
in a
who pounced on me
Schwartz. Plus an army of photographers
hungry wolves. The reporters asked which
ceived.” 4 Everything
more
possibly even
was
just as
on
enthusiastically re-
his first visit ten years earlier,
but
frenzied.
As Einstein was
still
not familiar with the English language, he
spoke only German, even for his casting companies transmitted live
he greeted American if
like
exquisitely stupid questions, to
which were
replied with cheap jokes,
I
of Joint
soil
greetings,
first
which two broad-
from aboard. The manner
in
which
and the American people 5 was almost papal
popes had then ever gone on tour. In
sario,
hullabaloo Einstein’s wife proved a circumspect impre-
all this
organizing the professor’s appointments and making sure that
photograph and every interview
for every
a small fee
was paid
—not
into Einstein’s pocket, but for the poor in Berlin and for draff refusers all
over the world. In this respect he had every reason to be
“Thanks box.
to Elsa’s
shrewd management
By midday I was
Contrary to days in
all
New
earned $1,000 for the charity
I
dead.” 6
plans, then, there
were
five exciting
York while the Belgenland
handed from one event as
to another
Rabindranath Tagore
elite
of the city as well
—both of whom he already knew— and Arturo
whom
he
now shook hands
for the first time.
He
was
tympanum of Riverside
Church above the Hudson, which was adorned with them.
was
such as Fritz Kreisler and
even able to see himself hewn in stone on the
figures in
and exhausting
lay at anchor, Einstein
and met the
other celebrities passing through,
Toscanini, with
satisfied:
statues of great
world history, Einstein being the only living person among
Some
grotesque situations inevitably arose, on the lines of “Ein-
stein escaping
from reporters”; and
night that he found any rest
it
was only
—the approach
in his stateroom at
to his cabin
was guarded
by policemen. In a festive ceremony with speeches by the
mayor and
the president
of Columbia University, Nicholas Murray Butler, Einstein was
an honorary citizen of New York City.
Hanukkah
celebration in
claimed by the Zionists
as
He
made
himself made a speech at
a
Madison Square Garden, where he was one of
their
own. 7 His most controversial
Farewell to Berlin
635
New
speech, however, was to a smaller audience at a meeting of the
History Society
Ritz-Carlton Hotel on
at the
December
14.
This was
devoted to his great political passion, pacifism. In his message of greeting from on board ship, Einstein had said
Americans had the strength “to overcome the threatening
that the
He now
specter of our era, militarism.” 8
defined his
own
position and
deplored the fact that “under the present military system any person
name of his
can be compelled to commit murder in the also
knew what was
tion”
—
is,
done about
it:
He
“uncompromising opposi-
refusal of military service. “If even
up declare that they
called
that
that
to be
country.”
two percent of those
not serve, and simultaneously demand
will
international conflicts be settled in a peaceful manner, govern-
all
ments would be powerless.” 9
Finally,
he called for the “creation of an
international organization and of an international pacifist fund” to
who found
help those
refusing to serve in the
For
a
themselves in difficulties as a consequence of
armed
number of years
this
forces.
“two percent” speech became something
Magna Carta of militant pacifism. It was extensively reprinted: in The New York Times for example, and also excerpted in Germany. An abridged version appeared under an outraged headline, “Einstein of a
—
—
Begging
for
Publicity
Methods
Planck
helm
Military
as president
Objectors
Service
in America”;
and
Glum
and
this
—
Scientist’s
was sent by the ministry
as director-general
Society, with a request for information
Wilhelm
Prof. Einstein adopts in the Kaiser States, the
Unbelievable to
of the Kaiser Wil-
on “what
Herr
attitude
Society.” 10 In the United
speech did not meet with unanimous applause, but Einstein
would have been pleased
to note that
many young Americans
in the
streets
and on campuses were wearing buttons with the provocative
slogan
“Two
By stein
Percent”
— and everybody knew what that meant.
the time the Belgenland
left
had had “to stand up to
love,” 11 but
gone so
New
a trying
he was probably highly
York, on December
amount of
satisfied
16,
his fellow
with the way his
Ein-
men’s
visit
had
far.
The voyage
Panama Canal provided Einstein impressions of scenery and with some amusing
south and through the
with unforgettable
Unified Theory
636
in a
Time Out of Joint
American revolutions, which took place harmlessly
folklore of Central
but probably confirmed him in his dislike of using the term “revolu-
Havana they were
tion” in connection with science: “In
of having a revolution while after
we were
there,
and
in the process
Panama
in
shortly
our departure. Their president, a former fellow student from the
Zurich Polytechnic, was deposed on
He
this occasion.” 12
of his fellow passengers with black humor.
interest
bore the
“Passengers
becoming more importunate. Perpetual photographing,” he noted
“The
his diary.
They have gone ended
by
in
crazy about me.
San Diego on December
new
step onto the shore of a
most garish American
him
evidently gave arrival
immersed
Hedwig Born, with flower
Columbus was about
There was
Back home,
faintly irritated,
you
a
—feared
that
—watching
he
was
knows what he
outside, I
is
To
see
it
his
“totally
you (San Diego) presented
aspects.
still
Even though
The world
these things look
have the feeling that the good Lord
moved
into a “small gingerbread cottage” in
immediate neighborhood of the Caltech campus. “Here like Paradise,”
it is
“Always sunshine and clear
and friendly people his first
who
Western Front
,
a
air,
gardens with palms and pepper trees
smile at one and ask for autographs.” 16
week, the famous
film
in
he delightedly reported back to Berlin.
Hollywood, where he watched
because of its
it
doing.” 15
In Pasadena, the Einsteins
During
to
was “great fun to
and beautiful mermaids, and suchlike!
some amusing
meshugge from
Pasadena
.
four-hour show
his friends
wrote to him that
in the newsreel.
floats
certainly has
the
,
The voyage
end?”
it all
.
kind, with speeches and interviews, but
newsreels
in
booming.
the hullabaloo and razzmatazz of the Americans.” 14
in
see and hear
will
is
where the docking was attended
30,
continent. 13
pleasure.
California
in
How
autographs
suggesting that a reincarnated
a spectacle
of the
my
charity business with
in
man was immediately
a special
invited to
screening of All Quiet on the
made from Erich Maria Remarque’s
realistic portrayal
of men dying during
novel;
World War
I,
the
was banned in Germany. Einstein declared the ban to be “a diplomatic defeat for our government.” 17 He was the guest of Charlie film
Farewell to Berlin Chaplin,
“who had
up
set
in his
home
a
637
Japanese theater, with genuine
Japanese dances being performed by genuine Japanese
an enchanting person, Einstein
met the
just as in his film parts.”
social critic
Upton
Sinclair:
On
“He
is
girls.
Chaplin
is
several occasions in the
doghouse
here because he relentlessly lights up the dark side of the American bustle.” 18
know
Over the next two months, though, Einstein
came
to
the pleasant side of the American bustle, with brief excursions to
Palm
fashionable places like Santa Barbara and invited
him
to
go
sailing
Science, too, had
dinner
tive
also
its
at the
on the
Springs; and Millikan
Pacific.
ceremonies.
On January
Athenaeum, the elegant
15,
Millikan gave
a fes-
faculty club of Caltech. 19
Two
hundred rich patrons of Caltech,
tions,
were invited to eat with the legendary Einstein, though he him-
self
in recognition of their
dona-
was more interested in talking to the physicists and astronomers
who were
present. In a brief after-dinner speech he thanked his col-
leagues for their work, without which his theory of relativity would
“today be scarcely more than an interesting speculation”: William
Wallace Campbell, for
his
the sun’s gravitational
field;
efforts to
prove the red
For the
first
determination of the deflection of light in
and Charles Edward
and only time, Einstein
in this
ment “when
who
I
was
same after-dinner still
led physicists onto
a little boy,
new
It
was
a pretty
also ill.
met Albert Abraham
Einstein paid tribute to
address, for his
famous experi-
hardly three feet high.
It
was you
paths and by your wonderful experimental
work even then prepared the road theory.” 20
John, for his
shift.
Michelson, then seventy-nine and gravely
Michelson
St.
for the
development of the
relativity
compliment, although Einstein avoided any
reference to the part Michelson’s experiment might have played, or
not played, in the development of his Einstein also paid tribute to “the tory,”
which had been
tion to Pasadena:
it
a
own
work of your wonderful observa-
major reason for
had “led to
structure of the universe, for
a
concepts.
his acceptance of the invita-
dynamic concept of the
spatial
which [Richard Chace] Tolman’s work
has provided an original and exceedingly clear theoretical expression.”
Unified Theory
638
As
in a
Time Out
Mount Wilson,
of that wonderful observatory on
a result
ture of the universe
mapped out by
now
of Joint
the struc-
looked entirely different from what had been
Einstein in his pioneering cosmological study thir-
teen years earlier. Within the framework of the general theory of relativity,
he had then described the universe
space, with a constant
mean
as
an unbounded but
distribution of masses,
time, and, in retrospect, positively minute.
finite
unchanging over
Astronomers then knew of
own Milky Way, and even that not very well. Eindescription had been made possible only by his use of a “cosmo-
only one galaxy, our stein’s
logical constant” in his equations, but
physically consistent it
model of the
was nevertheless the
it
first
universe, and for the next five years
had been almost the only one. 21
The
first
rizing. In
change in cosmology came through mathematical theo-
1922 the brilliant Alexander Friedmann in
demonstrated that Einstein’s
field
St.
Petersburg
equations could be solved even
without the “cosmological constant”; these solutions would be consistent with a universe with a spatially
homogeneous
distribution of
masses, except that this universe would not be static but would change
over time and space, either expanding or contracting. 22
had been visualized by Einstein
Friedmann now gave stein initially
it
as
without
something
like
a
The
universe
beginning or an end; but
dynamics and
a history.
Ein-
thought he could prove that Friedmann had made
mathematical mistake, 23 but he soon discovered
a
mistake in his
a
own
objections, retracted his criticism, and described Friedmann’s paper as “clarifying.” 24
alternative
All this
There was then no question of deciding between the concepts by astronomical observations. changed
1920s, thanks to
Edwin
Hubble’s persistent work with his hundred-inch reflector on
Mount
Wilson. This
in the course of the
new wonder
of the world had been completed in 1919
and throughout three decades remained the most powerful telescope anywhere. For our knowledge of the universe, it had a significance comparable to that of Galileo’s telescope for our knowledge of the solar system. Small patches of “nebulae” in the sky
were resolved into
individual stars and revealed themselves as galaxies similar to the
Way. Hubble determined
Milky
the distance of the nearer galaxies and esti-
Farewell to Berlin
mated the distance of the more remote
He
of millions of light-years.
also
galaxies, obtaining
despite the use of the
very
much
stein
from the equivalence
By
shift.
had to be interpreted
same term,
Hubble had
light
from
According to Doppler’s as
an “escape velocity”;
should not be confused with the
it
smaller red shift in a gravitational
1922,
magnitudes
measured the spectra of
these distant worlds, in particular the red principle, the red shift
639
field, as
derived by Ein-
principle.
collected sufficient data to venture
what was
probably the most important astronomical assertion of the twentieth
moving away from each other with escape
century: that the galaxies are velocities
which increase with
expanding. 25
A simple
distance. In other words, the universe
is
calculation backward to the start of this expan-
sion gave the age of the universe as approximately ten billion years.
The expanding stein’s static
universe was evidently
cosmology, though
it
no longer described by Ein-
was possibly described by Fried-
mann’s solutions. Einstein, then deeply engrossed in “distant parallelism” as his
variant of a unified theory, was reluctant to be distracted by cosmological
models and
merely took note of these sensational
Soon, however, they seemed important enough for him to
results.
inspect
initially
them
in person.
He
therefore often had himself driven up the
twenty miles of hairpin turns to
Nevada. eras,
On
one occasion
Mount Wilson, on
at least
a
spur of the Sierra
he was accompanied by movie cam-
which recorded him riding up the elevator
to the observation
platform and, for the benefit of the viewers, looking into something like
an eyepiece.
Hubble and
his colleague
Milton L.
spectroscopic measurements
Humason
—showed
—who refined Hubble’s
their guest
around their cathe-
dral of astronomy, explaining their high-resolution spectrographs
and
presenting their evidence that the universe was expanding. Einstein
was clearly impressed: he declared that the “cosmological constant” he had invented thirteen years
earlier
was superfluous and that
a
model
of the universe based on Friedmann’s solutions was appropriate.
Despite intensive discussions with the theoretician the
new
Tolman on how
discoveries could best be represented through the general
theory of relativity, no contribution to
this set
of problems came about
Unified Theory
640 in California.
of Relativity
26 ,
Time Out
in a
of Joint
A paper, On the Cosmological Problem of the General Theory submitted by Einstein to the Prussian
Academy
after his
The
return to Berlin, hardly went beyond a report on the situation.
only paper he wrote in Pasadena, jointly with Tolman, was devoted to his
hobbyhorse, the unanswered problems of quantum mechanics. 27
Millikan, Einstein’s host, had reacted with raised eyebrows to Ein-
“two percent” speech in
stein’s
exercised
some moderation
New
York. Thereafter, Einstein had
in political matters
—not only because of
Millikan’s conservatism but also in order not to
annoy the wealthy
patrons on whose favor Caltech depended. Millikan therefore must
have been rather irritated by an interview between Einstein and Upton Sinclair in a socialist weekly, stein
made
to students
and even more
irritated
by
a
speech Ein-
on the Caltech campus.
Einstein chose this stronghold of technological knowledge as a place to question the use of technology not only in peace, because technology had “turned chine.”
He
bility that
men
war but
ma-
into slaves of the
urged the students not to forget that they had
went beyond
also in
their specialized fields:
a responsi-
“Concern
man
for
himself and his fate must always form the chief interest of all technical endeavors, concern for the great unsolved problems of the organization of labor and the distribution of goods
—
in order that the creations
of our minds shall be a blessing and not a curse to mankind. Never forget this in the midst of your diagrams and equations.” 28
guage sounded very
Such
socialistic to conservative Californians.
could hardly have found
it
Millikan
helpful to his efforts to raise Caltech to the
top of American science by associating Einstein permanently with
After two contrasts
head.
it.
months Einstein had temporarily had enough of “this land of and surprises, where one in turns admires and shakes one’s
One
feels that
and hardships, and
began by
lan-
rail,
is
one
is
attached to the old Europe with
glad to return there.” 29
across the continent.
On
The homeward
a visit to
its
pains
journey
an Indian reservation
near the Grand Canyon on February 28 Einstein received from the
Hopi not only
a rich
headdress but an amusingly punning
Great Relative.” In Chicago, where
his train
title,
“the
stopped for two hours,
— Farewell to Berlin
641
he was met by several hundred supporters of peace; to their great delight, he treated
them
to an abridged version of his
“two percent”
speech. 30
The
following morning,
when
where the steamship Deutschland was to
more broke eral
New York,
the night train arrived in sail at
loose, for the next sixteen hours.
midnight,
all
The German
hell
once
consul gen-
recorded that “Einstein’s personality, without any clearly recog-
nizable reason, triggers outbursts of a kind of mass hysteria, not only
among
specially thus inclined groups of ‘friends of peace’ and the
romantic dreamers of newly founded mystical religious communities,
among
but also
relatively levelheaded circles, such as the
American
supporters of the Palestine program.” 31 Pacifist organizations
in
New
claimed their hero immediately on his arrival
York. Einstein invited them on board the Deutschland to
meeting restricted to four hundred persons and called for action:
“The
because
it
our oppo-
will create a conflict that will directly challenge
numerous persons
man had
radical
struggle against militarism will have a dramatic effect
These words
nents.” 32
a
set off
such “a delirium of enthusiasm that
kissed Einstein’s hands and clothing, and the poor
eventually to be forcibly taken to his cabin in order to put an
end to these demonstrations.” 33 For the afternoon Einstein moved into a hotel,
where he had
visitors,
and admirers.
The
to deal with an
unending stream of journalists,
evening had been reserved for Einstein’s other passion
Jewish development in Palestine. With funds running low,
had implored Einstein
as early as the
Weizmann
beginning of February to make
himself available for an urgently needed fund-raising drive. 34 This was a
request Einstein could not deny, and so he agreed to be the guest of
honor and speaker
Campaign
at the
at a great
banquet given by the American Palestine
Astor Hotel on the evening of his departure.
guests had to pay $100 each, but despite this high fee
the Depression
wanted
to see
—
in the
The
midst of
— the target figure of one thousand participants who
and hear Einstein was actually exceeded.
He
was
cele-
brated as a “prince of the intellect,” and the applause became an ovation
when
a
certainly had
telegram from President Hoover was read out. Hoover
no sympathy
for pacifism or socialism, but he could not
Unified Theory
642
been
model of the Swiss
fists
On
that your visit to the
as
it
and pleaded for an arrangement on the
pier; as the ship pulled
is
to view his return with
rocking,
away, they chanted in
forever.”
the stormy voyage, Einstein learned
thing
has been gratifying to the
Einstein returned to his ship shortly before midnight, paci-
“No war
Germany
much worse
mixed
enough about conditions
feelings. “In
Republic
at least, the
very shaky
Germany
than on this ship. But one
and one cuts one’s clothes according to one’s cloth
moment,
United
constitution. 36
were again lining the
unison,
is
his address, Einstein again appealed to the Jews
to cooperate with the Arabs
When
you
as satisfying to
American people.” 35 In
Time Out of Joint
“My hope
avoid saluting the visitor: States has
in a
still
stands.” 37
But
is
every-
used to
at the time. it
in
it
For the
was standing on
feet.
In any case, Einstein did not intend to stay in Berlin long. In April
he presented two papers to the Prussian Academy: his report on the cosmological problem; 38 and a paper written jointly with Walther
Mayer during
on
the crossing,
revealed that he would
Then he took
a
his “distant parallelism” theory, 39
come no nearer
to his great goal
by
this
which
means.
month’s leave to go to England, to give the Rhodes
Lectures at Oxford.
This honor, accompanied by stein in 1927,
on the
initiative
a fat fee,
had
first
been offered to Ein-
of Frederick Lindemann, director of the
Clarendon Laboratory. For lack of time and because of ness,
he had to decline the invitation
sisted,
and in February he
Pasadena. 40
month
in
It
was
Oxford
a
in
finally
good
May.
at that time.
obtained Einstein’s acceptance, from
decision, because Einstein spent a restful
He
enjoyed the monastic
—and even that was interpreted
life
lectures
he gave
at
in Christ
available for him. loosely-
participation in “the holy sacrament of the ‘High Table.’ ” also the ceremonial
ill-
But Lindemann per-
Church College, where Lindemann had made rooms His only obligation
a serious
—was
his
There was
awarding of an honorary doctorate, and the three
Rhodes House. 41 At these
the hall was overcrowded, but since
lectures, to
begin with,
some of the audience could not
Farewell to Berlin
643
cope with Einstein’s mathematics and others could not cope with
German, soon there remained only
his
small core of experts.
a
English reserve, as well as the fact that Oxford was used to eccentric geniuses,
taste
allowed Einstein to conduct his
and tempo, always discreetly looked
demann’s servant and general factotum. fact that Einstein
met frequently with
he discussed “the spread and
effect of
representatives of the Internationale
none of
this
was
at the
life
after
No
according to his
own
by Lindemann and Lin-
one was bothered by the groups or that
pacifist student
my speeches in America” 42 with of War Service Refusers. And
expense of physics, so Lindemann was more
than content with his guest.
“He threw
himself into
all
the activities of
Oxford science, attended the Colloquiums and meetings
for discussion
and proved so stimulating and thought-provoking that
I
visit will leave a
permanent mark on the progress of our
Lindemann soon got
month
in
am
subject.” 43
spend
his college to invite Einstein to
Oxford every year
sure his
a
—the quaint termi-
as a “research student”
nology Christ Church uses for what other colleges
call a “fellow.” 44
Einstein accepted the five-year contract at an annual stipend of £400,
not only because of his pleasant memories of his because the situation in
Germany was becoming
For the summer of 1931, Einstein again country retreat letters
that
at
Caputh, but not
forces. 46
ization that
With
a vast
number of
campaign, reiterating
his pacifist
war could be prevented only by organized
armed
exacerbated. 45
installed himself in his
as a hermit.
and statements he continued
but also
first visit,
refusal to serve in the
This commitment was in no way affected by
Germany was on
the
way
to
becoming
his real-
a dictatorship.
Par-
liament had been dissolved, and the Briining cabinet, governing by
emergency decrees, already represented
nomic
a quasi-dictatorship.
disaster, the Nazis’ street fighting,
democratic parties boded
ill
The
eco-
and the weakness of the
for the future.
In this uncertain situation Einstein intended to ask Planck “to see to
it
that
my German
citizenship
many people dependent on me, dence, compels
was found,
in
me
its
is
rescinded.
.
as well as a certain
to take this step.” 47
envelope,
.
among
This
letter
.
Concern need
for the
for indepen-
was never
sent;
it
Einstein’s papers after his death.
Unified Theory
644 Nevertheless,
it
shows that
in a
Time Out
of Joint
summer of 1931
in the
Einstein was begin-
ning to accustom himself to the idea that before long he would sever his ties
with Germany.
If Einstein
saw any hope of a turn for the
better,
he saw
it
on the
the political spectrum. His sympathies were with the Social crats,
but he was not afraid of contact with the communists.
signed appeals by the Rote Arbeiterhilfe (Workers’
He
of
Demoreadily
Red Help) and
allowed himself to be used for propaganda purposes by the
Commu-
Comintern. 48 In the Marxist Workers’ College
nist International, the
“Masch,” managed by the Communist Party, he gave
What
left
Know
a Worker Should
major problem of the
49 of the Theory of Relativity
class struggle.
a lecture
on
—not exactly
But he was not
a
a
dependable
fellow traveler, because, for one thing, he urged that Stalin’s mortal
enemy Trotsky be given asylum ticipate in
in
Germany. 50
He
also refused to par-
peace congresses because of their preponderance of Soviet
and communist supporters. 51 Einstein’s vacillation
between “pink” and “red”
testifies to his
con-
fusion in political matters. In 1930, he had signed an appeal against the Stalinist
show
trials in
the Soviet Union.
He
saw the absurd charges
against the “forty-eight vermin” as “either an act of desperation of a
regime driven into two. ...
I
am
a corner,
very sad that
or a mass psychosis, or a mixture of the this
watching with hopeful eyes, has
But
a year later
some pro-Soviet
development, which
now
led to such atrocious events.” 52
friends, of
whom
he had many, con-
vinced him of the legitimacy and necessity of these result that a
communist propaganda sheet was
recantation:
“Today
ture,
views.
because
Then
I
I
have
most deeply regret that
now
me, are
Dimitri Marianoff
Union
with the
able to print Einstein’s I
my signacorrectness of my
then added
confidence in the
things are possible that, in the circumstances
totally unthinkable.” 53
— a journalist attached
undefined responsibilities, stepdaughter,
lost
trials,
did not sufficiently realize that under the special condi-
tions of the Soviet familiar to
I
we had been
Margot
who was
Whether
it
was instigated by
to the Soviet
embassy with
married to Einstein’s younger
—or by Willi Miinzenberg, the
sinister
propa-
Farewell to Berlin
who had
ganda chief of the Comintern 54
645
converted him, Einstein’s
statement reflects the limitations of his political judgment. Einstein, incidentally, stuck to his view of the
As
Stalin’s reign
wrote:
executed Jews, his “tribal companions,” stopped him
to justify the trials.
“Indications
stupid reactionary
is
who
At the peak of the
a
he
terror, in 1937,
increasing that the Russian
are
swindle, but that there
I
trials.
of terror got worse, not even his solidarity with the
many accused and from trying
Moscow show
no
are
trials
conspiracy of those in whose eyes Stalin
betrayed the idea of the Revolution. ... At
is
a
first
too was firmly convinced that these were instances of a dictator’s
arbitrary actions based
on
lies
and swindle, but that was
Einstein had returned to a threatened that he
would always have an acceptable
position in Califofnia. official in
When
Germany
a deception.” 55
in the
knowledge
—and superbly paid—
in April 1931
he approached
fallback
a senior
the Prussian Ministry of Education with a request to estab-
an extraordinary professorship for his collaborator Walther
lish
Mayer, he frightened the
with the disclosure that he himself
official
had received an offer from Pasadena, Unless
a satisfactory solution
at
an annual salary of $35,000.
was found for Mayer, who by then was
forty-five, Einstein threatened,
he “would otherwise have to go to
Pasadena, because there the remuneration of Dr.
Mayer would be no
problem.” 56 In
fact,
whatever had been discussed in Pasadena, there can have
been no firm contract but only an
Fleming, the chairman of the Caltech board,
on
his
by Arthur
oral statement of intent
who was
inclined to act
own. Over the summer, there had been exchanges of letters and
telegrams between Pasadena and Berlin, but the figure mentioned in
them was $20,000
for a
ten-week stay
at Caltech. 57
waiting for the contract to be mailed to
on
a trip to
Europe, visited him
$7,000 for his next
visit,
with
a
at
him
While Einstein was
for his signature, Millikan,
Caputh and offered him
permanent arrangement
a salary
of
to be settled
the following year.
Einstein was irritated by this confusion in California and to give a lecture in Vienna, cial
reserve because he
is
a
first
went
where Austrian officialdom “observed spe-
Jew and
believed to be
on the
left politi-
Unified Theory
646 cally.” 58 After
thinking the Pasadena offer over for a week, he wrote a
grand refusal on October
informing both Fleming and Millikan
19,
would take
that over the winter he tions
Time Out ofjoint
in a
a rest
from these tiresome negotia-
and seek out the sun of southern Europe.
Berlin in any case.
He
informed
He
intended to leave
would
friend Besso that he
his
probably come to Switzerland in the winter “because things are getting
uncomfortably hot for
Then,
in a
A
Pasadena.
here.” 59
sudden change of mind, the reasons for which we do not
know, Einstein likan’s terms;
me
after all accepted the offer
on November
week
he
later,
14,
from California on Mil-
he sent the signed contract back to
left Berlin,
accompanied by
He
his wife.
spent a few days in Belgium and Holland before embarking on the
four-week voyage on December ship San Francisco
which took him
,
the stress of a stopover in
When
the ship had
time on the American steam-
direct to California, sparing
left
the coast of Europe behind, Einstein noted
resolved in essence to give
my
always on the wing.
They are
life!
importance for his future
my Berlin
up
bird for the rest of
Seagulls are said to
my new colleagues,
position. still
are
me.” 6C
He remained silent about his reasons,
and Oxford. As
if
mind
in
a
it
migrating
efficient
and also about
shuttling
won’t stick in
ship,
than
his specific
between Pasadena
to confirm the seriousness of his decision,
“I’m also learning English, but
“Today
us as far as the Azores.
Heaven knows, more
but,
Presumably he had
Hence
life:
accompanying the
come with
These
intentions.
him
New York.
in his diary a decision of crucial I
2, this
he added:
my elderly braincase.”
Einstein arrived in Los Angeles shortly before the end of the year.
This time, unlike the previous year,
his arrival
was almost normal. As
a
small compensation for the financial confusion, Einstein was able to
move
into Arthur Fleming’s splendid
naeum. de
Among
Sitter, the
the colleagues with
Leyden astronomer
himself a visiting
scientist. Jointly
accommodation
whom
and especially on
Athe-
he met to work was Willem
—an expert on
relativity,
and
like
they produced a paper on an aspect
of the expanding universe. 61 Einstein gave logical problems,
at the
a
a
few lectures on cosmo-
new variant of the
unified theory,
which he had worked out with Mayer. 62 But he did not give up
his
Farewell to Berlin pacifist
much
sermons; and,
meddled
in
647
to the displeasure of Millikan, he also
American domestic problems such
Einstein’s
as racial discrimination.
most important meeting, the one with the most
Abraham
reaching consequences, was with
Flexner had
scientific administrator.
Flexner, a highly regarded
of
a lot
far-
money and
a
vague
idea.
Since the beginning of the century, he had exerted a major influence
on academic teaching
in America.
Having
colleges and then of medical schools, he
first
was
introduced a reform of
able, as secretary for
fif-
teen years of the Rockefeller Foundation’s “general education” board, to
endow
universities to the tune of
to a point, to shape
excellence.
The
them
more than $500
million
—and, up
in accordance with his criteria of
culmination of his career, thanks to
a
academic
philanthropic
donation of $5 million, was to be the establishment of an institute of higher or advanced study, where scholars, freed from university routine
and
duties,
were to
live solely for their research.
to Pasadena to consult Millikan
Millikan in turn referred
When
him
on the form of such an
to his
Flexner and Einstein
it
who
it
met
new
its
come and
institution,
guest.
at the
Athenaeum, only two
institution: at the
was to be located somewhere
Jersey; and in view of finances,
famous
first
conditions were attached to the
donor family
Flexner had
substantial but
wish of the
in the state of
New
by no means unlimited
should concentrate on theoretical disciplines. Einstein,
believed that scientific progress
came from
creative individuals
rather than from organizational matters, supported Flexner’s intention that, in contrast to the
normal academic hustle and
enclave of scholars should be created
bustle, an informal
— an ivory tower.
63
According to
Flexner’s records, nothing was said about Einstein’s participation in
the enterprise; but
when
the two
men
agreed to continue their talks in
Oxford the following spring, both of them presumably entertained such an expectation.
When cisco
Einstein, in early
to return to
March, once more boarded the San Fran-
Europe, he knew that he would return to Caltech the
following year. But no permanent arrangements had yet been agreed on, and the idea of a
appeal to
permanent move
him anyway. As he explained
had asked him to look out for
a
to
America did not greatly
to his friend Ehrenfest,
possible position for him: “I
who
must
tell
Unified Theory
648
you quite frankly
in a
term
that in the long
rather than in America, and that to regret a change. Apart
Time Out
am
I
I
of Joint
would prefer
Holland
to be in
convinced that you would come
from the handful of really
fine scholars,
it is a
boring and barren society that would soon make you shiver.” 64
Back
once went to the weekly meeting of the
in Berlin, Einstein at
Prussian Academy, as he was anxious to submit a supplement to the
paper whose
first
part he had submitted in October, before his depar-
ture for the United States. It again bore a promising
Theory of Gravitation and Electricity
do with distant
summer of
parallelism,
1931. As he later
esting theory
.
.
—but
which he had
summed
me
— Unified
no longer had anything finally
abandoned
a description
with certainty,
field. It
because
was so fascinated by the naturalness of the theory.” 65
He
I
did not
a
long time to realize
mourn long over
tant parallelism. Soon, he
this
his three years of vain efforts
became
in the
of the electro-
magnetic
took
to
up, that “formerly rather inter-
simply does not lead to
.
it
title
with
dis-
fascinated with a five-dimensional
formalism “which psychologically links up with Kaluza’s well-known theory, while at the
same time avoiding the extension of the physical
continuum into one of
five
dimensions.” 66 Each point of the four-
dimensional space-time continuum was linked to five-dimensional vectors,
by means of which
a “fiver curvature”
was achieved, from which
the equations for the gravitational and the electromagnetic field derive
through “rejuvenation.” As stein
was
enthusiastic;
at the
he wrote to Ehrenfest that
viction definitively solves the
new
beginning of every
problem
this
theory, Ein-
one “in
my con-
in the microscopic area.” 67
For
the microscopic and atomic areas he already saw “an indication of a natural supplement that will perhaps supply the
His colleagues, however, were not ones kept
silent;
quantum
laws.” 68
at all enthusiastic.
the younger ones were beginning to
make
The
older
jokes about
Einstein.
After barely two weeks in Berlin, Einstein departed for England.
He went
first
to Eddington,
to
Cambridge, where he gave
and then to Oxford for
a
few lectures 69 and talked
his sinecure as a “research stu-
dent.” Shortly before leaving Oxford, he was visited
by Abraham
Flexner, as had been arranged in Pasadena. Flexner’s plan to locate the
Farewell to Berlin
new
649
by agreement with but
institute at Princeton,
independent
totally
of the university there, no doubt aroused Einstein’s personal interest,
which Flexner cannot have
failed to notice.
During
a
long walk in the
grounds of the college, they again discovered that their ideas on the
new
character of the
summoned up stein, I
his
facilities
were largely
courage to put the
would not presume
come
but should you
own
institution
which you
to offer
vital question:
you
“Professor Ein-
a position in the
to the conclusion that
and Flexner
identical,
it
new
could offer you those
you would be welcome
treasure, then
institute,
—on your
terms.” 70
No sooner was Einstein back at his country retreat of Caputh, an appearance
at the “Joint
after
Peace Council” in Geneva toward the end
of May, 71 than Flexner again appeared on the scene, on June
4.
Now
concrete terms were being discussed, such as a six-month stay each year,
from the
fall
until
roughly April;
a position for
independent of Einstein’s; and Einstein’s
Asked about gested $3,000.
“Or could
I
own
Walther Mayer,
salary and pension. 72
his expectations for his salary, Einstein at first sug-
When
he saw Flexner’s puzzled expression, he added,
manage on
less?” 73 Flexner,
enced administrator, took
this as the
modesty of
told the story in that sense. Actually, stein’s part to lure
although he was an experi-
it
was
a
a great scientist
and
shrewd move on Ein-
Flexner into making an optimal offer without
seeming greedy himself. The resulting offer was $10,000, with the institute
paying Einstein’s taxes and also Elsa’s travel expenses
bad deal for
five
months. 74 Thus Einstein’s idea of existence
migratory bird had assumed solid shape, in
a
few days
as a
his diary six
months
the rain, he saw his visitor to the last bus just before
midnight, he assured Flexner: “I
A
a
way he could not have
imagined when he had jotted down the idea in earlier. As, despite
—not
later,
when
am
full
of enthusiasm for
it.” 75
Flexner had confirmed the oral agreement
in writing, Einstein cordially
thanked him for the generous terms;
indeed, he found the figures suggested for his and his wife’s pension
too high and proposed a reduction.
On
the other hand, he insisted that
“Herr Mayer’s appointment should be independent of mine. Otherwise
He
I
would
feel that
he would become unemployed on
my
concluded his written acceptance to come to Princeton
in
death.”
6
October
Unified Theory
650
am
1933 with the assurance: “I
you
Time Out of Joint
in a
wonderful purpose and
in such a
be associated with
really delighted to
am
we
convinced that
shall
be
happy with each other.” 77
As
political
stein
developments in Germany went from bad to worse, Ein-
must have frequently thought of
Although election,
in the spring
more than
contract with Flexner.
his
Hindenburg once more won the
presidential
thirteen million votes had been cast for Hitler.
“He
Nevertheless, Einstein for the time being wanted to stay in Berlin.
has wholly adapted to Caputh,” his wife reported, “and keeps telling
me
that
no one
is
going to make him leave.
Elsa was worried and urged
him “not
to live solely for his problems.
want
me, then
to have
I
just
He
to sign
He knows no
fear.”
any appeals anymore and
answered that ...
if I
were
as
you
wouldn’t be Albert Einstein.” 78
Casting aside his wife’s anxieties, Einstein, along with the
Kathe Kollwitz and the writer Heinrich Mann,
we
Reichstag elections in July, warned “that frightful
But
danger of [becoming
fascist]
.
in a manifesto
artist
on the
are heading for the
This danger, in our opinion, can
be removed only by the [cooperation] of the two great workers’ parties in the electoral
name headed
campaign.” 79 During the campaign his
the posters calling for a united antifascist front between the Social
Democrat and the Communist
parties. 80
However,
about, and in the July elections the Nazis
with 37 percent of the vote.
governed with
army
a “cabinet
this did
not come
became the strongest
The new Reich
chancellor,
party,
von Papen,
of barons,” dissolved the Reichstag, had the
drive Prussia’s Social
Democrat government from
office,
and
appointed himself Reich commissioner for Prussia.
While many
new manner
citizens
were hoping that von Papen’s “fundamentally
of government” would restore public order and,
especially, provide a shield against the
revealed his
gloomy expectations
believe that a
National
revolution of the National Socialists.
ernment suppresses the
will
Socialists, Einstein
to his colleagues: “I certainly
government by military force
On
do not
will prevent the corning
the contrary, military gov-
of the people.
revolution from the right to protect
more
The
them
people will look to
a
against the rule of the
Junkers [the Prussian landed gentry] and army officers.” 81
— Farewell to Berlin
During
summer
that
numerous
political actions
even though
these,
of political
it
Einstein was involved in
crisis,
and discussions.
remained
651
The most
virtually unnoticed,
impressive of
was
public
a
exchange of letters on the causes of war and on ways to prevent
by the
tiated
mund Freud
it,
ini-
Institute for Intellectual Cooperation. Einstein chose Sigas his
correspondent.
Freud and Einstein had repeatedly been bracketed when the most
They
important living Jews were named.
Freud spent Christmas and
his wife visited
in Berlin with his son Ernst.
as
in
when
1926,
There Einstein
him. Describing the meeting and their two hours
of conversation, Freud recorded:
understands
met
first
much
“He
is
of psychology as
I
serene, assured and courteous,
do of physics, and so we had
a
S'
very pleasant chat.” 82 Einstein appreciated Freud more for his descriptive
powers than for
his psychoanalytical constructs,
and preferred to
“remain in the darkness of not-having-been-analyzed.” 83
When
Einstein congratulated Freud on his seventy-fifth birthday,
he added that every Tuesday evening, along with
presumably Toni Mendel sufficiently
there
is,
—he
female friend
read Freud’s writings and could not
admire their “beauty and
for
a
clarity.
Except for Schopenhauer
me, no one who can or could write
like that.”
“pachyderm,” he nevertheless veered between “belief and
A year later he
thanked Freud “for
to the reading of
many
a beautiful
hour which
your works,” and then continued:
with regard to your teachings, offer such
your ideas that they actually think and speak
moment
they
let
in
as a
disbelief.” 84 I
owe
“I always find
amusing to observe that even people who regard themselves lievers’
But
little
as
it
‘unbe-
resistance to
your concepts the
themselves go.” 85
In his open letter to Freud, Einstein did not invoke pacifism but instead, as “an individual free
from emotions of
mapped out an order founded on between
means
states
by an
freedom of there
peaceful arbitration of
institution that
to enforce this ideal of justice.
rity lies via the
is
86 a national nature,”
would have
“The road
all
conflicts
at its disposal the
to international secu-
unconditional surrender by states of some of their
action, or sovereignty,
no other road
and
to such security.”
it
seems unquestionable that
Unified Theory
652
in a
Time Out of Joint
Einstein had kept quiet about his obligation to spend half the year in
Academy were
America; the authorities in Berlin and the Prussian
taken by surprise by newspaper reports, at the end of August, 87 that the Institute for
the
Advanced Study
in Princeton
of 1933 and that Einstein was
fall
Only
would
start
most prominent
its
in September, in response to a query,
inclined to inform the
academy of
functioning in
his
acquisition.
did Einstein feel
arrangement with Flexner,
although he pointed out that he had already talked to Planck about Nonchalantly, he
is
at all possible,
to ensure that Einstein
summer istry a
his
a continuation of
on
leave
his
own
initiative
—
reduction by half of his annual salary
had not previously made. 90
proposed to the min-
a gesture
which, despite
abroad over the past few years, he
visits
When
at least for the
it
was reported that he would move
United States altogether, he corrected the reports:
Germany.
at the
or desirable.” 89 Planck probably intervened
prolonged and well-paid
to the
my employment
was saved for the academy
semester. Einstein
88
the Ministry of Education to decide “if
left it to
under these new conditions
Academy
it.
My permanent place
“I will
not
of residence will continue to be
Berlin.” 91
The
California Institute of Technology,
on the other hand, was
immediately informed of Einstein’s association with Flexner’s institute. In the circumstances, Einstein
now do
without his agreed
visit
new
expected that Caltech would
to Pasadena during the
coming
winter. 92 Millikan was disappointed, believing that he had a right to Einstein’s presence exclusively at Caltech, even
offered Einstein a long-term contract.
without the famous
man and
though he
still
had not
However, he did not wish
to
do
therefore confirmed his invitation for
the winter. Millikan was hoping that Einstein might, in the future, di-
vide his left
this
rejected
Much
America between Pasadena and Princeton. Einstein
visits to
open it.
as
a
vague
possibility,
but Flexner condescendingly
93
was in demand, both Millikan and Flexner were continually worried about his political activity, which they not only peras Einstein
”
Farewell to Berlin
653
sonally disapproved of but had to defend, halfheartedly, to their
wealthy patrons. Since Einstein’s triumphal
December about
arrival
in
America
1930, irritation had been growing in the conservative
this strange professor,
who
in
camp
did not confine himself to report-
ing amazing things about the universe but was raising his voice in paci-
and
fist
socialist
American
—
When
speeches on very terrestrial
— and,
issues.
Flexner proudly announced that he was about to inaugurate
his Institute for
Advanced Study with Einstein
member, some conservative groups believed “National Patriotic Council”
“German
opinions; and
addressed
a
that this questionable for-
on
correct
necessary to issue
The board a
of
a
warning against
bolshevist” with his dubious theories and scandalous
female branch, the American
its
Women’s
League,
formal petition to the visa section of the State Depart-
ment. 94 These patriotic ties
felt it
most prominent
as its
eigner represented a danger to the United States.
this
worse, domestic
sixteen pages,
women condemned complaining
—and
Einstein’s pacifist activi-
here they were factually
—that he supported communist associations such
as the Inter-
national Workers’ Help, which was an organ of the Comintern. This,
how
along with some rank nonsense about
undermine the church, the
state,
theory would
relativity
and science, culminated in
that Einstein should be prohibited
a
from entering the United
demand States of
America.
The
State
Department sent the pamphlet of the
patriotic
women
to
the United States consulate in Berlin, where Einstein had in the past
always received his visa without any problems, but where he was if
they
in?” Einstein scoffed to the Berlin reporter of The
New And
to be questioned
me
didn’t let
York Times. to
make
on the complaints. “Wouldn’t
“The whole world would be laughing
sure there
a sarcastic
would be something
comment
it
at
be funny
America.
to laugh about,
95
he improvised
for the press:
Never before have if this
now
I
been spurned so vigorously by the
did ever happen, then not by so
they right, those vigilant
women
many
citizens?
at a time.
fair sex,
or
But aren’t
Why should one admit
654 a
Unified Theory
who
person
devours hard-boiled
toothsome Greek
who moreover
and
virgins,
capitalists
Minotaur monster
appetite and pleasure as the
reject
Time Out of Joint
in a
in Crete is
wife? Listen therefore to your clever patriotic that the Capitol of
mighty
devoured
mean enough to war with one’s own
any kind of war, except the inevitable
remember
with the same
women
little
Rome was
and
once saved by
the chatter of its loyal geese. 96
The American consul, however, amusing and summoned Einstein for had cautiously worked stein
was
a
—
all
When
he
a talk
way around
communist or an
in the press
demanded
his
did not find the conflict at
on December
lost his patience and, in the
a visa,
whether Ein-
to the question
anarchist, Einstein
5.
— according to reports
form of an ultimatum,
which was promptly provided the following day. 97
According to recently released American government papers, how-
something
ever, Einstein did
manded of him, confirming organization. 98
Thus
different.
that he
there was
He
signed the declaration de-
was not
a
member
no further obstacle
of any radical
to his departure for
California.
Nothing about
Einstein’s preparations for the journey
gested a final farewell, and he had told the
academy and
had sug-
his friends that
he would be back in Berlin in April. 99 But he was haunted by dark premonitions. “Take
very good look
a
they locked up their it
villa in
Caputh
at it,”
he said calmly to his wife
for the winter.
“You
as
will
never see
a ship in
Antwerp,
again.” 100
On December
10, Einstein
and
which would again take them
Panama
Canal.
To
his wife
boarded
directly to
California through the
Millikan’s relief, nothing spectacular accompanied
their arrival in the port of Los Angeles. Einstein
had evidently resolved
to restrain his political impulses, possibly out of consideration for his hosts, but possibly also because his experience at the consulate in
Berlin was giving served,
meeting with
guest’s remarks,
who
him
pause. After Einstein’s
journalists, Millikan
first,
exceedingly re-
was very pleased with
which “supplied no additional ammunition
are spreading grotesque
and
silly stories
about
his
for those
his links
with
groups aiming to subvert American institutions and ideals.” 101 Besides,
Farewell to Berlin
655
the president of Caltech was anxious to shield his guest from the
public
— and perhaps to
Through an
his
he succeeded in doing
German
would make
American-German
had
this
from the Oberlaender Trust
foundation of a family of Einstein
surprise,
ironical turn of fate, Millikan
Einstein’s fee of $7,000
that
own
a
extraction,
and
relations,” 102
to
time acquired
in Philadelphia, a
in return
speech that would
so.
be
had agreed “helpful
to
be broadcast by the National
Broadcasting Corporation on January 23.
That evening Millikan gave
moved
afterward, the guests
a
formal dinner
in procession to the
at the
Athenaeum;
Pasadena Civic Audi-
torium, where Einstein was to speak at a symposium on “America and the World.” In the pleasant style of an after-dinner
poked gentle fun
at social taboos,
talk,
Einstein
beginning with dress, and criticized
the use of negative labels such as “communist” in America, “Jew”
among
Union. Millikan was The
Germany, and “bourgeois”
the right wing in
New
satisfied
in the Soviet
with those irrelevant remarks, but not so
York Times which observed that Einstein’s speech “had not ,
thrown any new Meanwhile,
light
on
a
in Berlin,
the government, and a
dark situation.”
Adolf Hitler was getting ready to take over
week
Einstein’s premonitions
later
he was appointed Reich chancellor.
had not deceived him.
He
was not to see
house in the country ever again, or Berlin, or Germany.
his
%
PART
TH
VII
E
PAC FIST I
THE
CHAPTER THIRTY-FOUR Exile as Liberation
Exactly when Einstein, seizure of
power on January
On
cult to establish.
secretariat of the
30, 1933, or
February
he was
2,
academy, about
nothing had happened and
learned about Hitler’s
California,
in
a
how he still
reacted to
—
reduction of his salary
his return in April
Tolman lin.
.
was
a
his daily
just as if
matter of course.
no mention of
is
program: “Afternoon rays.
Evening Chap-
Played Mozart quartets there. Fat lady whose occupation consists
of making friends with
all
However, four weeks weeks before
his
own
celebrities.”
evitable: “In
to
assumption of power and two
departure from Pasadena, Einstein had learned
view of Hitler
on February 27
1
after Hitler’s
enough about the changes I
in
Germany
for his decision to be in-
don’t dare step on
Margarete Lebach
German
soil,”
he wrote
—whom he referred to
—
as “the
woman” in Berlin. “I have already canceled my lecture Prussian Academy of Sciences.” The next day the Reichstag was
Austrian the
on
about experimental work on cosmic
.
.
are only notes
diffi-
writing to Berlin, to the
In his diary, which he kept only sporadically, there
Germany; there
it, is
2
flames, and then
came the
first
wave of
brutal
at
in
Nazi terrorism against
left-wing politicians, intellectuals, and journalists.
The day before his departure, Einstein justified his decision not to return to Germany in a public statement that was widely reported: “As long
have any choice in the matter,
as I
where
civil liberty, .
time.” 3
The
.
