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English Pages [54] Year 1964
B
reason
HEAT
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2010
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The "Reason Why" Books
HEAT Irving and Ruth Adler
The John Day Company
:
The "Reason Why" Books by Irving and Ruth Adler AIR
ATOMS AND MOLECULES COAL COMMUNICATION EVOLUTION FIBERS
HEAT HOUSES INSECTS AND PLANTS IRRIGATION: CHANGING DESERTS TO GARDENS
LEARNING ABOUT STEEL THROUGH THE STORY OF A NAIL MACHINES
MAGNETS NUMBERS OLD AND NEW NUMERALS: NEW DRESSES FOR OLD NUMBERS OCEANS RIVERS SETS
SHADOWS STORMS TASTE, TOUCH AND SMELL THE EARTHS CRUST THINGS THAT SPIN TREE PRODUCTS WHY? A BOOK OF REASONS WHY AND HOW? A SECOND BOOK OF REASONS YOUR EARS YOUR EYES
© 1964 by Irving and Ruth Adler must not be reproany form without permission. Published by The John Dav ir ' " stlV(,t New York 36 x Y an(1 l' lf 'lL si muTt a n e orT?rC'^P^i a d a by Longmans Canada Limited, Toronto.
All rights reserved. This hook, or parts thereof,
duced
in
Si>Pw
L^'
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i
Congress Catalogue Card Number: 64-13788
MANUFACTURED
IN'
THE UNITED STATES OF AMERICA Third
Impression
:
Contents Level of Heat and
Amount
of
Heat
6
Broken Jars
8
Popping Milk Cartons
9
The Thermometer The Dance of the Molecules Burning: Molecules Take New Motion Makes Heat Heat Makes Motion Heat Makes Light Electricity
10 12 Partners
16
18
19
20
Makes Heat
21
The First Rule of Energy: Energy The Second Rule of Energy
Is
Never Lost
22
24
Taking Pictures Without Light
26
Gas and Plasma Measuring High Temperatures The Highest Man-made Temperatures Taking the Temperatures of the Sun and the The Heat of the Earth Heat and Life The Fire That Burns Inside You Heating Our Houses Refrigerators and Air Conditioners Taking Heat Away
28
Solid, Liquid,
Engines with the Fire Inside
Word
List
Them
30 32 Stars
33 34 36 38
40 42
44 47
In places where
it is
cold
we
We
houses to keep ourselves warm. ourselves T~l
r~-
y
warm,
too,
heat our
by wearing
keep
clothing.
Clothing keeps in the heat of our bodies.
it
We
heat our food to cook
soft
and
it
and make
tasty.
We heat metals and glass to make them Then we can work them and shape
soft.
them
We make run.
into useful things.
use the heat of burning fuels to airplanes,
We
ships
and automobiles
use the heat of burning fuels to
carry rockets into space.
We can even use
heat to take pictures.
The heat alive.
of burning food keeps animals
The h n.at
of the sun
warms
the earth
and gives us bright daylight. Plants and animals cannot live without the heat and light of the sun.
The heat
of the stars
we can
bright that
though they are
What
is
heat?
see
makes them
many
of
them even
billions of miles
How
does
it
so
do
away.
all
these
things?
How can we tell that something is hot? How can we tell how hot the air is? How can
we
tell
how
hot the sun
is?
What
is
the hottest thing on the earth? In this book on heat
we
answers to these questions.
shall find the
.
A
liquid flows
from a higher place
..
/
/
lower place
W
Amount
Level of Heat and
Water to
of
Heat
comes from a hot-water faucet
that
A
your hand.
drawer
... to a
feels hot
spoon that you take from the kitchen
feels cool to
your hand.
If
you put the spoon
into
a glass of hot water, the spoon begins to get hot. It gets hotter
and hotter until
got hot because
it is
The spoon water and went into
as hot as the water.
some heat
left
the
the spoon.
The heating
of the
spoon makes
heat behaves like a liquid. place to a lower place.
A
it
seem
stops
if
level of heat in a hot object
is is
as the
Heat seems
level of the liquid in the higher place.
same way. There
the level of
same
the liquid in the lower place becomes the
flow in the
though
from a higher
liquid flows
The flowing
as
heat in every object. higher than
it is
to
The
in a cool
object. If a hot object touches a cool object, heat flows
from the hot cool object,
flowing
object,
where the heat
where the heat
when
level
is
level
low.
is
high, to the
The heat
stops
the two objects have the same heat level. 6
.
The
level of heat in
an object
is
called
(TEM-per-a-chnre). Temperature
its
temperature
measured
is
in de-
crees.
The
level of heat in
in the object are
and a quart
jar
an object and the amount of heat
not the same. Suppose you
with hot water from a
perature, or level of heat, in both jars
kettle.
is
a pint jar
fill
The tem-
the same.
Now,
every pint of water at that temperature has a certain
amount
of heat in
it.
But a quart of water
much as a pint. So the quart much heat in it as the pint jar. The amount ories
(
jar of
of heat in something
is
twice as
water has twice as
is
measured
in cal-
KAL-o-rees ) --£
the temperature of the
If
water
In
both jars
is
the
same
...
A 1
QUART
.
.
.
then the level of heat
in
both jars
is
the same, but the
amount of heat is different. The water in the quart as much heat in it as the water in the pint jar.
jar
has twice
Broken Jars Every housewife knows that she must never pour a very hot liquid into a cold glass jar. To do so might
Heat flows from the hot liquid
crack the
jar.
glass.
makes the
It
makes the
the heat
makes the glass
glass try to take
A very hot
expand so quickly that the
Most things expand
know
warmer. At the same time,
glass
glass expand.
this, so
into the cold
as they
up more
liquid
space.
may make
It
the
glass will crack.
grow warmer. Engineers
they build concrete highways in sections
with spaces between them. The spaces give the concrete sections
room
in
which
there were no spaces
rails
expand during hot weather.
between the
mer sun would make Railroad
to
the
sections, the hot
If
sum-
highway buckle and
crack.
between them
for the
are laid with spaces
same reason.
x
8
After
a
while
little
the
cover of the carton will
pop open by
itself.
