Berliner Astronomisches Jahrbuch: 183. Jahrgang 1958 [Reprint 2021 ed.] 9783112470688, 9783112470671
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BERLINER ASTRONOMISCHES JAHRBUCH FÜR
5 8
1 9
18 3.
J A H R G A N G
H E R A U S G E B E R ASTRONOMISCHES DER DEUTSCHEN A K A D E M I E
R E C HE N IN STITUT
DER W I S S E N S C H A F T E N
ZU
BERLIN
UND ASTRONOMISCHES
R E C H E N I N S T I T U T ZU
HEIDELBERG
1956 AKADEMIE-VERLAG
• BERLIN
II
Astronomische Zeichen und Abkürzungen Adspekten d Konjunktion • Quadratur c? Opposition
Bezeichnung der Wochentage O Sonntag C Montag cf Dienstag 2 Mittwoch 2J- Donnerstag 9 Freitag 1? Sonnabend
Mondphasen • Neumond 5 Erstes Viertel O Vollmond C Letztes Viertel
,0, Aufsteigender y Absteigender
Knoten
Zeichen des Tierkreises und der Himmelskörper Widder . . Stier . . . n Zwillinge . © Krebs . . . Q Löwe . . . trp Jungfrau. . SU Waage . . n Skorpion . X* Schütze . . S Steinbock . MV Wassermann Fische . . . X y
8
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o Grad • 30 » . 6o » .
90
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. 120
»
• 150
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. 180
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. 210
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. 240
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. 270
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. 300
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• 330
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O Sonne ( Mond $ Merkur 9 Venus 6 Erde cf Mars % Jupiter H Saturn 6 Uranus ¥ Neptun P Pluto
Herausgeber Astronomisches Redieninstitut der Deutschen Akademie der Wissenschaften zu Berlin und Astronomisches Redieninstitut zu Heidelberg Verantwortlich für den Inhalt. Prof Dr A Kührstedt Berlin-Lichterfelde-West, und Prof Dr. W. Fricke, Heidelberg. V e r l a g . Akademie-Verlag GmbH, Berlin W 8, Mohrenstraße 39; Fernsprecher Sammelnummer 20 03 86; Postscheckkonto: Berlin 350 21 Bestell- und Verlagsnummer dieses W e r k e s : 1004/183. Preis 12 DM. Druck: (III/9/1) Sächsische Zeitung, Verlag und Druckerei, Dresden N 23 9032. Lizenz-Nr 202 • 100/500/56 • Mdl der DDR Nr 2561/K 11
III
Vorwort V o m J a h r g a n g 1 9 1 6 an i s t d e r f u n d a m e n t a l e M e r i d i a n , auf den alle A n g a b e n des Jahrbuchs bezogen sind, der M e r i d i a n von Greenwich. Die Zeit ist vom Jahrgang 1 9 2 5 an in Weltzeit, d. i. Bürgerliche Zeit Greenwich, ausgedrückt (siehe Erläuterungen). Die G r u n d l a g e n des B e r l i n e r A s t r o n o m i s c h e n Jahrbuchs bilden: Für die S o n n e und die g r o ß e n P l a n e t e n : Die Tafeln von N e w c o m b und (für Jupiter und Saturn) von H i l l , enthalten in: Astronomical Papers 0) the American Ephemeris, Vol. VI, Part I—IV: Tables of the four inner planets, Vol. VII, P a r t i — I V : Tables of Jupiter, Saturn, Uranus, Neptune. Für P l u t o die Elemente von E. C. B o w e r . (Näheres siehe Erläuterungen.) Als Sonnenhalbmesser in der mittleren Entfernimg ist 16' 1" 50 angenommen; dagegen liegt der Berechnung der Finsternisse der von A u w e r s in A. N., Bd. 128 gegebene Wert i5'59-'63 zugrunde. Für den M o n d : ' Tables of the Motion of the Moon by E r n e s t W. B r o w n . Der geozentrische Mondhalbmesser r^ ist aus der Äquatorial-Horizontalparallaxe f i