.
shall live
tolerance, and equality of
These conditions do not
prevail.
I
journalist to
whom
exist in
all
a
country
citizens before the law
Germany
he had handed
659
only in
this
at the
present
statement and
Pacifist and the
The
660 defended
campus
watched him walk across the Caltech
in an interview
it
Bomb
Suddenly the ground shook under
after a seminar.
Angeles was experiencing the worst earthquake in reporter saw if
him walk calmly
to his quarters at the
its
his feet:
The
history.
Athenaeum,
Los
just as
nothing had happened. 4
On March now
and
11, Einstein
his wife left
Pasadena by
They
familiar route across the continent.
along the
train,
spent
March 14
in
Chicago, where, in honor of his fifty-fourth birthday and for the
Hebrew
benefit of
University in Jerusalem, a banquet had been
arranged, at which eminent scientists the governor of the state of Illinois
The
New
next stop was
—such
as
Arthur
Compton and
—made speeches.
York, with receptions,
rallies,
and formal
dinners every day, arranged by pacifist organizations to launch a
volume of Einstein’s
Hebrew
pacifist
speeches and writings, 5 and by friends of
University to collect donations. His views on the situation in
Germany, which he expressed sions,
were snatched up by the press and disseminated.
condemned to the
in speeches or interviews
Hitler’s
German
government but was restrained
He
people.
called
on the
civilized
on these occa-
He
resolutely
in his references
world to practice
“moral intervention” against Nazism, in the hope that the
German
people would not be able to disregard foreign disapproval of the
shameful treatment of erals
—but
“it
pacifists, socialists,
would be
a great
German agitation.” 6 When, on the day of his
communists, and even
lib-
mistake to indulge in general anti-
New York,
departure from
the newspapers
reported that the Nazis, searching for weapons or other evidence, had
broken into
his
house in Caputh, he described
this action as “the result
of the sudden takeover of police powers by the rabid militia.” 7 false, 8
Even when he subsequently learned
mob
of Nazi
that these reports
were
they confirmed him in abandoning any thought of returning to
Germany. In the meantime he had spent
met Oswald Veblen, Institute for
day in Princeton, where he
mathematician and
a future colleague at the
Advanced Study, and had looked around
probably already with
During
a
a
his
a
permanent residence
crossing on
the
familiar
in
for a
house
mind.
Belgenland
,
Einstein had
Exile as Liberation
decided to sever his diately sels,
on
and
ties
his arrival in
at the
Germany
with
661
finally
and completely. Imme-
Antwerp, he had himself driven by car to Brus-
German
legation there he
handed
in his passport
and
citizenship. 9 Before that, he
had
declared his renunciation of
German
sent a letter to the Prussian
Academy, the
bitter necessity for
which
was beyond question but which must nevertheless have been painful for
him
to write:
The conditions at present prevailing in Germany induce me to lay down herewith my position in the Prussian Academy of Sciences. Throughout 19 years the Academy provided me with the opportunity to devote myself to scientific work, free from any professional obligations.
owe
to
It is
it.
the great measure of gratitude
I realize
with reluctance that
I
leave
its circle,
I
also because
of the stimulation and the beautiful personal relations which,
during that long period of my membership, greatly appreciated.
my
present circumstances,
hoped by
this
this
enjoyed and always
However, dependence on the Prussian gov-
ernment, entailed by
Although
I
position,
I feel
is
something
that,
under the
to be intolerable. 10
may not have been
his
main consideration, Einstein
statement to save his colleagues in Berlin from running
into problems with their
new political
masters. In this, however, he did
not succeed. His departure from the Prussian Academy was to have
a
macabre epilogue.
For the Nazis, Einstein had always been one of ures. After their seizure of
him with no holds
barred. It
Beobachter published the
Nobel Prize
power, the
most
laureates Philipp
the time had
come
idea of creating a
is
German
their
hardly surprising that Volkischer
vile attacks
on him, or even
—He
Is
physics.”
Not Coming
Einstein’s remarks in
hatred.
that the
Lenard and Johannes Stark now thought and their crazy
But even reputable papers were
vying with each other to display their Nazi credentials. of Einstein
fig-
press was free to attack
for their distasteful anti-Semitism
“German
most hated
“Good News
Back!” wrote one of them, 11 with
America providing the background
for tirades of
Pacifist and the
The
662
Max
how
Planck, uncertain
stein of his
emerged
to react,
“profound distress” over
in this unquiet
and
it
exceedingly difficult for
up
I
all
on March 19 informed Einkinds of rumors which have
time about your public and pri-
difficult
vate statements of a political nature.
importance. But one thing
“all
Bomb
I
am
in
see very clearly
those
no position
—that these reports make
who esteem and
for you.” In a grotesque reversal of cause
and
revere you to stand
way made
your
tribal
companions and
easier but in fact
he held Ein-
effect,
stein responsible for the fact “that as a result, the
situation of
to judge their
anyway
co-religionists here
made even more
difficult is
in
no
oppressed.” 12 But there
was worse to come.
On March
23,
the parties in the Reichstag, except the Social
all
—the Communist deputies had already been taken confavor of an centration camps or had gone underground — had voted Democrats
to
in
“empowering law” and thereby, within the meaning of the German constitution, legitimately installed Hitler’s dictatorship.
new
ized, the
rulers apparently
instruct the Prussian
Academy
Thus
legal-
had nothing more urgent to do than
to start formal disciplinary proceedings
against Einstein, naturally with the objective of expelling him. 13
Planck was on vacation when he learned of
this intention, simulta-
neously learning from a newspaper report that Einstein had renounced his citizenship in Brussels
and was resigning from the academy. With
an obvious sense of relief he immediately wrote to Einstein tered letter to Ehrenfest’s address in
seems to
me
the only
way
that
Leyden
would ensure
—“that
for
—by
this idea
regis-
of yours
you an honorable
sev-
erance of your relations with the Academy, and at the same time save
your friends from an immeasurable amount of grief and pain.” 14 This advice was not entirely unselfish: Planck was worried not so
about Einstein
as
much
about the reputation of the academy. That same day
he wrote to the acting secretary in Berlin that “starting formal exclusion procedures against Einstein flicts
me
into the gravest con-
of conscience. Even though in political matters a deep gulf
divides
me from
him,
I
am, on the other hand, absolutely certain that
in the history of centuries to as
would bring
one of the brightest
When
come
Einstein’s
stars that ever
name
will
be celebrated
shone in our Academy.” 15
Einstein’s letter of resignation
was received by the academy
Exile as Liberation
663
on March 30 and read into the minutes
at its
expulsion could have been settled, had
not been for the Nazis and
their
need
them by
The
for revenge.
his resignation
least that
was
now
“The
fury in the Ministry that he anticipated
was indescribable,” 16
Max von Laue
recalled.
being demanded of the academy was
statement against Einstein, to be issued
was that for that day,
it
meeting, the issue of
a Saturday, the
at once,
by April
1
.
Nazi leadership had
a
The
sharp
reason
called for a
“boycott of Jews,” and having Einstein kicked out of the academy
would have gone well with the posting of storm-trooper side Jewish shops.
dents, assistants, their
IDs and
The a
At the university and the
sentries out-
state library,
Jewish stu-
and Dozenten were prevented from entering and had
readers’ tickets confiscated.
only secretary of the academy then in Berlin, Ernst Heymann,
lawyer and Nazi' sympathizer,
felt
that he
had to add to these
shameful excesses against Jewish citizens by issuing
a
statement on
behalf of the academy, accusing Einstein of “atrocity propaganda” and concluding: “For this reason [the academy] has no cause to regret Einstein’s resignation.” 17
Max von Laue
was outraged
an extraordinary
at this insult and, at
plenary meeting, attempted to get the academy to disavow Heymann’s
unauthorized action. However, that meeting of April
6,
my
1933, was for
Not one motion; even Haber, who twenty
Laue “one of the most horrible experiences of voice was raised in support of his
life.” 18
years previously had passionately argued for Einstein’s appointment to
Heymann’s formulation and, along with
the academy, approved
colleagues, expressed his “thanks to
The academy, which had
him
for his appropriate action.” 19
included only one
and only one Nazi sympathizer, by
this
his
member
vote Nazified
of the Nazi Party itself
even before
the government resorted to coercion.
Einstein was unwilling to
let
the libelous accusation of “atrocity propa-
ganda” become attached to him; but, in an involved correspondence after his resignation,
he was unable to induce his former colleagues to
change their minds. They were loyally supporting the
Nazi regime had come exception
to
power
state,
and
as the
lawfully, they were, with only
—Max von Laue —not even capable of opposition
one
in spirit. 20
664
The
Pacifist
and the Bomb
In a personal letter to Planck, Einstein stated his view of his former colleagues’ behavior:
In particular
I
In favor of the
did not participate in any “atrocity propaganda.”
Academy
I
assume that
it
made such
a libelous
statement only under external pressure. But even in that case will scarcely
redound to
its
credit,
probably already ashamed of it. I
.
.
and many of the better
all
promoted Germany’s reputation, and
—
men are
.
should also point out that over
that
it
these years that
especially over the past few years
have only
never bothered
I
—the
I
right-wing press
systematically agitated against me, without anyone bothering to
stand up for me. But
now
the
Jewish brethren has compelled
war of extermination against
me
to
throw the influence
world into the balance in their favor
in the
I
my
have
2 .
In his reply, Planck deplorably equated terror and persecution of
wing sympathizers and Jews on the one hand with on the here.
I
“Two
other:
ideologies,
which cannot
left-
Einstein’s pacifism
coexist,
have clashed
have no sympathy with the one or with the other. Yours, too,
alien to
me,
as
you
will
remember from our conversations about
refusal of military service propagated
is
the
by you .” 22 By the time Planck
.
wrote these
lines,
also a “law
on the
there had been not only the “boycott of Jews” but reinstallation of a professional civil service,”
which
excluded Jews from state posts— and hence also from the universities
and other research institutions such
The
as the
Kaiser
Wilhelm
Society.
sharp differences between Einstein and Planck were no longer
solely political but touched
achievement of European
upon human
rights as the
most valuable
civilization. Nevertheless, this did
their personal relationship. Planck
not affect
had expressed the confident hope
“that despite the deep gulf that divides our political opinions, our per-
sonal amicable relations will never undergo any change .” 23 stein assured his father figure
death
—of
am happy
his
—the only one he had
undying loyalty and reverence: “In
that
you have met me
left after
And
Ein-
Lorentz’s
spite of everything I
in old friendship
and that even the
greatest stresses have failed to cloud our mutual relations.
These con-
tinue in their ancient beauty and purity, regardless of what, in a
665
Exile as Liberation
manner of
speaking,
speaking to someone
he criticized Planck,
else,
Kaiser
If occasionally,
his criticism
Goy I wouldn’t have remained
rather mild: “Even as a
Academy and of the
happening farther below .” 24
is
was always
President of the
Wilhelm Society under such conditions .” 25
Planck had stayed on in his posts in order to preserve the
scientific
On
and steer them through the hazards of the moment.
institutions
the issue of Einstein, he was already thinking of future generations
when he had
the following read into the academy’s record:
Herr Einstein
but Herr Einstein lished in our
among many outstanding
not just one
is
the physicist through whose essays, pub-
is
Academy, physical knowledge
been deepened in
physicists,
in this century has
manner whose importance can only be mea-
a
sured against the achievements of Johannes Kepler or Isaac
Newton. I feel it
incumbent on
me
to say this, lest future generations
should ever think that Herr Einstein’s professional colleagues
were unable It
fully to
would have been
comprehend
fine if
his
importance to science.
Planck had stopped there
—but he added
a
badly conceived sentence, a semiofficial Nazi interpretation which
undid
his earlier efforts:
It is
therefore
through
.
.
greatly to be regretted that
in the
Academy impossible
Herr Einstein
rendered his continued
his political behavior himself
membership
On the
.
26 .
eve of this declaration, books had been piled up and burned
opposite the university and within view of the academy. Writings
by Sigmund Freud, Lion Feuchtwanger, Heinrich Mann, Kurt Tucholsky, and spectacle
27 .
many
others were consigned to the flames in a satanic
But not even
of the academy see that
this
was not Einstein’s behavior but the terror
it
Germany that had made
macabre auto-da-fe made the mandarins
his parting
in
with the academy inevitable.
As Einstein had belonged not only
to the Prussian
Academy, but
to
countless scientific societies and associations, he requested his reliable friend
Max von Laue
“to see to
of these organizations.
.
.
.
it
This
that
is
my name is deleted
from the
lists
probably the right way to avoid new
The
666
Pacifist and the
theatrical effects.” 28 Particularly,
German
the
On
his arrival in
gian colleagues,
he no longer wished to belong to
whose president he had once been, or
Physical Society,
to the civil division of the
Bomb
famous Pour
le
Merite Order.
Antwerp, Einstein had been welcomed by some Bel-
who
offered
him accommodations
house in the neighborhood. But
as
in an old country
he intended to stay in Belgium for
the time being, he soon rented a vacation house, the Villa Savoyard, in
the small seaside resort of
modest than the dunes
his
—an
Le Coq
sur
Mer, near Ostend.
It
was more
house in Caputh, but magnificently situated among
ideal refuge for
him
to think about the future
and about
his plans.
There, during the
bank accounts loss
in Berlin
taken.
had been confiscated.
wicked beast in Germany and
to the
But
He
him
that his
did not regard this
now been promy money has been
him by
provision.” 30 in
He
Dutch
his
He
had always deposited
was not
more or
it
would soon have
did not need to accept the financial help offered
colleagues, “because
New York,
sonally, I
all
console myself with the thought that
I
gone anyway.” 29
are
days of April, news reached
of 30,000 marks as tragic for very long: “I have
moted
and
first
I
have been careful and made
his foreign earnings in
so that, at least materially, he had really
less close to
caught out, but practically
no
all
Leyden
worries: “Per-
those were
who
me.” 31
His secretary, Helen Dukas, and Walther Mayer, “the calculator,” arrived in
Le Coq
in April, thus
completing the household-in-exile.
His stepdaughter Margot and her husband Dimitri Marianoff had
fled
to Paris at the beginning of April, so that a search of Einstein’s apart-
ment on Haberlandstrasse, intended results. 12 Only his other stepdaughter, Kayser, were
still
May
a
Ilse,
produced no
and her husband, Rudolf
hanging on in Berlin, trying to save Einstein’s
papers, library, and furniture
the end of
for Marianoff,
from being seized by the Nazis. Toward
squad of brownshirt storm troopers ransacked the
apartment, picking up rugs, paintings, and a few other valuables. 33
Whatever was
left,
in particular his papers,
was brought to Lrance by
sealed diplomatic bag, thanks to the help of the
Andre Lrangois-Poncet, and from there shipped
Lrench ambassador
to America.
667
Exile as Liberation
As Einstein had
Germany, the was
tion,”
some time expected
for
made
decision,
in the
end
a
German
his
robbed of his childhood paradise
no longer wished
would have
in
to leave
by Hitler’s “national revolu-
kind of liberation. This was not the
had stripped off
that he
inevitable
that he
nationality.
He
Munich, when he
recalled being first
decided he
German, and he remembered “Papa” Win-
to be a
“Once
mistrust of Switzerland’s “large canton” in the north:
teler’s
Germans
again the
time
first
are paying for Bismarck’s disastrous educational
efforts.” 34
In 1914 he had returned to the land of his birth with mixed feelings,
not wishing to become
a
German
citizen for a
second time. That
he became one nevertheless was due to bureaucratic accidents, but Einstein accepted racy.
because he placed some hope in the
it'
new democ-
But even during the best periods of the Weimar Republic, he was
aware of
his precarious situation
among Germans: “To them
stinking flower, and yet they put
me
I
am
in their buttonhole time
a
and
again.” 35
In contrast to his the
Germans more
comments
—
sharply
in
America
albeit, to
in
March, he now judged
avoid endangering his friends,
only in private statements. His anger was directed mainly of the educated eign
classes, especially the professors.
members of German
He
at the failure
called
on the
for-
learned institutions “not to go along with
the fact that these societies accept without opposition the mortal struggle against liberal and Jewish intellectual workers. If appeals
remain tions
fruitless, I believe that
would be
Writing to
another rupture of international rela-
entirely justified.” 36
Max
Born, Einstein
said:
thought too favorably about the Germans sense).
But
I
“You know (in
— and
their cowardice.” 37 (Born,
served at the
it
may
its
even sympathy for them:
me by
be noted, could
— there was an exemption veterans dubious front— but he rejected for
this
Although Einstein realized that
government and
never
the political and moral
have retained his professorship
their
I
have to confess that they did somewhat surprise
their brutality
who had
that
a lot
of
favor.)
Germans were ashamed of
criminal actions, he ruled out any pity or “I
was there when for many years they nur-
The
668
tured the viper in their bosom, and
mouse
But they
holes.
Bomb
Pacifist and the
will
soon
when
hell erupted they hid in their
on
feel
their
own
skins the conse-
quences of their lack of a sense of duty.” 38 Fritz Haber, the baptized, overassimilated
Jew (who,
like
Born, had
served at the front), initially intended to stay. But in the end he could
not find
it
in his heart to sack Jewish colleagues
know
.
cooled
.
off.
up here cause.”
in exile, not without
Who
as the
would have thought that
“I
am
delighted to
my
dear Haber would turn
champion of the Jewish, and indeed the
Palestinian,
As Einstein was well aware of Haber’s deep attachment to any-
made
thing German, he tonia”
some mockery:
your former love for the blond beast has somewhat
that
.
did not enjoy his
he considered going to Jerusalem. Einstein wel-
privileges; in fact,
comed him
who
it
clear that there
for honest people,
departure: “Surely there that lies
on
its
is
no future
working
in
common
“Teuhis
for an intelligentsia
some
criminals and even, to
extent, sympathizes with those criminals. I
left in
and that Haber should not regret
belly before
appoint, because
was no place
Me, they were unable
to dis-
never had any respect or sympathy for them
except for a few fine personalities (Planck 60 percent noble and Laue
100 percent).” 39
A
few months
Reich had
after the Nazis’ seizure
begun
just
to reveal
and when many people after
all,
still
its
of power,
when
the Third
perverse and diabolical character,
thought that things might not be too bad
Einstein had concluded the second
German
chapter of his
biography, and this time for good: “I probably won’t see the country of
my birth
again.” 40 His parting
was without nostalgia; and
his solidarity
henceforth was with the persecuted and expelled, particularly his “tribal
companions”: “[To me] the best thing always
few fine Jews.
A few millennia
of a civilized past
is
contact with a
mean something
after
all.” 41
had needed any consolation during the first few weeks of he could have found it in a multitude of well-intentioned
If Einstein
his exile, offers.
He was
asked to give some lectures in Brussels. In Oxford, Lin-
demann wanted ship.
to convert his “research studentship” into a professor-
From Madrid he had
a prestigious invitation for the
summer of
Exile as Liberation
1934, which he accepted.
He
669
from the College
also accepted an offer
de France in Paris, which Langevin had arranged. Soon he complained: “I have
The
brain. his
more
done
this for a
Abraham
year
obligation, in Princeton, he feared:
pouring in to Einstein, his institution
for
may have been concerned
He
whole academic
Walther Mayer.
While Einstein
realized that
“My
famous:
first aid for
hood
in
to set
year. 44
outside
For
Institute
a
time Einstein
terms in Pasadena for
famous refugees such
as
Max Born would
somewhere, he worried about the plight of the
heart bleeds
when
I
Jewish university teachers,
Germany, Einstein wanted
up
ornament of
he did not wish to give up Europe altogether
his “calculator”
less
have
he come to Princeton not
partly, perhaps, to ensure the best possible
find suitable positions
I
therefore not only offered Einstein whatever
for the winter but for the hesitated, partly because
that the
and neglect the
his energies
assistance he needed, but also proposed that
and
“When
learned from the press of the offers that were
would squander
Advanced Study.
my
be dead.” 43
I’ll
who
Flexner,
have useful ideas in
I
on the big numbers.” 42 And when he thought of
devil shits
most important
professorships than
think of the young ones.” 45 As
who had no
chance of
a liveli-
“to try, together with a few friends,
Jewish guest university for Jewish Dozenten and professors
a
Germany
(England?), to meet at least the most urgent require-
ments and provide
a
kind of intellectual asylum.” 46 His liaison in En-
gland was Leo Szilard, who, immediately on his arrival there, had involved himself in organized assistance efforts. Szilard that an
It
was partly due
Academic Assistance Council was soon
to
able to mitigate
the worst hardships.
Over the
first
weeks of
his exile, Einstein
pursued his project of
refugee university with great zeal; he intended to “use
money, the residence permits
to raise the location.
would
.
.
.
This
is
the only
few weeks “that the
in a dignified
and
manner.
Germans.” 47 However,
his
a It
com-
his organizational skills,
he had to admit
difficulties are insuperable,
and that such an
mitment being greater than after a
his influence
for those concerned,
way of helping
also be a living disgrace for the
all
a
The
670
would impair the
enterprise tries.” 48
In
fact,
more
rably
Pacifist and the
men
like
efforts
Bomb
being made in the individual coun-
Lindemann and Rutherford were incompa-
efficient in organizing the
Academic Assistance Council
than Einstein could ever have been with his “refugee university.”
One problem
with the idea of
a “refugee university”
was the
fact that
there already was a Jewish university, the one in Jerusalem, which
claimed to be for
all
Jews.
mann, therefore believed
Many
that
it
Chaim Weiz-
Zionists, especially
was Einstein’s duty to go to Jerusalem.
But ten years previously Einstein had noted, with regard to moving to Palestine, that while his heart said yes, his reason said no. 49 Besides,
there was his conflict with the administration of Hebrew University.
March 1933, Einstein had brusquely declined an invitafrom Weizmann. Even though, at Weizmann’s request, he had
As early tion
as
rejoined the university’s board in 1932 and had again raised it
him was
in America, the university to
but charlatanism.” 50 Without vise
was
a
still
—nothing
“a real pigsty
“thorough purge” one could “not ad-
any decent person to go there.” 51 Whether such justified
is
money for
an open question; but there
is
fierce criticism
no question
while calling for Jewish solidarity, was jeopardizing
it.
To
that Einstein,
Ehrenfest he
reported that he was fighting for reform of the university “with a brutality that
not so
would amaze you.” 52
much amazed
Many
of his “tribal companions” were
as appalled.
In the past, Einstein had voiced his criticism of
only privately, but he abandoned
He
fixed, is
first
board
University
spring of 1933.
upon which such
great
unable to play the role in satisfying intellectual
needs that should be expected of the
this restraint in the
regretted publicly that “this university,
hopes were
Hebrew
it
at this critical period.” 53 Also, for
time he publicly announced that he had resigned from the
five years previously.
Although Weizmann was shocked by Einstein’s behavior, he still wanted to lure the “Jewish saint” to Jerusalem. He again promised the reform demanded by Einstein, and even the establishment of rate research institute.
When
Einstein got
a
news agency
a
sepa-
to inform
Weizmann publicly that the latter knew very well “under what circumstances I am prepared to work for the Hebrew University,” 54 Weiz-
Exile as Liberation
mann
twisted this statement around to
mean
671
that Einstein
accept a professorship in Jerusalem. This was not so
“He
complete
much diplomacy
and Einstein complained about Weizmann, though not
as blackmail,
publicly:
was ready to
an intelligent and charming man, but unfortunately
is
liar (a
Jewish Alcibiades ).” 55
Weizmann
a
for his part felt that
Einstein was “acquiring the psychology of a ‘prima donna’
who
is
be-
ginning to lose her voice .” 56
One
result of this
polemic was that the board and
a
commission
thoroughly examined the university. After two years of investigations
and consultations, the responsibilities of Judah Magnes, stein tions.
saw
root of
as the
all evil,
Academic matters and
were now the business of a
Hugo Bergmann was
knew Bergmann from Prague and esteemed him
Thus Hebrew University had put Einstein’s loyalty to the
schizophrenia.
He
out on a
new
Germany about
fact that his
appointed. Einstein as a “serious saint”;
course which no longer
the Nazi terror, Einstein
younger son, Eduard, had developed
therefore decided to postpone his trip to Oxford,
originally planned for the in
set
rector,
test.
In addition to the news from
had to face the
Ein-
were reduced to representative func-
staffing
or principal, a post to which
whom
end of May:
“I
wouldn’t have
a quiet
minute
England,” he apologized to Lindemann. “Although you are not
father yourself,
I
am
sure
you
understand .” 57
will
He
first
a
had to give
three lectures promised to the Belgian Franqui Foundation in Brussels
before traveling through France to Zurich to see his son It is
commonplace
a
envied; and
mark on
it is
—because of the be which they are subjected — are not
that sons of
attention and expectations to
58 .
famous
men
to
also accepted that conflicts
their children. Einstein,
who,
between parents leave
in spite of
being
a “loner,”
greatly attached to his sons, had tried hard, after his separation
a
was
from
Mileva, to perform his role as father. This had not always been easy for
him, because ofMileva’s “Medea syndrome” and because of the loyalty his sons
had
who would forcibly to
to their
mother. Moreover, he had been
stay out of touch for
impose
his will
on
a difficult father,
months on end and then would
try
his sons.
His older son, Hans Albert, had
a taste
of that
when he intended
to
672
The
Pacifist
and the Bomb
way
that far
own mother had made about
Mileva.
get married. Einstein opposed the marriage in a brutal
surpassed the scenes which his
Not only did he Hans
dissuade
mobilize his friends, such as Anschutz and Zangger, to
Albert; he also had the medical history of the
unwanted daughter-in-law investigated
his
had
—
hard
after a
mother of
life,
she had
one time undergone psychiatric treatment. Einstein was
at
as
firmly convinced of the hereditary nature of mental illness as he was of his unified field theory; for this reason,
and because
of Mileva’s
a sister
had developed schizophrenia, he was greatly worried about the of mental illness on both sides of the family. 59
who was soon his
as
own
feet.
Two years
as
ETH diploma exam and was able to stand on
later Einstein
“very disrespectfully promoted tions
Albert, however,
mind, married his fiancee
his father’s equal in strength of
he had passed the
Hans
effect
between father and son,
him
if
reported that his older son had
to grandfather.” 60 After that, rela-
not excessively warm, were free from
conflict.
Eduard, the younger son, seems to have been Albert. After a childhood
less
marked by frequent
robust than
Hans
including
illnesses,
tuberculosis at the age of thirteen, he developed into a sensitive boy, a
good student, with considerable
tainly superior to his father as a poet. 61
fascinated
mined
While
by Sigmund Freud’s writings, and
to study medicine.
in Berlin
and musical
literary
—
September
As
for example, in
in
a
fall
first
at
school he was
after graduation
he deter-
student he repeatedly visited his father
March 1930 on Haberlandstrasse and
Caputh. “Albert
is
happy with him,” recorded
Soon, however, signs of serious mental
were
still
and cer-
talent,
illness
in
Elsa. 62
appeared. His studies
neglected and subsequently became impossible, and in the
of 1932 he had a major episode of schizophrenia and had to be
taken to the Burgholzli psychiatric hospital. Zangger and Besso
informed Einstein of this tragic development, urging him to look his threatened
after
son and take care of him: “That would be best for
both.” 63 Einstein, however, viewed his son’s condition as
more or
less
incurable and due to heredity on the boy’s mother’s side: “Everything
unfortunately indicates that the grave heredity will [have] effect [on] him. I
have seen
it
coming, slowly but
its
irresistibly,
decisive
ever since
Exile as Liberation
Tedel’s youth.
The
role in such cases
get at.” 64
And
Zangger
external occasions and influences play only a slight
compared went
off he
initially
and continue
thought that Eduard might make
the spring of 1933.
when he
but
this
hope did not
a full
man
There
recovery
materialize. After
which tested Mileva almost beyond the
endurance, the young
ings
which no one can
to the secretory causes,
to Pasadena.
his studies,
painful months,
673
limits of her
again had to be admitted to Burgholzli in
is
visited his son.
no written evidence about
No
Einstein’s feel-
doubt he was profoundly shaken, and
he certainly determined to make sure his son’s future was financially
Beyond
secure.
he
this,
may have
when
expressed to his friend Ehrenfest,
had
Down
on
acted
a
view which he had once
Ehrenfest’s son Vassik (who
syndrome) had to be placed in an
individuals
must not be
instance.” 65
When Einstein left Eduard,
institution: “Valuable
sacrificed to hopeless things, it
was
not even in
this
a final farewell.
From Zurich Einstein went straight to England, where he arrived on June 1. The day after his arrival he was enthusiastically feted as the guest of honor at Lord Rutherford’s Robert Boyle Memorial Lecture
—now not only
as the greatest physicist since
Newton
but also as
a
symbol of moral integrity and opposition to dictatorship. With Rutherford, and particularly with
many
in April
researchers
to
Lindemann
—who had toured Ger-
inform himself on the situation of discharged
and recruit the best of the young physicists for
—Einstein discussed ways and means of
Clarendon Laboratory tance.
But he avoided public
political statements, realizing
his
assis-
by then
that
they would only provoke the Nazis. Besides, in the atmosphere of creative quiet at Christ
Church College, he wanted
to prepare a few
lectures.
On Jane House,
a
10, Einstein
gave the Herbert Spencer Lecture
largely comprehensible
Methods of Theoretical
Physics. 66
exposition of his views:
For the
first
although he was reading his lecture from
German
text.
More
at
it
On
the
time he spoke in English,
a written translation
significant than this linguistic premiere
explanation of his research procedure, as
Rhodes
of his
was the
had matured over the past
674
The
Bomb
Pacifist and the
no
logical road
to theoretical conceptual systems,
he explained
ten years and hardened into a credo. As there exists
from statements of fact
to his audience that “the axiomatic foundation of physics cannot be
derived from experience, but must be freely invented.” Such invention
must be guided by confidence the simplest that
is
“that nature represents the realization of
mathematically thinkable,” and by the hope that
through pure mathematical construction “pure thought
comprehending
reality.” Actually,
hope
this
is
capable of
vastly overrates “pure
thought” in matters of cognition of nature, but Einstein adhered to despite
numerous disappointments,
Two
days later he gave the
and aided by
to the
Deneke Lecture,
few scraps of notes.
just a
prepare this lecture
end of his
He
it,
life.
this
German
time in
could not be persuaded to
—on the structure of physics—
for publication.
His
next lecture, the George Gibson Lecture given at the University of
Glasgow on June
him
20,
was
a fully
worked-out
to illustrate an important phase of his
complied with
a
fine
text.
own
His hosts had asked scientific
work; he
reconstruction of his greatest triumph, the
genesis of the general theory of relativity. 67
Back not,
at his refuge in
Le Coq,
was once more caught up by
Einstein,
whether he wanted
politics, this
it
or
time on the issue of his
pacifism.
At the beginning of July Einstein was notified that “the husband of the second
violinist
obvious that
would
this
like to talk to
you on an urgent matter.” 68
meant King Albert, and
cerned two young Belgians
who were
was
that the “urgent matter” con-
in prison for refusing to serve in
the army. Pacifist sympathizers expected Einstein to intervene behalf,
It
and the king wished to prevent
that.
on
their
A conversation in the gar-
dens of Laeken Palace resulted in agreement between the two
men on
the essential aspects, as Einstein confirmed to the king in writing: for
one thing,
view of developments in Germany, Belgium’s army was purely an instrument of defense, and indeed was necessary for defense; in
for another, a foreigner enjoying the hospitality of a country should
not intervene in matters such
former
pacifist fervor
now
as refusal
of military service. Einstein’s
resulted merely in a request to the king to
675
Exile as Liberation
create alternative service for conscientious objectors instead of labeling
them
criminals. 69
But Einstein was being pressed to defend the two imprisoned men, and he could no longer avoid mind.
He
working
a public
statement on his change of
provided one without delay. As
Germany was
“obviously
out toward war,” France and Belgium in particular were
all
“in grave danger
and absolutely dependent on their armed forces,” he
stated in a letter to be disseminated
among
Moreover, he
pacifists.
declared that although barely three years before he would “rather have
been cut to pieces” than serve if I it
were
a Belgian, I
upon me
When
in the in
in the forces,
“under today’s conditions,
would not refuse military
service,
knowledge of serving European
August 1933
this
civilization.” 70
statement appeared in the papers in
France, and subsequently in England and America, a
bombshell among
bitter
“The
had the
effect of
Some were disappointed and others volte-face, which many called an unscrupulous
antimilitarists are falling
gade,” Einstein said,
it
pacifists.
about Einstein’s
betrayal.
but gladly take
summing up
on me
as
on
their reactions.
wicked rene-
a
“Those fellows
simply wear blinders and refuse to acknowledge the expulsion from ‘Paradise.’
” 71
Over the next few months and
pion of militant pacifism would have to do
years, the
a lot
former cham-
of explaining to his
former comrades. In countless statements Einstein argued that
it
was not that he had
betrayed his convictions, but rather that the political situation had
changed. “I
am
the same ardent pacifist as before,” he insisted. “But
I
believe that the instrument of refusing military service can only be
advocated again in Europe
when
the military threat to the democratic
countries from the aggressively-minded dictatorships has ceased to exist.” 72
More
sensitive criticism
change of opinion
was directed not so much
as at the absolute assurance
proclaimed his present views consider the possibility of
as the
with which he always
only correct ones. “Did he never
a situation like today’s,
when implementa-
tion of refusal to serve, as propagated by him, could
gerous?” asked
Romain
at Einstein’s
become dan-
Rolland, who, like Einstein, abhorred war but
The
676
who had
Pacifist and the
always regarded Einstein’s
and dangerous. For Rolland
tive
in science, field.
.
.
.
two percent” argument
now seemed
as
decep-
that “Einstein, a genius
weak, indecisive, and contradictory outside his
is
Elis
it
a
Bomb
own
continuous change of opinion and the hesitation and dis-
crepancy in his actions are worse than the inflexible obstinacy of declared enemy.” 73 Rolland’s diagnosis proved did not change his
German
the
mind
again:
wrong
he would continue to
a
in that Einstein
insist that, against
aggressor, military strength had to be the
supreme law of
“the nations which have stayed normal.”
Much
Le Coq may have been
as Einstein’s stay in
Belgian seaside resort had one major disadvantage
Germany.
It
would have been foolhardy
Nazis were out for the
on
his head. 74
The
—
it
to ignore
of their hated exile and
life
like a vacation, the
was too close to
rumors that the
had even put
a price
Belgian government had therefore detailed two
police agents to protect the eminent guest, but Einstein found his continual supervision
both comical and annoying, and hardly
efficient.
Although the inhabitants of Le Coq had been asked to pretend ignorance
way
when questioned about
to the Villa Savoyard
Einstein, any stranger asking the
was readily directed
two detectives had no idea how
there. Naturally, the
sightseers and legitimate visitors, with the result
guest of the Einsteins was in a
permanent
state
pretending not to be
first
among harmless that many a genuine
to spot an assassin
detained in the dunes. 75 Elsa was living
of excitement, so that Einstein, though at least afraid,
leave the idyllic spot and the
decided at the beginning of September to
European continent
altogether. Possibly,
he was also reacting to the assassination of Theodor Lessing by Nazi agents in Marienbad (Marianske Lazne) in Czechoslovakia on August 30, 1933.
On
September
8,
Einstein took the ferry to England.
A few months
he had accepted an invitation from
Commander Oliver LockerLampson, an officer, barrister, journalist, and member of Parliament. In this last capacity Locker-Lampson had induced the House of Comearlier
mons
to offer Einstein British nationality. In July, Einstein
had already
been Locker-Lampson’s guest and, accompanied by him, had called on Winston Churchill, Austen Chamberlain, and Lloyd George. With
677
Exile as Liberation
Churchill in particular he found agreement on the danger represented
by Germany: “This
is
that these people have
an eminently clever man, and
made good
fully realized
I
preparations and will act resolutely
and soon.” 76
Einstein spent the
last
four weeks before his departure for America in
“cheerful exile” at a vacation
home belonging
the Norfolk coast, to the north of London. controversies, but there was
When
he declared
to
He
Locker-Lampson on
kept away from public
one important event he could not avoid.
his readiness to speak at a joint public rally of the
Academic Assistance Council, the Refugee Assistance Council, and other such organizations, the event was arranged in the Albert Hall,
London’s huge
circular
concert hall on the edge of Kensington
Gardens.
On
the evening of October
crowded into the rotunda.
On
3,
an audience of some ten thousand
the dais sat the great scholars
—Lord
Rutherford; Sir James Jeans, the physicist; and Sir William Beveridge, director of the
ent had
but with
come a
London School of Economics. But most of those
He
to hear Einstein.
spoke in English, in
a clear
pres-
voice
strong accent. Without naming Germany, he depicted the
danger emanating from that country; he thanked the English for having remained loyal to their tradition of justice and tolerance, and voiced the hope that
it
would be
freedom and honor of
this
said in the future “that in
continent was saved by
nations.” 77 In conclusion, he perplexed his listeners
pensive quiet of lighthouses and lightships: to
fill
such posts with young people
its
western
by referring
“Would
who wish
our day the
not be possible
it
ponder
to
to the
scientific
problems, especially those of a mathematical or physical nature?” 78 Einstein
made an overwhelming
The
impression.
hailed the charismatic scientist as a “double symbol
mind
traveling in the cold regions of space, and a
week
later,
in
a
symbol of the
symbol of the brave
and generous outcast, but pure in heart and cheerful
A
—
British press
Southampton, Einstein boarded
79 in spirit.”
a
steamship from
Antwerp. His wife and Helen Dukas were already on board, and the party also included Walther Mayer. Einstein and his entourage were
678
The
traveling
month
on
Pacifist and the
visitors’ visas
stay at Princeton.
Bomb
because the plan was
The
still
for only a six-
following spring Einstein intended to be
back in Europe. As the Westemland sailed down the Channel toward the Atlantic, he did not
know
World
He was never to
for the last time.
that he
was seeing the shores of the Old return.
CHAPTER THIRTY-FIVE Princeton
Einstein’s arrival in America
(after a crossing that
was some-
times rough) had been organized by Flexner not as a triumphal progress but as
New
clandestine operation. As the Westemland approached
a
York harbor,
launch came alongside. Einstein and his party
a
were taken to the Battery, on the southern
of Manhattan, for
tip
speedy immigration processing, and he was then taken over by trustee of the Institute for
York was parade
still
at
Advanced Study. While the mayor of New
waiting to welcome the world’s most famous Jew with a
Twenty- third
the
Street pier
because the election campaign was in
Jewish vote
For the
a
full
—Einstein had arrived by car
entirely unselfishly,
swing and he needed the
in Princeton.
few days, rooms had been booked
first
Peacock Inn, where curiosity than
—not
it
it
at a small hotel, the
was easier to shield Einstein from importunate
would have been
elegant Nassau Inn, the
at the
leading hotel in town. Within a few days Elsa had found an apartment in
one of the houses, near the campus and opposite the Theological
Seminary, which formed an elegant residential area of wandering as that
would be
“Princeton
is
a
a refugee,
his
Einstein once
refuge
for
the
more had
final
1 .
After six
home,
a
at the
town
in a
two decades of
wonderful piece of earth and
months
his
life.
same time an
exceedingly amusing ceremonial backwater of tiny spindle-shanked
semigods,” he wrote, describing his experiences of the
during which he had already found sible,
a
by offending against the bon
rhythm ton
splendid undisturbed existence, and that
679
,
for his
first
life:
four weeks,
“But
it is
to ensure for oneself is
what
I
am
doing .” 2
pos-
some
680
The
Among America’s
and the Bomb
Pacifist
elite universities,
of an academic ivory tower in
its
Princeton represents the dream
purest form
—insulated from the
of America, snobbish, arrogant, and with restrained wealth. is
rest
The town
grouped around the all-dominating campus, and apart from the uni-
versity there
is
virtually only the small trade associated with
houses of affluent
citizens,
mater, but making their elsewhere.
The many
money
in
New
scholars expelled
Princeton in the 1930s
made
most of them alumni
may have found
York,
closely at the imitations of English
and the alma
loyal to their
miles distant, or
fifty
from Germany who came that their acclimatization
by reminders of Europe; and
easier
it,
if
to
was
they did not look too
Gothic and other
they might
styles,
almost think themselves in Oxford or Cambridge.
The
many decades, a favorite for the educagentlemen,” who were interested less in intellectual
college was once, for
tion of “southern
brilliance than in acquiring social polish.
century
it
But around the turn of the
developed an ambition to surpass the Old
World even
academic standards; and thereafter Princeton established
— and
citadel of learning a
world leader. All
when he
this
in
some
disciplines,
Advanced Study
some misgivings about
the university, despite its
as
itself as a
mathematics,
at Princeton,
this
was offered hospitality
exclusive rival,
at
the
the institute’s school of mathematics university’s
Fine Hall.
Fine Hall
belonged to the department of mathematics, inaugurated only it
was here that Einstein’s remark, from
1921, was written on the chimneypiece:
malicious he
is
on the second institute, all
not.” Einstein floor,
“The Ford God
was assigned an
of whom were mathematicians
brilliant
Berlin. In
John von Neumann,
January 1934
this
Hermann Weyl. Weyl had institute,
cessor
—
hoping
few
his visit in
is
subtle, but
attractive corner
who had been
initially
as dean;
whom
high-powered
to continue the
until Hitler
a
room
next to the rooms of his few colleagues at the
by Princeton University— Oswald Veblen, and the
and
birth.
With no premises of its own,
years previously;
as
had been taken into consideration by Flexner
established his Institute for
readily assisted with
such
in
James Alexander;
Einstein
circle
snatched up
knew from
was augmented by
declined an invitation from the
Gottingen tradition
as Hilbert’s suc-
quashed that hope. Weyl by then had given up
his
Princeton
681
more
excursions into theoretical physics and was concentrating once
on pure mathematics. In consequence, “without prejudice
to our con-
tinuing cordial personal relations,” 3 there was no scientific link be-
tween him and Einstein. In addition to the four professors, the institute had over a dozen
younger
“workers,”
scientists, called
who were hoping
temporary collaboration with the
this
to benefit
from
Walther Mayer,
“illustrious.”
thanks to Einstein’s perseverance, had the exceptional status of an “associate.”
At the
university,
moreover, Einstein met
few acquain-
a
tances from Berlin, such as Professor Rudolf Ladenburg and the theoretician arrived,
the
Eugene Wigner. In March 1934 Erwin Schrodinger
one of the few non-Jewish professors to have
summer of
1933.
The
hope of
him
university offered
sorship, but, having just received a in the
young
a better-paid
Nobel
left
Germany
in
a prestigious profes-
Prize, Schrodinger declined,
post at the institute. That, however, was
not offered him, and in April he therefore returned to Europe. 4 Einstein
would have
liked to have Schrodinger as a colleague
tried to speak for him, but
he had
lost all influence
and even
with Flexner
result of a fierce conflict with him, culminating in a threat
as a
by Einstein
to leave the institute.
What
led to the controversy
like a guardian,
his
own
he
felt it his
licity,
desires
and to
justified.
was Flexner’s attempt to exert control,
over his prominent employee’s
and partly through those of
Thus he had
tried,
by telegram,
part in the rally at Albert Hall in
informed Einstein of
On
this
his arrival, Flexner
gangs in rity in
Partly through
his conservative patrons,
members from pubend every means, however dubious, seemed to him
duty to shield the institute and this
affairs.
this country,” to
its
to forbid Einstein to take
London, but Locker-Lampson had
only just before his departure for America. 5
warned Einstein against “irreponsible Nazi add weight to his urgent advice: “Your secu-
America depends on your silence and the rejection of
all
public
appearances.” 6
Although Einstein himself felt was unwilling to cut himself off curtailed
by someone
else.
a
need for
totally, let
Even on such
a quiet
and retired
life,
he
alone to have his freedom
a trivial public occasion as a
The
682
Pacifist and the
Bomb
conversation with representatives of a student newspaper, Flexner
When New York
intervened like an angry governess.
Einstein was to appear as a
violinist at a charity concert in
for the benefit of refugees,
Flexner tried to
foil
the arrangement by
to the organizers, telling
regarded stein
it
as entirely
them he would
The arrival
White House, and had been
invitation
by
a friend
Flexner also
“fire” Einstein.
behalf—he even declined an
his this
proved to be the immediately
initiated
of his, Rabbi Stephen Wise in
meeting between the famous
that a
calls
normal to withhold any mail addressed to Ein-
and to decline invitations on
invitation to the
making vicious telephone
exile
last straw.
Einstein’s
after
New York.
was
It
felt
and President Franklin
Delano Roosevelt would draw attention to the plight of Jewish refugees from
Germany. However, when the
institute at the
beginning of November, Flexner opened the
invitation arrived at the letter and,
without consulting Einstein, informed the president “that Professor
come
Einstein had entific
work
to Princeton for the purpose of carrying
in seclusion
and that
it
on
was absolutely impossible
his sci-
to
make
an exception which would inevitably bring him into public notice .” 7 Flexner added
a
reference to “irresponsible groups” and an assertion
that he had, in agreement with Einstein, declined invitations even
from
scientific societies “in
whose work he
is
really interested.”
No
doubt the White House was meant to conclude that Einstein was not really interested in the
When
work of the
Einstein learned from
president.
Washington 8
that an invitation had
been issued by the White House but had not reached him, the reason was obvious, and he did three things.
He
immediately assured Eleanor
Roosevelt of his keen interest “in meeting the
man who
is
addressing
the greatest and most difficult problems of our era with gigantic
energy .” 9
He
vented his fury
at
Flexner in a letter to Rabbi Wise,
written from “Concentration camp, Princeton .” 10 institute’s trustees a
long
list
him
sent to the
of Flexner’s arbitrary and tactless actions
and gross misjudgments, concluding with for
And he
a request that
they ensure
“security for undisturbed and dignified work, in such a
that there
is
no interference
at
every step of a kind that no
way self-
respecting person can tolerate. If this were to be considered impracticable, I
would propose
that
I
discuss with
you ways and means of
Princeton
my relations with your Institute in
severing
683
manner.” 11 The
a dignified
threat was sufficient; after a “storm in the ivory tower,” Flexner had to leave Einstein alone. Einstein was once
country, but
more
now without any influence on
a free
professor in a free
the running of the Institute
Advanced Study.
for
This bizarre episode was eventually followed by dent.
On
the evening of January 24, 1934, Einstein and his wife dined
with the Roosevelts Franklin
a visit to the presi-
Room.
No
at the
White House and spent
the night in the
record exists of the conversation on that evening.
Germany preferred more
Einstein no doubt pointed to the danger emanating from
and to the plight of Jewish refugees, but the president
harmless subjects like sailing and their acquaintance with the Belgian
monarchs
—about which The
doggerel. 12
rhymed
Einstein reported to the queen in
visit certainly
had no
effect
on bringing the
fate
of
silent
on
persecuted Jews to public attention.
“As
far as possible I
though not from concern about
political matters,
but because
I
have followed the amicable advice to keep
saw no chance of achieving anything
one way Einstein
many years, and
as a
“as a
Jew and
German
This was
a
resident and state employee for
person robbed by the Nazis of his pos-
would not be an objective judge
I
useful.” 13
corpse
justified his relative restraint in public statements.