Popping Milk Cartons
Take a and
set
it
partly filled milk carton out of the refrigerator
on the kitchen counter. After a
cover of the carton will pop open
by
all
little
itself.
while the
Here
is
the
reason why.
Because the carton is
air
is
only partly
above the milk. The
filled
air presses
milk. It also presses against the sides
How
carton.
called
its
hard the
pressure
with milk, there
down
and the top
air presses against
(PRESH-er) on the
The warm kitchen makes the wanner. As the air gets warmer
air it
against the of the
the carton
is
carton.
inside the carton
presses harder and
harder against the sides and top of the carton. So the pressure of the air on the inside of the carton increases. Finally the pressure
is
so great that
it
makes the cover
pop open.
What happened
inside the milk carton
wanner
a gas like air
walls ol
its
container.
is,
the harder
it
shows that the
presses against the
The Thermometer
The
most things expand as they grow warm-
fact that
er gives us
ways
of measuring temperature.
measuring temperature
is
called a
The
tool for
thermometer
(ther-
MOM-eh-ter). Some thermometers use expanding to
measure changes
in temperature.
use expanding gases.
expanding
solids
Other thermometers
The weather thermometer
uses an
liquid.
-LThe weather thermometer
is
made
of a thin tube of
glass.
The tube
glass
bulb at the other end. The glass bulb of the ther-
mometer
is
is filled
sealed at one end. It
is
joined to a small
with a liquid. Alcohol (AL-ka-hall)
usually used for cheap weather thermometers. hol
is
colored red or blue to
make
it
The
is
alco-
Good
easy to seel
weather thermometers and doctors' thermometers are
MER-cure-ee)
filled
with a liquid metal called mercury
The
may be mounted on a scale with numbers Or the numbered scale may be printed right on the
on
glass
it.
(
tube
glass tube.
When
the temperature near a thermometer increases,
the liquid inside the thermometer expands. There
one way that the liquid can take up more space.
is
It
only takes
up more space by climbing up the tube of the thermometer. The warmer it becomes, the more the liquid expands.
The more
in the glass tube.
the liquid expands, the higher
The temperature 10
is
the
it
rises
number on the
scale to
Two
which the liquid reaches.
numbered
different
scales are usually
used on
thermometers. Both scales are based on the temperature at
which water freezes and changes
perature at which
it
boils
to ice
and changes
to
and the tem-
steam or water
vapor (VAY-per). The scale used in Great Britain and in the scale.
United States
On
the Fahrenheit (FARR-en-hite)
is
the Fahrenheit scale water freezes at 32 de-
grees and boils at 212 degrees. There are 180 degrees be-
tween the freezing point and the boiling point of water. Because
we
use a
number system based on
ter to use a scale that has
is
also
used
in
is
it is
bet-
100 degrees between the freez-
ing point and the boiling point of water.
with a scale like this
ten,
used for
A
thermometer
scientific experiments. It
most of the countries of the world. This
thermometer
is
thermometer.
It is also
called the Centigrade (SEN-tih-grade) called the Celsius (SELL-see-us)
thermometer, after the
man who
invented
it.
Centigrade or Celsius scale 10
20
30
40
50
60
70
80
90
4
1
t
T
32
100
50
70
90
110
130
150
Fahrenheit scale 11
170
190
212
_
The Dance of the Molecules Everything in the world (
is
made up
MOLL-eh-kules ) The smallest .
cule of water.
bit of
The smallest bit of salt
Molecules are so small that
water were put
in a row,
Molecules are moving
water
is
a mole-
a molecule of
salt.
forty million molecules of
they would take up only an inch. all
by
cules are held in place
if
is
of molecules
the time. In solids, the mole-
electrical forces.
cules of a solid are not free to
So the mole-
wander but they can
spin
and swing back and forth or vibrate (VY-brate). In
They can wander but they are kept close to each other by the electrical forces. In gases, the molecules are separated by big spaces and move about freely. You can see the movement of the molecules of a liquid liquids, the molecules are not held in place.
with the help of a microscope. First sprinkle a fine powder in some water. Then take a drop of water with powder in
it
powder
and look
at
it
under the microscope. The
bits of
They move this way and that. The bits of powder move because molecules of water keep bumping into them and push them around. If the water
is
are never
still.
They move
faster
because heating the water has
the molecules of water
The
powder move even
heated, the bits of
move
faster.
made
faster.
fact that molecules are
12
moving
all
the time helps
what heat
explain its
is.
The heat
of a
body
is
the motion of
molecules.
The plains
fact that molecules are
why
a spoon gets hot
The molecules
hot water.
moving
when
it is
in the hot
all
the time ex-
put into a glass of
water are moving
faster than the molecules in the cool spoon.
Where
the
water touches the spoon, the fast-moving molecules of
water give the slow-moving spoon molecules next to
them a hard push. The push makes the spoon molecules
move
faster.