gerechnet nach der Formel r t = 0.272469 p t + 1*50, für die Finsternisse nach sin r^ = 0.272274 sin p^. Als Neigung des Mondäquators gegen die Ekliptik ist nach F. H a 7 n (A. N. Bd. 199, 263) angenommen: J — i° 32' 20*. Für die F i x s t e r n e : Dritter Fundamentalkatalog des Berliner Astronomischen Jahrbuchs (Veröffentlichungen des Astronomischen Recheninstituts zu Berlin-Dahlem Nr. 54 und Abhandlungen der Preußischen Akademie der Wissenschaften Jahrgang 1938. Phys.math. Klasse. Nr. 3). Die Sterngrößen und Sternspektren sind dem »Henry Draper Catalogue (Harvard Annais, vol. 91—99)« entnommen. Als Werte der fundamentalen ß e d u k t i o n s g r ö ß e n sind angenommen: Die P r ä z e s s i o n s - G r ö ß e n n a c h S. N e w c o m b (vgl. H. A n d o y e r , Bull. Astr. Bd. 28, S. 67) Die N u t a t i o n s - K o n s t a n t e 9*21
IV Die N u t a t i o n s - G r ö ß e n nach S. N e w c o m b (Bull. Astr. Bd. 15, S. 241) Die A b e r r a t i o n s - K o n s t a n t e • . . . Die S o n n e n - P a r a l l a x e Die A b p l a t t u n g d e r E r d e Für die
20*47 8"8o 1 : 297
Satelliten:
Die Angaben über die 4 älteren J u p i t e r t r a b a n t e n beruhen auf den Tafeln von R . A. S a m p s o n (Tables of the four great Satettites of Jupiter. London 1910), die Angaben über die 8 älteren Saturnsatelliten auf den von H. und G. S t r u v e sowie von J. W o l t j e r ermittelten Werten (Näheres s. Erläuterungen). In allen Ephemeriden der Sonne, der Planeten und der Fixsterne sind die kurzperiodischen, von der Mondlänge abhängigen Nutationsglieder weggelassen; doch bietet das Jahrbuch die Möglichkeit, auch diese weggelassenen Glieder zu berücksichtigen (s. Erläuterungen). Der Inhalt des Jahrbuchs hat gegenüber dem Vorjahr keine Veränderung erfahren. Nach einem internationalen Übereinkommen vom Jahre 1911 wurde ein Teil der Angaben von H. M. Nautical Almanac Office, Royal Greenwich Observatory, vom Nautical Almanac Office, U. S. Naval Observatory, Washington, und vom Bureau des Longitudes, Paris, zur Verfügung gestellt. Es wurden übernommen von H. M. Nautical Almanac Office, Royal Greenwich Observatory, die Ephemeriden der Sonne, des Mondes und der Planeten mit Ausnahme von Pluto sowie die Vorausberechnungen der Stern bedeckungen für Berlin-Babelsberg, Frankfurt a.M. und München. Vom Nautical Almanac Office, Washington, wurden zur Verfügung gestellt die rechtwinkligen, heliozentrischen, äquatorialen Koordinaten von Pluto, die Angaben über Finsternisse, die Elemente der Sternbedeckungen, die Rotationselemente der Sonne, des Mars und des Jupiter, die Konstellationen und die A u f - und Untergangszeiten des Mondes. Vom Bureau des Longitudes, Paris, wurden die Zeiten der Verfinsterungen der Jupitertrabanten sowie die Tafeln ihrer Anordnung und die Refraktionstafel übernommen. Die mittleren und scheinbaren Sternörter sowie die Angaben über die Saturnstrabanten sind im Astronomischen Recheninstitut in Heidelberg unter der Leitung von Dr. G o n d o l a t s c h berechnet. Die Berechnung der übrigen Teile und die Beaufsichtigung des Druckes sind unter der Leitung von Prof. Dr. K o h l vom Astronomischen Recheninstitut in Berlin besorgt worden. Bezüglich der Zahlengrundlagen sei auf die im Berliner Astronomischen Jahrbuch für 1916 gegebene Darstellung der „Grundbegriffe der Sphärischen Astronomie" hingewiesen. Astronomisches Recheninstitut in Berlin Astronomisches Recheninstitut in Heidelberg