Another reason was that
sessions,
my worn-out
in the eyes of the public.
Altogether, in this struggle Jews should emerge as
little as
possible in
Germany might be He may also have consid-
public, because otherwise opposition to Hitlerite
labeled a Jewish affair and thus weakened.” 14
ered that Americans, for to be lectured
by
guests,
Nevertheless, he rise
his
of Hitler.
He
still
all
their
open-mindedness, were not inclined
no matter how famous, had some lessons for
still felt
close to the
in their
pacifists,
own
country.
even after the
American Friends of Peace, but
emphasis had shifted toward what was to become his passion in
later years
—“world government.” Increasingly, he argued
his
in favor of
ensuring peace “through the creation of an international organization
embracing
power
all
major
states
.
.
.
with
at its disposal.” 15 In cautiously
a sufficiently
strong executive
formulated statements he tried to
persuade the Americans to give up their traditional isolationism and
Pacifist and the
The
684
Bomb
“to support in the near future the realization of an efficient interna-
The
tional central power.
pursuit of international solidarity
today
is
the best defense against fascism, which represents such a grave threat to our cultural life.” 16
Within
a
month of arriving
at Princeton, Einstein
was thinking about
He suggested to LinI am hardly justified in
severing his only contractual link with Europe.
demann
“that under the present circumstances
Church College
accepting a payment from Christ years.” Instead he
proposed that “some other colleague in the fine facility.” 17
might benefit from that get
him
to visit Oxford, Einstein
end of March 1934: “If it
is
America over the summer. like relative quiet
once in
ill
in Paris. In
York harbor and
possible
when
his stepdaughter Ilse fell seri-
—were
August the ashes of
Kayser was compiling in
The World as I See
become an American
on the coast of Rhode
citizen
was by then running
summer, remote a radiologist
Bucky had
New World
he
worked together on
gadgets.
from
sailing
yacht, a compensation for his “fat boat” in Caputh,
on
the nation and the state.
The
a
twenty-foot
which had already
been confiscated and resold by the German authorities
tides, forceful
a spacious,
Island.
In the
closer friends; they also
Einstein’s health benefited greatly
enemy of
who
even before Hitler’s seizure of power and
a profitable practice.
became one of Einstein’s
of his
It).
Along with Walter Bucky,
beautifully situated house
where
German under
in
had treated Einstein’s stepdaughters in Berlin, he rented
of an
New
—who had
a collection
Amsterdam
('
sailing.
Ilse
interred in the Netherlands,
Einstein meanwhile had found a refuge for the
some patentable
in
guy have something
his wife to the Belgenland in
which appeared
Weltbild
and suitable for
plans by the
a while?” 18
living.
father-in-law’s essays,
Mein
tried to
her travel to Europe on her own. Elsa was only
been only thirty-seven
title
summer
Why shouldn’t an old
able to watch her daughter die. In
the
his
field
go into hiding somewhere
I will
mid-May he saw
let
Rudolf Kayser was
Although Lindemann
had made
Einstein stuck to that plan even
ously
number of
for a
as the
property
Atlantic coast, with
winds, and massive waves, was considerably
its
more dan-
Princeton gerous than the Havel lakes, and
685
probably suited him; he was, in
this
a
romantic way, fond of experiencing the play of primal elements when out
sailing.
safety; as
or
He
cheerfully dismissed other people’s concerns about his
he had done in Berlin, he refused to carry an auxiliary engine
life jackets:
“If I have to
drown, then
be honestly.”
let it
When Elsa
returned from Europe, distressed and exhausted, she found her hus-
band
“in excellent shape.
Nothing
happy position of being able
work
so well.” 19
October,
as the
He
tragic really gets to him,
to shuffle
it off.
That
also
is
he
is
in the
why he
can
did not return to Princeton until the beginning of
second working period was starting
at the institute.
The art historian Erwin Panofsky, who came from Aby Warburg’s 20 Hamburg school and was one of the founding members of the institute’s school
of humanities, attributed the legendary reputation of the
institute to the fact that “its
openly and their teaching contrary
is
true of
many
members conduct
activities, as it
their research activities
were, secretly, whereas the
other learned institutions.” 21
researchers, regarding teaching and feedback
from
Many renowned their students as
indispensable, declined invitations to the institute; but this “ivory
tower” setup was entirely to Einstein’s
even in to
do
secret.
What
taste.
He
did not wish to teach,
he needed was time to think
— and
a collaborator
his calculations.
His “calculator,” Walther Mayer, however, sadly disappointed him.
As
late as the
autumn of 1932 they had published
a joint
paper in the
which they examined the spinors
Proceedings of the Prussian Academy, in
found by Dirac in terms of their usefulness for
22 a unified theory.
were continued amid the dunes of Le Coq and pub-
These
reflections
lished
by the Amsterdam Academy. 23 In Princeton, however, Mayer
participated in only one other paper
covering that he was not, after
all,
problems. Although he remained
pendent research
in
on the same subject 24 before
dis-
the right “calculator” for Einstein’s at the institute,
he turned to inde-
pure mathematics. Flexner and Veblen continued
to hold Einstein responsible for his “calculator,” with the result that for
some
ever,
years he was not allowed to
employ another
he found some younger collaborators
“workers,”
who worked
assistant.
among
with him with great dedication.
How-
the institute’s
The
686
and the Bomb
Pacifist
In spite of some squabbles, the Institute for
Advanced Study proved
an ideal workplace for Einstein. His contract, originally for five-month
had been converted to that of
stays over a period of five years,
professor,” with a salary matching that of
“full
Oswald Veblen: $16,000
annually. This was about twice the salary of a professor at the university;
indeed, Flexner’s creation was said to be not only an institute for
“advanced study” but also one for “advanced
on
ized that he could not have hit
whatever years were
my
the rest of ries
—some me
life” 25
beautiful,
“Sometimes tempt
left to
to
I
him
a better post
and prepared to spend
The “migrating bird for Europe now was only memo-
in Princeton.
had come to
some
salaries.” Einstein real-
rest.
terrible.
think back nostalgically to beautiful past hours; they
make
a
journey to Europe,” he admitted to the queen of
the Belgians in 1935, immediately noting one reason against
many
obligations
me
would await
there that
courage for such an undertaking.” 26
come
canceling Christ Church: “If I
and Madrid. But to undertake
He
cannot
I
“But so
summon
the
offered a similar reason for
must
to Oxford, I
all this I
it:
also
lack the courage
go to Paris
— and so
I’ll
probably remain sitting here.” 27 Naturally, he would also have had to
go to Zurich
—
to his sick son
and to Mileva
—and no doubt he lacked
the courage for that too.
He
wasted no nostalgia on Germany, which in any case he would
not have been able to enter. Although he wrote to his “dear old comrade” Laue “that the small circle of persons that used to be harmonically linked
was
scarcely ever be encountered
shed no tears for the wider
by
in his “small circle”
He
again,” he also admitted “that
did not specify
German
rest of the world.” 29
the
for war,
Western nations doing
who was
business
.
.
.
[was]
now only as
a
That danger he saw approaching was convinced that
and he was astonished and
little
included
Schrodinger, and Planck.
ineluctably. Since Hitler’s rise to power, Einstein
Germany was heading
I
was amusing for the unconcerned
—probably only Laue,
his “interest in the
danger to the
me
circle; it
observer rather than lovable.” 28
Otherwise
and in such human purity would
really unique,
to avert that danger.
bitter to see
— 687
Princeton
Having decided
to stay in Princeton, Einstein thought
become an American. As he had
on
arrived
best to
it
a visitor’s visa,
and
an
as
application for immigration could be filed only at a consulate abroad,
Einstein
made
—with
his wife, his stepdaughter
Bermuda
a sea trip to
excursion was to be his
Summer spent
1935. This brief and enjoyable
outside the United States.
hot, sultry, and
is
humid. Einstein therefore
Old Lyme on the estuary of the Connecticut
in
it
last stav
in Princeton
May
in
Margot, and Helen Dukas
River,
where
he indulged in veritable luxury. Proudly his wife described the rented vacation residence with “20 acres of land, meadows,
summer
glories, tennis court,
we
for the first ten days
ate
swimming
our meals
pool. ... It
husband was
a sailboat in
is
with
because
More important
which he made extensive
the
all
so elegant that
at the servants’ table,
too grand in the grand dining room.” 30
felt
fields,
we
to her
trips in the
wide
estuary funnel of the Connecticut.
That August an opportunity arose
buy
to
a
house in Princeton,
diagonally across the street from their apartment.
New England
the restrained in front this
and
house
a
at
style,
long narrow garden
was clapboard
narrow-fronted with at the back.
a small
in
garden
Inconspicuous and cozy,
112 Mercer Street differed in no
way from
residences of the neighborhood, but because of
one of the best-known addresses
It
its
the average
owner
it
became
in the world.
money left for renovation by Elsa, who shuttled for the
Einstein paid in cash and had enough
and conversions. These were supervised
summer between Princeton and
rest of the
Connecticut. While Einstein went floor of the Princeton
not exactly in
style,
decades
it
back wall of the upper a large picture
window,
but giving almost an effect of living outdoors;
wooded parkland
room became
to the
Graduate College in
Einstein’s study, and for the next
two
was the place where he spent most of his time and where he
happiest.
felt
sailing, a
house was replaced by
there was a view across the distance. This
the elegant country seat in
The
other rooms were largely furnished with pieces
saved from Berlin, including the grand piano.
As soon enjoy their eye,
and
it
as
they
moved
new home
in,
Elsa had a foreboding that she
for long.
was diagnosed
A bad
as a sign
would not
swelling had appeared near one
of serious circulatory and kidney
The Pacifist and the Bomb
688
problems. There followed a long winter of pain and medical treatments. Even a long
summer
vacation in the mild climate of the
Adirondacks, at Saranac Lake in southern Elsa only moderate
New
York
During the next few months
relief.
brought
State,
in Princeton
Einstein was so worried about his wife that, as Elsa herself reported,
“he went around miserable and depressed.
never thought he was so
I
She died
attached to me. That, too, helps.” 31
in
house in
their
Princeton on December 20, 1936.
The man whom
Elsa had looked
“Alberti” adjusted quickly to the
extremely well to
more
at
home
life
here,
new
two decades
situation.
my varied
“I
my
bear in
I live like a
than ever before in
for
after
life,”
her
as
have got used
den, and really feel
he wrote
after a
few
weeks of being alone. “This bearishness has been further enhanced by the death of
than
my woman
comrade,
who was
better with other people
am.” 32 But of course he was not alone in his house. Helen Dukas
I
took care not only of his mail and correspondence, his
visitors
and
appointments, but also of the kitchen and household. Also living in the
house was
his stepdaughter
divorce. But the
image of
Margot,
a bear
who had meanwhile
gotten a
was appropriate, because Einstein’s
deep-rooted sense of alienation became even more marked in Prince-
am not really becoming part of the human world here,
ton: “I
was too old when
I
arrived,
Berlin or in Switzerland.
and in point of
One
is
born
for that
was no different
fact it
a loner.” 33
I
in
This attitude was
probably intensified by the language problem. Although he wished to
become an American, he never of his
new
really
came
to grips with the language
country.
Einstein by then could read and understand English without culty,
but he found writing and speaking very
matter
at the institute, as
tors there
many
colleagues and
diffi-
difficult.
This did not
most of
his collabora-
had come from German-speaking countries, some of them
without any knowledge of English. With the others,
like the British-
born Banesh Hoffmann, Einstein would speak English, but with strong accent and a curious stress. 34
in
—because
German
—word
order and
This did not improve over the years. After more than
America he confessed to
Max
Born,
who
a
refused to use
a
decade
German
Princeton
during the war: “But
When
orthography.
what It
looks like
it
I I
689
cannot write English because of the insidious read
I
hear the word, but
cannot remember
I
on paper .” 35
was not quite
bad
as
He was
as that.
able to write simple notes in
English, but he continued to write in
German anything
important to him and,
translated.
German
to read
if
necessary, had
it
He
was
that
also preferred
rather than English and was astonished by the “funny
thing that everything seems
more
and
plastic
alive
when
it
appears in
the old language .” 36
Even though Germany had degenerated
“Barbaria,” he
home
felt at
into
only in German: he could formulate his
ideas and express his feelings only in the
words familiar to him from
childhood, with the result that in the “daily struggle with English”
only “the
German stepmother-tongue
is
left as practicable, to
my
sin-
cere regret .” 37
If Einstein felt fortunate “living
tiny ,” 38 this
was largely due to the
need for
his
solitude.
settled in their little
tion
by
Of
town
wisdom about
his
statements
here in Princeton in an island of des-
of white hair
—
this
genius
the universe and by his controversial political
Only from
(in the
when Einstein who had drawn so much atten-
course they were interested
—but snobbishness
cessive curiosity.
fact that the Prince tonians respected
as well as
a distance
good manners ruled out
were they amused by
his
ex-
mane
land of the crew cut); and from a distance they
chuckled discreetly over his habit of licking an ice cream on Nassau
way home from Fine Hall and were
Street
on
utterly
un-American long walks through the
his
Perhaps to bridge that remoteness,
a
streets of Princeton.
whole collection of harmless
anecdotes grew up around the famous man.
man who knew
so
walking through
number, only was
unlisted.
way
It
was amusing that the
the universe should lose his
and then forget
Princeton
to have Information refuse to give
The many stories
truth, but they
the
much about
probably said
astonished by his
own
his it
to
of this kind 39 probably
less
way while telephone
him because
all
had
a
it
grain ol
about Einstein than they did about
the citizens of Princeton reacted to the eccentric genius in
their midst.
Einstein also led a rather marginal existence with regard to the
Pacifist and the
The
690
He
growing colony of European refugees. mann’s splendid
parties,
Bomb
where science and
Neu-
avoided John von
were discussed into
politics
the small hours while liveried footmen served champagne, cocktails,
—
and whiskey of
just as
he avoided the informal gatherings
Hermann Weyl. With Thomas Mann, who was
versity in 1938 as a visiting professor for
he did with tie
all
The Manns
in a
grand house with servants, but
lect
was no more
of the house:
invited to the uni-
he shared
years,
(as
few blocks away,
lived only a
this patrician setting for
to Einstein’s taste than
“He was very
house
Nazi Germany, but no closer
refugees) a revulsion for
developed between them.
two
at the
he was to the
the intel-
taste of the lady
pleasant but not particularly stimulating.
Einstein had something childlike about him, such big goggle-eyes.
Really an enormous specialized talent, but in ordinary
life
.
.
he was not
.
a
very impressive person.” 40 In
New York he had
enough
—above
who had
practical matters,
were
less
whom
Leon Watters; and
initially
he was stimulating
smoothed
economist
the
Einstein’s
way
had advised him on finances, and
Dukas) had been chosen tacts
of friends to
the physician Gustav Bucky; the wealthy pharma-
manufacturer
ceuticals
Nathan,
all
a circle
Otto
in Princeton in
(jointly
with Helen
In Princeton Einstein’s con-
as his executor.
with the academic establishment than with outsiders,
such as the philosopher Franz Oppenheim, the historian Erich von Kahler, and the Austrian poet
Hermann
Broch.
Some
of these, like
Broch, he had helped to escape the Nazi terror. Einstein was continuously aware of the plight of the exiles and of
conditions in Germany, often in a family context. in
America he had made arrangements
relatives,
Soon
after his arrival
for the admission of his wife’s
and in 1937 Hans Albert arrived in the United States with
wife and son.
Two years later Einstein’s sister, Maja,
Her husband, Paul
and remained
into the house
in
Geneva with the
on Mercer Street
Bessos; but
in 1939.
In the course of helping his family, Einstein discovered cult
immigration had become.
An American
how
diffi-
consul would accept only
an immigrant whose national quota was not yet tion,
Italy.
Winteler, was refused entry to the United States
for reasons of health
Maja moved
had to leave
his
filled
and who, in addi-
could produce an affidavit by a resident of the United States
Princeton
691
guaranteeing that the immigrant would not become
As
Germany, Einstein again
in
“The main tragedy
is
public charge.
criticized the lack of Jewish solidarity:
that the sated
German Jews once
are, just as the
a
Jews
in the countries so far spared
were, indulging in the foolish hope
of being able to achieve their safety by silence or by patriotic gestures.
For that reason they now sabotage the acceptance of German
Jews, just as these previously sabotaged that of the Eastern Jews.” 41
American consuls saw
Besides, the
to
it
that immigration
was kept
within limits. Einstein did his best to help, with affidavits, loans
for
expenses
travel
—sometimes
gifts
of money, and
For
without being asked.
example, in 1935 a young violinist in Berlin, Boris Schwarz, with
whom
made
Einstein had
music, received an inquiry from “Elsa
Alberti” about whether he wanted to
was
stein’s affidavit
to
New
come
to America.
at the Berlin consulate: Boris
Soon Ein-
Schwarz could
travel
York. There he was accommodated by Einstein in a Jewish
home and
refugee
given
some
fatherly advice
on
his first steps in this
strange country. 42 Einstein also helped the children of his family
physician in Berlin, Otto Juliusburger.
thanks to Einstein’s
affidavits;
and
The
at the
children
very
last
came
to America,
moment, the aged
doctor and his wife were also able to leave Germany, again with Einstein’s help.
After the annexation of Austria in
March
1938, and the great waves of
emigration which followed, the limitations of private help became obvious. Einstein therefore took the initiative and tried to start a pro-
gram by which ties,
large organizations, such as the churches, the universi-
and the Red Cross, would appeal to the “conscience of
disposed people.”
No
state
is
He
open
well
drafted a proclamation:
entitled to physically annihilate a section of
lation living within
all
its
frontiers.
its
popu-
We are determined, in every way
to us, to prevent innocent people being driven to their
death, either by bilities
weapons or by systematic deprivation of all
of livelihood.
By
its
inhuman measures
against
possi-
German
and Austrian Jews Germany has embarked on that road of annihi-
692
The and
lation
using
is
toward the small
Bomb
Pacifist and the
its
military, political,
and economic power
of eastern Europe to annihilate their
states
Jewish populations in the same way. 43
no
In spite of Einstein’s prominence, though, this enterprise produced results.
Referring to his personal assistance efforts, he reported in the
summer
of 1938 “that
have
I
intellectual eccentrics,
and
I
a contact
agency for persecuted
can assure you that business
fantastically.” 44 Ele believed that the
—but not the problem of employment
ings were
still
after the
men. Einstein
would be
a
country in
Job open-
Great Depression; there was anti-Semitism
felt
driven to bitter sarcasm:
generous attempt to feed our a
in America.
and there was considerable reluctance to employ
in the universities;
elderly
booming
problems of immigration could be
overcome
few
is
as well as
exiles
over
“The
fifty in
best thing
some cheap
kind of ‘concentration camp.’ But even that will remain a
pious hope.” 45 In practical terms he had to point out that his
were
limited.
Although
known as a multicolored dog, I live no human connections.” 46 Soon, also,
were exhausted:
“I
can give no more
and would only jeopardize those already given wrote
who
money
are also extended to the limit.
from the poor people over there face of so
if I
issued
new
affidavits,
ones,” he
occupation of Prague. “The few people
after Hitler’s
have
opportunities
“as well
very quietly and have virtually his financial resources
own
much misery and
is
The
I
know
pressure on us
such that one almost despairs in the
the slight possibilities of helping.” 47
He
saw no end to the misery; he only saw worse things approaching. wouldn’t
like to live if I didn’t
As
it
in the past,
ever, “I
young
as
am
working
colleagues.
declined.” 49
had become an outsider and mainly “highly
an ancient labeled still
I
my work.” 48
was physics that sustained him, even though he
realized that in his field he
esteemed
have
“I
can
museum
steadily, still
piece and curiosity.” 48
How-
supported by a few adventurous
think,
but
my
working energy has
CHAPTER THIRTY-SIX Physical Reality and
a
Paradox,
Relativity and Unified Theory
Einstein was not alone
in his
mocking description of Princeton
as
an “amusing ceremonial backwater of tiny spindle-shanked semigods”; but very soon he wa-s included by others ivory tower. “Princeton J.
is
among
madhouse,” observed the highly
a
Robert Oppenheimer about the
Institute for
January 1935, with the self-assurance of youth then thirty-one.
“Its
Oppenheimer
—who,
house” twelve years reflects
the
fact
mechanics and
is
that
—Oppenheimer 1
became the
—makes
no claim
Einstein’s
stubborn
later
Advanced Study
completely cuckoo.” In
incidentally,
this
to fairness, but criticism
In 1932 the positron
was
“madstill
it
of quantum
were getting on
the nerves of the younger creative physicists. This was
nomena which opened undreamed-of new
in
judgment,
director of that
his castle in the air, his unified theory,
true because Einstein refused to be diverted
gifted
shining in separate and
solipsistic luminaries
helpless desolation. Einstein
the curiosities of the
all
the
more
by newly discovered phe-
regions in physics. 2
— the “antiparticle” of the electron—had been
detected in cosmic radiation; this was the
first
representative of “anti-
matter.” Precision measurements of radioactive decay inspired Wolf-
gang Pauli
whose tions.
to postulate an entirely novel particle, the neutrino, with
aid Enrico
The
Fermi developed an
effective theory of weak interac-
discovery of the neutron as another building block of the
atom opened the door, both
theoretically
and experimentally, to what
for the first time could be called nuclear physics.
And
Einstein’s
former collaborator in Prague and Zurich, Otto Stern (before he had to
abandon
his chair in
Hamburg
in 1933
693
and emigrate to the United
694
The
Bomb
Pacifist and the
—by measuring the anomaly of the magnetic momentum of the proton— that even the nuclear building blocks must demonstrated
States),
have an internal structure.
What
only sporadically, and
He
cerned with.
by: he
whole profession passed Einstein
excited the
it
was not unaware of this
situation. In a
he saw these
on
ideas inevitably imposes
difficulties as a
moving obitu-
who committed
September 1933, Einstein described “the increased
new
man
a
were
suicide in
difficulty that
of
fifty.”
major reason for Ehrenfest’s
Suicidal thoughts, needless to say,
Indeed,
suicide. 3
alien to Einstein; with his
robust psychological constitution he merely flung back at the
quantum
mechanists the accusation of reactionary unteachability: “The point that
all
facts,
it
did not influence the problems he was con-
ary for his close friend Paul Ehrenfest,
adaptation to
noted
is
those fellows do not view the theory on the strength of the
but the
facts
on the strength of the theory
only; they cannot
escape from the conceptual net they have accepted, but can only daintily
wriggle in
tion that the
it.” 4
new
Einstein drew strength from his unshakable convicideas and discoveries
were only provisional and did
not affect the search for the fundamental laws of physics:
“I
can derive
only small pleasure from the great discoveries, because for the time
being they do not seem to
facilitate for
me
an understanding of the
foundations,” he said, in summary, after his
Princeton efforts.
the
—not
first
without being somewhat ironical about his
“In consequence
I feel
like a kid
who
ABCs, even though, strangely enough,
hope. After
all,
working period
one
is
can’t get the I
still
in
own
hang of
don’t abandon
dealing here with a sphinx, not with a willing
streetwalker.” 5
If Einstein
was the
was chasing
a sphinx,
ideal place for him.
had been
then the Institute for Advanced Study
Anyone of renown
a guest at the institute for a
in
few months.
mathematics was or
The
mathematicians
were setting the tone, and they intended physics, even in its mathematical and theoretical aspects, to remain a marginal area. In consequence, for institute.
establish
five years
Einstein was the only professor in his field at the
But he did not regret
this state
of
affairs,
nor did he try to
any close contacts with the physicists of the university.
Physical Reality and
On leagues
a
Paradox
695
when he gave a seminar lecture, his colwere amazed by his style. Young John Archibald Wheeler, who the rare occasions
was acquainted with the customary physicists
—solving one equation how one
stein “for the first time
“retail”
procedure of theoretical
another
after
—experienced with Ein-
can handle equations ‘wholesale.’
One
counted the number of unknown quantities and the number of mar-
and then compared these with the number of degrees
ginal conditions,
of freedom.
was not so much
It
a case
of solving the equations
as
of
deciding whether they even had a solution and whether that solution
was the only possible one.” Wheeler’s lasting impression was “that
way unwaveringly,
Einstein went his
unaffected by the great interest in
nuclear physics that was then predominating in the United States.” 6
Despite the general shaking of heads over Einstein’s obsession with
were
a unified theory, there
younger members of the
a
number of good
institute
physicists
among
the
who, unlike Oppenheimer, sought
out and appreciated proximity to the great man: “The nice thing here is
that
fact,
I
can work with young colleagues in the
field.” 7
Nowhere,
in
did the “loner” Einstein have such regular and intensive contact
with younger colleagues
as in
Princeton.
but came to him of their
assistants
own
accepted advice that for career reasons
with Einstein.” 8 Although
among
position
with him.
It is
morning
would be better not
to
a
to
work
as
a
it
none of them obtained
a
permanent post
either
or at the university (Einstein blamed this on the dis-
creet anti-Semitism in Princeton), but
Before long
accord, ignoring the widely
—more of monument than signpost, put — none of them regretted having worked
true that
at the institute
“it
not, formally, his
this advice did reflect Einstein’s strange
physicists
Oppenheimer used
They were
of them became professors.
routine developed for this cooperation. In the
a
—not too
room (Room 209
all
— Einstein would meet
early
in Fine Hall)
his
coworkers in
his
and discuss with them physical struc-
tures and mathematical approaches, the kind of thing
described as “wholesale” physics.
They
Wheeler had
separated about lunchtime.
After lunch his collaborators engaged in the “retail” work, whose results
stein
noon
would then be
was
jointly discussed the following
in the habit, after
in his
lunch and
a siesta,
morning. Ein-
of spending the after-
cozy study on Mercer Street, where, with Helen Dukas’s
The
696
Pacifist
and the Bomb
help, he dealt with his extensive correspondence, received occasional visitors,
The
and mainly pursued
own
thoughts.
no mathematics, but
its
content
quantum mechanics and had the
effect of
joint publication required
first
was provocative. a
his
It
dealt with
bombshell, whose smoke has not entirely dispersed to this day.
problem raised dox,”
some
known
it,
as the
“Einstein-Podolsky-Rosen para-
being intensively discussed. 9 Actually,
is still
paradox
in
quantum mechanics. The
peculiarities of
from Einstein but from Nathan Rosen,
who had come
can
to the institute in
with Einstein. Boris Podolsky,
had worked
Einstein, first
“For
who was
linguistic reasons the
really
I
main thing
is,
on
Ameri-
1934 and had chosen to work only seven years younger than
men had
at the institute.
paper was written by Podolsky, after pro-
longed discussions,” Einstein drawbacks. “But what
a
came not
a twenty-five-year-old
Caltech in Pasadena (where the two
at
much
a spotlight
original idea
met) and in 1934 was one of the few physicists
instead, the
not so
it is
impeccable conclusion which casts
as a logically
The
as
said,
reporting on
its
genesis and
wanted to say hasn’t come out so
it
its
well;
were, buried under learning.” 10 Subse-
quently he returned to the “main thing” repeatedly on his own, and in
German.
1
The argument does not aim tions in
proving mistakes or inner contradic-
quantum mechanics. By 1931,
accepted the
new theory
even credited
it
behind the
title
as efficient
if
not before, Einstein had
and free from contradictions, and
with “undoubtedly a piece of definitive truth” 12
not the whole truth,
let
—but
alone the definitive truth. Instead, hidden
of the Einstein-Podolsky-Rosen (EPR) paper, Can the
Quantum Mechanical plete ?, is
at
Description of Physical Reality
Be Regarded as Com-
an attempt to demonstrate that quantum mechanics repre-
sents only an incomplete description of physical reality and therefore
is
unable to get beyond the formulation of statistical regularities.
The
rather vague concepts in the
opening paragraphs.
title
are precisely defined in the
A “complete theory” would have to satisfy the fol-
lowing condition: “Each element of physical reality must have
spondence in physical theory.” Physical pragmatic criterion:
“If,
reality
is
a corre-
defined by a similarly
without disturbing the system in any way,
we
Physical Reality and
Paradox
a
697
can predict the value of a physical magnitude with certainty probability of
1),
then an element of physical reality
with
(i.e.,
a
exists that corre-
sponds to that physical magnitude.” 13 These preliminaries are intended to show, by means of
simple mental experiment, that the
a
quantum mechanics
description of physical reality by
The thought experiment Assume
When
runs something like
two electrons Ei and
that
E2
is
measured;
incomplete.
this:
have collided and flown apart.
they are very distant from each other, the
tron Ei
is
momentum
of elec-
because of the conservation law, simultane-
this,
—
momentum of E2 without any disturbance to the E2 system at the moment of measurement, even if the two electrons are light-years apart. Thus the momentum of E2 qualifies as an element of physical reality. But instead of measuring the momentum ously establishes the
—
of Ei one can measure
E2
position of
E2
location, thereby obtaining the position of
been determined without any disturbance of
as this has
;
its
E2
,
the
has therefore been established as a further element of
physical reality.
The
point
mechanics,
if
of this
the
argument
momentum
is
according
that
of a particle
is
quantum
to
known, then
its
position
is
necessarily uncertain, and hence not part of physical reality. This
means
E2
is
that the reality of the
“dependent on
no way
a
momentum
measuring process
interferes with the second system. this.” 14
Hence
and the position of electron at the first system,
No
which
in
reasonable definition of
quantum mechanical
reality
should permit
tion
incomplete, and a search for a complete description of physical
is
reality
descrip-
necessary and justified.
is
No sooner had May
the
the Einstein-Podolsky-Rosen paper been published, in
1935, than alarm bells were ringing
quantum mechanics
among
the mandarins of
—not because they regarded the EPR paradox
as a
threat to their views but because of their irritation with Einstein. In
Zurich,
Wolfgang
out with
a
public
Pauli was furious: “Einstein has once again
comment on quantum mechanics.
known, each time he does him, though, that tions to
me,
I
if a
that
is
a disaster. ... I
...
As
is
come well
would concede
to
student in an early semester raised such objec-
would regard him
as quite intelligent
and promising.”
The
698
To
among
prevent confusion
less intelligent colleagues, Pauli
Werner Heisenberg,
gested that
He
publish a rejoinder.
and the Bomb
Pacifist
the target of the
ERP
paper, should
also considered, for “educational’' reasons,
“squandering paper and ink in order to formulate those
manded by quantum theory which tual difficulties .” 15
He
sug-
de-
facts
cause Einstein particular intellec-
Bohr had
did not, though, do so, because Niels
already taken up the matter.
Copenhagen
In
the
EPR
publication seemed like “a bolt from the
blue.”
When
stein’s
arguments, “we dropped everything;
Bohr’s collaborator
misunderstanding
at once.
began dictating the
work before
.
.
Leon Rosenfeld reported on Ein-
we had
the rejoinder was ready
and
a
Bohr, in great excitement, instantly
.
draft of a rejoinder .” 16
take, because there was,
up such
to clear
17 .
But
it
took
weeks of
six
This did not try to prove
a
mis-
nothing wrong with the situation
is,
set
out by EPR. Instead, Bohr focused on imprecisions in the use of terms
such
made
as “physical reality” it
once more clear
quantum of action,
it
and “without any disturbance.” His analysis because of the
that,
was impossible
—
finite
magnitude of the
in contrast to classical physics
to speak of “physical reality” without including the measuring process in this reality. If that
by
EPR
is
is
borne in mind, the contradiction highlighted
only apparent, and quantum mechanics
complete
a
is
description of what physicists can discover about nature.
Einstein meanwhile was receiving letters from several colleagues
who were
argument was
quite certain that his
amusement, adduced different reasons
but who, to his
false,
for their certainty
dinger was alone in sharing his delight “that you have
caught dogmatic quantum mechanics by stein,
its
Schrodinger on his part published
stein,
some popularity and
is
known
as
a series
my
opinion
all
.
publicly
of three articles a
paradox which
“Schrodinger’s cat .” 20 Ein-
however, reproved Schrodinger for publishing the
Germany: “In
.
Schro-
throat .” 19 Inspired by Ein-
arguing with orthodox quantum mechanics, including has gained
.
18 .
articles in
well disposed individuals should break
off relations while the scientists there tolerate this shameful regime .” 21
Of
all
the objections to the
EPR
paradox, Einstein thought that
“Niels Bohr’s view best meets the case .” 22 However,
if
the
quantum
mechanical description, according to Bohr’s analysis, was complete,
Physical Reality and
a
then, in Einstein’s opinion, there was the spatially separated systems
that
Paradox
699
dilemma
that the states of
were not independent of one another,
measurement on one system has instantaneous
tially distant
effects
on
i.e.
a spa-
system. Such “ghostlike remote effects” between separate
—which could not, because of theory, influence one another instantaneously—were something Einstein refused accept,
systems
relativity
to
he refused to accept
just as
statistical regularities. “It
look into the cards of the Almighty. But
I
seems hard to
won’t for one minute believe
that he throws dice or uses ‘telepathic’ devices (as he
is
being credited
with by the present quantum theory).” 23 After lying dormant for a long time the
more become
interesting over the past
precisely defined
by theoretical
ingly,
quantum mechanics
two decades.
as
paradox has once It
has been
and what was once
analyses,
experiment has been performed
EPR
an actual experiment
a
24 .
more
thought
Accord-
supplies not only the correct but also the
now believe that the arguwere much ado about almost
“complete” description. Most physicists
EPR
ments about the
paradox always
nothing, but others, like Einstein, are irritated by the “ghostlike
remote
effect.”
The paradox and
mental concepts
of our century still
and “separability” may highlight the
like “locality”
circumstance that
related recent discussion of funda-
a satisfactory integration
of the two great concepts
— quantum mechanics and the theory of
relativity
—
is
missing.
Simultaneously with the debate about quantum mechanics, Einstein
with Nathan Rosen embarked on
a difficult
puscular structure of matter from
magnetic
field
and gravitation
transformation of the
field
25 .
a
attempt to derive the cor-
combination of the electro-
By means of
a
simple and clear
equations they created mathematical ele-
ments, the so-called “Einstein-Rosen bridges,” which they identified
with the elementary particles. insights for a “bridge,”
They succeeded
and Einstein had great hopes of a development
of their ideas. “Only the examination of
show whether
in obtaining useful
this theoretical
a
multi-bridge system will
method can supply an explanation
of the
empirically proved mass identity of particles in nature, and whether will agree
with the
facts so
it
wonderfully comprehended by quantum
The
700
Pacifist
and the Bomb
mechanics.” 26 But even the attempt to tackle the two-body problem 27 caused Einstein to bury his hopes again.
To
this
why electrons all have exactly the same mass. The problem of gravitational waves, on soluble, albeit after a
day we do not know
the other hand, proved
few detours. In Newtonian theory, gravity
instantaneously present in space.
No
one ever asked how
is
this force
propagated; that question arose only with the general theory of rela-
under which gravitation propagates with the
tivity,
light.
As early
as
during
World War
I,
finite velocity
of
while he was sick in bed in
Berlin,
Einstein had deduced the existence of gravitational waves
which,
like
electromagnetic waves, carried energy through space.
Admittedly, he had then succeeded only in what
is
called the “first
approximation.” 28 Evidently he was no longer satisfied with that makeshift result and, jointly with Nathan Rosen,
now
looked for exact
solutions of the field equations for gravitational waves. In doing so, he
encountered a surprise: “Together with a young collaborator at the interesting result that gravitational
waves do not
though
according to the
this
had been regarded
proximation.” 29 But
when he
as certain
I
arrived
exist,
even
first
ap-
tried to publish this result, Einstein
learned something about the American scientific machineiy that he did
not
like at
The United
all.
editors of the Physical Review the leading physics journal in the ,
States, returned the
long opinion by
a referee
manuscript to the authors, along with
and requests for amendments. Einstein was
outraged. Having articles examined by
normal practice of the it.
30
That,
at least,
a
Physical Review
,
anonymous
referees
was the
but Einstein refused to accept
had been handled better
in
drew the paper, henceforward avoided the
Germany. Einstein with-
Physical Review
,
and pub-
lished only in journals without referees.
Nevertheless, this incident had saved Einstein from publishing a mistake. In September 1936 he had
wasn’t so
damn
still
been complaining,
difficult to find exact solutions,” 31
“If only
it
but over the next
few months he and Rosen succeeded in obtaining exact solutions for the field equations representing gravitational waves. 32 This remained a
pioneering feat for
a
long time; only after Einstein’s death were further
— Physical Reality and
a
Paradox
701
enormous technological
solutions found. Despite an
input, however,
gravitational waves have so far evaded experimental confirmation.
By
the time the paper
on
gravitational waves appeared in 1937, in
th q Journal of the Franklin Institute
,
Nathan Rosen had
left
Princeton
engagement there had not been renewed. Rosen, whose parents
his
had immigrated from Russia, eventually went to the Soviet Union, with Einstein smoothing his way by
a letter
of recommendation to
Vyacheslav Molotov, then chairman of the Council of People’s missars.
But new collaborators had appeared on the scene,
Com-
as well as
new problems. Einstein’s last major contribution to the
development of the general
theory of relativity was produced in collaboration with Banesh Hoff-
mann and
LeopolcElnfeld. Hoffmann,
who came from
England, had
taken his doctoral degree in Princeton, under Oswald Veblen, before
becoming
became
a
member
of the institute in 1935.
Einstein’s collaborator.
from Poland
in 1936,
burgh, Scotland, with there. Einstein
on
Some
Leopold Infeld came to the
a scholarship, after a
Max
time afterward, he
Born,
who had
institute
few months in Edin-
taken up a professorship
proposed to Infeld and Hoffmann
a joint investigation
of motion in the general theory of relativity. In a paper published after
two years of difficult work, they examined the problem of motion
new
level of generalization, at
which the customary
at a
division into field
equations on the one hand and the laws of motion on the other was
overcome.
Newtonian two
celestial
mechanics in
its
axiomatic structure consists of
clearly separate parts: the law of motion,
which gives orbits.
rise to the forces that
The two
and the law of
gravity,
keep the heavenly bodies in their
parts stand alongside each other, unconnected. This
separation into two strictly distinct sets of laws had not been overcome
even by Einstein’s relativity.
initial
treatment of motion in the general theory of
However, by the early 1920s investigations by Lorentz,
Eddington, and Levi-Civita suggested that in the general theory of relativity these
in
two
sets are
not really separate. After two years’ work,
1938 Einstein, Hoffmann, and Infeld were able to show,
in a volu-
The
702
Pacifist
minous publication, 33 that the thing
—not only
uted in space.
and the Bomb equations do in fact contain every-
field
gravitation, but also the
Thus
movement of masses
now
the general theory of relativity
only space, time, and gravitation, but
also,
distrib-
described not
for the first time, the
dynamics of matter.
In the same year as this publication, there also appeared, in April 1938, a
book, The Evolution of Physics. This astonishing work, reflecting the
history of a discipline through the eyes of
owed
its
nomics
Advanced Study.
at the Institute for is
a
splendid fellow.
We’ve done
together,” Einstein reported after six
a
very pretty thing
months of
joint research, but
would not extend Infeld ’s
despite his fervent support the institute
modest scholarship. “The
Institute has treated
prevail here.” 34 Einstein,
by the
greatest representative,
genesis not to Einstein’s desire to communicate, but to eco-
“Infeld
him
its
who
felt
refusal of a scholarship for his
defray the small
sum from
his
own
him
for a
fail,
pocket. But Infeld,
who was embar-
How
about writing
silly at all.” 35
so that Infeld’s share in the proceeds
who
Infeld found a publisher,
paid
a
one of the two
as
secure his livelihood. Einstein thought this was “not a
Not
help
esteemed collaborator, wanted to
wide readership? With Einstein
authors, this could not
I’ll
he too had been badly treated
rassed by that suggestion, had an original idea:
book together
badly. But
silly
would
idea at
all.
him an advance,
while Einstein planned the contents and the basic structure of the
book.
The book was
a great success
and
Infeld’s future in
America was
secure.
While Einstein was working on the motion problem with Hoffmann and Rosen, other collaborators arrived, with his real passion, the unified theory. Peter
had taken
his doctoral
whom
he could focus on
Bergmann, born
in Berlin,
degree in Prague, under Philipp Frank, at the
age of twenty-one; he arrived in Princeton in 1936 in order to work
with Einstein. Valentin Bargmann was also ler’s
a Berliner,
but after Hit-
assumption of power he had gone to Zurich to complete his
studies.
He was a member of the institute
Alone and with
his
two young
from 1937
to 1946.
assistants Einstein
pursued
many
Physical Reality and
a
Paradox
703
approaches to unification. However, there were no breakthroughs and scarcely any publishable results. At times, as in the
thought he was close to searching,
have found
I
a
a solution:
“This year,
promising
field theory,
summer
of 1938, he
twenty years of
after
one that
an entirely
is
natural development of the relativist gravitation theory.” 36 But this
attempt, too, proved unsuccessful.
Even though Bergmann and Bargmann achieved only very cess in terms of publications, they nevertheless
mann
—
like Infeld
and Hoff-
enormously enriched by being able to share
felt
thoughts and the work of
They noted with
a genius.
in
the
fascination
how
He seemed
to
a creative artist, full
of
from conventional thought.
Einstein’s thinking differed
them
—
slight suc-
less a strictly logical theoretician
than
4T
imagination and frequently using arguments that would have been out of place in a scientific essay: “Einstein was motivated not by logic in
meaning of this concept, but by
the narrow
“In his
his collaborators recalled.
a sense
of beauty,” one of
work he was always looking
for
beauty.” 37 In his later years Einstein saw beauty in the laws of nature.
He pro-
foundly believed, with religious fervor, that simple laws existed, and that these could be discovered. Except for a brief phase during his adolescence, he never
had any use for the personified
God
of the Judeo-
Christian tradition. But even in his younger years, he saw
guarantor of the laws of nature.
sounded
Initially this
God
as the
like a playful for-
mulation, but as he grew older the metaphor became a kind of heuristic principle: Einstein
creator of the world and his criterion:
were God,
“When
I
its
am
would attempt laws.
He
surprised Banesh
judging a theory,
would have arranged the world
I
This belief in
to slip into the role of the
a lawful structure
I
in
Hoffmann with
ask myself whether,
such
a
if
1
way.” 38
of the world gave him the strength
and perseverance he needed throughout the decades when he was unified theory.
He
was capable of pursuing
a theoreti-
searching for
a
cal concept,
with great enthusiasm for months or even years
stretch; but
in the
end
when
grievous flaws emerged
—he would drop
it
at a
—which invariably happened
instantly at the
moment
of truth, without
sentimentality or disappointment over the time and effort wasted. 1 he
The
704
Pacifist and the
Bomb
following morning, or a few days later at the most, he would have
taken up
To
a
new
idea and
his assistants
it
would pursue that with the same enthusiasm.
seemed
whereas Einstein was always
quantum
tions of
motion problem, three, the
theory. a
young people
perplexed
same time thinking of the founda-
at the
When,
field theories,
in the course of their
work on
the
system of four equations emerged instead of only
number of solutions. But his
were working on
that they
courage because of the limited
lost their
Einstein said: “Oh, but that’s beautiful.”
collaborators
he explained:
“We’ll
To
an over-
have
determined system, and then we can obtain quantum conditions analogous to Bohr’s permitted orbits.” 39
He
never wavered in his conviction that although the
quantum mechanics were
statistical
useful tools, they
were not the foun-
dations of physics. This attitude
emerged regularly
in his letters. In the
summer of 1942 he
as follows:
laws of
explained
fashioned and stubborn that dice.
Because
if
it
I still
“As for myself,
that,
he would have done
oughly, and not kept to a pattern in throwing dice.
we wouldn’t have
Gone
to look for laws at
is
probably mine, not
The
fact that,
I
so old-
find
is
no use
it
thor-
the whole
all.
everything points against the belief in total regularity. But to search for just that. If what
am
do not believe that the Lord throws
he had wanted to do
hog. In that case
I
I
It’s true,
continue
in the end, then the fault
his.” 40
with regard to science, things increasingly
fell silent
around him did not sadden Einstein. As he remarked in 1936, he was “living in the kind of solitude that
is
more mature
He
years
by not talking
at
is
all.
delicious.” 41
He
painful in one’s youth but in one’s
avoided talking at cross purposes
even avoided Niels Bohr
the institute in January 1939 as a guest for a feld,
who accompanied Bohr
silence falling
when Bohr came to few months. Leon Rosen-
as his assistant,
experienced an abysmal
on the conversation of the two great men, who once had
liked nothing better than talking physics to each other:
Einstein was only a
shadow of
himself.
For days on end he kept
himself shut up in his study and really spoke only to his two assistants,
whose names,
curiously,
were Bergmann and Bargmann.
Physical Reality and
a
Paradox
705
Only once during those four months did he announce was about one of his countless attempts to theory.
Bohr attended the
his eyes
hoped had
establish a unified field
lecture. In conclusion Einstein, fixing
on Bohr, declared with emphasis
to be able to derive the
just described.
met only once did not go
at
a lecture; it
that he
quantum conditions
had always
in the
way he
During those four months Bohr and Einstein
an afternoon reception, but their conversation
beyond
banalities. Einstein allowed
it
to be clearly
understood that he would rather avoid any discussion with Bohr.
Bohr was profoundly unhappy about This episode
is all
the
this
42 .
more remarkable because Bohr’s
stay in Prince-
ton coincided with a rapid development in which a dramatic application of physics had
moved
into the realm of the feasible
production of a nuclear chain reaction and, in consequence, of a
—the
bomb
of almost unimaginable destructiveness. Einstein had been ignoring nuclear physics because
Old Man.” But
it
it
did not bring
him
closer to the “secret of the
was to catch up with him before long.
CHAPTER THIRTY-SEVEN War,
a
Bomb
Letter, and the
Einstein spent the summer of 1939 on Long two previous
years,
he had rented
eastern tip of the island, with
where
it
faces the Atlantic.
its
a
house
at
As
in the
Nassau Point,
at the
Island.
numerous bays and tongues of land
Nassau Point
on Great Peconic Bay,
is
sheltered from the ocean waves and hence an ideal sailing area.
enjoyed his boat,
made music with some
He
neighbors, and despite the
often oppressive heat, worked.
About the middle of July two old acquaintances turned up
Eugene Wigner,
a professor at
Princeton University; and Leo Szilard,
who had found asylum as a visiting researcher in New \ ork. They had set out on the drive rare metal
uranium had become
months.
was not yet
It
nium might be sive
had driven
Columbia University
to Peconic because the
a crucial subject
certain, but
over the past few
by no means impossible, that ura-
a suitable starting material for
power. Concern that Nazi
at
bombs of gigantic
Germany might develop such
a
explo-
weapon
Szilard, in particular, into a state of great excitement.
had therefore planned
a role for Einstein,
not
physics but as a friend of the queen of Belgium.
the largest deposits of uranium ore then
Congo, and the
largest stocks of metallic
as
The
He
an authority on reason was that
known were
in the Belgian
uranium were owned by
a
Belgian concern. Einstein was to write a letter to his “dear queen” to
induce the Belgian government to stop uranium sales to Germany.