These faster-moving spoon molecules,
~
The path
of a
look under a
molecule as microscope
it
would
13
B
in
The faster-moving water molecules make the spoon molecules move faster. So the spoon gets hot.
spoon molecules that they
turn, give
way
push. In this
and
faster
time,
faster
all
bump
into a hard
move
the molecules in the spoon
and the spoon gets warmer. At the same
when water molecules bump
into
spoon molecules,
the water molecules slow down. So the water gets cooler,
because
its
molecules are moving more slowly.
spoon molecules are moving as cules, the
The plains
and
why most
water mole-
fast as the
is
tions. So, as
heated,
a
body
they is
all
the time ex-
when they
are heated.
move
faster
make bigger and bigger
vibra-
molecules begin to
its
heated,
more and more. Because up more
moving
bodies expand
faster. In a solid
takes
the
spoon and water have the same temperature.
fact that molecules are
As a body
When
its
molecules swing out
of these wider swings, the
space. 14
body
The plains
fact that molecules are
why, the warmer
on the walls of
its
a gas
is,
container.
moving
the greater
fast.
against the walls of the container.
faster.
When
pressure
of air in a
They
When
often
the air
warmer, the molecules of
inside the container gets
move
is its
The molecules
milk container are moving around very
hump
the time ex-
all
the molecules
move
the walls of the container harder and
faster,
more
air
they hit
often.
When
they hit the walls of the container harder and more often, their pressure
on the walls
the air becomes warmer,
increases.
its
That
is
why, when
pressure on the walls of the
container increases.
=.-.
Fast driving
makes the
sure on the inside of the
air inside a tire tire
increases.
15
warmer. Then the pres-
Burning: Molecules Take
We
burn cooking
gas,
oil,
coal
New Partners and wood
to give us
heat for cooking and for heating our homes. Cooking gas, oil,
coal
and wood are
For
fuels.
fuels to burn, they
need
oxygen (OX-i-jen). Fuels usually get the oxygen they
need is
for
burning from the
air.
About
one-fifth of the air
oxygen.
The molecules of cooking gas, oil, coal and wood are made up of atoms of carbon C AR-bun and hydrogen Carbon and hydrogen are chemical eleHY-dro-jen ments. There are 102 different chemical elements. Atoms (
)
(
.
of chemical elements
Two
)
come together
to build molecules.
atoms of hydrogen and one atom of oxygen join to
make one molecule of water.
When a fuel burns, a chemical change takes place. The chemical elements in the fuel join with oxygen to change the fuel into something else.
When
gas, oil
and wood
burn, their carbon atoms join with atoms of oxygen in the air to
make molecules
of a gas called carbon dioxide
A hydrogen atom
An oxygen atom 16
(CAR-bun dy-OX-ide). Their hydrogen atoms join with oxygen in the air to make molecules of water vapor. These chemical changes take place
When these chemical off.
Scientists
in the flame.
changes take place, heat
have measured
this
amount
is
given
of heat.
They
have found that every time two atoms of hydrogen and
one atom of oxygen water, the
join together to
same amount
of heat
is
make
a molecule of
always given
off.
The chemical changes in which heat is given be made to work the other way around. For this pen, heat must be put
make water vapor entists
split into
oxygen
amount
join to
Two atoms molecule
of
to hap-
hydrogen and oxygen.
water into hydrogen and oxygen
as the
can
So heat has to be supplied to
have found that the amount of heat that
to split
same
in.
off
of heat given off
is
is
Sci-
needed
exactly the
when hydrogen and
fonn water vapor.
hydrogen and one atom
of water.
17
of
oxygen join
to
make
a
Rubbing your hands together makes them warm.
Motion Makes Heat
Whenever you fact that its
match, you make use of the
motion makes heat. To
tip against
made
"strike" a
something rough. The
of chemicals that
makes the
tip
strike a
burn
match, you rub
tip of a
easily. Striking
match
is
the match
hot enough to burst into flame.
There are many other things you do that show that
warm hot when pump hot
motion makes heat. You rub your hands together to
them up
in the wintertime.
you hammer
it.
You make a
nail
You make the barrel of a tire the piston in and out. You make a
when you pull hot when you drill
drill
a hole in wood.
Why do these motions make heat? The motion
of rub-
bing your hands makes the molecules in your skin vibrate harder. But the heat of a cules.
body
is
the motion of
its
mole-
So when your skin molecules vibrate harder, your
hands become warmer. The motions of drilling, hammering and pulling a piston in and out all make molecules
move
bicycle
faster, too.
pump
are
all
So the
drill bit,
made warmer by 18
the nail and the
these motions.
Heat Makes Motion
We use the fact that heat makes motion to make
auto-
mobiles, ships and airplanes run and to carry rockets into space. In
Making Tin
i
all
of these cases,
we
first
make
a gas very hot.
a gas very hot increases the pressure of the gas.
the great pressure of the gas gives the push that
makes the thing move.
The
first
machine that changed heat
into
motion was
the steam engine. In a steam engine a burning fuel
used to heat a boiler of water. turns to steam.
back and is
The
When
the water boils
is it
pressure of the steam pushes a piston
forth. This back-and-forth
motion of the piston
the motion of the steam engine that
makes machinery
run.
The earliest locomotives were steam used wood or coal as fuel.
On
pages 44, 45 and 46
we
shall learn
gines that change heat into motion.
This steam locomotive
was
built
about
1
50 years
ago.
locomotives.
They
about other en-
Heat Makes Light
When wood burns, it gives out a warm reddish-orange light. A burning gas flame glows with a pale blue light. Burning all
salt gives
out a bright yellow
light.
examples of another fact about heat.
thing If
is
made
hot enough
an empty iron pan
time, the light.
pan becomes
We
it
is
a volcano
is
red-hot, too.
When
begins to give out
on a hot stove
left
so hot that
say that the pan
These are
is
light.
for a long
glows with a reddish
"red-hot."
The
volcano on an island north of
it
some-
The
lava inside
lava inside Stromboli, a
Sicily, lights
up the sky
at
night with a red glow.
Some things are so hot that they give out a white light. Then we say they are "white-hot." The sun and the stars are great masses of hot gases. They are so hot that they give out a bright white light that
we
call "sunlight"
"starlight."