V
Inhalt Seite
Zeichen des Tierkreises und der Himmelskörper Vorwort Zeit- und Festrechnung Dimensionen der Erde Astronomische K o n s t a n t e n Elemente der Planetenbahnen Kalender der Juden und Mohammedaner . . . . . . . Sonnenephemeride . . Rechtwinklige Sonne nl;oordinaten, mittleres Äquinoktium 1958.0 Aberration, Parallaxe, Mittlere L ä n g e und Mittlere Anomalie der Sonne Mondephemeride Mondphasen . . . . . . . Geozentrische Örter der großen Planeten Rechtwinklige Sonnenkoordinaten, mittleres Äquinoktium 1950.0 Heliozentrische Örter der großen Planeten, mittleres Ä q u i n o k t i u m 1950.0 Mittlere Örter von 1535 Fixsternen . . . Scheinbare ö r t e r von 560 Zeitsternen Scheinbare ö r t e r von 10 nördlichen Polsternen Scheinbare ö r t e r von 10 südlichen Polsternen Koordinaten der scheinbaren ö r t e r von vier polnahen Sternen für 12h Sternzeit Greenwich Formeln zur R e d u k t i o n auf den scheinbaren Ort Hilfsgrößen zur Berechnung der Reduktion auf den scheinbaren O r t . . . Übertragung mittlerer Sternörter auf 1958.0 Übertragung mittlerer Polsternörter auf 1958.0 Reduktion von Koordinatendifferenzen scheinbarer Örter auf mittlere für den Jahresanfang Übertragung von Rektaszensions- und Deklinationsdifferenzen v o m mittleren Äquinoktium 1958.0 auf das Normaläquinoktium 1950.0 . . Hilfsgrößen zur Reduktion v o m mittleren Äquinoktium 1950.0 auf das wahre Ä q u i n o k t i u m der Epoche Übertragung von Sternörtern v o m mittleren Ä q u i n o k t i u m 1958.0 auf das N o r m a l ä q u i n o k t i i n i 1950.0 Sonnen- und Mondfinsternisse Sternbedeckungen Mondbewegung und L a g e des Mondäquators Mondkrater Mösting A . . . . Rotation der Sonne R o t a t i o n des Mars Rotation des Jupiter Verfinsterungen der Jupitertrabanten Anordnung der Jupitertrabanten Saturn und Saturnsring Erscheinungen der Saturnstrabanten Konstellationen Sonnenaufgang Sonnenuntergang Nautische D ä m m e r u n g Mondaufgang . . . . . . Monduntergang . . . . . . Hilfstafeln Koordinaten der Sternwarten Normalzeiten der wichtigeren L ä n d e r Interpolation Refraktionstafel Polaristafeln Erläuterungen zu den Angaben und zum Gebrauch des Jahrbuchs . . . . Berichtigungen Alphabetisches Sachregister
II III VI VI VII VII VIII 2 20 29 30 48 4 9 116 125 2* 41* 181* 211* 241* 251* 252* 280* 281* 282* 285* 286* 288* 292* 297* 307* 308* 313* 316* 319* 321* 323* 334* 336* 348* 350* 351* 368* 372* 373* 390* 412* 418* 419* 424* 426* 433* 452* 4 53*
VI
Zeit- und Festrechnung 1958 Das J a h r 1958 entspricht dem Jahr 6671 der Julianischen Periode und dem J a h r 7466—7467 der Byzantinischen Ära.
Gregorianischer Kalender 2 X 7 E 2. Febr. 19. Febr. 26. Febr. 6. April 15. Mai 25. Mai 28. Mai 5. Juni 17. Sept. 30. Nov. 17. Dez.
Goldene Zahl Epakte Sonnenzirkel Sonntagsbuchstabe Septuagésima Aschermittwoch I.Quatember Ostersonntag Himmelfahrt Pfingstsonntag II.Quatember Fronleichnam III.Quatember I. Adventssonntag IV.Quatember
Dimensionen der Erde Große Halbachse Kleine Halbachse Abplattung Meridianquadrant
a) Nach B e s s e l (1841) a = 6 377 397.155 m log a = 6.804 6434 637 6 = 6 356 078.963 m log 6 — 6.803 1892 839 a — 1 : 299.152 8129 log a = 7.524 1069 092—10 = 10 000 855.76 m
Die Maßeinheit der Länge ist das legale Meter.