Even though Einstein may not have followed the headlong advances of nuclear physics, he instantly realized the importance of the prob-
706
War,
lem
—
Letter, and the
a
Bomb
military and political significance,
its
cance for science.
as
707 well as
its
signifi-
Releasing the energy locked up in the atom was
1
an old theme that had been
back of the mind of physicists
at the
since the discovery of radioactivity before the turn of the century. In fact,
Einstein, in the final sentence of his 1905 paper in
derived his formula
E — me
2
had referred to
,
which he
this possibility in the
distant future.
Fifteen years after Ernest Rutherford’s discovery of the atomic nucleus,
when
quite a lot had since been learned about the natural
transmutation of radioactive nuclei, in
it
was once more Rutherford who
bombarding nitrogen with alpha
1920, while
emitted by
rays
radium, succeeded in observing the transmutation or fission of the nitrogen nuclei.
What was
was excitedly
called “artificial radioactivity”
hailed in the newspapers as a potentially vast source of energy, sup-
ported by the simple and very attractive calculation that one gram of
matter might replace three thousand tons of coal.
Sober
such visions because of the rarity and the
scientists rejected
enormous
cost of radium, but Privy Councillor Planck declared:
German
confidently believe that stein, the discoverer
science will
now
“We
find a way.” 2 Ein-
of the miraculous formula for the conversion of
—which some optimists was even then opening the doors to the future — commented follows:
matter into energy
for
as
It
might be
possible,
and
not even improbable, that novel
it is
sources of energy of enormous effectiveness will be opened up,
but this idea has no direct support from the facts far. It is
very
make
difficult to
realm of the possible.
.
.
.
prophecies, but
known it is
to us so
within the
For the time being, however, these
processes can only be observed with the most delicate equipment.
This needs emphasizing, because otherwise people immediately lose their heads.
But
if this
that the rays released
produce the same
road leads on, especially in such
by the alpha
effects,
This was
a
way
particles are in turn able to
one cannot be
development may not progress
a
at all sure that
such
a
rapidly. 3
prophetic statement, because of what Einstein said was the
prerequisite for development: “that the rays released
.
.
.
are in turn
708
The
able to produce the
same
Pacifist
and the Bomb
effects.”
This was the basic concept of
a
chain reaction.
To his such it
early biographer
Moszkowski, Einstein had pointed out that
development would be anything but
a
were possible to
effect that
desirable:
immense energy
“Assuming that
we should
release,
merely find ourselves in an age compared to which our coal-black present would seem golden.” 4 His objections concerned the difficulty
of regulating such an energy source nuclear terrorism
bombardments
—and,
—
fear of what
was
be called
later to
of course, the technology of weapons: “All
since the invention of firearms put together
harmless child’s play compared to
its
would be
destructive effect.” 5 Thus,
most
of what can be said about the use of nuclear energy had been stated by Einstein as early as 1920, at a time
The
the fog of the future.
ment of
when
details
prerequisite, as
were
still
shrouded in
he realized, was the achieve-
chain reaction, and humankind would be better off
a
if it
did
not succeed.
For
a
long time, such ideas were so speculative that they could not be
published in serious scientific journals, but they were always in physicists’
minds.
covered
as
A breakthrough came in a
Leo
when
the neutron was dis-
constituent of the atomic nucleus; before long, the
neutron was used 1934,
1932,
as a free particle for
Szilard, always sparkling
bombarding
nuclei. 6
as
with intelligence and imagination,
applied for a patent for a nuclear chain reaction based multiplication and had
As early
on neutron
deposited as a secret paper with the British
it
Admiralty, Einstein, like practically every other physicist, remained skeptical,
however; and
as
it
turned out
would have consumed more energy than
Toward
later, Szilard’s it
chain reaction
released.
the end of 1935, Einstein had been invited to lend special
luster to the annual
meeting of the American Association for the
Advancement of Science Memorial Lecture.
He
in Pittsburgh
by giving the Willard
demonstrated to
his
audience
J.
Gibbs
how he had
derived his famous formula on the equivalence of matter and energy. 7
Small wonder that the three dozen reporters covering a press confer-
ence on that subject wished to
know whether
the huge amounts of
;
War,
energy corresponding to
in the dark, in a
this
about
unpromising
as
neighborhood that has few
announced
Post-Gazette
709
formula might be released by bombarding
his
an atom. Einstein thought
Bomb
Letter, and the
a
“as firing at birds
The
birds.” 8
Pittsburgh
had wrecked
in a headline that Einstein
all
hope of deriving energy from the atom. Meanwhile, Enrico Fermi’s team mental setup
Rome
in
—using
—had been bombarding heavy atomic
a
superb experi-
nuclei, especially
uranium, with neutrons. But Fermi was interested chiefly in the creation of transuranium elements, and so he failed to notice that ura-
nium
nuclei were split in the process.
Hahn and
Otto
at the Kaiser
his collaborator Fritz
Wilhelm
Not
until the
end of 1938 did
Strassmann make
Institute in Berlin-Dahlem.
this discovery,
Thanks
to their
precise radiochemical methods, they identified barium in the reaction
products. Barium has a nucleus about half the weight of the uranium nucleus, and therefore nuclear fission was suggested.
In a letter to Lise Meitner, his colleague for left
the Kaiser
had
fled to
Wilhelm
many years, who had
Institute after the annexation of Austria
Sweden, Otto
Hahn
gave a detailed account of
Over Christmas, Lise Meitner discussed
this sensational
and
this result.
news with her
nephew, Otto Frisch, who had been introduced to the theory of the atomic nucleus by Niels Bohr in Copenhagen. Together Frisch and
Meitner wrote first
a brief notice for
mention of
Bohr,
who had
developed a useful theoretical model of the nucleus and minutes, Bohr had understood every-
five
wondering merely why he had not thought of it himself.
Bohr was about Institute for a
atomic nucleus. Frisch also informed
splitting the
of chain reactions. Within thing,
the British journal Nature this was the
to leave for
Advanced Study
America to spend several months
in Princeton.
On January 26,
at the
he spoke
at
Hahn and Strassmann’s discovery and Meitner. The result was that sev-
conference in Washington about
and
its
interpretation by Frisch
conference prematurely, rushing back to their
eral physicists left the
laboratories to repeat the experiments. Everything was as said, and, like
Bohr,
many
of them
Bohr had
may have wondered why
they
themselves had not thought of it.
A few days
later,
on
a five-minute
walk from the Princeton Club to
Fine Hall, Bohr realized that only the isotope uranium-235 could be
710 split
—an isotope present
in natural
This conclusion was
cent.
Bomb
Pacifist and the
The
a
uranium
to
no more than
triumphant confirmation of the
of Bohr’s nuclear model; but as separating isotopes
0.7 per-
reliability
is difficult, it
was
a
setback for any practical applications.
On March
sixtieth birthday
lization of the is
no
York Times observed Einstein’s
with an extensive interview, Einstein said that the
results obtained so far
there
when The New
14, 1939,
“do not
justify the
assumption of a practical
atomic energies released in the process.
single physicist with soul so
affect his interest in this highly
poor
who would
.
.
.
uti-
However
allow this to
important subject.” 9
That same month, however,
a crucial discovery
was made almost
simultaneously in France and America: in Paris by Frederic Joliot-
New
Curie and in
Nobel Prize cist Italy
in
York by Enrico Fermi
Stockholm on December
by
a
had not returned
to fas-
when
a
uranium nucleus was
neutron, as a rule two neutrons were released, which in turn
could each
moved
10,
after receiving the
but had taken up a professorship at Columbia University.
Joliot-Curie and Fermi observed that split
—who,
split
another uranium nucleus.
The
chain reaction had
into the realm of the possible, and Fermi, looking out his
window, mused that
a single fission
bomb would
destroy
all
that he
could see of New York.
As feverish experimenting went on
New
in the laboratories of Princeton,
York, and elsewhere, and as Niels Bohr with John Archibald
Wheeler
in his
room
at
Fine Hall was working out the theoretical basis
of the fission of uranium by neutrons, Einstein, only a few doors the corridor, was deeply immersed in his
work on
unapproachable and even incommunicado.
The
the unified theory,
fact that in
he was nevertheless involved in the developing drama had tioned earlier
—nothing
his friendship
nium
to
down
do with physics but everything
mid-July
—
as
to
do with
men-
with the “dear queen” in Brussels, and the Belgian ura-
deposits.
When
Szilard
and Wigner talked to him on the terrace of his house on
Peconic Bay, Einstein immediately declared himself ready to write letter,
letter
though not
to the
a
queen but to the Belgian government. This
was to be conveyed by the American State Department. Einstein
War,
made
a draft
on the spot and gave
New
them. Back in
Bomb
Letter, and the
a
it
711
to his visitors to take
York and uncertain about the next
home
with
step, Szilard
consulted Dr. Gustav Stolper, a politically experienced emigre and a
former his
member
of the Reichstag. Stolper in turn directed Szilard, with
unusual problem, to Alexander Sachs, a banker
who belonged
to an
unofficial circle of advisers to President Roosevelt. Sachs declared
himself ready to submit an appropriate letter from Einstein to the president.
By
the time Szilard,
now
company of Edward
in the
Teller,
next called on Sachs, the letter to Einstein’s “dear queen” had turned into a letter to the president of the United States.
Einstein dictated another draft, on the basis of which Szilard, after consultation with Sachs, produced two English versions, a longer and a shorter one, as
it
was
difficult to
how many words one
judge with
could
bother the president. In August 1939 Szilard sent both versions to Einstein,
tant
used
who immediately
of the longer letter
passages
—read
signed and returned them.
—the
The most impor-
one that was eventually
as follows:
Sir,
Some
recent
work by
communicated
me
to
element uranium
E. Fermi and L. Szilard, which has been in manuscript, leads
may be
turned into
me
to expect that the
new and important
a
source
of energy in the immediate future. Certain aspects of this situation
seem
tion
on the part of the administration.
it is
my
to call for watchfulness and, if necessary, quick acI
believe, therefore, that
duty to bring to your attention the following
facts
and
recommendations. In the course of the
last
four
it
has been
— through the work of Joliot France well Szilard America — that may become possible
probable
and
months in
in
as
it
as
made Fermi
to set
up
nuclear chain reactions in a large mass of uranium, by which vast
amounts of power and
large quantities of
ments would be generated. this
could be achieved
in the
Now
it
— though
extremely powerful bombs of
this type
it
is
future.
also lead to the construction of
conceivable
bombs, and
radium-like ele-
appears almost certain that
immediate
The new phenomenon would
new
—
much less certain that may thus he constructed.
The
712
A single bomb
Bomb
Pacifist and the
of this type, carried by boat or exploded in
a port,
might well destroy the whole port with some of the surrounding territory.
However, such bombs might very well prove
heavy for transportation by
to be too
air.
In the following paragraphs Einstein and Szilard
made
organizational
proposals for a collaboration between government and physicists.
They
suggested the appointment of a special adviser for these ques-
tions,
recommended
the involvement of industrial laboratories, and
did not omit to mention the need for financial support for the relevant research.
They
Germany and adduced
next referred to
a
personal
argument that might have been more persuasive to the president than the physics: “I understand that
all
sale
Germany
has actually stopped the
of uranium from the Czechoslovakian mines which she has taken
over.
That she should
take such early action
stood on the ground that the son of the State,
von Weizsacker,
is
might perhaps be under-
German Undersecretary
attached to the Kaiser
Wilhelm
where some of the American work on uranium
Berlin,
of
Institute of
is
now
being
repeated.” 10
What
Einstein did not know, but
about uranium
may have
was not the
suspected, was that his that a physicist
had
addressed to a government. As early as April 1924, Paul Harteck,
who
letter
fission
first
had taken up Otto Stern’s former professorship in Hamburg, and
his
coworker Wilhelm Groth had recommended to the German
Army
Ordnance Department the use of
“The
country that exploits
it first
will
a
chain reaction in a bomb:
have an incalculable advantage over
the others.” 11
On
September
ber
3
1,
World War
Not
until
1939, II
Germany
attacked Poland, and
began.
October
1 1
did Roosevelt find time to receive his friend
and adviser Alexander Sachs. Sachs presented Einstein’s with background material about physics in which Szilard the hectic development of nuclear research in the its
on Septem-
future prospects, together with a
first
memorandum
letter,
along
summed up
half of 1939 and
Sachs himself had
written on the steps which the government should take.
The
president
War,
Bomb
Letter, and the
a
713
immediately understood the crux of the matter. “Alex,” he interrupted
“What you
him.
are after
to see that the Nazis don’t
is
blow us up.”
When
Sachs confirmed
this,
eral E.
M. Watson, and
instructed him: “This requires action.” 12
A
few days
Roosevelt
later the president
summoned
his secretary,
thanked Einstein “for your recent
He
and the most interesting and important enclosure.”
letter
informed Einstein of what had been done in the meantime: this data
of such import that
I
Gen-
“I
also
found
have convened a board consisting of
the head of the Bureau of Standards and chosen representatives of the
Army and Navy
to
thoroughly investigate the
possibilities
gestion regarding the element of uranium.” 13
of your sug-
The board met on
October 21, with Enrico Fermi and the three members of the “Hungarian gang”
Budapest
—
Szilard, Teller,
—providing
them were
and Wigner,
who were
the nuclear expertise, even though
born in
all
four of
most committees and commissions,
foreigners. Like
one was not very farsighted: only $6,000 was approved year’s research
all
for a
this
whole
on uranium.
Everything was moving too slowly for Szilard, so he again turned to
Einstein.
On March
1940, Einstein wrote a second letter,
7,
addressed to Sachs but intended for the president. In this he stressed the urgency of the problem in view of the
need
for secrecy.
The
German
efforts,
and also the
president reacted by suggesting enlarging the
board and including Einstein. Einstein, however, declined, rather brusquely and without giving
been invited to the a
first
meetings. But he
framework “that would
lar
a reason, possibly
facilitate
because he had not
recommended
the creation of
the continuation of these and simi-
researches at a faster pace and on a greater scale than hitherto.” 14
For the time being
this letter
marked the end of
Einstein’s contact
with the government. Einstein’s interventions, including his ciable effect in the
on the course of
first letter,
events. Organization of nuclear research
United States did not get beyond the stage of improvisation
until the
fall
of 1941,
when
results achieved in
the so-called Frisch-Peierls Report, reached cial
channels. Eventually,
hattan
had no appre-
on December
Engineering District” was
set
England, in particular
Washington through
6,
up.
1941, the secret
offi-
“Man-
This was the biggest
Pacifist and the
The
714
Bomb
technological and scientific enterprise the world had ever seen the world been allowed to see
it.
December
of course, was only one
6,
day before Japan’s attack on the American Pacific Fleet Harbor. Three days
later,
Germany declared war on
cist,
but only
He
at Pearl
the United States.
Roosevelt’s decision to speed up the development of the
contradictory consequences for Einstein.
—had
was consulted
bomb had as a physi-
At the beginning of December 1941, Vannevar
briefly.
Bush, the chief of the Office for Research and Development at the center of nuclear research, requested Einstein’s assistance with a
problem of isotope separation. Contact was made through channels, via Frank Aydelotte,
Flexner
as director
who
in
official
1939 had succeeded Abraham
of the Institute for Advanced Study.
On Decem-
ber 19, Einstein handed Aydelotte the result of his reflections, which
were passed on to Bush. In Einstein had been “very
you
make use of him
will
how deep
is
his covering letter Aydelotte
much in
interested. ...
his satisfaction at
much hope that to you, because I know
I
any way that occurs
remarked that
very
doing anything which might be useful in
the national effort.” 15
This, however, did not happen, because to do useful work, Einstein
would have had
much
that
I
to be fully informed about the project. “I wish very
could place the whole thing before him,” Bush wrote to
Aydelotte, “but this
is
utterly impossible in
people here in Washington
The FBI and Army
who
have studied his whole history.” 16
Intelligence had
come
stein represented a security risk: “In this office
view of the attitude of
to the conclusion that Ein-
view of
his radical
background,
would not recommend the employment of Dr. Einstein, on
matters of a secret nature, without a very careful investigation, as
seems unlikely that time,
become
a
a loyal
man
of his background could, in such
American
citizen.” 17
The FBI and
a
it
short
other secret
agencies had never been informed of Einstein’s letter to the president.
Thus
bomb
the
man who had drawn
— and who,
incidentally,
zen on October 30, 1940
Roosevelt’s attention to the
had taken
his oath as
atom
an American
citi-
—was spared having to decide to what extent
he wished to take part in the development of
this
Aydelotte’s letter, he would have gone a long way.
weapon. Judging by
War,
Somewhat research.
later,
Letter, and the
a
Bomb
715
however, Einstein was able to contribute to military
On May
16, 1943, a
navy lieutenant heading
Washington
for conventional high explosives near
Asked whether he would work
as
team
a research
called
on him.
an adviser to the navy generally, and
in the area of high explosives in particular, Einstein reacted with con-
siderable pleasure.
“He
felt
very bad about being neglected.
He
had
not been approached by anyone to do any war work,” the lieutenant,
who
enlisted
him on
the spot, later recalled. 18 Einstein was delighted
and looked forward “with great satisfaction” to working for the navy. 19 Aydelotte, after consulting Einstein, proposed the modest patriotic fee
of $25 per day. Einstein, as he joked, was
now
in the
navy without get-
ting the prescribed haircut. 4T
Every other week, or sometimes only once visited
by the explosives
experts,
a
month, Einstein was
who brought him problems
such
as
the optimal detonation of torpedoes. His solutions, arrived at by
thought, were accurate: “Very expensive experiments performed later
showed
that he
had been
right.” 20
His
visitors
much
from Washington
found him cheerful and more than happy to be able to contribute to
To
the defeat of the Hitler regime.
“connection with the navy
war
will
be over before
quences.” 21 In
work on high
On
fact,
there
as a theoretical expert,”
my is
an old friend he wrote about his
activity
on these
hoping “that the
lines has
any conse-
no record of any major consequences of his
explosives.
the other hand, Einstein
made some generous
the war chest of the United States.
contributions to
The Book and Authors War Bond
Committee, an organization which auctioned off manuscripts by famous authors and with the proceeds purchased war bonds, asked Einstein for the manuscript of his 1905 treatise on relativity. Einstein
was unable to
oblige; in his
younger years he had always discarded
his
manuscripts once his work had appeared in print, saving only the more practical reprints.
As
a substitute,
though, he offered his
German
draft
of a paper he had recently completed with Valentin Bargmann, on bivector
Soon
fields. 22
This was gratefully accepted.
afterward, however, the university’s chief librarian, acting as
an emissary of the committee, suggested that Einstein might, for
this
716
good
cause,
complied. least
that.
copy
his relativity
“When
Bomb
paper again. Einstein was astonished but
much
others were doing so
was the
for the war, this
he could do.” 23 So Helen Dukas dictated and Einstein wrote.
Now this
Pacifist and the
The
and again he pulled himself up and asked
When Helen Dukas confirmed
much more
he was referring
The
it,
if
he had really said
he grumbled:
“I
could have put
simply.” 24 His secretary did not record which passages to.
auction took place on February
on
structed manuscript for $6.5 million,
relativity
3
in
The
Kansas City.
recon-
was bought by an insurance company
and the original manuscript about bivector
brought $5 million. Both manuscripts were presented Library of Congress. Einstein, script fetishism, advised the
who
did not think
fields
as a gift to the
much
of this manu-
economists to rethink their theories of
value.
With America’s
entry into the war and the virtually simultaneous
inception of the Manhattan Project, the university’s physics depart-
ment soon found
itself
depopulated. Even in the institute’s “ivory
tower,” the quiet deepened, and several colleagues, such as John von
Neumann, could now be contacted only through a post office box in Santa Fe. The institute had for some time been in a new building, Fuld Hall, located in a vast park in western Princeton, and reachable
from
home on Mercer Street in a half hour’s walk. There he had a corner room with large windows on the ground floor, and
Einstein’s
spacious
next to
it
a smaller
one
for the assistant
who had meanwhile been
authorized for him.
By then
Einstein even had a colleague
gang Pauli had joined the
institute in
in Zurich, with Hitler at the door. “I
who was
a physicist.
1940 because he had
am very glad
that he
is
felt
Wolfuneasy
here and
I
have interesting conversations with him,” 25 Einstein reported of his
sharp-tongued colleague. Despite their disagreements on quantum mechanics, they actually produced a joint publication, about relativity theory. 26
In Einstein’s search for the unified theory, of course. Pauli was
more of
has put asunder, stein
a critic
let
than
no man
was not discouraged:
a constructive
coworker:
Wolfgang
“What God
join together,” Pauli used to say.
“I
work
like a
man
possessed,
But Ein-
i.e., I
ride
my
— War,
hobbyhorse
a
like wild,” 27
Letter, and the
he
said,
Bomb
717
describing his mental state at the
time. All this was reminiscent of his frenzy while he was wrestling with
the generalization of the theory of relativity.
sometimes “so excited
my
close to
.
.
heart, that
.
I
Even on vacation he was
over difficulties and doubts in a matter very
was unable
to free myself
day or night, or
think of anything else.” 28 Inevitably, disenchantment followed: thing still
is
certain: the
Almighty has not made
young one doesn’t
realize
it
so clearly
it
While one
easy for us.
—fortunately.”
“One
29
is
But he was
never downhearted.
A
researcher of similar perseverance was the mathematician Kurt
Godel, who, after the annexation of Austria and an adventurous escape via Siberia
and Japan, had arrived
post at the institute. Godel had
1940 and obtained
in Princeton in
become famous
work on
for his
a
the
“decision problem” and was interested in the logical foundations of
mathematics; he became not only
a fascinating discussion partner for
Einstein but also a close friend. Einstein was fond of discussing philosophical aspects of scientific
thought with Godel and Pauli; and when Bertrand Russell came to Princeton in 1943
—not
as a professor
but
as
an independent writer
these conversations were formalized: the four stein’s
met
house one afternoon every week. There probably never was an
intellectual gathering of higher caliber
—but the
discussions, at least to
Bertrand Russell, were disappointing: “Although
were Jews and
exiles,
had
a
argue.” 30 Einstein had
On
no
all
I
at
common
found that they
premises from which to
useful results to report, either.
war the four men hardly needed
had the same opinions and hopes
— the
earliest pos-
sible
and most thorough victory over Germany.
One
ever,
emerged when Bertrand Russell suggested
that after the
victors should help the
Germans
get back
on
exception,
of,
war the
With
all
the
he hoped “that the hair-raising crimes of the
Germans would soon be revenged.” 32 that “things are
how-
to their feet and forget
their crimes. Einstein indignantly rejected that idea. 31
wrath he was capable
them
metaphysics, and in spite of our utmost
international politics and the
to talk, as they
three of
all
and, in intention, cosmopolitan,
German bias towards endeavors we never arrived all
regularly at Ein-
now going
After Stalingrad, he was happy
downhill for the Germans.
.
.
.
But
it is
too
The
718 slow.
What will remain
consolation that
—one
Pacifist
of European
is
many within
life?
There
not there oneself.
sunk so low that one can think
When the Allies’
and the Bomb is
nothing
one has
possible that
Is it
but the
left
like that?” 33
landings in
Normandy brought the
reach, Einstein was thankful “that
I
defeat of Ger-
have lived to see
this
turn of events, which looks like justice.” Possibly as a reaction to
Bertrand Russell’s remark, he added: “But perhaps
it
would be more
circumspect to die soon, so as not to be disappointed again,
as in the
years between 1918 and 1938.” 34 For Einstein now, the criminal was
no longer
Nazi Party, or even the National
Hitler, or the leaders of the
movement, but the German nation
Socialist
ary for the Heroes of the
them
its totality.
as a nation, if there
as a
mass murders and must be pun-
for these
any
is
they are wholly defeated and, as after the
When
justice in the world. last
war, bewail their
one should not allow oneself to be deceived
remember
In his Obitu-
Warsaw Ghetto he wrote: “The Germans
whole nation are responsible ished for
in
a
fate,
second time, but
humanity of the
that they entirely deliberately used the
others for preparing their last and worst crime against mankind.” 35
Many
others
behaved trast,
felt like
that at the time, but after the
war most of them
in line with Bertrand Russell’s prediction. Einstein,
by con-
never forgave the Germans.
There
is
no written evidence of how much Einstein knew during
the war about the development of the
atom bomb. This top
matter was talked about only in hints, and not written about
he must have realized that ally all
a gigantic effort
was
at
secret
all.
But
in progress, since virtu-
nuclear physicists, as well as countless scientists from other dis-
ciplines,
had vanished,
them would turn up
December
22, 1943.
at
their addresses
Princeton for
unknown.
a
Now and again one of
few days, such
as
Niels Bohr on
Bohr had escaped from occupied Denmark and
was participating on the British side of the Manhattan Project
as a
kind
of elder statesman. Bohr visited Einstein and Pauli, and although
nothing to
form
is
known about
a picture
In the
fall
their conversation, Einstein
was probably able
of the state of affairs.
of 1944,
it
seems that Otto Stern,
from Prague and Zurich, informed Einstein
impending success of the bomb
his old collaborator at
least
about the
project. Certainly they discussed the
War,
Letter, and the
a
Bomb
719
alarming postwar implications, because Einstein knew of Stern’s great
concern
—which
country
became
also
his
own: “Then
be in every
there’ll
continuation of secret rearmament with technological
a
means, which inevitably annihilation,
worse in
will lead to preventive
wars (veritable wars of
of life than the present one).” 36
loss
December
After a further talk with Otto Stern on
1 1
Bohr explained how he thought the
letter to Niels
,
Einstein in a
threat of ca-
tastrophe might be avoided. Influential scientists were to instruct the
unsuspecting politicians in good time about the scale of the danger.
“There
is
yourself, with
Lindemann
in
your international contacts, A. Compton here,
England, Kapitza and Joffe in Russia,
etc.
The
idea
is
to
induce them to prevail upon the political leaders in their countries, in order to achieve an internationalization of military power
was some considerable time ago rejected radical step with
this
all
its
as
—
a
road that
being too adventurous. But
far-reaching prerequisites concerning
supranational government seems the only alternative to a secret technological arms race.” 37 This letter already contains
all
the key aspects
of Einstein’s attitude to nuclear armament and postwar international politics.
Bohr had entertained
similar ideas and
had even submitted them
to
various government quarters, even to Roosevelt and Churchill. But he
had met with no understanding and had merely exposed himself to the suspicion of being unreliable. 38 Einstein’s letter, which reached
Washington, therefore alarmed him.
made
Princeton and
to participate in
would remain In
March
defeat of
the
1945,
anyone bound to
official
secrecy
Einstein understood and promised Bohr he
it.
Leo
Szilard appeared
feared, but
summer.
state of
atom bomb,
lard,
immediately hastened to
silent.
available in the
about the
if
Germany was imminent and
no longer be
in
Einstein see that such an enterprise might have
the worst possible consequences
were
He
him
again.
The
final
Nazi “miracle weapon” need
meanwhile the American bomb would be
Szilard
and
a
few colleagues were concerned
information and the government’s wisdom in using
as well as
who wished
a
on the scene
to
about the shape of the postwar world. Szi-
submit
for a letter of introduction.
his views to the president, asked Einstein
This had to be formulated very cautiously,
The
720 as Einstein
Pacifist and the
Bomb
was not supposed to know about
Szilard’s
intended recipient. 39 Roosevelt was never to see
on April
and Einstein mourned “the
12, 1945,
purpose or the
this letter.
loss
He
died
of an old and dear
friend.” 40
On city
August
6,
shortly after eight o’clock local time, the Japanese
of Hiroshima was wiped out by the
was again spending
his vacation
said:
“Oh, Weh.
And
uranium bomb. Einstein
on Saranac Lake
Helen Dukas heard the news on the he
first
radio,
that’s that.” 41
in the Adirondacks.
and when she told Einstein
On August
9 a plutonium
bomb
was dropped on Nagasaki. Japan surrendered; the war was over.
On August
11, 1945, Niels
Bohr wrote
formidable power of destruction which has
man may become
a
London Times “The come within the reach of human society can adjust
in the
mortal menace unless
itself to
the exigencies of the situation.” 42 Einstein remained at his
vacation
home and
kept
silent.
The
U.S. government meanwhile had
published the Smyth Report, 43 a semiofficial chronicle of the develop-
ment of sity.
the
One
atom bomb, written by
a professor at
Princeton Univer-
sentence of the report mentioned Einstein’s letter to
Roosevelt of August 1939, which was thereby
of secrecy into the limelight.
Under
the
moved from
the sphere
shadow of the new weapon of
mass destruction, Einstein could no longer avoid the debate about the
atom bomb and the new world
order.
CHAPTER THIRTY-EIGHT
Between Bomb and Equations: "But the Equations Are for Eternity”
With the dropping
of the atom
gigantic effort that had led to
were suddenly
its
bomb and
the
accounts of the
first
construction, physics and physicists
in the' public spotlight. Because of the swift conclusion
of the war, they were at
first
hailed as heroes
cans an invasion of Japan, with
its
who had
saved the Ameri-
inevitably heavy loss of life. But once
the victory celebrations died down, the physicists once
themselves seen
as terrifying sorcerers’
even have seen themselves in that
While
J.
apprentices
more found
—and
some may
role.
Robert Oppenheimer had become famous
as the “father
of the atom bomb,” Einstein inadvertently found himself regarded as a
kind of superfather because of the almost mythical authority he
enjoyed
among
the public, because of his magical formula
and because of the
fact,
now
president’s attention to the possibility of an atomic
1 ,
had drawn the
that he
declassified,
E = me
bomb
in
August
1939. Einstein, however, remained at Saranac Lake; not until mid-
September did he make
his first public
mass destruction, when
a reporter for
down
at his idyllic refuge.
Einstein by then his
comment on the new weapon of The New York Times tracked him
prewar pacifism
knew what he had
he merely had to resume
to do:
—modified by the debate, during the
final
year of
the war, over the postwar order. In his opinion, as the reporter repro-
duced
it,
“The only
salvation for civilization
.
.
.
lies in
the creation of
world government, with security of nations founded upon law. long
as
...
As
sovereign states continue to have separate armaments and
armaments
secrets,
new world wars
will
721
be inevitable.”
1
The
722
Pacifist and the
Einstein’s idea of world
but during the
as naive;
the war ended,
and
sevelt
it
government would often
was shared by more than
mate
for
zation.
handing over one’s atom
Most Americans and
“secret of the
some time
after
Roo-
had, up to a point, embraced the
Truman,
emerged between the
conflicts
be described
just a small minority.
idea by the establishment of the United Nations.
war
later
year of the war and for
final
his successor,
Bomb
victors.
bomb
to
This was not
some
their politicians
bomb” must remain
their
However, a
after the
good
cli-
international organi-
were convinced that the
monopoly
for a long time if
Soviet expansionism was to be curbed.
bomb
Although the existence of the atom
between the superpowers, for Einstein
it
heightened distrust
confirmed the need for
world government. Back in Princeton, he signed with for
Thomas Mann and
some
rethinking:
Hiroshima.
It also
They argued by
a
a declaration,
along
dozen prominent Americans, which called
“The
atomic
first
bomb
more than
destroyed
exploded our inherited, outdated political ideas.” 2
that the United Nations Charter, signed in
fifty-one states
a
on June
peace and would prove
26, 1945,
was not
a “tragic illusion.”
San Francisco
sufficient to guarantee
“We must
aim
at a Federal
Constitution of the world, a working worldwide legal order,
if
we hope
to prevent atomic war.”
The atom bomb had made young
physicists despair of their science,
but they were hoping for clarifying and helpful words from Einstein.
One^ of them wrote to him of the “cruel irony that one of the greatest
and most joyous triumphs of the spiritual uplift
death.
The
and greater
final
life
scientific intellect
was to bring not
affirmation but disappointment and
and unlimited confirmation of your formula
E = me
2
should have marked the beginning of an era of
light.
we
are
staring in confusion into impenetrable darkness.”
There were plans
for
a national
Instead
congress of scientists; even though this did not take place,
Einstein would not have forgotten the anxious words with which he
had been asked to
participate:
“We
social implications of the era of
that with
you here we
need you here to speak out on the
atomic energy.
shall feel inspired to better
We
feel instinctively
master our future;
we
Between Bomb and Equations almost
feel that
it is
only because yours
your duty to help us and eventually the world, not at
is
once
own work,
because your
a
humble and
a
powerful voice, but also
the mass-energy principle, has in a larger
sense led us to this road that has two turnings to help us
all
723
—and we count on you
travel along the correct path.” 3
In view of the
many
millions of
human
and the techno-
lives lost
World War II, Einstein did not see the atom bomb as a fundamentally new problem. Nor did he ever subsequently condemn the dropping of the atom bombs on the Japanese
logical horrors perfected in
He began
cities.
a
lengthy
article,
which was repeatedly reprinted, with
the sobering statement:
The It
new problem.
release of atomic energy has not created a
has merely
ing one.
One
made more urgent could say that
it
the necessity of solving an exist-
has affected us quantitatively, not
qualitatively. 4
His aim was and remained the abolition of war altogether, through the establishment of a world government which alone would have military
means
including nuclear weapons. Because of that aim,
at its disposal,
he was even able to see intimidate the
a
it
which he referred
say the sense of guilt,
felt
the construction of the
helped create
by
scientists,
its
—
“it
may
international
would not do.” 5
Nobel memorial event on December 10
stein gave a speech in
We
nuclear threat
race into bringing order into
which, without the pressure of fear,
affairs,
At
human
a positive aspect in the
New
in
York, Ein-
to the “responsibility,” not to
and also to
his
own
initiative in
atom bomb:
new weapon
this
mies of mankind from achieving
in order to prevent the ene-
it first;
given the mentality of the
Nazis, this could have brought about untold destruction as well as
enslavement of the peoples of the world. This weapon was delivered into the hands of the American and the British nations in their role as trustees of liberty;
but so far
all
mankind, and
we have no guarantee
as fighters for
of peace nor any of the
freedoms promised by the Atlantic Charter.
won
—but the peace
is
not.
peace and
.
.
.
The war
is
The
724 In this
new
Bomb
Pacifist and the
and
situation Einstein called for “bold action
change in our mentality.
.
.
Otherwise our
.
a radical
civilization
will
be
doomed.” 6 This warning had become necessary because relations between the great powers and, in consequence, the domestic climate in America
had changed dramatically over former
ally,
now became
the
a
few months.
enemy in
The
Soviet Union, the
the cold war.
In order to inform the public and the politicians about the
and
hattan Project set up an
At the request of Leo Einstein
number of
considerable
its effects, a
became
its
the physicists of the
Emergency Committee of Atomic
Szilard, the driving force
behind
bomb Man-
Scientists.
this enterprise,
chairman, 7 not as a “table ornament” but as an
eager fund-raiser and a committed propagandist.
He
signed
a
great
number of appeals and proclamations, mostly drafted by others; and he frequently spoke on the radio or took part in broadcast discussions by telephone. In the
fall
of 1946, he incited prominent Americans to a
meeting of the Emergency Committee
at the Institute for
Advanced
Study in Princeton, complete with “luncheon” and tea with the director,
Frank Aydelotte, and
nationwide network, Despite the failed to
initial publicity,
its
of Einstein’s address over a
NBC. though, the Emergency Committee
on
politics.
members; Einstein
tried to
produce any
emerged among
a relay
visible effect
Soon,
also, differences
mediate but could “not
bring himself to agree with the views of certain of the committee
members.” 8 At the end of 1948 the committee suspended ties
—but not so Einstein, who anyway
than in the atmosphere of
felt
happier as
a
its activi-
lone fighter
committee where compromise was
a
inevitable.
Despite Einstein’s support for world government and his
nouncements on the bomb,
on occasion you
see
my name
wrote to his friend Besso spend
a lot
this
at the
many
pro-
commitment remained marginal:
“If
linked with political excursions,” he
peak of his
of time on such matters, for
activity,
it
“don’t think that
would be
a
I
pity to waste
much strength on the arid soil of politics. But now and again comes a moment when one can’t do anything else.” 9 Once, walking to the
— Between Bomb and Equations Advanced Study with
Institute of
he assessed
Straus,
“Yes, that’s
work on
his
how one
As for had to
his
own
from him. “Had
contribution to the terrifying
I
known
title
I
is
for eternity.” 10
new weapon, he
who were hoping
would not have supported
he told the magazine Newsweek in March 1947.
of the three-page story
me, because
to
felt
Einstein the ,
Man Who
its
He
he
for support
Germans would not succeed
that the
developing the atom bomb, tion,”
much more important
himself in the eyes of those
justify
as follows:
has to divide one’s time between politics and our
for the present, while such an equation
is
Munich-born Ernst
Emergency Committee
the
equations. But our equations are politics
his assistant,
725
in
construc-
qualified the
—by
Started It All
explaining that the military development of nuclear energy would have
been not much different without
his intervention at the time. 11
Manhattan Project would agree with
historians of the
out Einstein’s
letter,
no more than
a
the
week
bomb would
later.
But
have been
built,
Most
Even with-
this.
and probably by
does not affect the issue of moral
this
responsibility.
Einstein stuck to the justification that to outrace the
when he
—
was necessary
Germans. But he certainly minimized
later told the editor
:
“My partic-
atom bomb consisted of
a single
Max
signed a letter to Roosevelt”; 12 and when, in a letter to
I
Germany, he repeated
von Laue
in
bomb and
Roosevelt was limited to
lard.” 13 In fact,
he had dictated the
and signed two further
letters;
that “the business with the
my signing letter (in
a letter written
as a security risk
hand, there obliged to tion. “If I
is
atom
by
Szi-
German), he had drafted
and he would have been glad to con-
tribute not only as a writer of letters but as a physicist,
excluded
time
at the
his contribution
of the Japanese journal Kaizo
ipation in the development of the
action
it
by “people
in
had he not been
Washington.”
On
the other
of course no doubt that Hitler had driven him to
recommend had known
the development of a that these fears
weapon of mass
were groundless,
I
feel
destruc-
would not
have taken part in opening that Pandora’s box.” 14
Einstein totally rejected any accusation that because of his formula
E = me
2
he bore
a special responsibility.
“So you believe that poor
me
by discovering and publishing the relation between mass and energy
726
The
Pacifist
and the Bomb
has played a major part in bringing about our lamentable situation,” he
some irony
said with
foresee the
bomb
to a historian
time
at a
when he was
have been quite impossible,
which
been ludicrous to keep .
.
required a
it
theory owes
sible technological applications
most noble
The
pursuit.
its
genesis to the endeavor to
ally speculated
Not
a hint
of pos-
in sight.” 15
to Einstein to
abandon or even
him humanity’s
search for the laws of nature was to
Anything
human
sphere, in which
would surely have
of nature because of possible problematical
restrict the exploration
I
was
would never have occurred
consequences.
number of
not even be sur-
in 1905 could
discover the properties of the ‘luminiferous ether.’
It
To
about the consequences of the special
silent
The
.
of physics.
Patent Office would
at the
obstacle had not existed,
if this
relativity theory.
still
as its construction
discoveries in nuclear physics
mised. “But even
who knew nothing
else
was part of the
beings so often
failed.
political
Even
so,
and moral
he occasion-
about the justification of this clear distinction:
believe that the terrible decline in man’s ethical behavior
is
due
primarily to the mechanization and depersonalization of our lives
—
a disastrous
by-product of the development of the techno-
logical-scientific intellect.
with
this fatal
Nostra culpa!
I
see
no way of dealing
shortcoming. Alan cools more quickly than the
planet he inhabits. 16
When the nuclear race was other with deadly threats
proxy all
on and the two superpowers faced each
— and in Korea even waged
kind of war by
—Einstein sometimes came close to despairing of humanity:
efforts are in vain
it.” 17
After a conversation with
Hermann Broch was impressed by what
pessimism, would was, and
it’s
Alozart any
still
no great
more
“If
and mankind ends in self-destruction, the uni-
verse will not shed a single tear over
him,
a
regret: “Alankind pity;
—that
is
Einstein, despite
remains
as idiotic as it
all
his
always
but that no one would then play Bach or
a pity.” 18
Regardless of occasional attacks of
melancholy, Einstein never abandoned hope, either in physics or in his political
commitments: “After
all,
to despair
to strive for an unattainable goal.” 19
makes even
less
sense than
Between Bomb and Equations
One
727
goal he was certainly not striving for, and one that he regarded as
unattainable anyway, was any fundamental change in the
nation or any reconciliation with
His anger
it.
—
fatherland” was so implacable that
Plan
—he thought
it
German
former “step-
at his
in line with the
Morgenthau
“absolutely necessary” to “prevent permanently
any substantial industrial power
in
Germany.
... I
am
not out for
revenge, but for the greatest possible safety from attacks by the Ger-
mans,
a safety that
on them.” 20
He
cannot be expected to come from moral influence
even rejected humanitarian programs to help Germans
suffering hardships in their destroyed country.
When James
Franck
Ameri-
initiated a constructive policy for the
cans as an occupying power, not for a “milder peace” but in order to
prevent
a “situation
of spiritual and psychological decay,” Einstein
brusquely reproved' -him: “The Germans butchered millions of ians according to a well prepared plan, in order to
had butchered you too,
place. If they
without some crocodile
this
into their
would not have happened
They would do
tears.
move
civil-
it
again
if
only they were
able to.” Einstein felt that “not a trace of a sense of guilt or remorse
among
to be found
the Germans”; he therefore called Franck’s initia-
tive a “stinking business”
sion arose, he
who had appeal,
is
when a suitable occaspeak out against it.” 21 Hermann Broch,
and announced
would “publicly
that,
joined Franck’s initiative and had cooperated in drafting the
succeeded in dissuading Einstein only to the extent that
he would “now desist from his threatened public protest against the
program.” 22
The more
first
person to discover that Einstein would
literally
have no
do with Germany was Arnold Sommerfeld. Einstein had
to
resigned from the Bavarian
Academy
wanted
am
to reverse that. “I
in 1933,
and Sommerfeld now
therefore asking you,” Sommerfeld
wrote, totally misjudging Einstein’s attitude, “to bury the hatchet and
once more to accept membership in the Academy.” 23 Although
it
was
a
“genuine pleasure” for Einstein to hear from his old colleague, he could not have refused him more sharply: “With the Germans having
murdered thing
my Jewish
more
Academy.” 24
to
brethren in Europe,
I
do not wish
do with Germans, not even with
to have any-
a relatively
harmless
The
728 It
would be
a mistake,
Bomb
Pacifist and the
though, to see in Einstein’s attitude a hatred
of everything German. In
human
matters as in physics, his “rational
basis [was] confident belief in unlimited causality.
way he
because he must act the
does.’
from Spinoza, acknowledged neither Einstein to
show
sin
it
led him, in his
cannot hate him
This viewpoint, taken over
nor
toleration and patience for
now
But
trespasses.
” 25
‘I
guilt,
and
had helped
it
many human
judgment on the Germans, to an
implacable conclusion, beyond crime or punishment: If the
had acted the way they had to
—encountered by
the
Max
cessor to the Kaiser
Wilhelm
Society,
who
a “foreign scientific
“The crimes of
attitude of the
German
as a suc-
was rejected by Einstein with
Germans
the
most hideous that the history of the so-called
The
those
Planck Society, founded in Gottingen
the crushing argument:
show.
all
official capacity.
Otto Hahn’s request that Einstein become
member” of
Germans
then they would do so again unless
act,
prevented. This, then, was his attitude
approached him in an
and
follies
are really the
civilized nations has to
intellectuals—viewed as a class
was no better than that of the mob. There
is
not even remorse or an
honest desire to make good whatever, after the gigantic murdering,
be made good. In these circumstances
left to
being involved in simply out of
a
I feel a
a business that represents part
need for cleanliness.” 26 Even
deep aversion to
of German public
less
is
life,
did he wish to have
anything to do with institutions of the Federal Republic born in 1949. Its
president,
ment of the stein as
Theodor Heuss, who,
civilian class
in connection with the reestablish-
of the Pour
le
one of four surviving prewar members, was informed by
Einstein that
it
was “evident that
proud Jew no longer wishes to be
a
connected with any kind of German
He
did not even
publisher sible”
Merite Order, approached Ein-
official
want the Germans
Vieweg wished
book “on the
event or institution.” 27
to read his works.
When his old
to republish his slim “generally
special
and general theory of
comprehen-
relativity,”
he was
informed by Einstein: “After the mass murder committed by the Ger-
my Jewish
mans
against
mine
to appear in
Germany
after
brethren
Germany.” 28
I
Max
do not wish any publications of Born,
who
intended to return to
being pensioned in Edinburgh in 1953, received
rather tactless ticking off for
a
“moving back into the country of the
Between Bomb and Equations mass murderers of our
tribal
companions.
well that collective conscience die just
when
is
.
very lousy
.
But then we know quite
little
plant which tends to
most needed.” 29
it is
At the same time, Einstein’s never affected individuals those who, like
a
.
729
attitude
who were
toward Germans
his colleagues
as a
whole
and friends
—even
Hahn and Sommerfeld, had remained
steadfast
under
the Nazi regime. His only intensive exchange of letters was with
whom he
von Laue,
fine fellow.”
But
had always and unqualifiedly regarded
in an obituary in
Walther Nernst, who had died gave
homage
Max
as a “really
1942, Einstein paid tribute to
in 1941. Just as if there
to the liberal-mindedness of his
were no war, he
sometime patron and
colleague, and wistfully recollected an international spirit of science that existed
no longer. 30
Max
For
Planck died on October a
When
Planck, Einstein preserved a deep reverence. 4,
1947, at the age of eighty-nine, Einstein, at
memorial meeting of the American Academy of Sciences, paid
his
respects to his father figure as a personification of the ideal of knowl-
edge. 31 In a letter of condolence to Planck’s widow, Einstein found
moving words “It
was
to describe
and
a beautiful
in his proximity.
what
fruitful
this
man had meant
time that
I
to
him
personally:
had the privilege of spending
His gaze was fixed on eternal things, yet he took an
active part in everything that
belonged to the
human and temporal
The hours which I was permitted to spend at your house, and the many conversations which I conducted face to face with that wonderful man, will remain among my most beautiful recollections for sphere.
.
.
.
the rest of
my
life.
This cannot be altered by the
fact that a tragic fate
tore us apart.” 32
Einstein had not actually gone to the memorial meeting for
Planck in Washington but had arranged for
The
reason was his
own
his
deteriorating health.
Max
eulogy to be read out.
He now
hardly ever
left
Princeton.
The
three ladies at
the obstinate old
man
1
12
the
Mercer
Street
same care
were evidently unable
that Elsa
had given him.
to give
A series
of illnesses began after the war, with marked physical deterioration,
but the causes remained uncertain for
a
long time.
When he was better
Bomb
730
The
again he drew up a
humorous balance sheet
Pacifist and the
become markedly weak and looked years
for that period: “I
like a specter. It
had
turned out that for
had been observing an unintentional starvation treatment
I
which impaired the elementary balance of substances. With correctly dosed fattening-up
human appearance granted
me
I
gained 15 pounds over four weeks, acquired a
again,
and the weakness was gone. Thus the Devil
one more reprieve.” 33
However, painful abdominal by vomiting and
attacks then recurred,
accompanied
Rudolf Ehrmann,
a specialist in
lasting several days.
stomach complaints who had treated Einstein
His patient, by then seventy, with
intestinal ulcer.
wondered tion,
“that this incredibly
moreover
realize
how
for so
many
lousily primitive
though not
years!