^^
— 20
and
Electricity
We
Makes Heat
use electric irons, electric toasters and electric
We
coffee makers.
even cook and heat our homes with use electricity to
electricity. All of these things
heat. In all of
an
them there are metal
electric current
tric
is
coils
make
through which
allowed to flow. The flowing elec-
You can see the red stove and an electric
current makes the coils red-hot.
glow
of the hot coils of an electric
toaster.
Electricity also
When
the bulb
is
makes heat
in
it
glows with a white
on for a while,
it
oxygen inside ah
electric light bulb.
turned on, an electric current begins to
flow through a fine wire inside that
an
light.
it.
The wire
After the bulb has been
becomes too hot
to touch.
electric light bulb.
docs not burn up even though 21
it
gets so hot
There
is
no
So the wire inside
gets hot
enough
it
to glow.
The First Rule of Energy: Energy Is Never Lost There
is
energy stored in your muscles. The energy
makes your muscles do work, There
is
is
hammer can
drive a nail into a piece of wood.
energy in an electric current. The energy of an
electric current
can ring a
bell, light
up a room
The energy in your muscles, the energy
stove.
ing
swinging a hammer.
energy in a swinging hammer. The energy of a
swinging
There
like
hammer and
or heat a
in a swing-
the energy in an electric current are
different forms of energy. Sound, light
all
and heat are forms
of energy, too.
Energy appears
in
many
forms. However,
all
of the
forms are related, because energy keeps changing from
one form to another. Heat, as one of the forms of energy, can be changed into every other form. In a steam engine, the heat of a burning fuel tion.
fuel
At an is
electric
changed
power
is
changed
into energy of
plant, the heat of a
mo-
burning
into electrical energy.
Other forms of energy can be changed into heat. The energy of motion of a swinging heat
when
changed
the
into
through the
hammer hits the heat when an
hammer
is
changed
nail. Electrical
electric
into
energy
is
current passes
coils of a stove.
Although the form of energy keeps changing, the
amount
of energy never changes.
22
The energy
stored in
your muscles
is
not
been changed into
When
a
changed
hammer into
energy of motion has been
hits a nail,
an equal amount of heat energy. Scientists
call this rule that
tion of
when you swing a hammer. It lias an equal amount of energy of motion. lost
energy
is
never
lost
the law of conserva-
energy (KON-sir-VAY-shun). To conserve means
to save.
The energy stored in
your muscles.
...is
changed
.
into
an equal amount of energy of motion
...which
is
of heat energy.
/
23
.
changed
an equal amount
w
.
into
The Second Rule of Energy
When
you hammer a
wood, you
nail into a piece of
change the energy of motion of the hammer into energy of heat.
On
page 13 you learned that heat
of the molecules.
A hammer
is
made up
is
the motion
of billions of
when you swing a hammer, its molecules are moving. Then how is the motion of a swinging hammer different from the motion we call heat? molecules. So
When you swing a hammer,
all
of the molecules of the
hammer swing together. They all move in the same direction. Thev all move toward the nail. All of the molecules in the hammer move at the same speed. They all move with the speed of your swing. The motion of the molecules in the swinging
mer
strikes
hammer
orderly.
When
the ham-
the nail, the orderly motion disappears.
Molecules in the
hammer and
by the blow. They begin
many
is
nail
have been
to vibrate wildly,
stirred
up
moving
in
directions at different speeds. Their motion
*
#
The motion swinging
in a
+m
of the
hammer
is
dls-
molecules isorder/y.
They all move at the same speed in the same direction.
24
orderly or scattered. This disorderly motion of the molecules
is
what makes the hammer and the heat
this reason,
sometimes called disorderly or
is
For
nail hot.
scat-
tered motion.
The
rule of energy taught us that energy
Energy
lost.
When
the
is
which
hammer
all
hit the nail, all of the
be used
of the energy of heat can
to
any way
be changed
into
hammer and
the
push the hammer up again? According
the second rule of energy, this this rule,
never
energy of mo-
into energy of heat. Is there
energy of motion? Can the heat in the nail
is
only changed from one form to another.
was changed
tion in
first
more and more
things around us
is
isn't possible.
to
Because of
of the orderly motion of the
being changed into heat or disorderly
motion. Because of this rule, scientists think the motions of the sun, the planets little
bv
and the
stars are
slowing
down
little.
When
the
hammer
the molecules
and
nail are given
in
25
the
hammer
disorderly motion.
So the hammer and
•WT
hits the nail,
nail get hot.
Taking Pictures Without Light
When
you take a picture with your camera, you make
sure that there
is
enough
light.
you are taking a picture of
Light rays from the object
strike the film inside
your
camera. The light makes a chemical change in the
film.
The chemical change
when
dark areas light
in the film
the film
and dark areas on
is
it is
developed.
as light
The
and
film with
the negative from which a
black and white printed picture It is
shows up
is
made.
The It was
possible to take pictures without light, too.
picture on this page of a car
was taken
in the dark.
taken with the help of heat rays.
When
an
electric light
You can
bulb
is
turned on
it
gives out
They are visible VIZ-ibble ) It gives out heat rays, too. You cannot see the heat rays. They are invisible ( in-VIZ-ibble Heat rays and light rays are both caused by vibrations inside the atoms and molecules of an object. They are both radiations RAY-dee-AY-shuns ) caused by these vibralight rays. (
see the light rays.
.
)
(
26
.
An
tions.
The
Infrared
camera
make
the vibrations that
heat rays
make heat
vibrations that
is
rays are slower than
light rays.
Another name
for
infrared rays.
Infrared rays are used for taking pictures without light.
Here
is
how. Different parts of the car give out different
amounts of heat tion that
rays.