One
in
as a patient
December 1948
Nissen
in.
to
Eventually the
a cyst in the
abdomen.
my friends,” 35 Einstein Hospital in Brooklyn, New
who
to Jewish
is.” 34
life
—who had met Einstein
—diagnosed
York, for surgical “medical repair.” sions of the intestine,
only has to think of
our whole science
After an “impressive council of doctors
was admitted
equanimity
stoical
complex machinery is ever able to func-
surgeon Rudolf Nissen was called in Berlin,
in Berlin, suspected an
are
The surgeon found
several adhe-
which had apparently caused the
attacks.
The
suspected cyst, however, turned out to be an aneurysm, an arteriosclerotic dilation of the
major abdominal
as large as a grapefruit. 36
So
an alarming
aorta, of
far the wall
a
was
of the aneurysm was firm, and
surgical intervention, given the high risk associated with
was not indicated. After
size: it
it
at that time,
month, the patient was discharged from the
hospital.
Accompanied by Walter Bucky, Einstein spent valescence in Florida. better,
and one
is
“One
few weeks of con-
gets hungry, the old crate
developing something
But he could not indulge
a
in laziness, as
like a
is
working
paunch,” he reported.
he had promised to write
a
concluding reflection on the nineteen contributions to the volume devoted to him in the Library of Living Philosophers. “So I’m just writing, always dissatisfied with
improve on
it.” 37
more defended
what
I
have written, yet unable to
In the end he was, after
“the
all,
satisfied at
having once
good Lord against the suggestion that he continu-
Between Bomb and Equations
When
ously rolls dice.” 38
sister
had been at
he returned to Princeton he was feeling
not well.
better, but
His
731
Maja’s health was considerably worse than his own.
living with
how much
Maja
in cordial
He
harmony; friends were astonished
the siblings with increasing years resembled each other in
appearance, gestures, and facial expressions. Maja had intended to return to Switzerland at the end of the war, but she suffered a stroke
from which she never recovered. Progressive
arteriosclerosis
and kept her bedridden. Her brother was
lized her
during her prolonged suffering. “During the
last
a loving
ture. Strangely
advanced
companion
few years
her every evening from the best books of the old and the
immobi-
I
read to
new
litera-
enough, her intelligence had hardly suffered from the
illness,
even though toward the end she could hardly talk
audibly anymore.” Maja died on June 25, 1951.
“Now I miss
her more
than can be imagined.” 39 Mileva, Einstein’s
never had an easy
first
wife,
beyond endurance. Added financial
transfers of
money and
in
Zurich in 1948. She had
and her son Eduard’s schizophrenia upset her
life,
permanent
had died
to this
problems
were her own
—which
illnesses, as well as
Einstein had brought on by
by some complicated transactions, such
also
as
taking over the house on Huttenstrasse.
Eduard was
at the
author Carl Seelig,
Burgholzli psychiatric hospital in Zurich.
who was
Robert Walser, proved stein could “not
with
already looking after the mentally
a kindly
ill
The poet
and helpful mentor to Eduard. Ein-
thank [him] enough for
[his]
sympathetic occupation
my sick son. He represents the virtually only human problem that
remains unsolved.
The
rest
have been solved, not by
me
but by the
hand of death.” 40 up any contact with
Einstein, however, felt unable to keep
even by
letter:
“There
is
But one factor
a
block behind
believe
is
that
I
feelings of various kinds in
him
if I
lyze fully.
it
I
which
I
am
unable to ana-
would be arousing painful
made an appearance
form.” 41 Eduard Einstein survived his father by ten years. the Burgholzli in 1965.
his son,
in
whatever
He
died at
The
732 It
was
after the
and the Bomb
that the picture posterity has of Einstein
Without
take shape.
him
war
Pacifist
began to
Elsa’s supervision, the indifference that suited
in external matters
was gaining the upper hand. As early
he had described himself mockingly
as “a
as
kind of ancient figure
1942
known
primarily by his non-use of socks and wheeled out on special occasions as a curiosity.” 42
not
Now, marked by
sickness and haggard, often dressed
comfortably but grotesquely, he might have become
just
a
Chap-
linesque tragicomic figure, had not his features and his deep, intelli-
gent eyes enthralled every
And and
there were a lot of visitors.
Max von Laue were
Prominent
a
Old
friends like
his daughter, Indira, to
New York
to
Mercer
at the university the four
or Washington
late fall
of 1952. After
young musicians came
Street and played Beethoven and Bartok, before surprising
Einstein with a request to be allowed to
make music with him.
—he had stopped playing the
prolonged protest viously
Israel,
man. Of particular charm
by the Juilliard String Quartet in the
an afternoon concert
house.
David Ben-Gurion from
point of driving to Princeton from
a visit
at his
from the Indian prime minister Jawaharlal
for an afternoon in order to talk to the wise
was
Maurice Solovine
welcomed and stayed
cordially
political figures,
Nehru with made
visitor.
After
violin seven years pre-
—Einstein chose Mozart’s great G Minor Quintet and took the
second-violin part. Despite his unpracticed and fragile fingers, he
played with a good sense of coordination and intonation, and with impressive concentration. Admittedly, concession had to be
him
in the matter of tempi, but the fact that the
slower and slower did not diminish the
warm
Juilliard
brilliance of Mozart’s
Some
time
later,
on November
honor which moved him
Chaim Weizmann, died on November up
virtuosi.
of farewell, Einstein said he could not understand
Quartet was often criticized for
a suggestion,
the
first
greatly,
At the
why
the
tempi. 43
1952, Einstein was offered an
but which he could not accept.
president of the
9. Israel’s
thrown out
16,
its fast
to
movements became
music and even intensified the happiness of the young
moment
made
young
state
of Israel, had
premier, David Ben-Gurion, had taken
in the Israeli press, that the vacant post be
offered to Einstein as the greatest living
Jew and
as
an expression of
Between Bomb and Equations Israel’s special link
with
scientific
he instructed Abba Eban, then
733
humanism. By telephone and ambassador
Israel’s
telex
Washington,
in
to
offer Einstein the presidency. 44
Before the ambassador could even prepare for this delicate
had
a surprise: Einstein
task,
he
was on the telephone. Ben-Gurion’s intention
had been reported by the news media and Einstein had learned of it on
November
the evening of
ruffled,” reported a colleague stein.
“
‘This
“The
16.
quiet household was
little
from the
institute
who was
much
visiting Ein-
very awkward, very awkward,’ the old gentleman was
is
explaining, while walking
up and down
was very unusual with him.” 45
He
in a state of agitation
decided to
call
Washington
which
at once,
and in decisive terms he told Abba Eban that Ben-Gurion should miss the idea.
He
asked
Eban
to report to Israel that
dis-
he was honored,
but also that his refusal was unalterable.
Eban
realized that he
would be unable
mind, but he would not accept telephone. day.
He
a refusal
make
Einstein change his
Israel’s
presidency over the
to
of
therefore sent his deputy to Princeton the following
When he presented the official letter,
Einstein had already drafted
his reply:
I
am
deeply
moved by
the offer from our state Israel, and at once
saddened and ashamed that
I
cannot accept
dealt with objective matters, hence
I
it.
All
my
life I
have
lack both the natural apti-
tude and the experience to deal properly with people and to exercise
functions.
official
unsuited to
fulfill
For these reasons alone
the duties of that high office, even
age was not making increasing demands on I
am
the
more
relationship
to
I
would be
if
advancing
my strength.
distressed over these circumstances because
the Jewish people has
become
human bond, ever since I became fully aware situation among the nations of the world. 46 Abba Eban was deeply impressed by
my
my
strongest
of our precarious
the fact that in the very
first
sen-
tence Einstein referred to “our state Israel.” Einstein had in fact
wholeheartedly welcomed the foundation of the regretted that
it
state,
even though he
had not been possible without violence and although
he continued to view coexistence between Jews and Arabs
as a task
still
The
734 to be accomplished.
Pacifist
To the
and the Bomb
editor of the Tel Aviv daily
which had sug-
gested Einstein for the presidency, he also justified his refusal by
expressing his concern about “the difficult situation that might arise the government or parliament took decisions which would bring into a conflict of conscience, the
more
so as moral responsibility
if
me
would
not be eliminated by the circumstance that de facto one has no influence on events.” 47
To Israeli
was simpler: “The
a friend, his justification
brethren
moved me
deeply. But
offer
many a
make myself do
While Ben-Gurion was awaiting
rebel has
become
a bigwig, I couldn’t
Einstein’s
decision, he asked his assistant, the future president Yitzak
over a cup of coffee: “Tell offer the post to
me what
him because
it’s
do
to
my
declined straight away with
I
genuine regret. Although that.” 48
from
if
he says
impossible not
to.
yes! I’ve
But
if
Navon, had to
he accepts
we’re in for trouble.” 49
At the
Advanced Study, Einstein had been
Institute for
retired in the
spring of 1946, but he had ensured that there would be no change in his salary or his
Princeton
working
facilities:
when I was pensioned
off,
“I
threatened that
I
would leave
and they didn’t want that because
of my popularity.” 50 In the
fall
of the same year,
J.
Robert Oppenheimer assumed the
directorship of the institute and began to develop
it
into an out-
standing center of research in physics. Einstein esteemed the director as an “unusually capable
did not
come
scientific
younger
man
new
of many-sided education” but
into close contact with him, “perhaps partly because our
opinions are fairly diametrically different.” 51 As physicists
whom Oppenheimer
brought to the
all
the
institute
had
been brought up on quantum mechanics, they would not and could not concern themselves with Einstein’s problems. The few who called
on Einstein invariably ished to find
him
felt
enriched by their contact but were aston-
talking as if he had a direct line to
who ignored him or smiled at him from a when they caught sight of him, a sense of living representative of their science, if
Isaac
God. The many
distance nevertheless
reverence for the greatest
though from the past
Newton had appeared among them.
felt,
— almost
as
Between Bomb and Equations This was always the case when he attended
symposium by which the
at a
in
March
1949.
Abraham
institute
had already taken
There was
moment
formed
— again
and
it
was so
his seventieth birthday,
when
their seats
Einstein appeared.
of respectful silence in the hall before the guests
Even
rose to their feet and applauded him. 52
tongue) was
a lecture,
most of the three hundred
Pais recalled that
participants a
honored
735
according to
Abraham
Pauli (of the sharp
Pais
—somewhat
and could not help feeling
in Einstein’s presence
trans-
touch
a
of awe.
While self,
his life’s
two weeks
There
work was being celebrated after his birthday,
isn’t a single
stand up, and
concept of which
I feel
unsure
has, as
it
am
I
differently:
convinced that
it
will
am even on the right road. My me as a heretic and a reactionary
were, outlived himself.
of course,
This,
up
it
if I
contemporaries, however, see
who
summed
immortal, Einstein him-
as
due to fashion and shortsightedness,
is
but the sense of inadequacy comes from within. Well bly can’t be otherwise
if
one
is
critical
and modesty keep one on an even
—
proba-
it
and honest, and humor
keel,
in spite of outside
influences. 53
Sometimes he expressed himself more robustly about poraries: “It in arms, it
is
and
rather hard to find that
it is
we it
at least
“Maybe even my general field
of infants
is
and indefatigably
of quantum theory on the
on the general theory of
Often he was hopeful that he had
symmetrical
at the stage
to himself
his great task, the explanation
basis of a unified theory resting
the truth.
still
contem-
not surprising that the fellows are reluctant to admit
(myself too).” 54 But he did admit
worked on
are
his
caught hold of
relativity
a
relativity.
shred of
theory of the non-
the correct thing,” he thought in 1952. “Elowever,
the mathematical difficulties of a comparison with experience are prohibitive for the time being.
from
a truly sensible
ticles) as fifty
Be
that as
it
may, we are certainly
as far
theory (the dual nature of light quanta and par-
years ago.”
Although he instructed
his assistant that
it
was already
a success “if
one can compel nature his
own
to stick
its
tongue out
at one,” 55
Not only would
criteria for a sensible theory.
hence in
Bomb
Pacifist and the
The
736
he kept raising
the electron, and
view matter generally, be derived from such
his
theory
magnitudes of natural constants
logical necessity, but the
velocity of light
a
were no longer to be empirical
facts
as a
like the
but would be
derived unambiguously from the theory.
In the past Einstein had tried to find out the intentions of the
metaphorically understood the world. ally
Now he raised his sights; he wanted to discover if God actu-
had any choice
God
whether
—Almighty and to discover how he created
in creating the world:
could have
whether the demand
made
“What
really interests
me
is
the world differently; in other words,
for logical simplicity leaves
any freedom
at all.” 56
For the sake of solving the ancient philosophical problem of contingency, at least within the
framework of
prepared to give up the
theory and search for alternative physical
field
physics, Einstein
was even
and mathematical structures. Despite various attempts along those lines,
nothing matured to the point of publication.
While he
indefatigably continued to
work on
a unified field theory,
he by no means rejected the idea that maybe everything was entirely different. In the
summer of
century
had been with him
earlier,
theory, he said: “However,
cannot be based on the
1954, in his last letter to Besso, who, half a
I
field
that case nothing remains of
regard
of the relativity
as entirely possible that physics
it
concept,
my
at the genesis
i.e.
on continuous
entire castle in the
air,
structures. In
including the
gravitation theory.” 57 In this harsh judgment, too, Einstein
Politics
was alone.
and secrecy moved into the ivory tower with J. Robert Oppen-
heimer. Military police kept
a
twenty-four-hour guard over the safe in
which the “father of the atom bomb” deposited his conferences
with the government on nuclear matters. While Ein-
stein
was immersed
No.
109,
one
his secret papers for
floor
in
thought in his
fine street-level
corner room,
above him Oppenheimer held conferences with
bomb-experienced colleagues
—from
mann, and John Archibald Wheeler
Enrico Fermi, John von Neu-
to
Edward Teller
—
to discuss the
construction of a “superbomb”: a hydrogen bomb. Einstein
is
unlikely to have spoken about the dangers of that enter-
Between Bomb and Equations prise with the
when
bomb
builders
who came and went
737
But
at the institute.
the president of the United States announced the successful con-
struction of the hydrogen for the first time
bomb, Einstein spoke
on the new medium of television,
in Princeton the
day before.
If this
whole nation,
to the
in an address filmed
development succeeded, he
said,
“radioactive poisoning of the atmosphere and, hence, annihilation of
on earth
all life
have been brought within the range of what
will
technically possible.
The
weird aspect of
development
this
is
lies in its
apparently inexorable character. Each step appears as the inevitable
consequence of the one that went before. And
at the end,
looming ever
clearer, lies general annihilation.” 58
The
Reaction was overwhelming.
following day the
ran a banner headline across the whole page: “Einstein
H-Bomb
Outlaw suit. It
was
all
New
York Post
Warns World:
or Perish!” 59 Papers throughout the world followed
in vain.
The arms
race was running
its
course with the
“apparent inevitability” diagnosed by Einstein. Just as he did not give
up
in his scientific endeavors, so
he con-
tinued his struggle against the nuclear arms race. Moreover, he inter-
vened in many other controversies of American domestic
policy;
during the dark period of Senator Joseph McCarthy’s witch-hunts he called for the defense of civil liberties
ence.
and pleaded for
civil
disobedi-
As during the Weimar Republic, he was now revered by the
and by
liberals,
demanded
and
fiercely attacked
from the
right,
left
which even
that he be stripped of his U.S. citizenship and deported.
When he
saw how
free expression of opinion
the universities and in public
life,
how
was being muzzled
intellectuals
and
scientists
in
were
persecuted, Einstein at seventy-five provoked the nation with the
statement that
become
a scientist
plumber or pendence delighted sent
as a
him
a
is
Thanks
in that situation
or scholar or teacher.
I
he would “not
would rather choose
try to
to be a
peddler in the hope to find that a modest degree of indestill
when a
young man
available
under present circumstances.” 60
He
the Chicago Plumbers’ and Sanitary Engineers’
membership
was
Union
card.
to his science, however, Einstein
independence he was striving
for,
had not only acquired the
he had also made use of
breath. In February 1955 Bertrand Russell approached
it
to his final
him with
a
pro-
738
The
posal to
make
it
Pacifist
and the Bomb
emphatically clear to the public and to the world’s
governments that in
a nuclear
war there would be neither
victors
nor
vanquished, only total catastrophe. 61 In a protracted correspondence the two grand old
whose voices
men
agreed on an appeal to be signed by scientists
carried international weight. Russell bore the brunt of
organizing this project and also drafted the definitive document, the Russell-Einstein Manifesto. Einstein signed
returned It
stein
was
it
it
on April
11, 1955,
and
to Bertrand Russell with a short covering note.
his last letter.
was no longer
By
alive. 62
the time Russell held
it
in his hands, Ein-
CHAPTER THIRTY-NINE “An Old Debt”
The end came quickly
summer of
long been expected. In the
found that
knew
his
and surprisingly, even though
had
it
1950, Einstein’s physicians had
aneurysm was getting bigger. From then on, Einstein
that his time
“die gracefully.” 1
was limited. Calmly he awaited
On March
his death,
hoping to
18 he had signed his will, which ap-
pointed Helen Dukas and Otto Nathan as his literary executors and instructed that sity in
all
his
manuscripts were to go to the
Hebrew Univer-
Jerusalem.
He
He who
wished to have the simplest possible funeral.
on Newton’s
laid flowers
grave,
commemorating
once had
the giant on whose
shoulders he stood, did not even want a gravestone. Replying to a bold
question from a student death?
—he
become
—What would become of
said with a roguish smile:
a place
bones of the
his
That was
in the
after his
“This house will certainly not
of pilgrimage, where pilgrims would
saint.” 2
house
fall
come
to view the
of 1953.
In 1954, Einstein developed hemolytic anemia. In 1955, he was able to report that medical crate
is
again functioning,
skill
had allowed him to survive
more or
less,
it.
“The
only the brain has gotten very
— the Devil altogether counts the years conscientiously, one’s got
rusty to
acknowledge
that.” 3
He
was again able to go to the
Advanced Study every morning and work with
Kaufmann,
a
young woman
physicist
born
Institute for
his assistant Bruria
in Palestine
and trained in
America. Preparations were being
made
in
739
Bern and Berlin
to
mark
the
The
740 fiftieth it
anniversary of the theory of relativity. “Age and sickness
impossible for
me
to participate in such events,
also that this divine dispensation has
Max von
me,” he wrote to long
life’s
ponderings
it is
Laue. “If
we
that
and
it
for
have learned anything from a
I
much
are
believe, so that noisy celebrations are
make
have to confess
I
something liberating about
insight into the elementary processes than
state
Bomb
Pacifist and the
from
further
a
deeper
most of our contemporaries
not
much
in line with the real
of affairs.” 4
For Einstein’s seventy-sixth birthday, which was observed without any ent
fuss, a physicist at
the university had thought
up
a graceful pres-
—an experimental demonstration of the equivalence principle
was to remind him of the “happiest idea” of his
The
the Patent Office in Bern.
lier at
spring, and a sphere,
life,
5
that
half a century ear-
setup, involving a broomstick, a
was demonstrated with great ceremony and
obvious enjoyment.
A
month
later,
on April
11, Einstein
signed the appeal drawn up by
Bertrand Russell against the arms race, and in the afternoon he received the Israeli ambassador,
Abba Eban,
to discuss a planned radio
address on the seventh anniversary of the establishment of Israel.
None
of his visitors suspected that death was close.
On
Wednesday, April
13,
strong pains set
His family doctor
in.
feared a small perforation of the aneurysm. Walter
Ehrmann,
as well as
other doctor friends, arrived from
following day to be with Einstein at the end. surgery. “I is
would
tasteless.” 6
A
Bucky and Rudolf
like to
go when
few weeks
earlier
I
want
to.
To
He
New York
the
resolutely rejected
prolong
life artificially
he had thought of death
as
“an old
debt that one eventually pays. Yet instinctively one does everything possible to postpone this final settlement. plays with us.
We
may
Such
ourselves smile that
is
we
the
game
that nature
are that way, but
we
cannot free ourselves of the instinctive reaction to which we are
all
subject.” 7
Now that he
to be free
from
On
knew
his
time had come, he tried to smile and
instinct, so as to “die gracefully.”
Friday he had to be hospitalized. His son
from California; Otto Nathan came from
New
however, Einstein’s condition had improved so
Hans Albert came York.
much
On
Sunday,
that he asked for
"An Old Debt”
and for the draft of
his calculations
brethren.”
He was unable
to finish
German which aneurysm had
Twelve
mony
his broadcast for his “Israeli
though. Shortly after one o’clock
it,
on Monday morning, he became
741
restless,
spoke
a
few words in
the night nurse could not understand, and died.
The
finally ruptured.
close friends assembled in the afternoon for a simple cere-
at the
crematorium. Otto Nathan gave
recited the epilogue to Schiller’s Glocke
,
a
short address and
which Goethe had written
Schiller’s funeral service. Einstein’s ashes
were scattered
for
in an undis-
closed place.
His stepdaughter Margot,
been allowed to see him
“He as
.
.
.
left this
life
same hospital and had
few times, reported about his
last
few hours:
—so quietly and modestly he was facing death.
world without sentimentality and without regrets .” 8
Three weeks before friend Besso:
“Now
strange world. This tinction
in the
waited for his end as for an impending natural event. Fearless
he had been in
He
a
who was
between
his death, Einstein
past, present,
stubborn illusion .” 9
his old
me a little by parting from To us believing physicists the
he has preceded
means nothing.
had commemorated
this dis-
and future has only the significance of a
'
,
NOTES Note: For works listed in the Bibliography, short citations are given here. Refer to the Bibliography also for abbreviations used.
1.
by Helen Dukas; the original docu-
Family
ments are
Maja Winteler-Einstein, Albert
1.
Einstein
—Beitrag fur
sein Lebensbild
on
completed
36-page
manuscript,
February
15, 1924. Extracts
a
CPI, p. LVI. The editor’s notes, even more than Maja’s manuscript, are source for
many
Einstein’s family and the his
details of
first
Hans Eugen Specker (ed.), Einstein und Ulm (Ulm/Stuttgart, 1979). Contains numerous documents from
Ulm
city archives. Einstein’s birth
certificate
is
reproduced on
1953,
4,
Dunkle Zeit
,
CPI,
5.
Einstein
p.
Abe?idpost
,
—
trag,
Lvn.
to
Carlos
Ulm to
Ernst G. Straus, Reminiscences,
13.
Zvfarch 16, 1929,
of
Winteler-Einstein, CPI,
Maja Winteler-Einstein, CPI, p. L.
—
p.
e.g.,
Maja
LVII
—the
was spoken regard the version related by
softly. I
most plausible. Maja Winteler-Einstein, CPI,
to be the 14.
LVII. 15.
Ibid.
16.
Erik H. Erikson, Psychoanalytic in
Symposium,
Jerusalem
p. 157.
17. Einstein
city
quoted
to
18. Autobiograph isches,
Bei-
stein
7.
p.
Ein-
often jocularly referred to his
Reiser, p. 28.
autobiography
9.
Ibid., p. 26.
“Obituary.”
10.
Quoted in Hoffman/Dukas, These sentences were excerpted
743
Franck,
James
in Seelig (1952), p. 72.
8.
p. 22.
419; ac-
p.
repetition of the sentence
Reflections,
Ulmer
Ulm
Symposium,
cording to other accounts
Erlander,
city archives.
editor
May
21, 1954.
p.
archives. 7.
Maja Winteler-Einstein, CPI,
12. Einstein to Sybille Blinoff,
LVI.
18, 1929,
Einstein
6.
in Helle Z.eit
p. 56.
4.
March
ETH,
are
present accessible.
11. p.
They
Einstein himself to his assistant Straus
p. 61.
Hans Miihsam,
Einstein to Dr.
March
at
in Jerusalem
life.
3.
not
years of
2.
the
University in Jerusalem, in
the so-called Family Folder.
published
in
a reliable
Hebrew
in the Einstein Archives of
as
his
“
Nekrologf his
19. Ibid.
20. Einstein’s
reply to
a
written
Notes
744 question at a press conference in
York on March
New
19. Skizze, p. 10.
1953, quoted in
18,
May
20. Einstein to Sybille Bintoff,
21, 1954.
Seelig (1960), p. 399.
21. Ibid.
Maja Winteler-Einstein, CPI,
22. 2.
School p.
LIX.
1.
CPI,
2.
Reiser, p. 30.
24. Autobiographisches, p. 2.
3.
Einstein in a draft letter to an
25.
unknown
p.
LEX,
addressee, April
4.
Reiser, p. 30.
5.
Einstein,
23. Reiser, p. 28.
n. 42.
3,
1920.
p.
LX. 26. Reiser, p. 29.
draft letter,
April
27. Autobiographisches, p.
3,
1920.
Maja Winteler-Einstein, CPI,
29. Ibid., p. 2.
LIX.
Hoffman/Dukas,
8.
Reiser, p. 33.
9.
Student register of elementary
Frank,
p. 27.
the
school on Blumenstrasse, CPI,
p.
LIX,
10.
Frank,
same story. 31. Moszkowski,
11.
Frank, pp. 221:
ski,
p.
told
me
“With
bitter
Period
sarcasm he
p. 163.
the teachers had the character
—those
ca,
name.
nasium predominantly had the char-
33.
later at the
acter of lieutenants.” ,
Umschau, 1933, No. .
10.
Dr. H. Wieleitner, Albert Ein-
On
his
22
and
Iff.
15.
Antonina Vallentin, Das Drama
Albert Einsteins
—Eine Biographie
(Stutt-
Moszkowski,
17.
Abraham
kreise
p.
18.
The
eines
jiidischen
(Stuttgart, 1955), p. 16.
syllabi are
CPI, Appendix
reproduced in
B, pp. 346ff.
little
is
geometry
book
it
would seem too voluminous. Accord-
a
account, the
sister’s
book could equally well have volume of Adolf Sickenberger’s Mathematik,
Leitfiaden der elementaren
which was used at the Luitpold Gymnasium but may have been bought ahead of time.
in
A. Fraenkel, Lebens-
—Erinnenmgen
Math ematikers
221.
Spieker’s textbook
a “little”
gart, 1955), p. 16. 16.
his last
remains uncertain; for
been 7 Iff.
93 2),
claims,
“sacred”
Moszkowski, pp.
1
Talmey
Miinchner
14. E.g.,
Fonnative
(see below), as
book”
in
14, 1929.
the
(New York,
“sacred
ing to Einstein’s
March
Relativity
had anglicized
am Miinchner Luitpold-Gymnasium Nachrichten,
and
The
immigration to Ameri-
stein
Neueste
Maja
p. 4.
Inventor
Whether the
really
12. E. A. Pariser, Albert Einstein in
ofi Its
Max Talmud
Gym-
of sergeants
Simplified
Moszkow-
24f.; see
version of
223; also
p.
Max Talmey,
32.
Theory
p. 26.
222; see also
Winteler-Einstein, CPI, p. LXI, and
21; see also Reiser,
p.
p.
p. 26, for a similar
Autobiographisches,
n. 42.
3
Moszkowski,
30.
7.
1
1.
28. Ibid.
6.
p.
Maja Winteler-Einstein, CPI,
34.
Heinrich B. Liibsen, Emleitwig
die
Infinitesimalrechnung (Differen-
tial-
und Integralrechnung) Ziim
Mit Notwendigste und unterricht.
.
Riicksicht
Selbst-
auf
das
Wichtigste (Leipzig,
Friedrich Branstatter). Also intended for independent study
was Liibsen’s
Notes
745
Ausfuhrliches Lehrbuch der Analysis as
well as his Ausfuhrliches Lehrbuch der
und sphdrischen Trigonometric. three volumes are now in the Ein-
On the flyleaf they bear
stein Archives.
the signature
a
J a k»b Einstein,”
makes
it
Albert
obtained
volumes not
these
from Talmud but from library.
The
that
The patents can be inspected at German Patent Office in Munich;
sorgung von
hand.
liber die
von ihnen verwendeten
(Berlin/Munich,
1891);
pp.
G.
60.
N.
Reinhart,
in
Alfred
36. Autobiographisches, p. 4.
Kuhlo, Geschichte der bayrischen Indus-
37. Ibid., p. 3.
trie
of Bertrand
raphy
The Autobiog-
Rxtssell
(Munich, 1926),
p. 31.
61. Ibid.
(London,
Maja Winteler-Einstein, CPI,
62. p. LIII.
1967), p. 36.
memorial
63. In that respect the
39. Autobiographisches, p. 4.
now
40. Ibid., p. 2.
plaque
41. Ibid., p.
12 does not entirely accord with the
5.
42. Ibid. 43. 44. stein,
facts:
Talmey (see n. 32), p. 164. Fritz Genewein to Albert Ein-
Munich, October
stein, Berlin,
46.
December
p.
LVIII.
47. Einstein to Philipp Frank, draft a letter,
on the
site.
65. Reiser, pp. 41 f.; Frank, p. 31. 66. Officially,
school was dated
1927.
Maja Winteler-Einstein,
Albert Einstein never lived in
64. See n. 24.
20, 1924.
9,
affixed to Adlzreiterstrasse
that building, but only
45. Alfred Einstein to Albert Ein-
his
release
December
from
29, 1894;
Kgl. Luitpold-Gymnasium, annual re-
port for 1895.
1940.
48. Ibid.
Talmey
50.
Weltbild (1934), p.
8
(written
1.
p.
p.
“Child Prodigy’*
(see n. 32), p. 165.
51. Reiser, p. 33;
Moszkowski,
A
3.
49.
about 1930).
on Ruess,
Maja Winteler-Einstein, CPI,
LX IV.
see also
221.
2.
Ibid.
3.
Ernesta Pelizza Marangoni,
Mo-
52. Reiser, pp. 34f.
menti pavesi nella vita di Alberto Ein-
53. Einstein to Philipp Frank, draft
stein , in
of a
letter,
54. p.
mit elektrischem
63-66 describe the Einstein threeconductor DC system.
(see n. 32), p. 164.
38. Bertrand Russell,
of
Stadten
Strom. Nach Berichten elektrotechnischer
Systeme
own
p. 54.
Uppenborn, Die Ver-
59. Friedrich
Einleitung in die Infini-
Talmey
35.
they are listed in Pyenson,
Firmen
tesimalrechnung has a few glosses in Einstein’s
the
uncle’s
his
to
58.
which
exceedingly probable
CPI, notes
details see
pp. LI-LIII; and Pyenson, pp. 35-53.
ebenen All
For
57.
Maja Winteler-Einstein, CPI,
56.
4.
An
55. Einstein to Philipp Frank, draft letter,
1940.
,
May
14,
p. 8.
Quoted from Harry A. Cohen,
Afternoon with Einstein
6.
,
in Jewish
January 1969, p. 16. Marangoni, p. 1. Einstein to Marie Winteler,
Spectator, 5.
See also Erich Kiesel, Miinch-
ner Stadtanzeiger, 1979, No. 22,
Provincia Pavese
1955, pp. 1-3.
1940.
LXIII.
of a
La
April 21, 1886.
Notes
746
March
biography in CPI,
1946, published in
16,
Elena Sanesi, Three Letters by Albert
25
Stay at Pavia in Physis 18 (1976), ,
pp. 174-178. In the original the sen-
tences read: “I mesi
giorno
in
sono
ricordanze.
Italia .
.
piu
le
belle
Giorni e settimane sen-
.
Otto
March
Neustatter
CPI, Doc.
26, 1895,
9, p. 14.
in
Edgar
Lehrerzeitung
Schweizerische
Liischer,
(1944), p. 623.
Hans
27.
Byland,
Aus
Einsteins
Jugendtagen. Ein Gedenkblatt in Neue ,
Biindner Zeitung, February
1928.
7,
28. Central State Archives, Stutt-
za ansie e senza tensione.” 9.
388.
p.
Anna Winteler-Besso
26.
mio sog-
del
felici
see the short
Gustav Maier to Jost Winteler,
.
October
and Some Information on Ein-
Einstein
On Jost Winteler,
24.
Ernesta Marangoni, Prince-
August
stein's
,
26, 1915.
To
8.
ton,
23. Skizze pp. 9f.
Einstein to Tnllio Levi-Civita,
7.
Einstein,
to
E
gart,
1516, Royal Wiirttembergian
Danube Region of
List for the
12, 1929.
Mehra,
the
Physikalische
Loss of Reich and State Citizenship
Blatter 27, 1971, pp. 385-91, with par-
through the Granting of Charters of
which
Release in the Calendar Year 1896,
Jagdish
10. ,
facsimile of the Einstein text
tial is
Koch’s
heirs, in
CPI, Doc.
Einstein
11.
summer
1895,
chung CPI,
5, p. 6.
Koch,
Caesar
to
CPI, Doc.
Einstein,
12.
of Caesar
possession
the
in
still
Uber
6,
die
pp.
Untersu-
,
Monatsschrift
15.
3
(1891),
pp.
p. 6, n. 14.
that
7,
Reiser, pp. 42 f.
details of the
no
later
than
that, lacking a better
he treated Albert’s oc-
30. Einstein
summer
Einstein,
Maja
to
Winteler-
quoted
in
February
16,
1935,
31. Einstein to Besso,
1936, Speziali, p. 308.
To
Katzenstein,
Julius
Cali-
December 27, 1931. Stargard Katalog 620, No. 423, June 1980. fornia,
,
requirements
dix C; the individual examination re-
can no longer be found.
82, p. 269.
34. Frank, p. 34:
he
“At the same time
commu-
the Jewish religious
left
nity”
19. Skizze p. 9.
CPI, Doc.
33.
of the examination, see CPI, Appen-
is
the presumed source of this
assertion.
,
20. Ibid.
35. Einstein in a letter of April 15,
21. See Pyenson, pp.
pp.
Einstein set the appli-
“occupation.”
32.
For
therefore be assumed
help in the factory as his
casional
Albin Herzog to Gustav Maier,
17. Skizze p. 9.
sults
may Hermann
description,
pp. 12f.
18.
and
Seelig (1952), p. 22.
September 25, 1895, CPI, Doc. 16.
Archive,
Emigrations
2:
September, and
Leonhard Sohncke, Die Umwalzung unserer Anschauungen vom Wesen der elektrischen Wirkungen in Himmel und Erde. Illustrierte natunvissenschaft157-72; CPI,
City
cation in motion in Pavia
14.
liche
No.
29. It
Clark, p. 17.
13.
Ulm
also
Renunciations of Citizenship.
9f.
p. 6.
,
No. 8; B 122/53,
9ff.,
and CPI,
1954,
—Dunkle
quoted in Hclle Zeit
Zeit pp. 57f.
1 1 ff.
,
22.
CPI, Doc.
12, p. 18.
8, p.
13,
and Doc.
36. Einstein
April 21, 1896,
to
CPI,
Marie Winteler, p. 21.
Notes 37. Einstein
May
teler,
Win-
Pauline
to
CPI,
1897,
Doc.
34,
sity’s
new
When
2.
Quoted from CPI,
385.
p.
39. Einstein to Julia Niggli,
1899, CPI, Doc. 51, pp. 22
studies,
August
began
his
there were exactly 841
stu-
Einstein
Program of
dents at the Polytechnic;
the Polytechnic 1897b, pp. 35ff. All
If.
40. Antonina Vallentin, p. 9.
CPI, Doc. 11, p. 17. Elermann Einstein
building next door, erected
in 1914.
pp. 55f. 38.
747
other figures from the same source. 3.
Craig (see
Jost
4.
Autobiographisches p.
1895, CPI,
5.
Skizze p.
6.
Ibid.
7.
Ibid., p. 10.
examination papers and
8.
Ibid.
CPI, pp. 23-42. 45. CPI, Doc. 22, p. 28, reproduces the original French text with all mistakes, and corrections by the teacher Jakob Hunzicker. Grade 3-4
9.
See CPI,
41. 42.
December
Winteler,
Doc.
30,
to
14, p. 19.
43.
CPI, Doc.
44.
On
all
19, p. 23.
results:
seems exceedingly generous. 46. Albert
Zangger,
Einstein
spring
Heinrich
to
ETH;
1918,
see
n. 1) p. 150. 7.
,
,
1 1.
p.
LIV,
n. 21.
Kornprobst had
10.
collaborated
Munich. Three patents dated 1889 and 1890 had been granted to “Einstein & Co and Sebastian Kornprobst.” These were Nos. 53,546, 53,846, and 60,361 of the German Patent Office, Munich. closely with Jakob Einstein in
1.
Briefe,
Ernesta
11.
p. 18.
Pelizza
Marangoni,
Marie, September(P) 18, 1899, CPI,
Momenti pavesi nella vita di Alberto Einstein in La Provincia Pavese, May 14,
Doc.
1955,
47. Albert
Einstein
Mileva
to
54, p. 230.
,
48. Skizze, p. 10. 49. Goethe,
ed.
Erich
Trunz,
stein,
Ham-
script
burg Edition).
4.
in
Semper und
Gottfried
ETH,
(Basel,
don A.
December 1974 1976); and Gor-
Zurich, in
Stuttgart,
Craig, Ziirich im Zeitalter des Lib-
eralisms 1830-1869 (Munich,
1988),
pp. 20 Iff. Later additions toward the
Ramistrasse have impaired the proportions
of Semper’s building, so that
only the side facing Zurich can be
regarded
as
original
—and
even that
was somewhat affected by the univer-
Maja Winteler-Einstein, 17; CPI, Doc. 38, p. 221.
Ibid.
14.
Albert Einstein to Alfred Stern,
May
3,
1901, CPI, Doc. 104,
296. 15.
die
Mitte des 19. Jahrhunderts, symposium at
of
13.
Milan,
Zurich
p.
See
Zurich, 1898; included in type-
Beitrag, p.
“Vagabond and Loner“:
Student Days
Albert Einstein to Maja Ein-
12.
(Hamburg, 1960;
vol. 14, p. 82
p. 1.
On
Werner G. Zimmer-
this:
mann, Albert
Einstein in Ziirich
March
Ziircher Zeitung, 16.
Milan, p.
,
Neue
11, 1979.
Albert Einstein to Alfred Stern,
May
3,
1901, CPI, Doc. 104,
296. 17.
Imposition of fine No. 6619
of April 23/28, 1897, CPI, Doc. 33, p. 54.
18. Skizze p.
1 1.
,
19. Ibid.
20. Seelig (1960), p. 55.
Notes
748
Frau Anna Gross-
21. Einstein to
mann, Princeton, September 22. Skizze p.
26, 1936.
by Einstein
summer
to Mileva
has been
Marie
in the
lost.
32. Ibid.
1 1.
,
Frau Anna Gross-
23. Einstein to
mann, Princeton, September
Besso, Princeton,
24. Einstein to
March
CPI, Doc.
May
Zurich,
CPI, Doc.
26. See
Markwalder,
of
Seelig
in
(1960),
nating.
CPI, the woman presumably was
Zurich, probably June 57;
1897,
7,
37. Einstein
to
CPI, p.234. 38. CPI, Doc.
29. Einstein
to
Niggli,
Julia
p. 219.
For Mileva Marie, see the short biography in CPI, pp. 3801. The book 30.
Desunka
Albert
Schatten Stuttgart,
(Bern
Einsteins
1983),
conveys
and
42.
this
book has become
kind of
manifesto,
anti-Einstein
feminist
a
1895. Entries for July 20, 21,
,
A
travel diary
owned by
CPI, Doc. 28, p. 47. Quoted in Seelig (1960),
44. Louis
Kommilitonen
eines
Dunkle Zeit
,
p. 2
,
Helle
in
claims about Mileva’s scientific work,
47. Ibid., p. 6.
particularly her alleged contributions
48. Ibid., p. 7.
to the special theory of relativity, as
49.
my
article
in
Die
Mutter der Zeit
,
16,
1990. 3 1
gen
.
This
is
rie,
extant letter; at least one letter written
Vorlesun-
iiber Gastheorie (Leipzig,
1896 and
See Einstein to Alileva
September 1899, CPI, Doc.
Ma54,
230. 51. Skizze p. 10. ,
CPI,
the earliest
Ludwig Boltzmann,
50.
Mileva Marie to Einstein, Hei-
36, pp. 58f.
7.
1898).
p.
delberg, end of October 1897,
Doc.
,
Relativitdts-
November
—
1
46. Autobiographisches p.
them, are devoid of any foundation.
Zeit
45. Einstein 1901, pp. 513-23.
it
drawn from
p. 65.
Erinnerungen
Kollros,
should be pointed out that most of the
well as the conclusions
the
43. Ibid., p. 47.
her
determination to study, and her tragic
,
Princeton.
good
a
Notes of Travel
American Institute of Physics, quoted from Russell McCormmach, Editor’s Foreword, p. XVI, in HSPS, 7, 1976, 41.
impression of Mileva’s origins,
As
Henry Crew,
and 22.
Im
Trbuhovic-Gjuvic,
42, p. 214.
,
Europe
probably July 28, 1899, CPI, Doc. 48,
theorie
Marie,
Adileva
39. Skizze p. 10.
40.
28. Seelig (1960), p. 58.
See
(see
n. 33).
Selina Caprotti’s mother.
life.
Mileva Marie
Milan, probably September 28, 1899,
27. Einstein to Pauline Winteler,
by
reproduced in CPI,
pp. 63-210, but are not very illumi-
pp.
56-62.
p.
35. Einstein’s elaborations of Web-
36. Einstein to
Susanne
Marie,
34. Ibid.
17, p. 21.
report
the
March
Mileva
39, p. 212.
er’s lectures are
34, p. 56.
nation at the cantonal school, 31, 1896,
CPI, Doc.
1897,
Report on instrumental exami-
25.
to
Zurich, probably February 16, 1898,
1952, and Einstein to Pau-
6,
Winteler,
line
26, 1936.
33. Einstein
52.
Max Wertheimer,
Thinking p.
218.
Productive
(New York/London,
1945),
,
Notes 53. Ibid. 54. Einstein,
How
Theory of Relativity
,
I
Created
the
in Physics Today
749
damental Equations of Electrodynamics for Moving Bodies, all reprints of work published
journals
in
1889 and
in
August 1982, pp. 45-47; here, p. 46. This text is based on a lecture given by
1890.
Einstein at Kyoto University, Japan,
Mettmenstetten, probably August
on December 14, 1922. Einstein used no notes and spoke in German. Pro-
1899,
fessor Ishiwara
62. Einstein
CPI, Doc.
64. Ibid. 65. Ibid., p. 227.
Japanese record was then translated
66.
The
quotation therefore
tion
from German into Japanese, and
is
a transla-
Hendrik Antoon Lorentz, Vereiner Theorie der elektrischen und
such
optischen Erscheinungen in bewegten
pem
(Leyden,
from Japanese into English. Despite its questionable transfer through two translations, the Kyot6 lecture is an early and (if only for that reason)
Maxwellsche
indispensable source for reconstruct-
(Leipzig, 1894).
Frank,
p.
1895);
Verhandlungen
67.
56. Skizze, p. 10.
in
full
57. Ibid.
Chemie, Vol. 65, No.
Mileva
Annalen
in
Zurich, probably spring 1898, CPI,
68.
Doc. 41,
69. Einstein
213. des Athers
auf elektro-magnetischer Grundlage
(Stutt-
in
die
Gesellschaft
und Arzte, Vol. der
3
Physik
(1898),
und
Appen-
I-XVII.
dix, p.
Drude, Physik
Ein-
part, 1st half, p. 83; published
Marie,
59. Paul
to
Elektrizitdt
der
deutscher Naturforscher
2nd
p.
der
Theorie
70,
to
p. 49,
of August Foppl, Einfuhrung
55. Reiser, p. 52.
58. Einstein
according
and Reiser,
38,
Kor-
stein also studied the popular textbook
ing Einstein’s thinking at the genesis
of the theory of relativity.
10,
63. Ibid.
translated into Japa-
by Yoshimasa A. Ono.
Marie,
52, p. 226.
nese and took notes in Japanese. This
into English
Mileva
to
H. A. Lorentz,
ibid.,
pp. 86ff.
Mileva
to
Marie,
Milan, probably September 28, 1899,
CPI, Doc.
57, p. 233.
70. Ibid.
gart, 1894).
This clearly resolves the
Abhandlungen
much disputed question whether and when Einstein learned of the
(Leipzig, 1895); especially pp. 476-504:
Michelson-Morley experiment. Wien’s
The Principle of the Least Action
survey of thirteen experiments on the
60. holtz,
Probably Elermann von HelmWissenschaftliche
trodynamics
mous
,
article
a
reprint of the epony-
from Annalen der Physik
und Chemie 47, 1892, ,
61.
in Elec-
pp. 1-26.
motion of the ether
“with negative result.” 71. See n. 67.
en iiber die Ausbreitung der elektrischen
1892);
especially pp.
147-70: The Forces of Electrical OscillaTreated According to Maxwell’s tions ,
Theory, pp. 208-255:
On
the
the Michel-
son-Morley experiment among the ten
Heinrich Hertz, JJntersuchung-
Kraft (Leipzig,
lists
Funda-
mental Equations of Electrodynamics for Bodies at Rest-, pp. 256-85: On the Fun-
Maja Winteler-Einstein, CPI,
72. p.
LV,
n. 29.
Maja Spring 1899, CPI, Doc. 44, 73. Einstein
74. Einstein to
1899,
CPI, Doc.
75. Einstein
Einstein,
to
p.
215.
Mileva Marie, March
45, p. 216. to
Mileva
Marie,
Notes
750
Mettmenstetten, August 1899, CPI,
Doc.
76. Ibid., p. 221.
Hans
Aus
Byland,
Ein
Jugendtagen.
Einsteins
Gedenkblatt
Biindner Zeitung, February
Neue
,
68)
—
94.
63, pp. 243 f.
52, p. 227.
95.
79. Ibid.
Mileva Marie, Mi-
probably September 28,
1899,
The
kept
lectures
for
which Ein-
CPI, Appendix E,
9,
1900,
lost.
Not even
96. Einstein
Princeton, April
pp. 362-69.
97.
1952, in
8,
The results
of the
84.
This applies to ETH’s Depart-
CPI, Doc.
Heim,
Arnold
86. See Julius Braunthal, Victor
und
—
Zivei Generationen Arbei-
terbewegung (Vienna, 1965), pp. 195 ff
The
close link
quoted
Adler,
in
attempt
to
establish
or even, by construing “isoemotional as the prerequisite
of his innovations in physics
Lewis
S.
—
as
London, 1982)
(New Brunswick/
—seem
90. Einstein
to
to
Mileva
1899,
Marie to Helene KauZurich, March 9, 1900, CPI,
Doc. 63,
p.
243.
her
as
correspond
to
have been unable in
ETH archive to find any minimum
Chapter
5
p.
See
12.
also
of this book.
101. Einstein
to
Mileva
Melchtal, probably August
CPI, Doc.
Marie, 1,
1900,
69, p. 251.