So there
is
An
infrared cam-
and changes them
into electrical
matches the shape of the
era receives these rays signals. It
makes
a strong signal
strong.
makes
a
It
weak. In
a pattern of heat radia-
this
way
parts of the car nals that
is
signal
where the heat rays are
where the heat rays are
the pattern of heat rays from different
changed
into a pattern of electrical sig-
matches the shape of the
electrical signals
weak and
weak
car.
is.
in turn,
car.
changed
The
pattern of
into a pattern of
strong rays of light. This pattern of light rays
strikes the film inside the
matches the shape of the
camera, making a picture that
ear.
Solid, Liquid,
Water
is
in a liquid state
kitchen faucet. it
becomes the
When solid
comes the gas we
You
Gas and Plasma
you freeze
we
call
when
call ice.
it
it
comes out of your
in
your refrigerator,
When
you
boil
it, it
be-
steam or water vapor.
are used to thinking of water as being in three
different states,
depending on
temperature. However,
its
you may have the idea that iron
may have
the idea, too, that air
is
is
always a
solid.
You
always a gas. Both of
these ideas are wrong. Iron and air can be in other states, too,
depending on
until
it is
If air is it
their temperatures. If iron
about 1500 degrees Celsius,
cooled until
becomes a liquid,
it is
it
becomes a
liquid.
140 degrees below zero Celsius,
too.
In a solid, the molecules are held in place forces.
heated
is
When a solid is heated,
its
by
electrical
molecules vibrate more
and more. After a while, the molecules vibrate
so hard
enough
to hold
that the electrical forces aren't strong
them
in place
any more. Then the molecules are free to
move around. The
solid melts
and becomes a liquid that
can flow.
When faster
a liquid
and
faster
is
made warmer,
and
pull farther
its
and farther
Finally, the molecules are so far apart
28
molecules
move apart.
from each other
that the electrical forces are too all.
When
or-ates)
molecules split
is
open and is
at
gas.
their
fast.
When
atoms separate. At
split into
its
they hit each other they this
temperature
hydrogen and oxygen atoms. At
20,000 degrees Celsius even the atoms
Then
them
heated to about 4000 degrees Celsius,
move very
water vapor
to bother
happens the liquid evaporates (ee-VAP-
and becomes a
gas
If a
this
weak
the gas becomes a plasma
MB*?***.
•
V
split into pieces.
(PLAZ-ma).
"
Melted iron being poured into a converter 29
to
make
steel
Measuring High Temperatures
We
can measure the temperature of boiling water by
We
putting a thermometer into the container of water.
cannot measure the temperature at which iron melts by putting a thermometer into the liquid iron because the
thermometer would melt,
too.
Nor can we use ordinary
thermometers for measuring the temperatures of plasmas.
How,
do
then,
measure very high tem-
scientists
peratures?
Something that
is
hot
is
called a hot body.
tures of very hot bodies can
tance. This can radiation.
Tempera-
be measured from a
dis-
be done by catching and measuring their
A tool for doing this is called a pyrometer
(
py-
ROM-eh-ter).
One kind hotter a
of
body
pyrometer makes use of the fact that the is,
the
more energy
it
radiates. This kind
of pyrometer measures temperature
by measuring the
energy in the rays
it
receives from the hot body. It
changes the energy
it
receives into an electric current.
The amount
of current flowing through the
pyrometer
is
a clue to the temperature of the hot body.
Another kind of pyrometer uses the out by a very hot body to measure is
done by comparing the
the light given out
light
its
temperature. This
from the hot body with
by the glowing wire 30
visible light sent
of a special kind
of electric light bulb.
The temperature and
brightness of
the glowing wire are changed by changing the amount of current flowing through til
it.
The
current
is
changed un-
the glowing wire and the visible light from the hot
body have the same
brightness.
Then
the current
clue to the temperature of the very hot body. eter like this
lava as
it
was used
came out
to
mouth
of a volcano.
-•:-•
'
;
I v.,
The temperature of the lava in the mouth of this volcano was measured with a pyrometer. 31
of hot
The tem-
perature of the lava was 1200 degrees Celsius.
-
a
A pyrom-
measure the temperature
of the
is
The temperature
of the hot
gases that surround the sun is about 1 million degrees.
temperature inside the sun is
20
about
million degrees.
The temperature on the surface of the sun is about 6000 degrees.
The Highest Man-made Temperatures Scientists ries that
have made temperatures
are higher than the temperature on the surface
of the hottest star.
has been
in their laborato-
made
The
highest laboratory temperature
inside a shock tube.
A
shock tube uses a
gas under very high pressure to push against a second
gas under low pressure. in the
are
a shock
wave
second gas. In a shock wave, the molecules of gas
moving very
depends on how to see
The push produces
why
fast.
Since the temperature of a body
fast its
molecules are moving,
it is
easy
the second gas gets very hot. Temperatures 32
more than 500,000 degrees Celsius have been made
of
this
way.
The
man-made temperature is the temperahydrogen bomb when it explodes. The tem-
highest
ture inside a
perature
about 100 million degrees Celsius. That
is
why hydrogen bombs can do
so
is
much damage.
Taking the Temperatures of the Sun and the Stars
The sun
is
93 million miles away. The nearest
billions of miles
star
is
away. Even though they are so far away,
their surface temperatures
kind of pyrometer
can be measured.
used for doing
is
this.
A
special
This kind of
pyrometer has a telescope that catches radiation from the sun or the
star.
It
then measures temperature by
measuring the amount of energy hottest stars
in the radiation.
have a surface temperature of about 80,000
degrees Celsius. The surface of the sun Its
temperature
The to the
rays
we
is
is
much
is
cooler.
only about 6000 degrees Calsius.
receive from the sun or a star are a clue
temperature inside the sun or the
star, too.
omers have figured out that the temperature sun
The
Astron-
inside the
about 20 million degrees Celsius. The temperature
inside the hottest stars
is
about 2 33
billion
degrees Celsius.