Mi1900, CPI,
102. Einstein to Mileva Alaric, lan,
probably September
Doc.
5. 10,
91. Ibid.
fler,
Mileva Marie
to
6,
74, p. 257.
Marie,
63, p. 238.
92. Mileva
to
me mistaken.
Milan, probably October
CPI, Doc.
not
decision
practice,
100. Skizze,
in
Feuer, Einstein and the Ge-
nerations of Science
in
99. Autobiographisches, p. 8.
a
between Einstein’s relations
view them
are
average below which a diploma would
subsequent research in physics,
lines,” to
VIA
be refused.
with revolutionary fellow students and his
present
to
the
Seelig (1960), p. 164. 89.
diploma
final
grade average of 4.0 would, according
“satisfactory.” I
87. Reiser, p. 50. 88. Friedrich
The
diploma
a
ETH.
cannot readily be understood,
Princeton, July 14, 1952.
Eriedrich Adler
award
Seelig,
67, p. 247.
98. Ibid.
to this day.
the subjects
Carl
to
examination in Section
to
archives,
known.
Reiser, p. 51.
85. Einstein
CPI, Doc.
Polytechnic’s
the
in
83.
ment XII
serious
that
those by Einstein and Marie must be
are
stein enrolled at the Polytechnic are listed in
from
As diploma essays were not
considered
57, p. 235.
81. Ibid. 82.
emerges
it
March
Zurich,
CPI, Doc.
CPI, Doc.
e.g.,
Mileva Marie to Helene Kauf-
ler,
lan,
—
intentions of marriage existed by that
menstetten, probably August 10, 1899,
80. Einstein to
later letters
time.
1928.
7,
Doc.
Mileva Marie, Mett-
78. Einstein to
From
one written by Einstein to Mileva Marie at the end of July 1900 (CPI,
50, p. 220.
77.
93.
Looking for a Job 1.
Einstein
Melchtal,
CPI, Doc.
to
Mileva
probably July
29,
1900,
68, p. 248; the following
quotations are also from that 2.
Marie,
letter.
Gustav Robert Kirchhoff, Vor-
Notes lesungen
Vol.
iiber
mathematische
Mechanik (Leipzig, 1897). Einstein to Mileva Marie.
I:
3.
Melchtal, probably August
CPI, Doc.
9,
1900, CPI,
20. Einstein to
Einstein
5.
Mileva
to
Melchtal, probably August
CPI, Doc.
1900,
6,
rich,
probably August
Doc.
71, p. 253.
9,
1900, CPI,
Mi1900, CPI,
23 lan,
9.
Einstein to Mileva Marie,
probably September
11.
p.
71, p. 253.
probably August
Doc.
72, p. 255.
probably August
Doc.
71, p. 253.
Doc.
9,
1900,
14, 1900,
9,
CPI,
CPI,
1900,
CPI,
Mi1900, CPI,
Einstein to Mileva Marie,
Zurich, October 11,
Helene Kaufler, 1900, CPI, Doc.
Milan, probably October 3, 1900, CPI, Doc. 79, p. 267. Gustav H. Wiedewas, until his death in
of Annalen
editor
der
1899,
und
Physik
Chemie the most important journal of ,
exact
sciences
in its
the
German-
foundation by
At the time Einstein the publish in Annalen
Poggendorff.
began
to
,
deleted “chemistry” from
cause of
its title.
who Be-
Wiedemann’s towering repu-
for a long time to be called
Annalen
—
Wiedemanns
as Einstein referred to
it.
27. Einstein described the interac-
tion
between two molecules of types
andy by
74, p. 257.
Einstein to Mileva Marie,
probably September
13,
Mi-
1900,
a potential
Mi1900, CPI,
Einstein to Mileva Marie,
probably August 30, 74, p. 258.
18. Ibid.
Mileva
Marie,
i
acjP(r),
with aq being specific constants for the forces and P(r) being
a
universal if
only
because of the disparate sizes of the molecules. 28. Einstein
to
P = P —
function. This was insufficient,
75, p. 260.
19. Einstein
CPI, Doc.
26. Einstein 1901.
probably August 30,
17.
to
speaking area since
Einstein to Mileva Marie, Zu-
CPI, Doc.
1900,
Mi-
tation as editor, the journal continued
rich,
lan,
CPI,
Mileva Marie, Zu-
rich,
16.
26,
journal was edited by Paul Drude,
13. Einstein to
lan,
1900,
Mileva Marie, Zu-
Doc.
Doc.
9,
Seelig (1960), p. 48.
probably August
lan,
24. Einstein
the
rich,
15.
Einstein to Adolf Hurwitz,
September
mann
253.
12. Einstein to
14.
1900,
13,
Mileva Marie, Zu-
probably August
Doc. 71,
Mi-
75, p. 260.
10. Einstein to rich,
.
77, p., 263.
25. Einstein to Mileva Marie,
Seelig (1960), p. 61.
CPI, Doc.
Hurwitz,
81, p. 268.
73, p. 255.
8.
lan,
Adolf
to
78, p. 264.
probably August 20,
Doc.
CPI,
1900,
Milan, probably September 23, 1900,
Einstein to Mileva Marie,
7.
3,
79, p. 266.
22. Einstein
Einstein to Mileva Marie, Zu-
6.
Mileva Marie, Mi-
probably October
CPI, Doc.
70, p. 251.
1900,
19,
76, p. 261.
21. Einstein to
Marie.
Mileva Marie, Mi-
probably September
lan,
lan,
CPI,
1900,
9,
71, p. 253.
Doc.
253.
lan,
Doc.
CPI, Doc.
69, pp. 250f.
probably August
rich,
1900,
1,
Zurich, probably August
Einstein to Mileva Marie. Zu-
4.
p.
Physik,
751
to
mann, Milan, April Doc. 100, p. 290.
Marcel 14,
Gross-
1901, CPI,
Notes
752
See also A.
30. Ibid., pp. 290f.
Humboldt,
Kosmos
Vol.
“The most important
sult
1, p. 6:
Berlin
,
v.
(1845),
this:
in the multiplicity to
remembering mission of Man, to com-
recognize the unity the exalted
prehend the
.
.
cover
the
lies
33.
p.
1901,
28,
CPI,
CPI, Doc.
Johannes
to 7,
1907,
in
Stark,
47.
The
14,
Mileva Marie to Helene
36. Einstein to 9,
Savic,
Otto Wiener, Zu-
1901,
CPI, Doc.
25,
was
few days before
a
date of publication), and Riecke’s
Milan on March CPI, Doc. 93 and
48. Einstein to Heinrich Zangger,
summer
May 24,
died in Zurich on 49. Einstein
Einstein,
1912;
undated in Briefe,
1912.
Alaja
Winteler-
1918,
published
to
Berlin,
Weber had
p. 16.
50. Einstein
to
Mileva
Marie,
Milan, probably March 27, 1901, CPI,
277.
Wilhelm Ostwald, Zurich, March 19, 1901, CPI, Doc.
Doc. 93,
92, p.278.
bly Milan, April 4, 1901,
Wilhelm Ostwald, 1901, CPI, Doc. 95,
38. Einstein to
Milan, April
3,
284, enclosing his address. 39.
No.
94, pp. 279ff.
90,
37. Einstein to
p.
CPI,
1901,
advertisement appeared in
presumably available its
Gross-
23, 1901 (though the issue
undated,
March
Marcel
to
mann, Milan, April Doc. 100, p. 290.
Stark,
nee Kaufler, Zurich, December 20, 1900, CPI, Doc. 85, p. 273.
p.
46. Einstein
27, 1901. See also
132, p. 331.
272.
rich,
281.
p.
rejection arrived in
321.
December
35.
Doc. 94,
March
Mileva Marie, Schaff-
November
34. Einstein
Bern,
probably March 27,
lan,
,
32. Einstein to
p.
Mi1901, CPI,
Physikalische Zeitschrift Vol. 2,
31. Einstein 1902b.
Doc. 126,
279.
p.
45. Einstein to Mileva Marie,
of the
phenomena.”
hausen,
Doc. 93,
.
of nature that
spirit
under
concealed
is
probably March 23, 1901,
lan,
re-
of profound physical research
therefore
MiCPI,
44. Einstein to Mileva Marie,
29. Ibid.
Hermann
Doc. 99, p. 289. 40. Ostwald
Nobel Prize
had
Wilhelm 1901, CPI,
received
for chemistry in 1909
the
prize for chemistry and physics. 41. Pais, p. 506.
Heike Kamerlingh
Doc. 98,
p.
12,
1901, CPI,
CPI, Doc.
April
to
Mileva
1901,
15,
Marie,
CPI, Doc.
101, p. 292. 53. Einstein
to
mann, Milan, April Doc. 100, p. 290. 54. Einstein to lan, April p.
15,
Marcel 14,
Gross-
1901, CPI,
Mileva Marie, Mi-
1901,
CPI, Doc.
101,
291. 55. Einstein to Carl Seelig, Prince-
March
26,
letter Einstein
1952,
ETH.
In this
mistakenly referred to
“nine years” of statelessness instead of the actual five years.
288.
43. Einstein to Professor Paalzow,
Milan, April 12, 1901, in
Einstein to Mileva Marie, proba-
52. Einstein
ton,
Onnes, Milan, April
.
96, p. 285.
and
was therefore, according to the rules, entitled to propose recipients for the
42. Einstein to
1
Milan,
Einstein to
Ostwald, Milan, April 13,
5
280.
p.
MPG.
56.
Maja Winteler-Einstein,
trag typescript, p. 20. ,
Bei-
753
Notes
On
57.
ing
the procedure for acquir-
Note,
Editorial
and the relevant
239ff.,
pp.
CPI:
see
citizenship,
documents.
was by Philipp Lenard, Erzeugung von Licht, in
ultraviolettes
Annalen der Physik 1900, pp. ,
359-75.
Zurich Municipal Police De-
58.
durch
Kathodenstrahlen
V
tective’s report,
District, of July 4,
1900, CPI, Doc. 66,
to
Mileva
Winterthur, probably June
CPI, Doc.
246.
p.
73. Einstein
Marie, 1901,
4,
112, p. 306.
Minutes of the “Civic Section” of the Zurich City Council of Decem-
74. Einstein to Jost Winteler,
Win-
terthur, probably July 8, 1901,
CPI,
ber 14, 1900, CPI, p.272.
Doc.
59.
Pathe Journal London, Libr.
60.
No.
76. Ibid.
77. See also
61. Questionnaire for Civic Rights
Applicants of the City of Zurich,
com-
1900, CPI, Doc. 82, p.269.
Report of the Swiss Informa-
tion Bureau, Zurich, January 30, 1901,
CPI, Doc.
CPI, Doc.
91,
on June 2, 1931, by the League of Opponents of War, signed by, among others, Einreproduced in part
in Frieden
,
p. 154.
from Einstein to a Swiss conscientious objector of August 15, 66. Letter
1931, in Frieden
,
to
ETH.
68. Einstein on His Theory
Times (London),
November
69. Einstein
,
p.
to
CPI, Doc.
Doc.
1
81
.
Marie,
nee Kaufler, Zurich, undated, proba1901,
CPI, Doc.
CPI,
Einstein to Jost Winteler,
Win-
14, p. 308.
to
Mileva
Winterthur, probably
May
28,
Marie. 1901,
26, 1901,
the
“wonderful
paper”
CPI,
ETH. to
Marcel
Gross-
mann, Winterthur, probably September 6, 1901, CPI, Doc. 122, p. 315. 84. Seelig, p. 84. 85. Einstein
Schaffhausen,
CPI, Doc.
to
87.
12,
Marie, 1901,
127, p. 323.
hausen, probably
CPI, Doc.
Mileva
December
Mileva Marie, Schaff-
November
28, 1901,
126, p. 321.
Mileva Marie to Helene Sa-
Neusatz, early December 1901,
CPI, Doc.
125, p. 320.
88. Einstein to
hausen, probably
Ill, p. 304.
1901,
Doc. 115, p. 310. 82. Records of Section VIA, July
vic,
71. Einstein
1901,
4,
1901,
terthur, probably July 8,
109,
302.
Marie,
Mileva Marie, Win-
terthur, probably July 7,
The
Mileva Marie to Elelene Savic
72. Ibid.;
Mileva
112, p. 306.
86. Einstein to
CPI, Doc.
Gross-
315.
292.
mid-May
Marcel
mann, Winterthur, probably September 6, 1901, CPI, Doc. 122,
28, 1919.
Mileva
to
in
Milan, April 15, 1901, CPI, Doc. 101,
bly
to
83. Einstein
Gustav Wissler,
Princeton, August 24, 1949,
p.
78. Einstein
p. 160.
67. Einstein
70.
and 120.
80. Einstein to
278. 65. Declaration released
p.
113, 117,
Winterthur, probably June
64. Service Book,
stein;
CPI, Doc.
79. Einstein
88, p. 275.
63. Ibid.
p.
118,
toward the end of October
62.
15, p. 310.
75. Ibid.
UN 142, 1/1932.
pleted
1
CPl,p. 322.
Mileva Marie, Schaff-
November
28, 1901,
Notes
754 89. Einstein
December
Schaffhausen,
CPI, Doc.
Marie,
Mileva
to
1901,
28,
131, p. 330.
p.
November
CPI, Doc. 91
.
109. Ibid., p. 20. 110. Einstein
126, p. 322.
December
hausen, probably
CPI, Doc.,
17, 1901,
Doc. 94,
to
Victor
Adler, Zurich, June 19, 1908, in Julius
Braunthal,
Victor
(Vienna, 1965),
und
Schaffhausen, probably 1901, CPI, Doc. 128,
282.
p.
December
17,
To
1.
Mileva Marie, Bern, proba-
bly February 4, 1902,
326.
CPI,
3.
Anzeiger fur
February
1,
1902,
Doc. 132, p. 331. 95. Mileva Marie to Helene early
1901, CPI, Doc. 125,
p.
ruary Savic,
4.
December
5.
319.
6.
96. Ibid., p. 320. 97. Einstein
7.
Mileva
to
Schaffhausen, probably
Marie,
December
12,
1901, CPI, Doc. 127, p. 322.
99. Schweizerisches Bundesblatt (Swiss
No. 50 of December
11, 1901, p. 1265.
to
Mileva
Marie,
Bern, mid-February 1902, CPI, Doc.
CPI, Doc.
129, p. 327.
102. Ibid.
103. Einstein
Schaffhausen,
to
Mileva
December
19,
Marie, 1901,
130, p. 328.
104. Ibid. 105. Einstein
Schaffhausen,
CPI, Doc.
to
Mileva
December
28,
Marie, 1901,
131, p. 329.
106. Einstein to
Bern, February 133, p. 331.
,
Fluckiger, pp. 11, 12.
To Mileva Marie (see n. 1). To Mileva Marie (see n. 1). To Mileva Marie, Bern, probaPauline
CPI,
Einstein
p.
335.
Pauline
to
CPl,p. 336. 9. Talmey, 10.
pp. 166f.
To Mileva Marie, 8,
1902,
Bern, proba-
CPI,
p.
334.
11. Ibid. 12.
Maurice Solovine,
in Solovine,
p.v.
137, p. 336.
CPI, Doc.
332.
Bern Feb-
die Stadt
bly February 17, 1902, 8.
p.
1902.
bly February
100. Einstein
101.
5,
CPI,
Winteler, Milan, February 20, [1902,]
98. Ibid.
official gazette),
17,
Expert HI Class
Ibid.
probably
December
Marie,
2.
Neusatz,
Marie,
1901, CPI, Doc. 128, p. 325.
94. Receipt of the university chancellery dated
Mileva
to
Schaffhausen, probably
6.
Mileva
to
Marie,
Friedrich Adler
p. 196.
93. Einstein
p.
111. Einstein
Adler
Mileva
to
Milan, probably March 27, 1901, CPI,
128, p. 326.
92. Friedrich
286. 108. Autobiographisches, p. 19.
28, 1901,
Einstein to Mileva Marie, Schaff-
Mileva Marie,
to
Milan, probably April 10, 1901, CPI,
90. Einstein to Mileva Marie, Schaff-
hausen, probably
Einstein
107.
4,
Conrad Habicht, 1902, CPI, Doc.
13.
Ibid., p. VII.
14.
To
March
6,
M.
Princeton,
Besso,
1972, in Besso,
p.
464.
To C. Seelig, Princeton, April 20, 1952, ETH. 16. To Pauline Winteler, Zurich, May 1897, CPI, p. 56. 17. To C. Seelig, Princeton, April 15.
20, 1952. 18. Einstein
1902a
(
Uber
die ther-
modynamische Theorie der Potentialdifferenz zwischen Metallen
und
vollstandig
755
Notes Losungen ihrer Salze und
dissoziie?~ten
Methode zur Erforder Molecularkrafte [On the
liber eine elektrische
schung
Thermodynamic Theory of
the Potential
pletely Dissociated Solutions of Their Salts
Method for Investigating Molecular Forces], AdP, 8, 1902, and on an
Electrical
36.
19. Ibid., p. 814.
To J.
December
Stark, Bern,
1907, in Stark,
7,
267.
p.
37.
39.
41.
and Police Department
“Expert
according to the career ranks
To
To
42.
2,
as
5,
To
44.
To
p.
and
does not therefore suggest any “reduc-
Mileva Marie, Winterthur,
May
1901,
CPI, Doc.
ton,
Frau Grossmann, Prince-
September 26, 1936.
25.
To Hans Wohlwend,
Bern,
iger collection,
Der Bund March ,
excerpt published in 2,
12,
Schaff-
1901,
45.
To M.
Besso, Bern, January 22, p. 3.
46. Einstein 1902b. 47. Einstein 1903. 7.
To M.
Grossmann, WinterSeptember 6, 1901, CPI, p. 315.
49.
50. Einstein 1902b, p. 417. 51.
W.
Voigt, Ludwig Boltzmann
obituary in PhZ, Vol.
7,
1906,
p.
To Conrad
Habicht,
1905, in Seelig,
p.
Bern,
of energy and the Liouville theorem;
53. Einstein. 1902b, p. 433.
29. Ibid.
54.
Michele
Besso,
Berlin,
12, 1919, in Besso, p. 148.
55.
56.
33. Ibid., p. 58.
57.
34. Friedrich Haller to the Federal
Bern,
January
27,
1906;
Patent Office, Bern. 35.
Besso, Bern, January 22,
Negative judgment on patent
To M.
3.
March
17,
Max Born in Schilpp, p. 85. To M. Besso, Berlin, June
23,
1903, in Besso,
32. Fliickiger, p. 57.
Council,
To M.
1903, in Besso, p.
30. Ibid.
December
49.
see Einstein 1902b, p. 427.
126.
,
To
,
had managed
28. Skizze p. 12.
31.
CPI,
solely with the law of the preservation
26. Ibid.
Summer
December
Marie,
52. Einstein in fact
1985.
May
324.
thur,
beginning of September 1902, Fliick-
27.
Mileva
48. Autobio graph isches, p.
110, p. 304.
To
C. Seelig, Princeton,
1903, in Besso,
tion in rank.”
Bei-
43. Sayen, p. 70.
at the
in the advertisement,
second half of
Milan,
Marie,
1952.
mentioned
24.
Mileva
Maja Winteler-Einstein,
hausen,
To
227.
p.
23, 1901,
time, to that of “Engineer II Class,”
23.
CPI, p. 336. Emile Meyerson, Berlin,
trag, p. 23.
corresponded,
Class”
III
June
His grading
338.
p.
Bern, proba-
p. 47.
to the Federal Council, Bern,
CPI,
1907, Pa-
CPI, p. 281. 40. Private communication from Helen Dukas to Abraham Pais, in Pais,
,
1902,
To Mileva Mane,
January 27, 1930. 38. Moszkowski,
21. Skizze p. 12. 22. Justice
11,
bly February 17, 1902,
March
pp. 798-814).
December
tent Office, Bern.
Between Metals and Com-
Difference
20.
application,
1918, in Besso,
Besso, Bern, p. 14.
p. 126.
58. Einstein 1916b, p. 481. 59. Hertz,
Grundlagen
Uber
der
die
mechanischen
Thermodynam ik
in
756
Notes
AdP, Vol.
1910, pp. 225-74 and
33,
pp. 537-52.
Comment
Sauter,
j’appris a
,
August
63. Ibid.
To M.
Besso, Princeton, July
This may be deduced from the
81. letter
of the Justice and Police Depart-
ment
to the Federal Council, repre-
senting Einstein’s development at the
Patent Office. Federal archives, Bern.
13, 1953, in Besso, p. 471.
Paul Gruner, see Fliick-
To Vero
82.
Princeton,
iger, pp. 72 ff.
Reglement
66.
10, 1904. Federal archives, Bern.
6,
1955, in Fliickiger, pp. 154ff.
On
iiber die Habilita-
p.
and
March
der Hochschule Bern von 1891.
84.
Besso, January 22, 1903,
in Besso, p. 4.
To M.
68.
Besso,
March
71.
p.
am
of
zu Bern State and Univer-
88. Ibid., p. 362.
,
p.
F.
Baltzer,
Princeton,
,
Marie, 17,
Schaff-
90.
CPI,
1901,
92.
Mileva Marie to Einstein, Stein
November
13, 1901,
CPI,
CP2,
p.
332.
91. Ibid., p. 317.
May
To Conrad
Habicht, end of
or beginning of June 1905, in
Seelig, pp. 124f.
317.
93. Autobiograph isches p. 12. ,
73.
To
Mileva
Einstein-Marie,
Bern, end of August 1903.
To C. Seelig, 1952, ETH. 74.
5,
Reviews for the Beibldtter zu den Annalen
derPhysik CP2, pp. 109-111.
Alileva
December
Editorial Note, Einstein’s
89. See
1936.
Rhein,
Seelig,
1904,
86. Einstein 1904, p. 360.
325. 72.
in
3,
87. Ibid., p. 361.
To
hausen,
Bern,
Naturforschende
To
December
Grossmann,
85. Einstein 1911c, p. 175.
22, 1903,
sity Fibrary, Bern.
70.
M.
p. 101.
Minutes
Gesellschaft
To
probably April
in ibid., p. 14. 69.
Besso,
538. 83. Seelig, p. 120.
To M.
Bice
21, 1955, in Besso,
tion an der philosophischen Fakultat
67.
March
to the Federal Council, Bern,
connaitre Einstein broadcast,
65.
and Police Department
80. Justice
61. Ibid.
64.
Bern,
Habicht,
April 14, 1904, in Seelig, p. 100.
60. Einstein 1911c, p. 175.
62. J.
To Conrad
79.
Princeton,
May
75. Ibid.
March 78.
had
"Herr Doktor Einstein"
and the Reality of Atoms 1.
76. Solovine, p. XII. 77.
7.
To
Mileva
Marie,
27,
1901, CPI,
p. 282.
Tony
Cawkell
Milan,
Science by Citation Analysis in Einstein: ,
The
theory that Mileva Marie
The
First
Hundred Years (London,
1980), p. 32. 2.
Einstein 1905a.
work was propagated by Desunka Trbuhovic-Gjuvic, Im Schatten Albert Einsteins. However, it rests on unprovable speculations; see n. 30 to Chap-
3.
Einstein 1905b.
4.
Examples
5.
E.g., Clark, p. 86.
6.
The
ter 4.
Eugene
Garfield, Assessing Einstein’s Impact on
significant share in Einstein’s
a
and
in n.
1,
above.
entry for Einstein in the
Dictionary of Scientific Biography does
Notes not mention the dissertation
at
all;
757
ably referring to the publication of his
neither does Born in his article in
dissertation,
Schilpp; nor do the contributions to
addendum
symposia
Einstein
the
Abraham
of
shortcoming: Pais, pp. 88ff. 7. To M. Besso, Bern, January 22,
this
1903, in Besso,
p. 4.
Sauter, Erinnerungen 1955, in
8. J.
Maja
Winteler-Einstein,
Bei-
Kleiner,
10. A.
degree expertise,
Zurich, July 24, 1905,
24, 1905,
July 24,
10 23 Using values from the
1905
new
edition of the data compila-
tion
by Landolt and Bornstein he
.
X
STZ
1905,
Burkhardt,
(underlining by
Ludwig Boltzmann’s inaugural lecture on natural philosophy, December 11, 1903, in Boltz-
L. Boltzmann, Vorlesungen zur
Part
Gastheorie,
(Leipzig,
II
u
1898),
referred to
Nekrolog, 17.
“
” his
To M.
18.
by Einstein
Obituary
as
his
” .
Besso, Bern,
1903, in Besso,
18, jocu-
p.
,
March
17,
p.
26.
ground of
To Ludwig
the
returned
to
him
by
Kleiner with the observation that short. After
single sentence
he had inserted
was
tacitly
There
it
a
accepted”
no support version. Einstein was presum-
(Seelig, p.
for this
it
112).
p. 180.
Hopf,
Zurich,
1911.
On
the Brownian
movement,
Bye, Molecular Reality
New
York, 1972) and the
very interesting book by Jean
still
Perrin, Les Atomes (Paris, 1913).
the
shortcomings
resulted because, before Einstein,
it
was believed that the velocity of the particles
could
however,
is
back-
stein later related that his dissertation
was too
of
be
measured.
This,
not possible; instead, one
29. Ibid., p. 560.
a
initially
Determination
the
28. Einstein 1905b, p. 549.
well-known but scarcely plausible anecdote: “Laughing, Ein-
was
on
Mary Jo
see
289.
probably
is
considered
measures their mean displacement.
p. 14.
Einstein 1906a,
This
592).
25. Einstein 1905b, p. 549.
19. Einstein 1906a, p. 305.
20.
is
p.
detail, see Einstein's
27. Essentially,
16. Autobiograph isches
10 23
24. Einstein 191 Id.
VI.
larly
For more
(London,
1979). 15.
1911a,
Molecular Dimensions, CP2,
From
Schriften (Braunschweig,
a
became N=6.56
December 1910-January
,
mann, Populare
(Einstein
Dissertation
23.
13. Antobiographisches p. 19.
p.
10 23
22.
by 'H.
X
the “best” value.
Burkhardt).
14.
.
10 23 In 1911, following correction of
STZ.
12. Expertise
obtained
N=2A X
Nowadays 6.022 X
STZ.
Expertise by A. Kleiner, July
11.
had
Einstein
dissertation
calculation error, this
trag, p. 23.
a
21. Einstein 1906a, pp. 305f. In his
obtained, in his appendix, IV=4.15
Fliickiger, p. 158. 9.
than
longer
rather
is
subsequent
his
single sentence.
remedied
eventually
Pais
1979.
though
is
30. p.
371.
See introduction, Einstein 1906b,
The
respondence
Einstein-Siedentopf coris lost.
31. Einstein 1906b. 32.
According to notes by Hein-
Zangger from the 1950s, this meeting took place in 1905 or 1906 rich
(CP2, Zeit
p.
217; the account in Helle
—Dunkle
that
Zeit, p. 42, to the effect
Zangger and Einstein had known
Notes
758
each other since 1902 does not seem 33. Einstein 1907c.
To
vember
Jean Perrin, Zurich
No-
1
No.
Minutes
Natur-
1038,
39. Einstein 1906b, p. 343.
March A.
to
Einstein,
18, 1906.
Planck to the Prussian
Ministry of Education,
8.
October
7,
1899,
CPI,
Mileva
To
10, 1901,
17.
To Conrad Habicht, Bern, end of May or beginning of June 1905, in Seelig, pp. 124f.
Mileva Alaric, Milan, April
CPI, p.287.
stetten,
CPI,
To
p.
219.
Mileva Marie, Mettmen-
probably August
Einstein 1905a.
3.
E.g.,
22. Einstein 1905a, p. 132.
the Introduction
23. Ibid., p. 133.
Critique ofJudgment, first version, sec-
24. Ibid., p. 136.
in Critique of
to
Judgment,
§78, A.
25. Ibid.,
p.
143.
Actually,
what
Einstein wrote was not hv, but Rfiv/N,
Planck to Robert Williams
Wood, October 5.
1899,
CPI, p.227.
the
Max
10,
21. Ibid., p. 229.
2.
4.
4,
Ibid,p. 17.
28, 1899,
1.
and
April
16. Autobiovraphisches, pp. 16f.
20.
II;
Marie,
18.
Light Quanta
tion
216.
p.
To Mileva Marie, Winterthur, end of May 1901, CPI, p. 304. 19. To Julia Niggli, Zurich, July
p. 100.
The "Very Revolutionary"
in
Wissenschaftliche Selbst-
CPI, p.284.
15.
43. Einstein 1915a (1925), p. 291.
1913, in Berlin,
11, 1931.
Mileva Marie, Milan, mid-
To
14.
1901,
42. Einstein 1905b, p. 549.
Max
To
13.
40. Einstein 1908a.
Rontgen Munich, September
Robert
to
Wood, October
Williams
in
biographie (n. 6 above), p. 29.
38. Einstein 1908c.
41. C.
im Normalspektrum
Planck
.
Theorie der
1900, pp. 237-45.
2,
12. Planck,
forschende Gesellsch aft Bern, 1907.
Zur
Planck,
VhDPG, Pt. 1 Max
36. Ibid.
44.
Max
10.
Energieverteilung
11, 1911.
1931.
7,
Ibid.
9.
35. Ibid.
37.
Planck to Robert Williams
Wood, October
to be correct).
34.
Max
8.
7,
1931.
with
R
being the gas constant and
N
number, R/N=k and (5—h/k. However, hv is the form that later became customary and will be the Avogadro
Gustav Kirchhoff, Uber das Ver-
hdltnis zwischen den Emissionsvermogen
und den Absorptionsvemiogen, in Poggendorfs Annalen der Physik und
use of hv will not be perceived as a vio-
Chemie, Vol. 160, 1860,
lation of historical accuracy.
6.
Max
Planck,
Selbstbiograph ie
p.
292.
Wissenschaftliche
(Leipzig,
1948),
pp.
22f. 7.
many
familiar to
readers. I
hope
my
26. Pais, p. 387.
27. Einstein 1906c, p. 199. 28. Ibid.
Friedrich Paschen to Heinrich
Kayser, February
8,
1898, in
Darmstadter collection.
STPK,
29. Ibid., p. 202. 30.
No
details
have come
down
to
us on the history of publication of Ein-
— Notes But
early papers.
stein’s
it
was
just
759
negative r Elektronen,
under three months from receipt of
Radioaktivitdt
the paper to the date of publication
1909, pp. 425-84.
a
than
longer
little
entirely within the
em
to Albert Ein-
June 2, 1906. Planck to Albert Einstein,
stein, Berlin,
Max
32.
Berlin-Grunewald, July is
the
first
6,
Their
than the
earlier letters
—
have not survived. 33.
Max
Berlin, July 10, 1909. Ltfrentz’s letters
been
Planck
tation,
lost; in this
confirms
quo-
Lorentz’s
34.
Nomination
for the acceptance
member of the Academy of Sciences
of Albert Einstein as
Royal Prussian
a
June 12, 1913, signed by Planck, Nernst, Rubens, and War-
in Berlin, Berlin,
burg,
handwriting;
Planck’s
in
in
NW, stein’s
Max Vol.
Planck
Forscher
als
remark here
refers to the
function /(/jl/T), which
is
,
Wien
equivalent to
Kirchhoff function, although
the
additionally
depends
in
1077f. Ein-
1913, pp.
1,
on
a
it
variable
36.
To
November ,
Lenard,
Philipp
16, 1905, cited in A.
and C.
Einstein p.
PhZ,
Vol.
pp.
1916,
17,
41. Einstein 1909c, p. 188. 42. Einstein 191 p.
German
li,
1914,
359.
A
43.
good heat”
approximation
C
is
=
for
6 cal/mol
X
degree.
44. Cited in Dictionary of Scientific
Biography Dulong. ,
According to the equal
45.
theorem
mean
the
distri-
kinetic
energy per degree of freedom
WzkT;
is
means 3/2NkT per mol, and with an equal amount for the for a crystal this
potential energy a total of l>Nkt 3 RT,
hence
C = 3R —
6 cal/mol
= X
degree.
March
To
Mileva
23, 1901,
Milan,
Marie,
CPI,
p.
279.
47. Einstein 1907a. 48.
This
is
the
function
delta
introduced into quantum mechanics
by Dirac. Einstein uses function on
p.
a
form of
that
183 of Einstein 1907a.
49. Einstein 1907a, pp. 183f.
/jl/T.
ert
Ef-
40. Ibid., p. 221.
46.
Berlin, p. 96. 35.
photoelektrischen
217-21.
bution
opinion.
Quantenbezie-
beim
“specific
Planck to H. A. Lorentz,
to Planck have
A. Millikan,
in
fekt,
ex-
summer of 1906, but like many later ones
Review of Mod-
,
hungen
change of ideas in writing began no later
6,
Physics Vol. 21, 1949, p. 343. 39. R.
extant letter of the Einstein-
correspondence.
Planck
1907; this
der
Elektronik, Vol.
38. R. A. Millikan,
still
normal range.
Max von Laue
31.
but
usual
und
in Jahrbuch
in
319. This
Bern, Klein-
Schonbeck, Lenard und Gesnerus is
,
Vol. 35,
1978,
the only extant letter
from what presumably was not a very voluminous correspondence. 37. Rudolf Ladenburg, Die neueren Forschungen
iiber die
durch Licht- und
Rontgenstrahlen hervorgerufene Emission
50.
AdP,
22, 1907, p. 800.
51. Einstein 1907a, p. 188. 52. Ibid. 53. iiber
W.
die
Untersuchungen
Nernst,
spezifische
Wdrme
Temperaturen, in SB,
bei
tiefen
1911, pp. 306-
315. 54.
March
W. 17,
Nernst 1910.
to
A.
Original
archive of the Royal Society,
Schuster, in
the
London,
Notes
760
MPG,
Schuster papers; copy
Kangro
1886) and Das Inertialsystem vor
zig,
dem Forum der Naturforschung (Leip-
collection.
zig, 1902).
9. Relative
Life for
Kyoto
1.
Seven Years’*
1922, in Physics Today
The
1982.
based on
,
14,
August
p. 46,
following account
is
3.
Joseph
Comment
j’ai
95 1 in Seelig, ,
Kyoto
lecture (n.
p.
1 1
March
See also the
4.
Now
and again
refer to “relativity theory” in con-
when
texts
R.
6.
this
S.
exist.
Shankland, Conversations
Albert
with
term did not yet
Einstein
,
American
in
Science et
refers to Lizeau’s
experiment
The
18.
physics
A
1).
Einstein 1905d.
5. I
C. Seelig, Princeton,
La
Poincare’s
Werke, Vol.
To
in
1902).
(Paris,
Heinrich
17.
,
p. 156.
,
of 1851.
appris a connaitre Einstein in Fliickiger,
1
Henri Poincare
16.
Vhypothese
Sauter,
der
Sitzungsherichte
Abt.IIa., 1909, p. 382.
remark
Ibid.
by
1909
in
Akademie der Wissenschaften zu Wien
partly
this text.
2.
4.
Lrank:
Philipp
December
lecture,
“Galileo transforma-
was introduced
tions”
“My
11,
The term
15.
Movement:
1
Gesammelte
Hertz,
(Leipzig, 1895), p. 339.
account of ether
fullest
is still
Edmund
in
Whittaker,
History of the Theories of Aether and
Electricity
2 -vol.
also
(London,
(London,
edition
Max
See
1953).
Born, Die Relativitdtstheorie
Einsteins (1st ed., 1920; Einstein’s
enlarged
1910);
Theory
new
ed., 1969).
of Relativity
(New
Journal of Physics, Vol. 31, 1963, p. 56. 7. See the opening of the Kyoto
York, 1962).
lecture.
299,792,458 meters per second. Lately
Galileo Galilei, Dialogo, Gior-
8.
nata seconda, 1632, p. 212. Ibid.,
9.
p.
The velocity
19.
this value
213; Galileo’s text of
With
has been laid
and
nition
brackets, equivalent to the determina-
meter
il
moto
sia
uniforme
tuante in qua e in 10. Isaac
non
flut-
la.”
Newton,
uralis principia
e
12.
Philosophiae nat-
mathematica (London,
nunft
,
13.
B
Kant, Kritik der reinen VerKant, Metaphysische Anfangs-
griinde der Naturwissenschaften, A, p. 14.
The term
is
now a
20. Albert
by atomic
clocks, the
derived unit.
Abraham
Michelson,
Light Waves and Their Uses (Chicago,
2
1
.
Spate Jahre, p. 228.
According to Lorentz’s own account in Electromagnetic Phenomena 22.
in Proceedings of the
40.
I.
defi-
,
Ibid. I.
down by
1907), p. 159.
1687), Corollary V. 11.
given as
defined time standard, accu-
a
rately realizable
che
is
no longer measured.
is
the crucial restriction, placed between
tion of an inertial system, runs: “pur
of light
“inertial
1.
system” was
Academy of Science
Amsterdam Vol. 6, 1904, p. 810. 23. Henri Poincare, La Theorie
,
,
Lorentz
et le principe de
Johannes travaux
Bosscha
offerts
par
la
(ed.), les
de
reaction in
Recueil
de
auteurs a H. A.
introduced by Ludwig Lange in 1885.
Lorentz (The Hague, 1900). Poincare’s
See Lange’s papers Die
contribution, pp. 252-78; the synchronization method is described on p. 272.
geschichtliche
Entwicklung des Bewegungsbegriffs (Leip-
,
,
,
Notes Henri Poincare, UEtat
24.
Vavenir de
actuel et
physique mathematique in
la
Bulletin des sciences mathematiques Vol.
German
28, 1904, pp. 302-24.
tion in Physikalische Blatter
transla-
Vol. 15,
,
196 of the
p.
March
German
p.
Dyna-
la
An
Vol. 140, 1905, pp. 1504-1508.
Matematico
Palermo
di
ex-
,
a
somewhat out of the
way, but often chosen for
this topic:
Rendiconti Vol. 21, 1906, pp. 129-175. ,
The
Zur Elektrodynamik
paper,
bewegter Korper
does have four foot-
,
more There are no
notes, but these simply provide
precision than the text. bibliographical citations. 29. Schilpp, p. 30.
December
To
p.
Marie,
Schaff-
CPI,
1901,
17,
Marie,
Schaff-
CPI,
1901,
19,
328.
To
44.
Mileva
December
hausen, p.
Mileva
December
hausen,
Marie,
Schaff-
CPI,
1901,
28,
330. 45. Ibid.
To M.
46.
1903, in Besso,
To
47.
Besso,
Bern, January
p. 4.
Mileva Marie, Mettmen-
August
stetten,
CPI,
10, 1899,
p.
227.
48. Solovine, p. VIII.
Henri Poincare, La
49.
Science et
Vhypothese.
1.
Cohen, An Interview with
B.
I.
Mileva
325.
43.
tensive version appeared in Rendiconti
28.
To
42. Ibid.
mique de Velectron in Comptes rendus
journal that was
316.
hausen, p.
Henri Poincare, Sur
Circolo
Milan,
Marie,
CPI, p. 282. 40. To M. Grossmann, Winterthur, early September 1901, CPI,
26. Ibid., pp. 199f.
del
Mileva
27, 1901,
41.
translation.
27.
To
39.
1959, pp. 145-49 and pp. 193-201. 25. Ibid.,
761
Joseph Sauter, Zur Interpreta-
50.
MaxwelPschen Gleichungen
Einstein in Scientific American, Vol. 93,
tion der
July 1955, pp. 69-73.
elektromagnetischen Feldes in ruhenden
,
In Schilpp, p. 20.
3 1.
isotropen
33. R. S. Shankland, Conversations
Albert
Einstein,
American
in
Journal of Physics, Vol. 31, 1963,
p. 48.
34. In Schilpp, p. 6.
35. stetten,
CPI, theory ether
To
Mileva Marie, Mettmen225.
used
Heinrich
the
participating
1899,
10,
Hertz’s
concept in
the
of
an
motion
stetten, p.
To
Mileva Marie, Mettmen-
September
10,
1899,
CPI,
230. 37. See the
1
1901,
Sauter,
Comment Jai
appris a connaitre Einstein, in Fliickiger, p. 154.
To
February
Carl
Princeton,
Seelig,
19, 1955.
53. Ibid. 54.
To
J.
Stark, Bern,
September
25, 1907, in Stark, p.269. 55.
That Einstein was
certainly
able to use the City Eibrary emerges
of matter. 36.
Joseph
51.
52.
probably August p.
6,
pp. 331-38.
32. Ibid.
with
Medien, in AdP, Vol.
des
from
lecture, Einstein
922 j; also Reiser, p. 52. 38. To Mileva Marie, Milan, Sep-
tember 28, 1899, CPI, 233.
Gruner of February
11, 1908; Fliickiger, p. 117.
56.
Kyoto
a letter to
Max Abraham,
Dynamik
des Elektrons, in
Prinzipien der
AdP, Vol.
10,
1903, pp. 105-179. 57.
A4ax Abraham, Zur Theorie der
Strahlung und des Strahlungsdrucks, in
762
Notes
AdP, Vol.
14, 1904, pp.
of his paper on
236-87. In §8
relativity,
Einstein cal-
on
culated the radiation pressure
was
“in
The
that
Einstein’s.
who had
of Abraham,
obtained
the
same
in
fact
by other
result
methods.
Wien,
Differential-
gleichungen der Elektrodynam ik fur be-
wegte Kd'rper, in AdP, Vol. 13, 1904, pp. 641-62; Part
II,
pp. 663-68.
Wilhelm Wien, Enviderung auf Kritik des Hm. Abraham in AdP, ,
Vol. 14, 1904, pp. 635-37.
Emil Cohn, Uber
60.
Gleich-
die
AdP, Vol.
bewegte Kd'rper, in
7,
1904,
pp. 29-56.
To
70.
September
Walter Kaufmann, Die elektromagnetische Masse des Elektrons, in PhZ, 1902, pp. 54-57.
published
siones,
75.
2-069,
further
Kaufmann
papers
on
this
W. Wien,
Differentialgleichun-
der
Elektrodynamik fur Korper, in AdP, Vol. 13, 1904,
To
Robert
W.
bewegte
ment of
662.
Lawson, Berlin,
Theory
of Relativity,
in
Nature, Vol. 106, February 17, 1921, pp. 782-84.
The original is in the Pierpont Morgan Library in New York; a copy in
EA under file ref.
66. Frank, p. 38,
Mathe-
Unpublished manuscript: article
draft
from the 1920s,
EA
p. 1.
Mach, Die Mechanik
ihrer Entwicklung,
Chapter
in
2.6.2.
Henri Poincare, La
Science et
Vhypothese. 78.
Henri Poincare, La Mesure du
temps, in Revue de metaphysique et de
morale, Vol. 6, January 1898, pp. 1-13;
79.
La Valeur
de la science (Paris,
Henri Poincare, La Mesure du
temps. 80.
Henri Poincare, LEtat
Pavenir de
la
actuel et
physique mathematique,
81. Einstein 1907h.
82. Ibid., p. 413. 83. Draft for Nature, January 1920,
footnote on
65.
is
Principia
lecture in St. Louis, 1904.
Brief Outline of the Developthe
Confes-
/
p.
January 22, 1920.
A
Augustinus,
Newton,
76. Ernst
1905).
64.
13, 1932.
matica.
Gottinger Nachrichten.
63.
Prague,
Ehrenfest,
Lib. 11.
also in
gen
is
Erika Oppenheim, Berlin,
73. Aurelius
subject in other journals, notably in
62.
emphasis
72. Ibid., p. 20.
77.
61.
4,
article,
April 25, 1912.
of a popular
ungen des elektromagnetischen Feldes fur
Vol.
1920;
Paul
74. Isaac
59. die
To
69.
478.
Nature
of the
of
p.
71. In Schilpp, pp. 19f.
Wilhelm
58.
68. Draft
agreement
only “other theory” was
Besso to Einstein, Geneva, 1952, in Besso,
3,
beginning
with experience and with other theories.”
August
first
mirror, obtaining a term which, in
approximation,
a
M.
67.
2-070.
and Reiser,
84.
p. 20.
Sound recording on
February
6,
disk
of
1924, for the collection of
voice records of the Prussian State p. 49,
Library, Berlin; transcription
by Fried-
agree that Einstein had read August
rich Herneck, Uber die deutsche Reichs-
Foppl’s Einfiihrung in die MaxwelVsche
angehorigkeit Albert Einsteins
Theorie der Elektricitdt (Leipzig, 1894)
No.
as a student.
2,
1961, p. 104.
85. Pais, p. 161.
in
NW,
Notes Kyoto
86.
lecture (see n.
wrong with
1).
87. In Einstein 1906d, p. 627.
89.
Joseph
Sauter,
a
from Einstein’s 12.
tivity
Time”
To Conrad Habicht, Bern, end of May or beginning of June 1905. 3.
An
1
905 d,
p.
(New York,
1962).
1905d,
16. Ibid., p. 894.
This
17.
due to the
is
Einstein 1905d,
5.
Ibid. In his papers
p.
891.
on
if
relativity
A
is
synchronous with
B and
chronous with
velocity of light in
synchronous with
the rather old-
in
of
line
1895.
18. Einstein
By
19. Ibid., p. 896.
however, the modern designation,
was
already
customary,
therefore using
it
and
Einstein 1905d,
p.
892.
7.
Einstein 1907h,
p.
416.
8.
The independence
binary 9.
10.
de VelectroTi,
source was
first
Sitter
by
measurements on
Einstein 1905d,
p.
892.
Schilpp, p. 20.
Lorentz
B
also
is
p.
895.
that
Dynamique ,
Vol.
mathematically
equivalent
for-
mulas had been derived from the wave equation by
Voigt’s
has
transformations
from the invariance of the wave equation, and from them in turn to derive the kinematic effects. This is how Einstein proceeded in his Jahrbuch article, and how Laue proceeded in the first textbook. There is, of course, nothing
la
140, 1905, p. 1504. It should be noted
W.
Voigt
become 24.
To
as early as 1877,
little
attention.
As
context was totally
physical
different, the
soon became customary to
the
then
Comptes rendus
in
but this attracted
stars.
11. It
derive
precise
1905d,
H. Poincare, Sur
23.
of the ve-
proved in 1913 by Willem de
means of
syn-
is
22. Einstein 1905d, p. 896.
6.
its
A
is
21. Einstein 1907h, p. 417.
here.
locity of light of
B
20. Ibid.
c,
am
I
C,
If
then
C.
with Lo1905,
B,
synchronous with A.
also
theory Einstein until 1907 denotes the
Versuch
transitivity of
the synchronism defined by Einstein:
4.
rentz’s
892.
p.
15. Ibid.
891.
lished draft for Nature.
V,
and many
Ibid., p. 893.
14.
expression from his unpub-
fashioned way,
Born, Die Rela-
later editions). Einstein's Theory of Rela-
1.
Einstein
Max
and
13. Einstein
2.
a
recommended: Ein-
tivitdtstheorie Einsteins (1920,
Relativity:
Modification of the Theory
of Space and
which
principles.
to be
Still
stein 1917a;
“A
to
rentz transformations derive directly
p. 158.