The Heat
of the Earth
The highest air temperature ever measured on the surface of the earth was at a place in northern Africa. It once was 136 degrees Fahrenheit there. The lowest air temperature ever measured on the surface of the earth
was near the South
once was 126 degrees below
Pole. It
zero there. Temperatures inside the earth are higher.
They
The
like
inside of the earth gets
some
These
at the center of the earth
may be
3000 degrees Celsius.
as high as
gets
are higher even than the temperature of
The temperature
lava.
much
of
its
its
heat in two ways.
It
heat from certain rocks inside the earth.
rocks, called radioactive rocks, contain elements
radium and uranium. The radium and uranium
atoms break up and send out energy. This energy warms
up the
earth.
The
inside of the earth also gets
some heat
from the pressure of rocks near the surface on rocks deep
The pressure on the rocks deep inside The great pressure makes them very hot.
inside the earth. is
very great.
The surface of the earth The most important way earth gets
its
heat
is
gets in
its
heat in two ways, too.
which the surface of the
from the sun. Some of the heat of
the earth's surface comes from the inside, too.
Heat
comes up
same
way
to the surface
from inside the earth
in the
as heat rises in a room.
All
around the earth, the
stars,
34
the sun and the plan-
ets
is
space.
The temperature
in
space
is
very low. Since
heat flows from a higher level to a lower level, the earth is
some
losing
of
its
surface heat into space
However, the surface heat that the earth is
all
the time.
loses into space
balanced by the heat the earth receives from the sun
and by the heat that comes from the
inside. This
The surface losing
space
some all
is
of the earth of
.
is
off.
getting
heat from the sun and heat that rises up from the inside
.
Why the
the earth does not cool
... but the surface
is
heat into
its
the time
why
to the surface of the earth
earth does not cool off .35
Heat and Life Nothing can too
much
live
without heat. Nothing can
live
with
heat either. Most things can live only within
a narrow band of temperatures. Nothing can live at a
temperature lower than 100 degrees below zero Fahrenheit.
Nothing can
live at a
temperature higher than 225
degrees above zero Fahrenheit. Most things live in the
even narrower band of temperatures between 32 degrees
and 122 degrees Fahrenheit. At lower temperatures,
would
most
living things
most
living things
A
freeze.
At higher temperatures,
would be cooked
alive.
long time ago people did not live in houses or wear
clothing. So they
had
people began to wear
to live
warm
where
it
When
was warm.
clothing and learned
how
to
heat their houses, they could live almost anywhere on the earth.
Now,
they can even
in
heated rockets and
fly off
into space that
warm is
space
suits,
colder than any
place on the earth.
Most animals
live
where
it is
warm. But there are some
animals that can even live in the Far North at freezing temperatures. These animals are kept coats of fur or feathers.
tered places.
when (
it
Some
)
,
or
their
homes
thick
in shel-
of these animals cannot get along
gets very cold
M Y-grate
They make
warm by
move
and food
is
scarce.
to places that are
36
So they migrate
warmer.
Many
birds migrate in the wintertime. There are flies
that migrate, too.
wintertime
When
because
Some animals can they
hibernate
an animal hibernates,
body temperature in its shelter all
falls.
it
curls
This saves
its
the
in
HY-burr-nati
in a ball
body
heat.
and
its
It
rests
is
ve r y
winter long.
There are a few animals that can cold or where
butter-
get along (
up
some
it is
live
where
very hot without any
it
difficulty.
The
polar codfish swims in the icy polar seas at 29 degrees
Fahrenheit. There
water
at a
is
a sea plant that lives in hot pools of
temperature of 190 degrees Fahrenheit.
A hibernating ground 17
squirrel
The Fire That Burns Inside You Your body There the
is
a
fire is
is
fire
made up
of
many
different kinds of cells.
that burns inside every cell.
The oxygen
the food you eat.
The
fuel for
for the fire
is
in
the air you breathe.
The there
fire
is
that burns inside
you has no flame. Although
no flame, the chemical changes that take place
when food burns
in
your
changes that take place eat has carbon
cells are a lot like
when wood
and hydrogen
in
it.
burns.
the chemical
The food you
When the food burns,
make water vapor. The carbon joins with oxygen to make carbon dioxide. The water vapor and carbon dioxide leave your body when you breathe out. The fire that burns inside you makes the heat that the hydrogen joins with oxygen to
keeps your body warm.
It also
makes the energy
that
makes your muscles move.
Even
if
you were
to lie
still all
need a sceady supply of food
day long, you would
in order to stay healthy.
There are muscles inside you that are working
all
the
The muscles of your heart are working all the time to make your heart beat. The muscles of your diaphragm (DY-a-fram) are working all the time to make you breathe. Your body is kept warm all the time. It is kept time.
at
about 98.6 degrees Fahrenheit by a heat regulator
side your brain. So even
when you 38
lie still,
in-
you are burn-
up food
ing
to
keep your body going and
keep you
to
warm.
The amount
of food a person must eat
size.
So a grown-up must eat more than a
who
is tall
must eat more than
a person
depends on child.
who
A
is
his
person
short.
A
son
who has a broad body must eat more than a perwho has a narrow body. An average-sized man must
eat
more than an average-sized woman.
person
The amount does.
A
person
a person eat
of food a person eats
who
who works
more than
People get
depends on what he
does hard work must eat more than
A
sitting at a desk.
ballplayer must
a radio announcer.
less active as
they grow older. So old peo-
ple should eat less than they ate
when
they were young.
who eat more food than their bodies burn get fat. That is why many people get fat as they grow older. People
The amount sex,
of food a person should eat
body build and the kind
of
depends on
work he does. 39
his age,
Heating Our Houses In order to heat a room, heat from a hot
body must
spread through the room. This happens in three ways.