The Theory of
wave equation
Comment fai ,
0.
it
de la
appris a connaitre Einstein in Fliickiger,
1
But
procedure.
this
good deal of “theory” attaches, and therefore no longer makes it clear that kinematic effects as well as the Lo-
science.
90.
with
starts
H. Poincare (see n. 80). H. Poincare, La Valeur
88.
763
name
given by Poincare
accepted.
C. Seelig, Princeton, Feb-
ruary 19, 1955. 25.
This concerns the implicitly
performed factoring of (1
—
v 2/C2) on
understood only to be derived.
p.
a(v)
=
P(v)
285, which can be
in light of the result
Notes
764
means the invariance of the expression x 2 +y 2 +
37. Einstein
26. Mathematically, this
z2
—
2 2 c t
under Lorentz transforma-
tions.
H. Minkowski, Raum und
27.
and Physicists
September
,
component notation; Lorentz and most of the authors in Annalen had by then gone over to the vector notation in use today. 38. Einstein 1905d, p. 910.
Cologne on
in
H. A. Lorentz, H. Minkowski, Das Rela-
39. Ibid., p. 915.
tivitatsprinzip.
Eine
Abhandlungen.
With
Sammlung a
von
Max Abraham, Zur
40.
21, 1908, in
A. Einstein,
Heinrich
Hertz’s
meeting of German Sci-
lecture at the entists
Zeit
uses
still
Theorie der
Strahlung und des Strahlungsdrucks in ,
AdP, Vol.
contribution by
14, 1904, pp.
236-87.
41. Einstein 1905d, p. 915.
H. Weyl and notes by A. Sommerfeld. Preface by O. Blumenthal (1913),
point furnished with an electric charge
reprinted (Stuttgart, 1982), p. 54.
e” which purely for convenience he
28. Einstein 1905d, p. 903. 29. Ibid., pp. 904f.
here
given
the
for
42. Einstein considers a “material
calls
The
expression
time
dilatation
an “electron.” Naturally, his re-
sults are valid for
particle,
any other charged
and some important
even for uncharged
is
obtained from the exact formula
results are valid
in
good approximation
“ponderable” matter.
of
and
fourth
if
higher
magnitudes order
defined in school
30. Ibid., p. 905. Einstein specifi-
“balance-wheel clock,”
cally refers to a
since a
physical
43. Einstein defines “force” as
are
disregarded.
pendulum clock is part of a system to which the Earth
partial
—mass
it is
times accel-
eration. Planck’s definition as a deriva-
tion of
momentum from
time
is
more
appropriate for a mechanics with variable masses, as the theorems of the
momentum and
necessarily belongs and thus had to be
conservation of
excluded. (See the footnote, of uncer-
gy thereby acquire
tain origin, in the reprint of 1913, ed.
M.
by O. Blumenthal; see
und die Grundgleichungen der Mechanik,
n. 27.)
31. Einstein 1911c, p. 13.
in
32. Paul Langevin, LEvolution de
Planck, Das Prinzip der Relativitdt
VhDPG, Vol.
1906, pp. 136-41.
8,
44. Einstein 1905d, p. 920.
45. Ibid., p. 921.
1911, pp. 31-54.
46.
33.
When
clocks
around the globe of two effects
is
are
carried
in aircraft, the
in fact
measured
sum
— the
time dilatation according to the special relativity
theory and the slowing
of clocks
in
the
gravitational
down field
according to the general theory of relativity.
34. Einstein 1905d, p. 903. 35. Ibid., p. 907.
36. Ibid.
simple form. See
a
Vespace et du temps in Scientia, Vol. 10, ,
ener-
To Conrad
August- September
Habicht, 1905,
in
Bern, Seelig,
p. 126.
Zur
47. Hasenohrl,
Theorie
der
Strahlung in bewegten Kb'rpem, in AdP, Vol. 15, 1904, pp. 344-77. 48. Einstein 1905e, p. 641. 49. Ibid.; symbols have been ad-
justed to later usage. 50. J.
1906,
p.
Precht,
in
AdP, Vol.
599.
51. Einstein 1906d, p. 633.
21,
.
Notes 52. Einstein 1907f.
W.
Braunbek,
Bestimmung nisses , in
Planck- Wien
the
spondence. Planck and
Die empirische
des Masse-Energie-Verhdlt-
Wien
corre-
often dis-
cussed editorial problems concerning
Annalen STPK. ,
ZAP, Vol. 107, pp. 1-11; here,
In this article Braunbek was not
1.
p.
See
8.
53. Einstein 1907h, §11. 54.
765
M.
9.
Planck, Wissenschaftliche Selbst-
biographie, 1948, p. 31.
M. von Laue to C. Seelig, Fribourg, March 13, 1952, ETH.
allowed to mention Einstein.
10.
55. Einstein 1907h, p. 443.
Jakob Johann Laub to C. SeeFribourg, September 11, 1959,
11. lig,
ETH.
Acceptance, Opposition,
1 1
To
12.
Tributes
Max
1.
Planck,
Wissenschaftliche
Selbstbiographie (Leipzig, 1948), p. 22.
To
2.
Novem-
Ph. Lenard, Bern,
Rudolf Ladenburg, Bern,
December 20, 1907, 641, No. 420, March
in Stargard, Kat.
1988.
Sommerfeld to H. A. LoMunich, December 26, 1907, in
13. A.
rentz,
ber 16, 1905; see also A* Kleinert and
Lorentz Papers, Microfilm Reel
C. Schonbeck, Lenard und Einstein. Ihr
American
Briefwechsel in Gesnerus Vol. 35, 1978,
obliged to Diana Barkan for drawing
,
318-33. Lenard’s
pp.
Einstein 3.
to
letter
first
is lost.
Maja Winteler-Einstein, Albert Beitrag fur
Einstein. p.
,
23 (see n.
to
1
Lebensbild,
sein
Chapter
1). I
assume
Maja Einstein here gets something mixed up with an earlier episode, the more so as in 1905 she was living that
in Berlin;
and she did not move near
her brother in Bern until 1907. In
1908 Einstein was indeed disappointed that there
was no reaction
to his first
attempt to generalize relativity theory.
Maja
mention of Planck’s “elucidation of a few
Einstein’s
request
for
dark points” certainly supports
this
tution
W.
Kaufmann, Uber Elektrons,
des
in
die Konsti-
SB,
1905,
pp. 949-56. 5.
To M.
Solovine, Bern,
1906, in Solovine,
Einstein 1913d,
7.
Planck’s is
May
3,
first
dated July
p.
M.
15.
Relativitdt
Mechanik
extant 6,
1907.
letter
to
am
January
und die Grundgleichungen der in
,
Das Prinzip der
Planck,
VhDPG,
Vol.
8,
1906,
pp. 136-41. 16. In Schilpp, p. 8.
1905d,
17. Einstein
W. Kaufmann,
18.
tution des Elektrons
,
92
p.
Uber
in
1.
die Konsti-
AdP, Vol.
19,
pp. 487-553. 19. Ibid.
H. A. Lorentz
20.
Leyden, March 2
1
Max
.
8,
to
Poincare,
1906.
Planck, Die Kaufmannschen der
Ablenkbarkeit
von
(3-Strahlen in ihrer Bedeutung fiir die
Dynamik der Elektronen lecture on September 19 in Stuttgart, in PhZ, ,
Vol.
7,
1906, pp. 753-59.
W. Kaufmann,
merkung
1079.
I
27, 1920, in Born, p. 45.
22.
p. 4.
6.
Einstein
my attention to this letter. 14. To Max Born, Berlin,
Messungen
assumption. 4.
Institute of Physics.
4,
23.
kung
,
,
ibid., p.
M.
ibid.
Diskussionsbe-
760.
Planck,
Diskussionsbemer-
Notes
766 1907h,
24. Einstein
§10,
25. Ibid., p. 439.
April
To
Marcel Grossmann, Milan,
1901.
1,
H. Bucherer to Einstein, Bonn, September 7, 1908. Bucherer’s results were published in Messungen an
Was
Bucherer’s
were by no means
1908,
9,
however,
data,
as
good
self believed; thus the
pp.
as
he him-
controversy was
finally settled until a
decade
H. Bucherer to A. Einstein, Bonn, September 9, 1908. Einstein’s Bucherer are
Gesellschaft
3
1
.
Was
Welibild
,
ist
No.
on January
R elativi tdtsth eone 7
in
end of 1919.
,
und
Probleme
Nobel
lecture in
48. Grundgedanken
der Relativitdtstheorie.
Goteborg on July
11,
49.
92 3 in Les Prix
1
,
Unpublished
from M. Klein,
p. 3.
draft,
quoted
Einstein on Scientific ,
50.
Max von Laue
Jakob Laub, 1907, in Gerd Rosen to
September 2, Katalog, No. 35, No. 4578, auction of 51.
1960.
8,
Max
Planck, Acht Vorlesungen
iiber Theoretische
Physik gehalten an der ,
Columbia University
in the City of
New
32. Ibid., p. 128.
York im Eriihjahr 1909 (Leipzig, 1910),
33. Ibid., p. 127.
pp. 117f.
34. Schilpp, p. 6. 35.
M.
Messungen
Planck, Die Kaufmannschen ,
p.
756
37.
For instance,
in
1
9 12e
and
Max
Planck,
Minkowski,
(see n.
41.
tember
16,
1911,
Zurich
,
No. 4
53. See also
H. Poincare, Demieres
Pensees (Paris, 1913). 54.
Wissenschaftliche
Selbstbiographie (Leipzig 1948), p. 32.
60
in
Gesellschaft.
Natur-
(quarterly), 1911.
38. Primarily in 1907e.
40.
fiorschenden
meeting of January
(see n. 21).
1913c.
39.
der
52. Sitzungsberichte
36. Einstein 191 le.
p.
Weltbild p. 129.
November
4, p. VIII.
127, written toward the
p.
in
Relativitdtstheorie
ist
17, 1975, p. 113.
the meeting of the Zurich Natur-
16, 1911; Vol. 56,
1921.
4,
,
30. Contribution to the discussion
forschende
,
Revolutions in Vistas in Astronomy Vol.
lost.
29. Einstein 1907d,
at
York Times April
Nobel (Stockholm, 1923),
later.
28. A.
letters to
EA2089.
script, c. 1920,
47.
PhZ, Vol.
not
,
Lorentz-Einsteinschen
Theorie
manu-
der Relativitdtstheorie unpublished
New
der
Gedanken
hauptsdchlichen
46.
Bestdtigung
75 5-62.
45. Die
experimented
Die
Bequerel-Strahlen.
in
(New York,
Shoulders of Giants
the
1965).
27. A.
,
Robert
to
Hooke, February 5, 1675 or 1676. For more detail, see Robert K. Merton, On
436-39.
26.
Newton
44. Isaac
pp.
To
Raum und
27 to Chapter
Zeit
10).
E. Zschimmer, Berlin, Sep-
30, 1921.
November
Zangger,
15,
1911. 55.
,
To H.
ture
Geometrie und Erfahmng
on
Day”
“Frederick
Academy
Prussian
of
,
at
Sciences
lec-
the in
Berlin on January 21, 1921, published in Weltbild p. 122. ,
42. See Schilpp, p. 12.
43.
To
56.
C. Habicht, Bern, end of
May or beginning of June
1905.
To
January p. 99,
28,
A.
Sommerfeld, 1922;
in
with further data.
Berlin,
Sommerfeld,
.
Notes
767 74.
To M.
57. 6,
Besso, Princeton,
1952, in Besso,
To
58.
October
November 60.
Born,
Princeton,
Mercier, Princeton,
An
Interview with
Einstein in Scientific American, Vol. 93, ,
July 1955,
69. See also Einstein’s
p.
75
.
An
exception here
J.
given in
pret here?
95 3f
ton,
62. trons
,
H. A. Lorentz, Theory of Eleclectures at Columbia University,
New
Spring
York,
1906
it
To
76.
61. Pais, p. 171.
path which led
first
who took down German without
Drake’s translation of the Dialogo of 1
Kyoto
Einstein, refer-
Ishiwara,
translated
Galileo Galilei, Einstein
when
the
is
to the special theory of relativity.”
1953, to Stilman
preface, written in
Einstein
in
ring to Michelson’s null result, said,
“This was the
Cohen,
B.
I.
instance,
lecture of 1922,
1953.
9,
Lor 1917a.
12, 1953.
To Andre
59.
464.
p.
Max
March
the lecture
notes and
H. Davenport, Prince-
F.
To
February
Did
into Japanese, overinter-
February
77.
me
9,
1954.
C.
Princeton,
Seelig,
19, 1955.
78. Einstein 1916i, p. 103.
(Leipzig,
1909).
H. A. Lorentz, Alte und neue Fragen der Physik, in PhZ, Vol. 11, 63.
12. Expert
1910, p. 1236.
Max
65.
H. A. Lorentz, Das
Born, in Born,
hoop, August
p. 72.
Relativitdts-
Laub, Bern, March
19,
68. R. A. Millikan, Albert Einstein
on His Seventieth Birthday in Review of ,
Laue, Das Relativitdts-
Einstein
,
American
in
Journal of Physics, Vol. 31, 1963,
p. 48.
To
tember
Mileva Marie, Milan, Sep-
28,
“interesting
Uber
die
paper”
Bewegung
torische
fen, in
1899, CPI,
Fragen,
AdP, Vol.
was
welche
p.
233; the
W. Wien, die
transla-
des Lichtathers betref-
65,
Appendix No.
3,
pp. I-XVII. 73.
To
January
To
14, 1908.
Sommerfeld,
Bern,
L. Chavan, Prague,
c.
1912,
Fliickiger, p. 66.
See
Yardley
of Physics,
American
Beers,
Vol.
46,
1978,
Karl Biedermann to Carl Seelig,
6.
Bern, 7.
March 2, 1952. The former Besenscheuerweg
is
Tscharnerstrasse.
8.
To M.
Solovine, Bern,
1906, in Solovine, 9.
March
6,
p. 5.
Ibid.
10. Ibid. 11.
Mileva in
Einstein
to
Helene
December D. Tribuhovic-Gjuvic, Im
Savic-Kaufler,
1906, A.
17,
506.
now
71. Ibid., p. 55.
72.
4.
Journal p.
70. R. S. Shankland, Conversations
Albert
Fliickiger, p. 68.
5.
,
prinzip (Braunschweig, 1911), p. 14.
with
Swiss
Bern, January
3.
quoted in
Physics Vol. 21, 1949, p. 343.
M. von
69.
Council,
the
lectual Property, Bern.
1909.
Modern
1918.
1906; Swiss Federal Office for Intel-
66. Einstein 1914o.
To J. J.
8,
Ahrens-
Dallenbach,
Friedrich Haller to
2.
Federal
prinzip (Leipzig, 1914), p. 23.
67.
To W.
1.
64.
Class
II
undated,
Schatten Albert Einsteins (Bern, 1983), p. 82.
Notes
768 12.
To Conrad
dated,
September
Habicht, Bern, unSeelig,
in
1905,
zig,
November
13. Ibid.
Mileva
Einstein
Helene
to
15. Einstein’s
Maja
16. n.
1
now
is
of
Weizmann
(see
June
Laub:
mentions
1953,
STPK;
papers of
Bern, July 29,
Wien
the
in
the subject of their
correspondence was mainly the
between
ences
and
phase
I
am
J.
a
Stark, Bern,
December a
post
J.
Stark:
married man, the income
6,
38. Einstein 1907h. 39. Einstein 1923a, pp. 4f.
To W.
5.
de
Sitter, Berlin,
No-
1916.
4,
43. See
the letter to 1907;
1,
in
J.
Stark of
it,
Einstein
makes no mention of the theory of gravitation.
To Conrad
44.
December
Habicht,
Bern,
24, 1907.
1909, in Stark,
278.
13.
To
271.
p.
37. Ibid.
November of
refusal
his
enough,” Bern, April 22.
1907, in Stark,
41.
from that post would not be large p.
November
Stark, Bern,
42. In Schilpp, p. 24.
Aachen, offered to him by
“As
1,
J.
group
14, 1907, in Stark, p. 227.
in
To
40. Ibid., p.
19. Ibid.
21. See
September
Stark, Bern,
35. Einstein 1907h.
vember
To
J.
differ-
velocity.
20.
Wiedemann, Bern,
Eilhard
To
36.
preserved
are
letters
14,
25, 1907, in Stark, p. 269.
a
Only a few of the Wien-Einstein
1907.
December
14, 1909.
34.
at last arrived.”
To W. Wien,
1907, in
33. Einstein 1922a.
photograph of 1906. 18.
2,
32. Einstein 1917a.
Bern, undated, 1909; Laub to Albert 9,
December Stark,
J.
To
31.
17. Albert Einstein to J. J.
Einstein, July
1908.
1907, in Stark, p. 227.
25.
“The photograph has
To
30.
Israel.
1), p.
3,
29. J. Stark,
offInsti-
Winteler-Einstein
Chapter
to
collection
at the
Rehovoth,
tute,
1907.
3,
Stark, p. 278.
Savic-Kaufler (see n. 11), p. 82.
prints
October
28. S. Hirzel to Einstein, Leipzig,
p. 126.
14.
G. Teubner to Einstein, Leip-
27. B.
the Director of Education,
New
The
Copernicus:
From "Bad Joke"
to "Herr
Bern, June 17, 1907, Cantonal Archive
Bern,
BB
III 6,
Vol.
Professor"
XV,
1907; see also
Fliickiger, p. 113.
Minutes of faculty meeting of October 28, 1907, Cantonal Archive, 23.
Bern. 24.
March 25.
March
J.
2.
To
January
To 6,
M.
Besso,
1952, in Besso,
To M.
Besso,
p.
To 6,
M.
Arnold Sommerfeld, Bern,
14, 1908,
Physikalische
464.
Sommerfeld).
Sommerfeld’s
during the
few years of their cor-
March
,
No. first
2,
respondence are Princeton, p.
DMM;
Blatter 40,
Bern,
Besso,
1952, in Besso,
J.
Princeton,
17, 1903, in Besso, p. 14.
26.
Laub to Einstein, Wurzburg, March 1, 1908, ETH. 1.
464.
3.
letters
lost.
To Conrad
cember
1984, p. 29 (not in
24, 1907.
Habicht, Bern, De-
Notes 4.
To
January
Marcel Grossmann, Bern,
ETH;
1908,
3,
mann/Dukas,
Hoff-
in
769 day
this
from Jiirgen Renn).
p. 104.
Faub
18. J. J.
May
burg,
to Einstein, Wiirz-
ETH.
5.
Ibid.
6.
Ibid.
19.
7.
To
20. Einstein 1908a.
the Educational Council of
Canton of Zurich, Bern, January 1908, STZ, U 84d. 2.
the 20,
To
8.
Gruner,
Paul
Feb-
Bern,
ruary 11, 1908, in Fliickiger,
p.
117, in
Fliickiger,
9.
ther
of
details
gives
119,
p.
the
fur-
Habilitation
procedure. Einstein 1909c, pp. 185-93.
11.
To
December
p. 117.
of Bern, SS 1908, in Fliickiger,
p. 121.
24, 1907.
To
23.
Arnold Sommerfeld, Bern,
Fucien Chavan, Theorienhefte,
Einstein-Flaus, Bern.
netische
Grundgleichimgen fur bewegte
Korper
[Electromagnetic
Gockel
Albert
26.
1908,
Vol. 27, 1908,
Fundamental
ToJ.
15. Einstein
elek-
tromagnetischen Felde auf ruhende Kor-
per ausgeubten ponderomotorischen Krdfte
To
28.
Electromagnetic Field on Bodies at 26, 1908, pp. 541-50;
Bernerkungen zu unserer Arbeit
Work
.
.
.],
.
.
in
.
[Ob-
AdP,
Vol. 28, 1909, pp. 445ff. J. J.
1908,
3,
STPK,
Faub, Bern, undated,
To M.
32.
ber
Hans
1908;
3,
“Buio”
is
Swiss
Albert’s for
Bub
33.
Whitrow
34.
See also
stein
to
(see n. 3 a
1961,
up because
p.
160.
quoted
in
These problems
have not been definitively solved to
35.
21.
“Now
8,
ToJ.
in the
could put both of you
my sister is away.” Max Planck to Einstein,
September 36.
1), p.
the Habicht brothers from
I
1918,
in
postcard from Ein-
course of July
To Walter Dallenbach, Ahrens-
(boy),
Solovine, p. 10, in facsimile.
Rosen, Berlin, Auction No. 36, April p. 3.
Decempet name
Solovine, Bern,
(undated):
Fliickiger,
Autogr.
H. A. Einstein in an interview with Bernard Mayes, BBC, in G. J. Whitrow (ed.), Einstein: The Man and His Achievement (Fondon, 1966), p. 17.
summer 1907
8,
Bern,
mu.
probably Spring 1909; Katalog Gerd
August
und Albert
Gockel,
Albert
December
[The Ponderomotoric Forces Exerted in
servations on our
Faub, undated, August
J.
31.
and Faub, Die im
AdP, Vol.
Faub, Bern, July 30,
J.
Albert Einstein
in
1908,
,
232.
p.
und
Academia Freibur-
in
,
To J. ETH.
30. Ibid.
hoop,
30 (not in
2, p.
1962, pp. 30-33.
,
Vol. 26, 1908, pp. 532-40; Corrections
17.
Physikalische
Sommerfeld).
29. Ibid.
To
No.
,
Equations for Moving Bodies], in AdP,
16.
in
Gockel (see n. 25), p. 31.
Einstein and Faub, Elektromag-
Rest], in
1908,
14,
Blatter 40, 1984,
27.
14.
Bern,
22. Ibid.
gensis
Semester report of the Univer-
13.
Habicht,
25. J. J. Faub, Albert Einstein
Paul Gruner, Bern, Feb-
ruary 11,1 908, in Fliickiger,
sity
To Conrad
21.
24. Einstein 1908a, p. 217.
10.
12.
18, 1908,
Einstein 1907b.
January
facsimile.
the
communication
(personal
Axalp,
1908. Stark, Bern,
1908, in Stark, p.274.
February 22,
Notes
770
To
37.
14, 1908, in Stark,
p.277.
Hermann Minkowski, Raum
38.
und
December
Stark, Bern,
J.
Zeit (see n. 27 to
Chapter
10).
For
To J. J. Laub, Bern, March 19, 1909, in ETH. 53. To M. Besso, Princeton, 52.
March
6,
1952, in Besso, p. 464.
Adler
the genesis of Minkowski’s concept
54. Friedrich
of space-time see also Peter Louis
Adler, Zurich, July
Galison, Minkowski's Space-Time: Visual Thinking
HSPS,
in
meiner p.
Absolute World
(Braunschweig,
1958),
Born, Autobiography
York, 1978),
(New
Hermann Minkowski
42. J. J.
May
Victor
to
28, 1908, in
(see
To
58.
n.
Ehrat, Bern, February
J.
15, 1909, in Seelig, p. 155.
Laub
to Einstein,
Wurz-
ETH.
18, 1908,
To J. ETH.
59.
1909,
J.
May
Laub, Bern,
This
letter
19,
contains
a
43. Pais, p. 151.
detailed account of the professorship
44. Seelig, p. 46.
episode from Einstein’s point of view.
191 7d; quoted from
45. Einstein
Braunschweig, 1969 edition, 47. Louis
Dunkle 48.
Erinnerungen
Koilros,
Helle
in
,
Zeit
—
A. Kleiner, Bern, February
25, 1909, in Universitatsarchiv Zurich. 62. Expert
quoted in
Chrthe
Dean, Professor Otto
history of theoretical
see the unique
book by Christa
Intellectual
McCormmach,
Mastery of Nature
ical Physics from
— Theoret-
Ohm to Einstein. Vol.
New Mighty
Theoretical
4,
a
letter
of the
Stoll,
Regierungsrat
in Zurich, pp.
7f.,
Einstein’s personal
of
March
Heinrich
STZ, U.llOb.
2,
file.
63. Ibid., p. 6.
Physics
(Vienna, 1984), pp. 156-94, gives a
to
Alfred
Ernst, Director of Cantonal Education
2,
1870-1925 (Chicago, 1986). 49. Rudolf G. Ardelt, Friedrich Ad-
1909,
by
opinion
Kleiner,
Jungnickel and Russel
The
To
Zeit, p. 25.
physics in the German-speaking countries,
Bern, February
Ehrat,
J.
15, 1909, in Seelig, p. 155.
p. 46.
61.
Kommilitonen
eines
To
60.
46. Ibid., p. 48.
ler
19,
R. G. Ardelt, p. 165.
p. 131.
38), p. 111.
burg,
Adler
November
Adler, Zurich,
May
Laub, Bern,
J.
57. Friedrich
Max
41.
Laub, Bern, July 30,
J. J.
ETH. 56. To J. 1909, ETH.
218. 40.
To.
55.
1908,
Born, Physik im Wandel
Zeit
1908, in Ru-
1,
dolf G. Ardelt, p. 164.
,
10, 1979, pp. 85ff.
Max
39.
to the
From
Victor
to
The
64.
ter Ritz died four 7,
Walon July
exceptionally gifted
months
later,
1909, at the age of only thirty-one.
For the reactions of heads of
65.
detailed account of Friedrich Adler’s
university departments and ministries
ambivalent attitude toward the Zurich
appointment of Jewish physicists, see Jungnickel and McCormmach, pp. 286f (see n. 48).
professorship
as
well
as
the
back-
ground of the establishment of the
66. See n. 62 above, p. 8.
post. 50. Ibid., pp. 159ff. 51. Friedrich
Adler
67. Ibid., p. 9.
to
Victor
Adler, Zurich, June 19, 1908, in ibid., pp. 163f.
to the
68.
1909, 69.
To J. ETH.
J.
Laub, Bern,
May
19,
This emerges from the pro-
Notes Government Council of 1910, STZ.
771
tocol of the
Sommerfeld, Johannes Stark, Wilhelm
July 14,
Wie, and Woldemar Voigt. 82. PhZ, 10, No. 22, p. 777.
To J. J. Laub, Bern, May 19, 1909, ETH. Carl Seelig, Princeton, 71. To 70.
Summer
73. Justice
invitation
a visit to
of 1908 (Clark,
Seelig, p. 159.
and Police Department
is
thought to
have been brought by Rudolf Laden-
burg on
1952, in Seelig, pp. 157 ff.
Quoted from
72.
The
83.
evidence of
Bern
in the
have found no
p. 93); I
this.
summer
Nor do
the extant
to Swiss Federal Council, Bern, July
fragments
12, 1909, in Fliickiger, p. 70.
between Planck and Einstein contain
To M.
74.
Solovine, Bern,
March
18, 1909; in Solovine, p. 12.
To
75.
probably June
undated,
1908
assumed by
as
1909
(not
Seelig, p.
147),
ETH. 76.
anything about an invitation for
However, since Planck presided over the afternoon meeting on September 21 and was therefore responfor
sible
To H.
Lorentz,
A.
Bern,
To
J. J.
should
program,
its
one
give
Laub, Bern, Monday,
Max
84.
meiner
To J. J. Laub, Bern, May 19, 1909, ETH. Lorentz’s early letters to Einstein are lost. On May 23, 1909,
p. 193.
78.
To
Stark,
J.
Arzte
p.
31,
279.
(
1958),
81.
der
Gesell-
Naturforscher
Versammlung
in
und
Salzburg
,
Leipzig 1910) and the program of the
Planck’s contribution to
the discussion, ibid.,
Max
91.
Verhandlungen
Deutscher ,
Bern, July
According to the report on the
congress
Max
90.
1909, in Stark,
schaft
Planck.
89. Ibid.
79. Ibid.
.
keynote
86. Ibid., p. 820.
88. Ibid., p. 820.
theory.
the
85. Einstein 1909e.
on problems of radiation
letter
of
(Braunschweig,
Zeit
87. Ibid., p. 817.
81
seems very
Born, Physik im Wandel
Einstein wrote Lorentz a seventeen-
80.
it
come from
addresses did
undated, probably June 1909.
page
a lec-
likely that the suggestion that Einstein
undated, probably April 1909. 77.
correspondence
the
ture.
Laub, Bern, Monday,
J. J.
of
(only in this
(Berlin,
trag zur
1920),
p.
238
first edition).
Wolfgang
92.
825.
Born, Die Relativitatsthe-
Einsteins
orie
p.
Pauli, Einsteins Beiin
Schilpp,
Chavan,
Zurich,
Quantentheorie
,
p. 78.
“well attended” physical section (PhZ, 10,
November
777),
those
Born, Paul
S.
10,
1909,
present
No.
included
22, p.
Max
Epstein, James Franck,
Philipp Frank, Albert Gockel,
Otto
Hahn, Friedrich Hasenohrl, Ludwig Hopf (later an assistant at Zurich UniRudolf Ladenburg, Anton versity), Lampa, Max von Laue, Lise Meitner, Gustav Mie, Rubens,
Max
Planck,
Heinrich
Clemens Schaefer, Arnold
14. Professor in Zurich 1.
To
October 2.
Lucien 19, 1909.
Friedrich Adler to Victor Adler,
Zurich, October 28, 1909, in R. G. Ardelt, p.
166 (see
n.
49 to Chap-
ter 13). 3.
To
J. J.
ber 31, 1909,
Laub, Zurich, Decem-
ETH.
Notes
772 Ibid.
5.
To M. To
January
DMM,
19, 1910,
,
p. 16.
Sommerfeld,
A.
Blatter 40,
Novem-
Besso, Zurich,
ber 17, 1909, in Besso, 6.
No.
1984,
2,
Zurich,
Physikalische p.
32 (not in
To
Wiedemann, Bern,
Eilhard
DMM.
July 14, 1909, 8.
November 5, 1910, STPK. 25. ToJ. J. Laub, Zurich, Decem-
Hans Tanner,
in Seelig, p. 171.
Max Fisch, in Seelig, p. 170. 10. To M. Besso (see n. 5). 11. To J. J. Laub (see n. 3). 12. To J. J. Laub, Zurich, March 16, 1910, ETH. 9.
To J. J. Laub, Zurich, March 16, 1910, ETH. 27. To A. Sommerfeld, Zurich, Blatter
Seelig, p. 188.
15.
To
C.
29.
“My
Armin Hermann,
Princeton,
This
Zangger drew my attention to an important remark ...” 17. Hans Tanner, in Seelig, p. 170. 18. George Hevesy, interview with T. S. Kuhn and E. Segre of May 25,
To
33.
W.
215 (Oxford, 1978).
To J. J. 1910, ETH.
19. 16,
Laub, Zurich, March
34.
ber
ToJ.
4,
1910,
35.
To
vember
tions
of
obvious
Einstein’s
Debye (AdP, Vol. as
Max Born
Karman (PhZ,
modifica-
Peter
theory,
Theodor
Vol. 13,
p. 297),
von
devel-
oped formulas which correctly decourse
the
scribe
of specific
heat
during approach to absolute zero. 21. In Seelig, p. 177.
22.
To
January
A.
19,
Sommerfeld,
1910,
lische Blatter,
Sommerfeld).
40,
DMM;
Zurich,
in Physika-
1984, p. 32 (not in
Novem-
ETH. J.
No-
Laub, Zurich,
J.
See the
36.
ETLI.
Sommerfeld 1910; and to Laub of
letters to
1910, undated.
37. Seelig, p. 101; the lecture
given on
May 7,
was
1910. In a letter to his
mother of April
1910, Einstein
29,
few days
I
give a lecture to
the convention of Swiss scientists, for
which
39, p. 789), as well
and
Laub, Zurich,
J.
11, 1910,
says: “In a
20. Following
zur
,
summer
,
1910a and 1910b.
Quantentheorie in Schilpp, p. 79.
from T. S. Kuhn, Black-Body Theory and the Quantum quoted
ETH.
Pauli, Einsteins Beitrag
of January 19,
Discontinuity p.
Laub, Zurich, Satur-
J. J.
1962, in Sources for History of Quantum Physics;
Sommer-
31. Ibid.
paper
Professor
colleague
in
feld, p. 23.
32. Einstein
1911b.
in
28. Ibid.
ETH.
16. Einstein
(not
33
p.
day, undated, July 1910,
Seelig,
August 20, 1952,
1984,
40,
,
in Physikalische
Sommerfeld).
30.
14.
DMM;
July 10, 1910,
13. Ibid.
begins:
ETH.
ber 31, 1909, 26.
Sommerfeld). 7.
To J. J. Laub, Zurich, March 16, 1909, ETH. Emil Fischer, Zurich, 24. To 23.
4.
I
haven’t prepared at
38. Carl lig,
all.”
Gustav Jung to Carl See-
February" 25, 1952,
ETH.
39. Ibid.
40.
To
42.
C. Habicht and P. Habicht,
Conrad Habicht, Zurich, December 14, 1910. 41. To Conrad Habicht, Zurich, undated, February-March 1910. Elektrostatischer
nach A. Einstein pp. 532-35.
Potentialmultiplikator ,
in
PhZ,
11,
1910,
Notes 43. Ibid., p. 535.
To M.
44.
ruary
cember August
15, 1948.
von
Smoluchowski
Vol.
1908,
pp.
und Werk, Nauk (Warsaw,
Akademia
,
205-26.
—Lehen
chowski
To
49.
in line with Planck’s
J.
three years later,
62.
1977),
in
Max
Prussian
the
to
Planck, Acht Vorlesungen
Theoretische
Physik,
an
gehalten
York im Friihjahr 1909 (Leipzig,
1910).
ETH.
63.
To
Sommerfeld,
A.
Zurich,
July 10, 1910, in Physikalische Blatter
51. Ibid., p. 1294.
40, 1984, p. 33 (not in Sommerfeld).
To M.
April
Grossmann, Milan, 1901, in CPI, Doc. 100,
14,
64.
Quoted
Teske
in
66.
(see n. 47),
ber
55. Einstein
p.
His
9 1 7g.
1
invitation
to
Prague
Einstein
physikalischen
Lehrstiihle
an
1975, pp. 285-92. (b) Jan
—
69. Protocol
,
Hav-
Council, 1
in
Prague
,
(c)
in
70,
pp. 76-84.
March
Ad-
30, 1910, in Adler-
Archiv, Vienna. 58.
To
of
July
Governmental
STZ,
1910,
14,
U
73. Friedrich Adler to Victor ler,
Zurich, September 23,
Ad-
1910, in
Adler-Archiv, Vienna.
57. Friedrich Adler to Victor
Zurich,
110b.2 (44).
72. Illy, p. 77 (see n. 56).
,
1979,
U
71. Frank, p. 136.
Jozsef Illy, Ein-
Isis,
Kleinert,
70. Ibid.
to
Univ. Car. Pragensis
1977, pp. 109-12.
Decem-
10b. 2.
,
Hist.
in
Em-
68. Ibid.
Professor in Prague in Acta Universitatis
Carolinae
quoted
1910;
June 23,1910, STZ,
der
ranek, Albert Einstein's Appointment
ler,
Stiirgkh to
67. Petititon of fifteen students to
—Die Neubesetzung
deutschen Universitdt Prag, in Gesnerus
stein
(see n. 56).
the Directorate of Education, Zurich,
Andreas Kleinert, Anton Lampa
und Albert
32,
288
1910.
289.
is
described in the following accounts:
der
summer
Count Karl
16,
,
Laub, Zurich, Sat-
J.
peror Francis Joseph, Vienna,
54. Ibid., p. 231.
(a)
J.
65. Kleinert, p.
219.
56.
To.
urday, undated,
290. 53.
8,
election
der Columbia University in the City of
New
Laub, Zurich, Sat-
J.
form of words when he proposed
50. Einstein 1910c.
52.
p.
is
Academy of Sciences.
1917, p. 737.
urday, undated, Summer.1910,
p.
291; see n. 56). This reconstruction
liber
5,
from oral 288 and n. 9, it
p.
Polska
,
Andreas
lost;
is
tradition (Kleinert, p.
Einstein’s
Marian von Smoluchowski
NW, Vol.
This expertise
Smolu-
pp. 215-32. 48.
61.
Kleinert has reconstructed
Habicht, Princeton,
Armin Teske, Marian
See
De-
Prague,
26, 1911, in Besso, p. 42.
25,
Archiv, Vienna. 60. Illy, p. 77 (see n. 56).
Marian
47.
AdP,
Feb-
p. 47.
Besso,
To Conrad
46.
Prague,
Besso,
To M.
45.
Zurich, April 29, 1910, in Adler-
ler,
1912, in Besso,
4,
773
75. Frank,
Dukas,
Pauline Einstein, Zurich,
76.
p.
1
To
p.
137;
Hoffmann/
14.
Paul
Ehrenfest,
Prague,
Schroter,
Zurich,
April 25, 1912.
April 29, 1910. 59. Friedrich Adler to Victor
74. Illy, p. 78 (see n. 56).
Ad-
77.
To
Carl
Notes
774 December ter
12,
ETH.
1910,
Schro-
was professor of botany
at
the
15. Full Professor in
Prague—
But Not for Long
Polytechnic. 78. Illy, p. 78 (see n. 56). 79. Protocol
1.
Governmental
of
Council, Zurich, February 10, 1911,
March March
STZ.
2.
Havranek,
80.
106 (see
p.
n. 56).
longer identifiable), Zurich, January
STZ.
Emil Fischer to A. Einstein,
82.
November
Berlin,
1,
1910, in Fischer
Papers, Bancroft Library, University
of California, Berkeley. 83.
To
Emil
November
On
84.
5,
1910,
Zurich,
STPK.
Emil Fischer and Franz
1922).
cher, Berlin-Wannsee,
Fischer
in
1911,
November
Papers,
9,
Bancroft
Library, Berkeley. 86.
To
vember 87.
5,
1910,
To
FI.
STPK. Zurich,
January 27, 1911. 88.
ruary 89.
To 8,
February 90.
ETH.
To H.
Lorentz,
A.
Lorentz,
Prague,
To M.
Grossmann, Prague, end
of March 1911. 6.
Ibid.
7.
To H.
Zangger,
un-
Prague,
dated, spring 1911.
191
1,
To M.
Besso, Prague,
May
13,
in Besso, p. 19.
To L. 1911, ETH.
Chavan, Prague, July
9.
Otto
Stern,
in
an
with Res Jost, recorded on is
at
6,
interview
November
ETH;
I
am
obliged to Professor Jost for permit-
me to quote from it. 11. To M. Besso, Prague, May 12.
The
13,
natural science institutes
Weinberggasse 13.
oration for H.
Lorentz, 1928, in Weltbild
,
92.
Zurich,
23, 1911.
91. Graveside
H. Zangger, Prague, un-
of the Philosophical Faculty are on
H. A.
November
To
1911, in Besso, p. 19.
15, 1911.
To
ulice 7; there
ting
Friedrich Adler, Basel, Feb-
1911,
now Lesnicka
25, 1961; a transcript
Lorentz,
A.
Trebizkeho
dated, spring 1911.
10.
Emil Fischer, Zurich, No-
was
address
ibid., p. 37.
8.
Franz Oppenheim to Emil Fis-
1).
a bust
5.
Oppenheim as treasurer of the German Chemical Society, see Emil Fischer, Aus meinem Leben (Berlin, 85.
The
(postmarked
undated
27, 191
Prague,
on the facade to commemorate its first and most famous resident. 3. See also a letter to Besso, end of September 1911, in Besso, p. 30, and a letter from Besso, October 29, 1911, is
4.
Fischer,
Grossmann,
1911,
ulice 1215,
81. A. Kleiner to a colleague (no
18, 1911,
To M.
A.
p. 27.
H. A. Lorentz a Is Schopfer und
191
1,
To M.
3
,
now Vinicna ulice
Besso, Prague,
May
3
13,
in Besso, p. 19.
14.
Frank,
p. 145.
15.
To M.
Grossmann, Prague, end
Personlichkeit, written in 1953, in Welt-
of March 1911,
bild, p. 3 1.
To A. Stem, Prague, March 17, 1912, ETH. 17. To L. Chavan, Prague, July 6, 1911, ETH. 16.
93. Seelig, pp. 177ff. 94.
To
end 1910,
A. Stern, Zurich, undated,
ETH.
ETH.
.
.
Notes
775
To J. J. Laub. Prague, August 10, 1911, ETH. 19. To M. Besso, Prague, Feb-
1911, in Besso,
ruary
tember
18.
4,
1912, in Besso,
p. 45.
To J. J. Laub, Prague, August 10, 1911, ETH. 21. To H. Zangger, Prague, Sep20.
tember 20, 1911. 22. Prager
Chapter
40.
41.
January
Tagblatt, Illy, p.
79 (see
To M.
To M. 1,
Besso, Prague, October
in Besso, p. 32.
42. Ibid.
To H.
Zangger, Prague, un-
56
ETH;
in
November
1911,
—Dunkle
Helle
Zeit
Zeit
,
p. 43.
44.
To H.
Zangger, Prague,
ETH;
Gerhard Kowalewski, Bestand und Wandel (Munich, 1950), p. 237. 25. Hugo Bergmann, Personal Re-
vember
membrances of Albert Einstein in Boston
German, and English.
24.
,
Studies in the Philosophy, of Science Vol. ,
1911,
16,
—Dunkle
Zeit
Zeit
p.
,
43.
Brod,
(Munich, 1969),
Streitbares
Leben
45.
To M.
46. In
Helle
in
The
Besso, Prague,
“three
Conseil
of the
German
,
Decem-
p. 40.
Proceedings
Solvay 1911
201.
p.
No-
languages” were, of course, French,
ber 26, 1911, in Besso,
XIII, p. 390.
version in Ab-
27. Ibid., p. 202.
handlungen der Bunsen-Gesellschaft, No.
28. Frank, pp. 152 ff
7 (Halle, 1914), pp. 339f.
29.
To Hedwig
tember
Born, Berlin, Sep-
1916, in Born,
8,
31.
To M.
May
13,
June
Walther Nernst, Prague, quoted
20, 1911,
unpublished
Jean Pelse-
in
manuscript,
,
Institut
Sur
35. Ernest Solvay,
PEtablisse-
Eondamentaux de
des Principes
la
Gravito-Materialique (Brussels, 1911).
Solvay
also Jagdish
Conference
on
drecht/Boston, 1975), 37.
Max
Nernst,
Mahra, The
Physics
(Dor-
1,
Besso, Prague,
ETH;
June
Pelseneer (see n. 34).
to 11,
Walther 1910,
in
Decem-
in Besso, p. 40.
H. Zangger, Prague, unHelle
in
November
—Dunkle
Zeit
1911, Zeit
,
p. 42.
50.
Quoted
in the Earl of Birken-
head, The Professor between
Two Worlds
p. 42.
51. Clark, p. 185. 52.
To
H. Zangger, Prague, un-
dated, beginning of
ETH;
Helle
in
November
1911,
—Dunkle
Zeit
Zeit
,
p. 43.
53. Details of the
p. 4.
Planck
Berlin,
38. Ibid.
To M.
To
—
in Helle Zeit
p. 43.
(Cambridge, 1962),
Solvay, Brussels.
36. See
,
ETH;
dated, beginning of
neer, Le premier Conseil de Physique
ment
48.
49.
33. Ibid.
To
H. Zangger, Prague, No-
16, 1911,
ber 26, 191
p. 19.
32. Ibid., p. 20.
34.
To
Dunkle Zeit
Besso, Prague,
1911, in Besso,
47.
vember
p. 21.
30. Frank, p. 143.
I.
Sep-
11, 191 1, in Besso, p. 26.
beginning
14).
Max
Prague,
Besso,
dated,
23. Ibid.
26.
13,
p. 19.
22, n.
May
Besso, Prague,
To M.
21, 191
43.
1911, quoted from to
39.
correspondence
between Einstein and Julius are Clark, pp. 54.
tember
To
1
in
8 7 ff
H. Zangger, Prague, Sep-
20, 1911.
Notes
776
H. Zangger to Ludwig Forrer, Zurich, October 9, 191 1, in Swiss Fed-
To H.
memoriam
74. In
Zangger, Prague, Sep-
Zangger, Prague, Feb-
ruary 19, 1912.
eral Archive, Bern.
56.
To H.
73.
55.
books are
vember
Leyden. Martin
To M.
58.
November p.
Grossmann,
ETH;
Prague,
75. Ehrenfest’s
them
for
remarkable
225. Grossmann’s letter, to which
fest Vol. 1:
the
present
letter
the
is
answer,
Physicist
H.
59.
Lorentz
A.
Leyden, December
To M.
cember
to
Einstein,
here
1911.
8,
Grossmann, Prague, De-
10, 1911,
ETH.
Zurich,
steins
December
14, 1911,
ETH.
The Making of a Theoretical (Amsterdam, 1970); here pp.
November
64. A.
17, 1911,
ETH;
Poin-
Sommerfeld, quoted from
77.
March
1919.
January 22,
row,
Swiss Federal
Archive, Bern. the Federal President of
February
2,
ETH. 68. To Alfred Stern, Prague, February 2, 1912, ETH. The “bear cubs”
80.
are his
two
sons.
69.
To
H.
To
Mileva
23, 1901, in
1914;
F 2e 1898
82.
CPI,
New York, January 9, To George
1912.
Peagram, Prague,
January 29, 1912. 72. To H. Zangger, Prague, Janu-
p.
281.
and Alileva lived apart
H. A. Einstein
— The
divorced
in
Whitand His
G.
in
J.
Man
To M.
p. 20.
Besso, Prague,
ber 21, 1911, in Besso, 83.
To M.
March
3,
To C. Seelig, 1952, ETH. 85. See
p. 32.
also
a
p. 32.
Princeton,
letter
to
Meyer-Schmid of December
To C. Seelig, 20, 1952, ETH. 87. To C. Seelig, 5, 1952, ETH. 86.
Decem-
Besso, Zurich, end of
84.
5,
to Einstein,
Milan,
Marie,
they were
Einstein
(5).
1912 (not in Besso).
undated,
spring 1912.
George Peagram
to
STPK, Darm-
February 1914, in Besso, Zangger,
3,
Nernst to Emil Fischer,
Achievement (London, 1967), 81. To M. Besso, Prague,
1912,
ary 27, 1912.
W.
staedter Collection
after
If.
Prague,
no reference
is
Berlin, July 30, 1910,
Minutes of the Swiss Education Council for 1912, meeting of
Switzerland,
March
Besso, Prague,
79. Einstein
66.
To
To M.
respondence there
Seelig, p. 230.
1912, in
quotation
from Karl von Mayenn, EinDialog mit den Ko liegen, in Berlin
78.
65. Seelig, pp. 23
has not so
1912 (not in Besso). In Einstein’s cor-
Seelig, p. 228.
71.
Paul Ehren-
“talking shop.”
care to Pierre Weiss, pp. 228ff., in
70.
—biography,
is
76.
Marie Curie to Pierre Weiss,
67.
in
Symposion, pp. 464ff.
M. Grossmann to Einstein, Zurich, December 12, 1911, ETH. 62. H. Zangger to Rudolf Gnehm,
Paris,
—
made use of many respects
Klein
The second volume been published. The
far
61.
63.
his
J.
and note-
Boerhaave in
174ff.
is lost.
60.
,
diaries
Museum
at the
in Seelig,
18, 1911,
Ehrenfest
(1934), in Spate Jahre, p. 204.
tember 20, 1911. 57. To H. Zangger, Prague, No15, 1911.
Paul
May
Annelie 17, 1926.
Princeton, April
Princeton,
May
,
Notes
To
88.
Lowenthal,
Elsa
Prague,
Tuesday, April 30, 1912. Elsa Lowenthal’s letters to Einstein were de-
him
by
stroyed
her
at
presumably to deny Mileva
111
Relativity
request, a
point of
—
December
Lowenthal kept Einstein’s of which this is the first in a
—
tied-up folder;
on
a
card attached to
it
from better days.”
89.
To
May 7, 90.
May 21, 91.
Lowenthal, Prague,
Elsa
1912.
Ibid.
3.
Dictionary of Scientific Biography, p. 61.
Grundgedanken und Methoden der
4.
[Fundamental
dargestellt
in an interview with
from
(see n. 10).
92. Ibid.
and
1912a
93. Einstein
manuscript
1912d.
of
1920,
5.
Ibid.
6.
Henri Poincare, Sur
mique de
Matematico di Palermo, Vol. 21,
chemischen Aquivalentgesetzes [Thermo-
1906, pp. 129ff. and 166ff.
of the
Law
Photochemical Equivalence], in
AdP,
p.
37,
832, and 38, p. 881 (1912).
Johannes Stark, Uber die Anwendung des Planckschen Elementarge-
auf photochemische Bemerkung zur Mitteilung
Reaktionen.
stein
[On
mentary
des
Hr. Ein-
the Application of Planck's Ele-
Law
Photochemical Reactions.
to
Observation on Einstein's Paper], in
AdP,
38, 1912, p. 467.
95. Einstein
,
8.
See
Einstein’s
also
letter
to
Stark of September 25, 1907, ac-
J.
cording to which Einstein was acquainted
with
only
with
papers
five
none of which
relativity theory,
theory;
gravitation
on
dealt Stark,
in
269.
9 1 2d.
9.
96. Havranek, p. 108 (see n. 56 to
Chapter
Korpem, in Gottinger
in bewegten
Nachrichten 1908, pp. 53ff.
p. 1
Hermann Minkowski, Grund-
gleichungen der elektromagnetischen Vor-
gdnge
94.
setzes
7.
of
Dyna-
la
in Rendiconti del Cir-
1' electron,
colo
Justification
quoted
Pais, p. 175.
Thermodynamische Begriindung desphoto-
dynamic
and
Ideas
Their Development], unpub-
sented in
lished
Otto Stern
Res Jost
922 j.
Methods of the Theory of Relativity Pre-
1912.
To
1
Relativitdtstheorie in ihrer Entrwicklung
Lowenthal, Prague,
Elsa
14, 1922, in Einstein
2.
Vol. 10,
she had written: “Especially beautiful letters
Einstein in his Kyoto lecture of
1.
attack. Elsa letters
Toward the General Theory of
16.
Einstein 1933d, pp. 135f.
10. Ibid.
“Inertial
11.
14).
m
mass”
appears as
t
97. Frank, p. 170.
inertial
98. Ibid.
Newton’s law of force, his so-called Second Axiom: K = m b. “Gravita-
99. Prager Tageblatt of
1912, quoted in
Chapter 100.
84
(see n.
5,
56 to
To
Illy, p.
102. See
ETH;
in Seelig, p. 221.
,
p.
mass”
also
432.
mg
free
fall,
m = mg t
2 .
with
is
that of gravitation
Hence b
it
follows for
M
=
g 2/r
.
12. Einstein 191 7d, p. 54.
84.
John
Stachel,
Genesis of General Relativity
Symposion
tional
2
C. Habicht, Prague, Feb-
acceleration in
to
t
K = mgMg /r
14).
ruary 12, 1912 101.
Illy, p.
August
resistance
The
in Berlin
13. Einstein
1970h,
14. Ibid., p. 456. 15. Ibid., p. 458.
p.
454.
2 ,
that
Notes
778
17. Ibid., p. 461.
Gerhard Kowalewski, Bestand und Wandel (Munich, 1950),
18. Ibid., p. 462.
p.
16. Ibid., p. 459.
Stark to
19. J.
October
wald, p.
Stark, Bern,
J.
November
April 41.
21. Einstein 1933d, p. 136.
42.
This emerges from the “Cor-
February 1908, in Jahrbuch
Vok
,
5,
December
1907,
24,
Seelig, pp. 127f.
Bern,
in
ETH
—Dunkle
and
Zeit, p. 14.
14,
To
L. Hopf, Prague, June 13,
To
L. Hopf, Zurich, August
16, 1912.
45. Louis
Dunkle Zeit
Erinnerungen
Kollros,
Kommilitonen,
eines
24. Helle Zeit
ETH.
1912,
1912. 44.
Habicht,
Prague,
Kleiner,
AdP, 38, 1912, p. 356. Kyoto lecture, December
43.
pp. 98f.
To Conrad
Alfred
1922, Einstein 1922j.
rections” written toward the end of
23.
To 1,
1907, in Stark, p. 271.
22.
Relativitdts-
prinzip (Braunschweig, 1911). 40.
To
von Laue, Das
39. Alax
270. 20.
1,
Stark,
in
1907,
4,
238.
Greifs-
Einstein,
and
389;
p.
—
Helle
in
Zeit
p. 27.
,
25. Einstein 191 lg, p. 898.
46. Skizze, p. 15.
26. Ibid., p. 906.
47. See also Einstein’s account in
27. Ibid., p. 908.
To
28.
tember
E. Freundlich, Prague, Sep-
1911.
1,
To
29.
January
8,
tember
1,
p.
Kyoto 47;
Einstein
lecture,
1
922 j,
and the accounts of Pais and
Straus, in Pais, p. 213.
Freundlich,
E.
To
30.
the
Prague,
48.
To
1912.
October
E. Freundlich, Prague, Sep-
p. 26.
1911.
To j. J. Laub, Prague, August 10, 1911, ETH. 32. To L. Hopf, undated, Prague,
1912,
29,
Munich, November
Zurich,
Sommerfeld,
in
Sommerfeld
49. A.
31.
Sommerfeld,
A.
to
1,
D. Hilbert,
1912, in
Som-
merfeld, p. 27. 50. Skizze p. 16. ,
December 1911 33. Einstein
34.
To M.
51.
1912b and 1912c.
28, 1913.
Besso, Prague,
March
26, 1912 (notin Besso). 35. F. A.
Brussels,
to his father,
1911; reprinted
in the Earl of Birkenhead,
To
Ernst
summer
To
Mach,
May
Zurich,
1913.
P. Ehrenfest, Zurich,
May
54. Einstein 1913c. 55.
John
Norton,
How
Einstein
Eound His Field Equations: 1912-1915,
Quoted
37. Interview
in
Constance
Reid,
typescript,
in
HSPS,
Vol. 14, Part
2,
1984, pp.
253-315. p.
56. Einstein
11,
ETH.
1933 d,
in
Weltbild,
p. 138.
See
also
Hugo
Bergmann,
Personal Remembrances of Albert Einstein
P. Ehrenfest, Zurich,
28, 1912.
Two Worlds (Cambridge,
Hilbert (Berlin, 1970), p. 112.
38.
53.
The Pro-
1962), p. 42. 36.
52.
undated,
Lindemann
November 4,
fessor between
To
or January 1912.
in
Boston
Studies,
Vol.
XIII,
57.
Max
Born,
Besprechung
von
u
Entwurf
einer verallgemeinerten Rela-
tivitdtstheorie
und
einer
Theorie
der
;
.
Notes Gravitation ,” in
NW, Vol.
2,
1914, pp.
779
From Zurich
17.
to Berlin
448 f.
To H.
58.
August
Lorentz,
A.
Zurich,
The
14, 1913.
The
1.
address was Hofstrasse 116.
details of the
59. Einstein 191 3f.
ken from
60. Einstein 191 3g.
District Court,
61. Ibid., p. 1251.
STZ.
62. Ibid., p. 1255.
2.
63. Ibid., p. 1262.
Conference
64.
report
in
PhZ,
3.
4.
on
Einstein’s lec-
5.
E. Freundlich, Zurich, un-
To M.
6.
Besso, Zurich, undated,
end of 1913.
PhZ, Vol.
70.
To
dated, 71.
14, 1913, p. 1262.
E. Freundlich, Zurich, un-
August 1913.
To
dated, 73.
To
E. Freundlich, Zurich, un-
74.
cember
7,
it
To
L. Hopf, Prague, June 12,
This tradition continued. Be-
George
Hale,
Zurich,
E. Freundlich, Zurich,
the
1913.
E. Freundlich, Zurich, un-
77. Einstein
To M.
1
9 1 4i
remained
to an ordinary profes-
Ernst
for
Nobel Prize
Schrodinger,
Schrodinger received in 1933.
Otto Stern, typescript,
M. von Laue to C. Seelig, Berlin, March 13, 1952, ETH. 10. To M. Besso, Zurich, undated, end of 1913, 11.
dated,
in Besso, p. 50.
To M. March
Solovine, Zurich, un-
1913, in Solovine, p. 14.
12. Einstein
1913b.
13. Einstein 1913c, p. 226.
p. 52.
14.
To
H. Zangger, Zurich, March
10, 1914.
81.
To M.
Besso, Zurich, undated,
beginning of March 1914, in Besso, p. 53.
82.
3,
10, 1914.
Zangger, Zurich, March
To
Marie Curie, Zurich, April
1913.
Eve Curie, Madame Curie English translation by Vincent Sheean (London/Toronto, 1938), 15.
p.
Quoted
in
Quoted
in
296. 16.
To H.
11,
Ibid.
beginning of March 1914, in Besso,
80.
p.
9.
Besso, Zurich, undated,
79. Einstein 1914a.
to
ETH. 8.
De-
first
ensure that he would stay longer than
dated, beginning of 1914.
78.
To
was upgraded
7.
75. Ibid. 76.
Laue, Prague, June
vacant after Laue’s departure. In 1917
14, 1913.
To
To M. von
cause of the war, the post of “extra-
August 1913.
October
Kleiner, Prague, April 10,
his predecessor.
E. Freundlich, Zurich, un-
To
To A.
sorship
dated, 1913. 72.
L. Hopf, Prague, June 12,
ordinary” professor at
69.
63 14 32.
1912.
dated, January 1914. 68.
B XII Zch
10, 1912.
ture, ibid., p. 1263.
To
tenancy dispute, Zurich
a
1912.
65. Ibid.
67.
ta-
1912.
Vol. 14, 1913, p. 1073.
66. Discussion
To
apartment are
Martin J. Klein, Paul
Ehrenfest (Amsterdam, 1972), p. 295. 17.
Berlin,
M. von Laue to Carl March 13, 1952, ETH.
Seelig,
780
Notes Otto
18.
Stern
script, p. 12,
type-
ETH.
on
ference
dated, after
(Boston,
Physics
1975),
Prussian
Hugo
to
Ministry
of
Kriiss,
dated,
Education,
44.
21. See Berlin, pp. 7f;
and Docu-
ments 1-6, pp. 96-100.
25. Ibid., p. 97.
dated,
To
28.
to
August
Elsa
F.
Linde-
A.
18, 1913.
Lowenthal,
Zurich,
November
1913,
22,
To M.
in
dated,
in Besso, p. 50.
(Wiesbaden,
Erstrehtes
To J. J. Laub, Zurich, 1913, ETH, in Seelig, p. 245. 36. To H. A. Lorentz, 35.
July 22,
Zurich,
14, 1913.
December
Lowenthal,
Elsa
P. Ehrenfest, Zurich,
un-
end of 1913. Hugo Bergmann, Personal Re-
Studies XIII, p. 390.
ber 22, 55.
Stodola
May 12, 1919. To H. Zangger,
7,
1913.
Zurich,
to
Ehren-
was
address
Doc.
Einstein,
7:
Letter
p. 101.
To
the
Royal Prussian Aca-
of Sciences, Zurich, December
1913, in Berlin, Doc.
Otto
Stern
8, p.
101.
interview,
type-
ETH.
script, p. 13,
Doc. 22-32, pp. 112-20.
58. Einstein 1914e. 59. eines
Louis
Kollros,
Kommilitonen
Dunkle Zeit 60.
,
39. Aurel
The
57. Berlin,
,
1915.
Zurich,
from Presiding Secretary of the Academy, Gustav Roethe, to Einstein, Novem-
56.
membrances of Albert Einstein in Boston
40.
Lowenthal,
Elsa
To
53.
demy
Zurich,
1913.
To Elsa Lowenthal, Zurich, un-
52.
1952),
p. 119.
38.
To
54. Berlin,
34. Friedrich Schmidt-Ott, Erlebtes
dated,
mid-December
Zurich, un-
bergstrasse 33.
(Stuttgart, 1983), p. 43.
To
To Elsa Lowenthal,
dated, beginning of
Besso, Zurich, undated,
33. Fritz K. Ringer, Die Gelehrten
37.
un-
undated, end of December 1913.
pp.
32. Ibid.
August
Zurich,
undated, end of December 1913.
end of 1913,
und
Lowenthal,
Elsa
To Elsa Lowenthal, Zurich,
51.
1077-99. 31.
To
50.
To J. J. Laub, Zurich, July 1913, ETH, in Seelig, p. 245. 30. Max Planck als Forscher, I,
10, 1913.
mid-October 1913.
49.
29.
Vol.
Zurich,
undated, end of November 1913.
undated, about July 14, 1913.
NW,
Lowenthal,
Elsa
mid-August 1913. 48. To Elsa Lowenthal, Zurich,
26. Seelig, p. 245.
Berlin,
Zurich, un-
undated, end of November 1913. 47.
mann,
Zurich,
To Elsa Lowenthal, Zurich, un-
46.
24. Ibid., p. 99.
Nernst
To
dated,
23. Ibid., p. 97.
W.
Lowenthal,
Elsa
mid-August 1913.
45.
22. Berlin, p. 96.
27.
14, 1913.
To Elsa Lowenthal,
October
Pontresina, J anuary 4, 1913.
Zurich, un-
undated, about July 14, 1913. 43.
Haber
March
To
42.
XXIII. 20. F.
To Elsa Lowenthal,
41.
Jagdish Mehra, The Solvay Con-
19.
p.
interview,
To
,
,
in
Erinnerungen Helle
Zeit
—
p. 30.
P. Ehrenfest, Berlin, April
10, 1914.
61. Ibid. Berlin, July 7,
62.
1914.
To
A. Hurwitz, Berlin,
May
4,
.
.
Notes
781
63. Ibid.
tions of
64. Ibid.
in
To
65.
May
P. Ehrenfest, Berlin,
25, 1914. P. Ehrenfest, Berlin, April
soren
7.
M.
January
Besso to Einstein, Bern, Besso recalls that “I had to
back from
bring Mileva
Berlin
8.
Helen Dukas
information A.
to
in
Pais,
to
Georg Ibid.,
9.
Friedrich
Die
Nicolai,
“Aufruf an
13,
p.
die
Ibid., p. 13.
To
from
11.
Pais,
undated,
242.
Ehrenfest,
P.
end of 1914,
Berlin,
Frieden,
in
p. 20.
May
69.
To
70.
H. A. Einstein
C. Seelig,
1952.
5,
G.
in
auf
die
Max
des Sekretars
Max
To H.
14.
Antrittsrede
[Reply by Secretary
16,
Planck
to
Ein2,
Romain
15.
de PEurope,
1915. This
war
pp. 742-44.
no
Zangger,
source,
undated, Berlin, February 1915.
Einsteins
Inaugural Address], in SB, Vol.
Rolland, La Conscience
entry of September
16,
Rolland’s diary of the
is
1914-1918.
years,
Franziska Baumgartner-Tramer,
16.
Erinnerungen an Einstein in Der Bund
Madhouse”:
18. “In a
January
1917, in Berlin, p. 160.
72. Einstein 1914k.
Planck
from the Reich Chan-
13. Letter
cellor to Einstein, Berlin,
p. 20.
71. Einstein 191 4f
Enviderung
Berlin, p. 10.
12.
Whit-
J.
row, Einstein (London, T 967),
A
though without the
10. Ibid., p. 14.
68. Personal
stein''s
Weltkrieg (Stuttgart,
Europaer ” [“Appeal to Europeans”].
Zurich.”
73.
deutscher Profes-
Biologie des Krieges (Zurich, 1919), p. 12.
17, 1928, in Besso, p. 238. In
this letter
p.
Ersten
im,
e.g.,
of signatories.
list
10, 1914.
67.
documents,
I
Aufrufe und Re den
1975), pp. 47-49,
To
66.
World War
,
,
Bern,
July
Pacifist in Prussia
10,
1955;
reprinted
in
Frieden, p. 27. 1.
To
P. Ehrenfest, Berlin,
August
August 23, 191 5,
19, 1914. 2.
Ibid.
Foreword Emanuel Lasker
Hannak,
Johan
to
(Princeton,
Planck, Rektoratsrede
zum
August
Universitat,
Deutsche
stimmen No. 33, 1914. also Kurt 5. See
Hochschul-
Walther Nemst und heim, 1976), pp. 6. “Aufruf an peal
to
Vossische p. 7.
the
1
Mendelssohn,
seine Zeit
(Wein-
1.
Au-
A.
22.
see
2,
1915, in Frieden,
Berlin,
p. 29.
A. Lorentz, Berlin, Sep-
Lorentz,
1915, in Frieden,
On
also
Lorentz,
science in
Berlin,
p. 30.
World War
John Ziman, The
I,
Forces of
Knowledge (Cambridge, England, 1976),
12f.
die Kulturwelt. ”
Cultured
in Frieden, p. 3
tember 23, 1915. 21. To H. A. August
,
2,
To H.
20.
3.
der Berliner
Stiftungsfest
in
am
Berlin,
P. Ehrenfest, Berlin,
To H.
19.
August
Max
Rolland,
gust 23, 1915, in Frieden, p. 30.
1952),
X. 4.
To
18.
3.
p.
To Romain
17.
[“Ap-
World”],
Zeitung of October
4,
in
1914,
Repeatedly reproduced in collec-
pp. 302ff.
Nachruf auf Otto Sackur [Obituary for Otto Sackur\, in PhZ, 16, 1915, 23.
pp.
1 1
3 ff
Notes
782 24.
To
P. Ehrenfest, Berlin,
Au-
The
Strasse
address was Wittelsbacher
corner
13,
was destroyed in
See also Peter Galison,
50.
Humm,
Tage-
and
To M.
51.
Besso, Berlin, February
28.
To
P. Ehrenfest, Berlin,
Au-
E.
also
the
F.
Freundlich’s
academy of De-
application
to
cember
1913; and notes in Ber-
lin,
7,
Earman and C. Glymor, and Eclipses, in HSPS, 11,
Relativity
53.
“Einstein
Problem,
”
in
If.,
erroneously given as
is
Rolland to Einstein, Ge-
To
22, 1915.
A.
Sommerfeld,
(Riigen), July 15,
December 57.
Sellin
Sommer-
1915, in
Sommerfeld 25, 1914,
To H.
W. Wien,
to
STPK.
Zangger, Berlin, July
7,
1915.
37. Ibid., p. 1080.
58. R.
P. Straneo, Berlin, January
La
Rolland,
REurope (see
1915.
41.
Berlin,
1915.
56. A.
36. Ibid:, p. 1079.
March
Rolland,
22, 1915; in Frieden, pp. 3
March
55.
35. Ibid., p. 1030.
40.
May
feld, p. 30.
14, 1983, pp. Iff.
34. Einstein 19141, p. 1030.
March
To Romain
May 22,
33. Ibid.
39.
Zangger, Berlin,
where the date
neva,
Campbell and the
7,
To H.
p. 161.
28, 1915.
32. J. Crelinstein, William Wallace
To
1922, in Berlin,
54. R.
31. Ibid.
38.
9,
52.
1980, pp. 49ff.
HSPS,
Minutes of the Meeting of the
March
pp. 164ff. 30. J.
more com-
Technical Reich Institute of March 8
and
gust 19, 1914. 29. See
account;
Board of Trustees of the Physical-
1915 (not in Besso).
15,
a
How
1987), pp.
extensive
247-52, for
Pais, pp.
pact one.
27.
an
for
buch in Seelig, p. 259. ,
End (Chicago,
Experiments
34-74,
II.
Rudolf Jakob
26.
49. Einstein 191 5d.
Konstanzer
of
Strasse; the building
World War
Besso, Berlin, February
15, 1915, in Besso, p. 58.
gust 19, 1914. 25.
To M,
48.
n. 15),
Vol.
Conscience 1,
de
pp. 696ff.
59. Ibid.
To
T.
Levi-Civita,
Berlin,
Meine Meinung liber den Krieg, undated manuscript, end of Octo-
Levi-Civita,
Berlin,
ber or beginning of
November
26, 1915.
STPK; with
excision
To M.
paragraphs
5,
1915.
To
T.
Besso, Berlin, February
15, 1915, in Besso, p. 58.
60.
Goethes
42. Fliickiger, p. 172.
the
published
in
—Ein
1914-1916
of
1915,
two
Das Land vaterldndis-
43. Ibid.
Gedenkbuch [The Country of Goethe 1914-1916 A Patriotic Album], pub-
44. Einstein, 191 5d, p. 157.
lished
45. Ibid., p. 170.
(Berlin, 1916.)
46.
De Haas
found
greater value in Leyden,
ches
—
a
g
also Proceedings of the Royal Sciences,
somewhat
=
1.2; see
Academy
of
Amsterdam, 1916, pp. 128 Iff.
47. Einstein
1
91 6g.
61. lin,
by
To
Berliner
Berliner Goethebund, Ber-
November
To
A.
November
28,
62.
p. 32.
Goethebund
11,
1915,
STPK.
Sommerfeld,
Berlin,
1915, in Sommerfeld,
Notes 19.
"The Greatest Satisfaction of
My
Life":
783
dence that the deflection of light by the curvature of space has the same
The Completion of the
value as that derived from the equiva-
General Theory of Relativity
lence
To
1.
March
Walter Dallenbach,
Berlin,
Ibid.
3.
To
cember Sommerfeld,
(Riigen), July 15,
1915, in
Sellin
Sommer-
19.
To W.
de Haas, no place,
J.
undated, end of August 1915.
vitationsverschiebung der Spektrallinien
[On
Fixstemen
bei
Shift of the Spectral Lines of Fixed Stars], in
PhZ, XVI, 1915,
To M.
6.
pp. 145-17.
To W. To
ber
Dallenbach, Berlin,
May
10.
To
A.
November
28,
Berlin, Janu-
Sommerfeld,
Berlin,
John Norton, How
Found His Field Equations: 1912-1915 in HSPS, Vol. 14, Part 2,
Einstein
,
Einstein’s
letter
Conrad Habicht of December Chapter 14.
See
p.
Einstein
16.
Einstein 191 5h.
1
9 1 5i,
it
is
p.
Besso, Berlin,
To M. To
p. 37.
Decem-
p. 60.
Besso, Berlin,
Decem-
p. 61.
Ehrenfest,
P.
Berlin,
26, 1915.
To H.
Zangger, no place (Ber-
undated (presumably December
1915); see also
Comment
on
and
Hilbert
the
H. A. Medicus, Relations
Einstein,
A
between
American
in
lichen Gesellschaft der Wissenschaften
Mathematisch-physikalische
On
Einstein and Hilbert, see
following
Mehra,
779.
zu
1915, pp. 395-407.
31.
(see
the
17. Actually,
1915, in Sommerfeld,
9,
December
3,
place
1915).
ber 21, 1915, in Besso,
Klasse,
n. 11).
15.
3,
ber 10, 1915, in Besso,
29.
no
Zangger,
Sommerfeld, Berlin, De-
To M.
26.
847.
5i, p.
Physik in Nachrichten von der Konig-
799.
Norton
John
also
91
1
undated, “Friday” (presum-
Gottingen,
Einstein 191 5g,
Sommerfeld,
28, 1915, in
24,
16).
13.
Berlin,
to
1907, quoted in Chapter 16 (see n. 23 to
Sommerfeld,
A.
Journal of Physics, 52, 1984, p. 206. 30. D. Hilbert, Die Grundlagen der
1983, pp. 253ff. also
From a
To A.
cember
lin),
See
in Theoretical Physics, in
December
25.
1915, in Sommerfeld,
also
Dirac,
others: P. A.
To H.
28.
p. 32.
See
M.
To
27.
H. A. Eorentz,
Pais, p. 256.
one example that can
is
many
(Berlin),
Novem-
D. Hilbert, Berlin,
1916.
12.
This
ably
1,
11.
21.
23. Einstein
derivations.
ary
Quoted from
24.
ized the faulty nature of his earlier
To
Janu-
November
writes that ‘’four weeks ago” he real-
9.
P. Ehrenfest, Berlin,
20.
22.
Besso, Berlin, February
1915; in this letter Einstein
7,
To
p. 33.
31, 1915. 8.
p. 37.
Life of Physics (Trieste, 1968).
15, 1915, in Besso, p. 57. 7.
Sommerfeld, Berlin, De-
1915, in Sommerfeld,
Methods
Gravitational
the
2.
9,
stand for
Erwin Freundlich, Uber die Gra-
5.
result
ary 16, 1916.
feld, p. 30. 4.
To A.
18.
A.
the
that
appears to be multiplied by
31, 1915.
2.
so
principle,
studies:
Einstein, Hilbert,
(a)
and
Jagdish
the Theory
of Gravitation (Dordrecht and Boston,
only
a
coinci-
1974); (b)
J.
Earman and C. Glymour,
Notes
784 and
Einstein
Two Months
Hilbert:
in the
History of General Relativity in Archive ,
for the History of the Exact Sciences
,
1978, pp. 2 9 1 ff
. ,
March
May 8,
pp. 261-65. Pauli,
Got-
1921, in Pauli, p. 27.
8,
W.
Klein to
33. F.
tingen,
W.
Klein to
32. F.
tingen,
(c) Pais,
19,
Pauli,
Got-
p. 31.
1921, in Pauli,
To M.
48.
Besso, Berlin, August
28, 1918, in Besso, p. 138.
To
49.
Naumann,
Otto
cation, Berlin,
December
Hermann
35. Pais, p. 265. Hilbert’s letter of
20, 1915, in Berlin, p. 170.
not keep
stein did
it
lost.
Possibly Ein-
because he did not
wish to be reminded of an unpleasant
36.
To
D. Hilbert, Berlin, Decem-
ber 10, 1915. 37. bert
See also Constance Reid, HilHeidelberg, 1970),
Rudolf
Humm,
Jakob
in
Klein to
39. F.
40.
May 8, To M.
W.
Pauli,
1921, in Pauli,
Got-
p. 30.
Besso, Berlin, January
To
January
H.
A.
Lorentz,
p. 36.
H.
53.
Struve
O. Naumann,
to
December
20,
1915, in Berlin, p. 169.
To A.
ruary
2,
Sommerfeld, Berlin, Feb-
1916, in Sommerfeld, p. 39.
To M.
55.
Besso,
21, 1915, in Besso, p. 61.
To Hermann
56.
De-
Berlin,
Weyl,
Berlin,
23, 1916.
57. Karl
Schwarzschild,
Gravitationsfeld
eines
Uber das
Massenpunktes
nach der Einstemschen Theorie
,
in SB,
1916, pp. 189-96.
1916, in Besso, p. 63. 41.
Sommerfeld,
52. Ibid.
November
Seelig, pp. 260ff.
NauDecember
Sommerfeld, Berlin, No-
28, 1915, in
cember
p. 141.
tingen,
vember
54.
(New York and
38.
To A.
51.
Berlin-Babelsberg,
episode.
1915, in
7,
Struve to Otto
mann, Berlin-Babelsberg,
seems to be
Edu-
Berlin, pp. 167f.
34. Hilbert, p. 395.
Straus,
Min.
Direktor in Prussian Ministry of
50.
apology, which Einstein mentioned to
3,
47. Seelig, p. 257.
Berlin,
17, 1916.
58. Karl
Schwarzschild,
Uber das
Gravitationsfeld einer Kugel aus inkom-
42. Ibid.
pressibler Fliissigkeit nach der Einstein-
43. Die Grundlage der allgemeinen
schen Theorie in SB, 1916, pp. 424-34.
Relativitatstheorie
,
in
AdP, 49, 1916,
769-822. Published in Einstein, Lorentz, and Minkowski, Das Relativipp.
tdtsprinzip
glish
translation,
translation 44.
3rd ed. (1919 et seq. En-
,
1920.
French
by Solovine, 1933).
Max
Born, Einsteins Theorie der
und der allgemeinen RelaPhZ, 17, 1916, pp. 51-59.
Gravitation tivitdt, in
45.
To M.
Born, Berlin, February
27, 1916, in Born, p. 20. 46.
Erwin Freundlich, Die Grund-
lagen der Einsteinschen Gravitationstheorie (Berlin, 1916).
,
59. Einstein 1916c.
60. Einstein 1918a, p. 154.
On
61.
mental
this test
tests
and other experi-
of the general theory of
relativity, see the precise
and compre-
hensible presentation by Clifford
Was
Will,
Einstein Right?
(New
M.
York,
1987). 62.
To M.
1916, in Besso,
Besso, Berlin,
May
14,
p. 69.
63. Einstein 1913c, p. 228. 64.
ruary
To 4,
P. Ehrenfest, Berlin,
1917.
'
65. Einstein 1917a, p. 144.
Feb-
785
Notes 66. Ibid.
68. Grundziige
p.
Appendix
,
der
Relativitatsthe-
(Braunschweig, 1956),
1
If.
Line
Gamow, My
George
(New
marked
York, 1970),
p. 150:
term was
Leopold
Infeld,
biggest
the
blunder he ever made in his
p.
“he re-
that the introduction of the
cosmological
70.
World
life.”
Schilpp,
in
343.
February
Sommerfeld,
A.
1916,
8,
in
Berlin,
Sommerfeld,
p. 40.
To A.
72.
gust
Sommerfeld, Berlin, Au-
1916, in Sommerfeld,
3,
p. 41.
To M.
in Besso,
75. Einstein 1916j, p. 319.
is
the issue
memory of Professor Kleiner, who had died on July
published
in
19 lo. Identical text in PhZ, 1917,
121-28. 78. Ibid., p. 127.
To M.
tember
6,
Besso,
1916, in Besso,
Berlin,
Sep-
p. 82.
1916, in Besso,
To
8.
To M.
Besso, Berlin,
1917, in Besso,
20. Wartime
1916.
6,
Ehrenfest,
P.
9.
Fragmentarischer
Entwurf aus dem Jahre 1928 probably for a memorial address on the death of H. A. Lorentz, quoted in Martin Klein, Paid Ehrenfest (Amsterdam, 1970), pp. 303f.
To AI. Besso, October 31, 1916. To P. Ehrenfest, Berlin, Oc-
tober 18, 1916. 12.
To
P. Ehrenfest, Berlin,
To W.
Octo-
Besso, Berlin, October
14.
To H.
vember
A. Lorentz, Berlin,
March
9,
15.
Wien
16.
To H.
STPK, and letter from A. Sommerfeld to W. Wien of December 25, 1914, DMM. papers,
Zangger, Berlin, un-
dated, probably April 1917.
To M.
Besso, Berlin,
18.
To H.
ruary in Berlin
Dallenbach, Berlin,
May
To
4,
Besso, Berlin,
December
21, 1915, in Besso, p. 61.
To M.
Besso, Berlin, July 14,
in Besso).
A.
Lorentz, April
9,
3,
p. 38.
P. Ehrenfest, Berlin,
Feb-
1917.
To H.
cember
March
p. 103.
1917, in Frieden,
p. 103.
No-
13, 1916, in Frieden, p. 36.
6,
Zangger, Berlin, De-
1917.
21. Einstein
To M.
1916 (not
To M.
1917, in Besso,
31, 1915.
3.
August
tember
20.
2.
P. Ehrenfest, Berlin,
and M. Besso, Berlin, Sep-
19.
1.
p. 80.
25, 1916,
17.
80. Einstein 191 7h, p. 128. 81.
Besso, Berlin, August 24,
31, 1916, in Besso, p. 84.
77. Einstein 1916k; this
79.
To M.
7.
13.
76. Ibid., p. 322.
p.
Besso, Berlin, September
ber 24, 1916.
pp. 78f.
3,
July
1916, in Besso, p. 81.
11.
Besso, Berlin, undated,
presumably mid-July 1916,
Alfred
To M.
6.
10.
73. Einstein 1916c, p. 696. 74.
Berlin,
,
To
71.
Zangger,
25, 1916.
6,
69.
To H.
5.
111. Amplified version of Einstein
192
Besso, Berlin, July 21,
1916 (not in Besso).
67. Ibid., p. 151.
orie
To M.
4.
1916m.
22. Ibid. p. 509.
There is, incomprehensibly, no on Hermann Anschiitzliterature Kaempfe, his fascinating life, or his 23.
Notes
786
on the archive of the firm of Anschutz & Co. in Kiel and on the publication preinventions.
pared for the firm’s in
1955.
I
myself
base
I
am
fiftieth
opinion. 37.
To M.
Besso, p.
August
7,
sische
had been motivated to conduct
ed., p. 2.
his
gyromagnetic experiments by “tech-
on the gyrocomEmile Meyerson of
nical expert opinions
to
(letter
May
13, 1917, in
14.
Unterredung mit A. Einstein
1915, Einstein later recalled that he
pass”
1
Besso,
38. Friedrich Adler als Physiker. Eine
his help.
24. Patent expertise of
by the
treatise
court with a request for an expert
anniversary
grateful to Dipl.-Ing.
Bernhardt Schell for
had been sent Adler’s
Zeitung
39.
To
,
May
from Braunthal
morning
23, 1917,
Friedrich
Vos-
in
,
quoted
Adler,
(see n. 27).
40. Friedrich Adler, Ortszeit, Systemzeit, Zonenzeit
und das ausgezeichnete
January 27, 1930), but these experiments began toward the end of 1914.
Bezugssystem der Elektrodynamik
Thus he must have been commis-
FJyitersuchung iiber die Lorentzsche
sioned to give an expert opinion soon
Einsteinsche Kinematik (Vienna, 1920).
after his arrival in Berlin in 1914.
25.
To M.
Besso, Berlin,
1916, in Besso, 26.
To
May
14,
8,
Au-
43.
27. Adler’s assassination of Stiirgkh,
are
and
its
described
Victor
and
Julius
Friedrich
Braunthal,
Adler
(Vienna,
1965), pp. 230-51. 28.
To
Katya Adler, Berlin, Feb-
44.
To
Adler,
Berlin,
dated, 31.
To H.
1917, in Besso, 32.
May 5, 33
.
p. 105.
M. Besso
The
—
eine
Vor dem Aus-
17,
35.
Katya Adler,
dated,
1917, in Braunthal (see
52.
To M.
1917, in Besso, 36. Frank,
8,
Besso, Berlin,
May
13,
p. 114.
also
Pschyrembel, Klini-
Worterbuch
Berlin
,
is
(1982),
now
only a
To M.
Besso, Berlin,
March
9,
p. 102.
50. Ibid. 51.
n. 27), p. 248.
9,
p. 113.
To M.
1917, in Besso,
lung (Vienna, 1923).
February
March
Besso, Berlin, Alay
1113. “Scrofulosis”
49.
Dokumentensamm-
34. Friedrich Adler to
Feb-
historical term.
p. 110.
full text is in
nahmegericht
sches p.
to Einstein, Zurich,
1917, in Besso
To M.
48. See
Besso, Berlin, April 29,
Besso, Berlin,
1917, in Besso,
end of April 1917.
To M.
To M.
1917, in Besso, 47.
Zangger, Berlin, un-
P. Ehrenfest, Berlin,
Marie to Helene Savic, Zurich, end of May 1901, in CPI, Doc. 109, p. 303.
April 13, 1917. 30.
To
45. Mileva
46.
Friedrich
1917,
1917, in Besso, p. 102.
ruary 20, 1917. 29.
April
ruary 14, 1917.
political significance
in
und
in Besso, p. 103.
gust 22, 1917, in Frieden, p. 38.
his trial,
To C. Seelig, Princeton, 1952, ETH. 42. To M. Besso, March 9, 41.
p. 69.
R. Rolland, Lucerne,
—Eine
To H.
Zangger, Berlin, un-
end of April 1917. Data on Einstein’s
lectures
during the war years are taken from Besso, Berlin, April 29,
the listings in Physikalische Zeitschrift.
p. 106. p.
289; Philipp Frank
53. 3,
To
P. Ehrenfest, Berlin,
1917, in Frieden,
p. 38.
June
Notes 54.
Hedwig Born,
Albert Einstein
ganz privat. Repeatedly published: in Helle Zeit
here
—Dimkle
Zeit
,
e.g.,
pp. 35ff.,
On Hans Miihsam Zeit
Helle
and Ein-
—Dunkle
Zeit
56. 57.
To M.
May
Besso, Berlin,
1917, in Besso, p. 59.
To M.
To M.
tember 61.
1
14.
Besso,
June
Berlin,
Besso,
Sep-
Berlin,
September
12, 1917,
ZTPG.
A
few documents on the foundation of
Wilhelm
Kaiser
To W.
December 64.
von Siemens,
18, 1917,
1,
1
5 Of.
1919, to
Planck,
Planck, 67.
MPG. To H.
cember
5,
6,
1
un-
1918,
Zangger, Berlin, De-
9 i 7.
with
a
January 20, 1918,
To
Rolland,
R.
August 22, 1917,
in Frieden, p. 39.
Colleagues, April
79. Circular to 1
Lucerne,
9 1 8; in the Hilbert
file
of EA, 13 115;
further data are taken from a covering letter
by Einstein
To
80.
to Hilbert.
D. Hilbert,
Berlin,
end of
D. Hilbert to Einstein, Got-
81.
D. Hilbert to Einstein, Got-
82.
tingen, 83.
May 1, 1918. To D. Hilbert,
Berlin,
May 24,
1918.
.
Postwar Chaos and Revolution 1.
To M.
Besso, Berlin, January
1918, in Besso,
ruary 3.
p. 124.
To Hedwig 8,
Born, Berlin, Feb-
1918, in Born,
To
D.
5,
p. 23.
Berlin,
Hilbert,
un-
dated, end of April 1918.
To M.
Besso, Berlin, January p. 124.
4.
5.
A.
Sommerfeld,
Berlin,
March
1918, in
undated, beginning of
Sommerfeld,
p. 48.
To M.
Besso, Berlin, June 23,
1918, in Besso, pp. 126f.
70. Ibid.
To
along
in Berlin, pp. 198f.
2.
1917, in Besso,
71.
of Berlin,
21 Berlin,
68. Ibid. 69.
President
Police
March
on an application by Debye, passed on to beginning July
dated,
the
in
Chief of Staff to
Kaiser
31, 1920, in Berlin, p. 152.
To Max
Command
tingen, April 27, 1918.
Institute for Physics for the
period from April
66.
G. Nicolai, Berlin, Feb-
Marches.
Berlin,
65. Activity report of the
Wilhelm
Einstein, Berlin,
29, 1917.
High
77.
Siemens, Berlin,
1918, in Berlin, pp.
4,
Berlin,
April 1918.
MPG.
To W. von
January
Lorentz,
18, 1917.
To
76.
for
Institute
Physics are in Berlin, pp. 147ff. 63.
December
78.
tember 22, 1917, in Besso, p. 121. 62. A. von Harnack to Einstein,
the
A.
“blacklist,” Berlin,
Besso, Benzingen, Sep-
To M.
Berlin,
1917.
6,
Max Planck to
75.
1917, in Besso^p. 119.
3,
Zangger, Berlin, De-
To H.
74.
13,
24, 1917, in Besso, p. 117. 60.
(changed
ruary 28, 1917.
1945), p. 158. 58.
cember
(New York and London,
Thinking
To H.
December
Moszkowski, pp. 16f. Max Wertheimer, Productive
title
by the editor) Prinzipien der Forschung.
,
pp. 48-58.
des Forschens, in Weltbild,
under the
pp. 107-10,
73.
see
stein,
Motiv
72.
p. 36.
55.
787
To
P. Ehrenfest, Berlin,
1918. 6.
Rudolf Ehrmann,
Dunkle Zeit pp. ,
58ff.
June
5,
—
in Helle Zeit
Notes
788
To M.
7.
Besso, Berlin, September
Ibid.
9.
To M.
Born, Ahrenshoop, un-
Ahrenshoop,
Besso,
August 20, 1918, in Besso, p. 133. 12. To M. Born, Ahrenshoop, August
To M.
13.
Besso,
Berlin,
7,
Education
the
23, 1918, excerpt,
tations
from
ETH;
quo-
(undated) to the education authority,
December
To M.
19.
July 29, 1918, in Besso,
To M.
20.
December
Besso, Berlin, undated,
To M.
23.
1918, in Besso,
class
WS
p. 44.
To
November 27. 4,
28.
given
Pauline
relativity
To
undated,
1918,
11,
Einstein,
in
Berlin,
Besso, Berlin,
1918, in Besso,
Accounts
of
Born,
pp.
Frieden, pp. 44f.
Decem-
this
mistakenly given as
event
202ff.;
and
are in
B XII
Einstein,
Berlin,
1919.
Ehrenfest, Berlin,
Pauline
March
March Berlin,
Einstein,
1919.
To H.
42.
A. Lorentz, April 26,
know who
in
his
51.
A. Folsing
the other five
the committee were, but to
letter
Lorentz
Einstein
for their “absolutely pure
and
earnest attitude and sense of justice.”
To H.
43.
A. Lorentz, Berlin, Sep-
tember 21, 1919, in Frieden, p. 44. To H. A. Lorentz,
March 45.
53.
Berlin,
18, 1920, in Frieden, p. 54.
To H.
A. Lorentz, Berlin, Sep-
tember 21, 1919,
p. 145.
Zurich,
41. Ibid.
vouched
11, 1918, in Frieden, p. 43.
To M.
in
the
Education
the
1919, in Frieden, p.
and Paul Winteler,
Frieden, 26.
To P.
40.
1918/19, EA.
November
is
March
members of
Berlin,
of
Pauline
p. 126.
To Maja
25.
To
does not
for
p. 28.
1919).
Besso, Berlin, June 23,
Notebook
24.
Born,
22, 1919, in Frieden, p. 48.
p. 98.
p. 124.
5,
undated,
Besso, Berlin, January
1918, in Besso,
Born, Arosa, January
Zch. 6314.43.
39.
Currency exchange statistics of the German Bundesbank, Frankfurt.
To M.
Berlin,
37. District Court, Zurich,
p. 130.
21.
22.
202.
1919, in Sommerfeld, p. 55
5,
January
38.
Ahrenshoop,
1916, in Besso,
p.
1918, in Frieden, p. 48.
6,
(where the date
20, 1918.
Besso,
November
ETH. To A. Sommerfeld,
March
from Einstein
letter
a
in-
Council of Canton Zurich, December 36.
of
speech
Lorentz,
A.
35. Protocol
17. Ibid.
received on
a
1944, in Born,
To M.
23, 1918,
Protocol
206.
p.
Born, Princeton, Sep-
To- H.
December
Sep-
1918, in Besso, pp. 139f.
cember
ber
tember
34.
Council of Canton Zurich of De-
5,
To M.
16. Ibid.
18.
Born, in Born,
19, 1919, in
To M. 8,
Manuscript of
32.
in Besso, p. 133.
14. Ibid.
tember
31.
33.
Ahrenshoop,
Besso,
August 20, 1918, 15.
M.
1918, in Frieden, p. 45.
1918, in Born, p. 27.
2,
30.
but probably not made,
10. Ibid.
To M.
Born,
tended for the revolutionary students
dated, July 1918, in Born, p. 26.
11.
Max
in Born, p. 205.
22, 1917, in Besso, p. 121. 8.
As remembered by
29.
46. Protocol
in Frieden, p. 53.
of
the
Education
Council of Canton Zurich, July 1919,
ETH.
8,
Notes 47. Register of marriages, Berlin-
Wilmersdorf, No. 623/1919.
Thus
48.
from
in letter
Ein-
Ilse
Herneck,
Uber
die
deutsche Reichsangehorigkeit Albert Ein-
NW,
No.
To H.
50.
a detailed description 5
March
Tobenkin, Interview with
New
in
York Evening Post
26, 1921.
To M.
55.
,
New
Besso,
Antwort
an
York,
May
amerikanische
with Esther
57. In a conversation
spring
in
1924,
Seelig,
to
Herman
Berlin,
undated,
Einstein
and
wife,
MPG. 60. To Vero and Bice Besso, Prince-
1929,
March 21, 1955, 61. M. Planck to
ton,
in Besso, p. 537.
Einstein, Berlin,
July 20, 1919. 62. F.
to Einstein, Berlin, un-
To
63.
tember
P. Ehrenfest, Berlin, Sep-
Haber
to Einstein,
no
place,
undated, “Saturday,” August 1919.
245.
1919.
8,
P. Ehrenfest, Berlin, Sep-
12, 1919.
73. P. Ehrenfest to
To
74.
H. A. Lorentz,
P. Ehrenfest, Berlin, Sep-
12, 1919.
To
75.
To
76.
October
P. Ehrenfest, Berlin, Sep-
Pauline
Einstein,
Berlin,
19, 1919.
To 9,
P. Ehrenfest, Berlin,
den,
November
To
79.
cember
No-
1919.
78. P. Ehrenfest to Einstein,
Ley-
24, 1919.
P. Ehrenfest, Berlin,
De-
1919.
4,
80. Pierre Kerszberg,
The Inverted
Universe : The Einstein-de Sitter Contro-
and
mology
the Rise of the Relativistic Cos-
(Oxford,
1989),
gives
a
full
Einstein and de Sitter.
22. Confirmation of the
Famous 1.
To M.
Born, Berlin, Septem-
1919, in Born, p. 33.
Nachruf auf Moritz Katzenstein Dunkle Zeit p. 46. Helle Zeit 67.
in
Einstein,
to
Deflection of Light: "The Suddenly
M. Planck to H. von Ficker, Munich, March 31, 1933, in Ber65.
1,
Ehrenfest
12, 1919.
64. F.
ber
would
account of the discussions between
dated, July 1919.
66.
tember
versy
Haber
Einstein
to
German Bundesbank,
of the
To
vember
58. Sayen, p. 70.
Struck
more than 50,000 marks;
Frankfurt.
77.
p. 3 16.
59. Elsa
guilders
tember 28, 1919.
p. 45.
,
lin, p.
statistics
tember
Frauen 1932, in Weltbild, Salaman,
Dutch
Leyden, September 21, 1919.
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.
Albrecht Folsinc was born and studied physics
in
Germany in
1940,
and Hamburg. He became a science journalist and most recently has been head of the department of “Nature and Science” of a German radio and television station. In 1983 he published a biography of Galileo, which in
Berlin, Philadelphia,
aroused considerable public attention as well as gaining the respect of experts.
Jacket design by Martin Ogolter
Jacket photograph of Albert Einstein Institute for
in his
study at the
Advanced Study, Princeton,
N.J., 1947,
by Alfred Eisenstadt,
'
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me
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nc.
< d c/i
A
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