A
hot body gives
carry
some
in the
off infrared rays.
from the hot body
of the heat
room. This
The
way
infrared rays
to cooler bodies
of spreading heat
is
called radia-
The sun heats the earth by radiation. A hot body also warms the air around it. Some of the warm air spreads through the room by the motion of the molecules of air. This way of spreading heat is called Conduction of heat is conduction kon-DUCK-shun
tion.
)
(
.
slow.
Some
warm air spreads through the room when warm air rise and flow away from the hot
of the
currents of
body. Currents of cool
air sink
and flow
hot body to take the place of the
spreading heat
is
warm
called convection
in
air.
toward the This
way
of
(kon-VECK-shun).
Convection spreads the heat more quickly than conduction does.
People
first
houses. Stoves
used stoves and fireplaces to heat their
and
fireplaces could heat only
Modern houses have
one room.
central heating systems.
A
central
heating system has a furnace in which a fuel like
cooking gas or coal
is
burned. The furnace
the basement of the house. Heat produced ing fuel
is
is
usually in
by the burn-
carried to other rooms of the house
40
oil,
by
pipes.
Heating by
.
.
1
.
.
.
There are several ways of doing
this.
In a hot-air heating system, air
A
convection
I* ^ ^
* + *I nace.
.
is
heated
in the fur-
fan blows the hot air through large pipes called
The ducts lead Each room has
ducts.
the hot air to openings called regis-
ters.
a hot-air register placed near the
floor.
has a cold-air register near the ceiling. Other
It
ducts carry cold air back to the furnace to again.
A
hot-air heating system heats mostly
warm
it
up
by convec-
tion.
In a hot-water heating system, water
furnace.
An
pipes to radiators in each room.
Heat
also radiates
boils
The heat
passes from the
from the
and changes
radiator. is
heated
to steam.
in
the furnace until
The steam Hows through
the pipes to the radiators. Steam radiators the
same way
in the
by both conduction and convection.
In a steam system, water it
heated
motor pushes the hot water through
electric
radiators to the air
is
that hot-water radiators do. 41
warm
a
room
and Air Conditioners: Taking Heat Away
Refrigerators
An
electric stove
and an
make
of an electric current to
and a
On
it is
When
heat
is
An
air conditioner
taken away from some-
cooled.
page 29 you learned that
enough por.
heat.
energy
refrigerator use the energy of an electric current to
take heat away.
thing
electric toaster use the
it
Heat
if
a liquid
is
made
hot
begins to evaporate or change to a gas or va-
used up
is
changing a liquid to a
in
gas.
So
when a liquid evaporates, the molecules that leave it to become a vapor are taking heat out of the liquid all the time. The liquid gets the heat it needs to make it evaporate from its surroundings. That is why you wet your you cool
skin to help
your skin evaporates, cools
you
off.
things in the
off it
on a hot day. As the water on
takes heat out of your skin
Air conditioners and refrigerators cool
same way.
Cooling coils inside the refrigerator
Outside coils on the back of the refrigerator refrigerator
is
where the
cooled by
air
Compressor
How a
and
refrigerator
works
42
Here
how
is
a refrigerator works.
A
liquid that evap-
orates easily flows through small pipes, or coils, inside
the refrigerator.
The
liquid
called a refrigerant
is
FRIJ-er-aut). As the refrigerant evaporates it
uses
up
heat.
gets the heat
It
it
ree-
the coils.
in
needs by taking heat
out of the air and the food in the refrigerator. In
this
way
the inside of the refrigerator gets very cold.
More and more coils
of the refrigerant evaporates in the
and keeps cooling the
inside of the refrigerator.
As
the refrigerant evaporates, the vapor flows through the
compressor (com-PRESS-er). The compress-
coils to the
or is
is
run by an electric motor. The job of the compressor
to press
and squeeze the vapor. Pressing and squeez-
ing the vapor turns frigerant liquid
is
into a liquid again.
compressed,
refrigerant
through
it
coils
it
warms
up.
away from
flows
on the outside of the
it off.
Then
the re-
The warmed-up the
compressor
refrigerator. Air
the outside then takes heat out of the frigerant, cooling
When
warm
on
liquid re-
the cooled liquid refriger-
ant flows back into the coils inside the refrigerator, where it
way
evaporates again. In this
out of the food and
air inside
the heat to the outside
An
air
the refrigerant takes heat
the refrigerator and carries
air.
conditioner uses a refrigerant to take heat out
of the air inside a house'
and carry the heat
outside the house. 43
to the air
Engines with the Fire Inside
Them
In the steam engine you read about on page 21, the fire
that heats the boiler of water
is
in a separate firebox
outside the engine. There are other engines in which the fire is
inside the engine
car or an airplane, the
itself.
jet
The
gasoline engine of a
engine of an airplane and the
rocket engine of a spaceship are
all
examples of
this
kind
of engine.
A gasoline engine has one or more cylinders ders) in which the burning takes place. six cylinders.
vapor and
Most
air enters
A
the cylinder (1).
by pushing
it
v*
have
the spark plug,
The spark
is
sets the
piston com-
into a small space at
one end of the cylinder (2). Then an mixture.
cars
In a gasoline engine, a mixture of gasoline
presses the mixture
made by
(SILL-in-
electric spark,
allowed to pass through the mixture on
fire in
=====
Inside the cylinder of a gasoline engine
44
an explo-
The burning mixture produces hot gases at high pressure. The great pressure of the burnt gases pushes sion.
the piston back to the other end of the cylinder
Then
the piston
moves up
again, pushing the burnt gases
out of the cylinder (4). After the burnt gases have been
pushed
out, the cylinder
reach For a new explosion. In
is
a car, the up-and-down motion of the piston
is
used to
turn gears that turn the wheels of the car. In a gasoline engine, hot gases are produced at high
pressure in order to push pistons. tons
is
The motion
of
the pis-
used to turn the wheels of a car or the propeller
of an airplane. In a jet plane, the push of the hot gases
used to push the plane forward without the help of tons.
Here
is
how
the engine of a
enters the engine at
making
it
comes inhere
front end.
The
compressed
air.
Fuel
n Compressor
is
V
When
pis-
plane works. Air air
is
compressed.
very hot. Then gasoline or kerosene
into the hot
Air
its
jet
is
is
sprayed
the spray hits the hot.
sprayed
_
^inhere...
me
Tur f
Burnt v
gases
Fuel burns here
Diagram of a rocket
compressed
air,
the spray starts to burn. Burning pro-
duces hot gases at high pressure. The pressure forces the burnt gases out through a narrow opening at the back of the engine.
The
against the plane
way
out, the
bin).
way push
gases pushed out in this
and make
it
move
forward.
On
their
burnt gases pass through a turbine (TUR-
The turbine
is
a wheel with
burnt gases push against the
many
little
little
vanes.
vanes and
make
The the
The turning turbine makes the compressor work. When the compressor works, more fresh air comes turbine turn.
into the jet engine to
keep the
fire
inside the jet engine
going.
A
rocket engine works like a
jet
engine, except that
it
drawn in from the outside. Rockets travel space where there is little or no air. They do
doesn't use air
high up in
not get oxygen from the space around them. So rockets take along their rocket needs
oxygen
in
it.
is
own
supply of oxygen. The oxygen a
carried in a tank.
Liquid oxygen
is
used because then a
oxygen can be compressed into a 46
The tank has
little
space.
liquid lot of
Word
— The
(KAL-o-ree)
Caloric
amount
List
for
unit
measuring
the
of heat in something. 252 calorics arc needed
temperature of one pound of water one
to raise the
degree Fahrenheit.
Conduction (kon-DUCK-shun)
—The way
heat
is
spread
heat
is
spread
by the motion of the molecules. Convection (kon-VECK-shun)
— Thewa)
when warm air rises and cool air sinks to take Degree — The unit for measuring temperature. Evaporate
(
—To
ee- VAP-or-ate )
its
place.
change a liquid
to a
gas.
Expand
— To
take
up more
space.
Hibernate (HY-burr-nate)
— What
body
up
save
its
temperature Infrared rays
Molecule
(
heat. It curls
Heat
and
in a ball
shelter
falls. It rests in its
—
an animal does to
all
its
body
winter long.
rays.
MOLL-eh-kule
)
— The
smallest bit of
any
chemical.
Pressure
(PRESH-er)
against the walls of
Pyrometer
— How its
container.
(py-ROM-eh-ter)
very high temperatures
Temperature
hard something pushes
—A
tool
for
measuring
at a distance.
TEM-per-a-clinre
I
—
The level
of
heat
in
something. Vibrate (VY-brate)
—To
move back and IT
forth quickly.
About the Authors and Ruth Adler have written more than fifty books about science and mathematics. Dr. Adler has been an instructor in mathematics at Columbia University and at Bennington College, and was formerly head of the mathematics department of a New York Irving
City high school.
Mrs. Adler,
who
formerly taught
mathematics, science, and art in schools in the
York area, recently also taught dition to
in
New
Bennington. In ad-
working with her husband writing
this
book,
she drew the illustrations.
Books by Irving Adler alone and books by him collaboration with Ruth Adler have been printed 77 different foreign editions,
in 10
in in
languages and in
9 paperback editions.
The Adlers now
live in the
country in Shaftsbury
Township, near Bennington, Vermont.
PHOTOGRAPH CREDIT Pages 26 and 27
-
Barnes Engineering
48
Company
v^
by
Series They
are excellent"— New York Herald Tribune
The best of the matter is
One can -be scientific
and Ruth Adler
Irving
that,
with authors like the Adlers, their
certain that not only
is
name is
a guarantee.
the exposition clear and logical, but that the
Horn Book Magazine
matters presented are correct and up-to-date— The
THINGS THAT SPIN "A
vital
if
somewhat complex subject handled with
clarity
and
precision."
—Virginia Kirkus
— The Horn Book Magazine
"A helpful and stimulating book."
THE STORY OF A NAIL 'Presenting a truly excellent account of the historical development of the steel industry. Clear, well-labelled drawings accompany the simple and meaningful text;
-Library Journal
recommended."
SHADOWS "An
easily
understood explanation of the causes and uses of shadows."
—ALA Booklist
NUMBERS OLD AND NEW "A fascinating book
for the student interested in mathematics."
—American Library Association "Exceptional book about
how we came
to
count as
we
do."
—Child Study Association
WHY? A
America
of
Book of Reasons
"This takes the kinds of questions continually asked by children in 2nd-3rd-4th grades and answers them, so that each topic is complete in itself, within the limitations of the age level and scope. I'd suggest that it be given to a child with an inquiring mind and acquisitive instinct for collecting unrelated facts." —Virginia Kirkus
RIVERS simple "Contains a wealth of information, and the illustrations add clarification enough for third-graders and informative enough for fifth-graders. Recommended." —Library Journal .
.
.
OCEANS AIR "These
fine additions to the series are well written
Schools and public libraries will find
INSECTS
,johndat|
'VHSw'/
^ .^
The
interrelation of plants
illustrations in
two
colors.
and
.
.
.
and
scientifically accurate.
-Library Journal
these useful."
AND PLANTS
insects, for the
middle grades. Attractive and useful
-The Horn Book Magazine