b) Nach H a y f o r d (1909) identisch mit Internationalem Ellipsoid (1924) Große Halbachse a — 6 378 388 m log a = 6.804 7109 340
Kleine Halbachse Abplattung Meridianquadrant
6 = 6 356 911.946 m a = 1 : 297 = 10 002 288.30 m
Große Halbachse
a — 6 378 245 m
log b = 6.803 2 4 6 1 958 log a = 7.527 2435 507—10
c) Nach K r a s s o v s k y (1940) Abplattung
a = 1 : 298.3
log a = 6.804 7 0 1 1 973
log a = 7.525 3467 466—10
Die Maßeinheit der Länge ist das internationale Meter. Ein internationales Meter = 0.999 9866 legales Meter. Will man die Länge einer in legalen Metern gemessenen Strecke in internationalen Metern angeben, so h a t man die Anzahl der legalen Meter mit 1.000 0134 zu multiplizieren. Normalwert f ü r die Schwerebeschleunigung im Meeresniveau:
To — 978.030 (1+0.005302 • sin'cp—0.000007 -sin229) cm. sec ~2. (Helmert 1901) y0 = 978.0490 (1 +0.0052884 • sin'tp —0.0000059 • sin*2?) cm. sec-2. (Cassinis 1930) Masse der Erde: 5.974 • 1 0 " g Masse der Sonne: 1.983 • io 3 s g Radius der Sonne: 695 300 km Mittlere Entfernung Erde—Sonne: 149 504 200 km Lichtzeit f ü r die mittlere Entfernung Erde—Sonne: 498 s 72 (mit Lichtgeschwindigkeit 299 774 km/sec.)
VI
Zeit- und Festrechnung 1958 Das J a h r 1958 entspricht dem Jahr 6671 der Julianischen Periode und dem J a h r 7466—7467 der Byzantinischen Ära.
Gregorianischer Kalender 2 X 7 E 2. Febr. 19. Febr. 26. Febr. 6. April 15. Mai 25. Mai 28. Mai 5. Juni 17. Sept. 30. Nov. 17. Dez.
Goldene Zahl Epakte Sonnenzirkel Sonntagsbuchstabe Septuagésima Aschermittwoch I.Quatember Ostersonntag Himmelfahrt Pfingstsonntag II.Quatember Fronleichnam III.Quatember I. Adventssonntag IV.Quatember
Dimensionen der Erde Große Halbachse Kleine Halbachse Abplattung Meridianquadrant
a) Nach B e s s e l (1841) a = 6 377 397.155 m log a = 6.804 6434 637 6 = 6 356 078.963 m log 6 — 6.803 1892 839 a — 1 : 299.152 8129 log a = 7.524 1069 092—10 = 10 000 855.76 m
Die Maßeinheit der Länge ist das legale Meter.
b) Nach H a y f o r d (1909) identisch mit Internationalem Ellipsoid (1924) Große Halbachse a — 6 378 388 m log a = 6.804 7109 340
Kleine Halbachse Abplattung Meridianquadrant
6 = 6 356 911.946 m a = 1 : 297 = 10 002 288.30 m
Große Halbachse
a — 6 378 245 m
log b = 6.803 2 4 6 1 958 log a = 7.527 2435 507—10
c) Nach K r a s s o v s k y (1940) Abplattung
a = 1 : 298.3
log a = 6.804 7 0 1 1 973
log a = 7.525 3467 466—10
Die Maßeinheit der Länge ist das internationale Meter. Ein internationales Meter = 0.999 9866 legales Meter. Will man die Länge einer in legalen Metern gemessenen Strecke in internationalen Metern angeben, so h a t man die Anzahl der legalen Meter mit 1.000 0134 zu multiplizieren. Normalwert f ü r die Schwerebeschleunigung im Meeresniveau:
To — 978.030 (1+0.005302 • sin'cp—0.000007 -sin229) cm. sec ~2. (Helmert 1901) y0 = 978.0490 (1 +0.0052884 • sin'tp —0.0000059 • sin*2?) cm. sec-2. (Cassinis 1930) Masse der Erde: 5.974 • 1 0 " g Masse der Sonne: 1.983 • io 3 s g Radius der Sonne: 695 300 km Mittlere Entfernung Erde—Sonne: 149 504 200 km Lichtzeit f ü r die mittlere Entfernung Erde—Sonne: 498 s 72 (mit Lichtgeschwindigkeit 299 774 km/sec.)
VII
Astronomische Konstanten Allgemeine Präzession
V = 50.2564 s m = 3.07234
Präzession in Rektaszension
"
Präzession in Deklination
n = 20.0468
Mittlere Schiefe der Ekliptik Länge d. aufsteig. Knotens d. bewegl. a. d. festen Ekliptik Winkel zwischen fester u bewegl. Ekliptik
+ 0.000 222 t s + 0.0000186 t //
— 0.000085 t
€ = 23 0 27' 8.26 „ TT = 173° 57' 3.6 . .
ir = 0.4711
—
— +
0.4684 t „ 32.862 t
0.000007 t
d d Länge des tropischen Jahres 365.242 198 79 —0.0000000614 t „ „ siderischen ,, 365.25636042 + 0.000 000 0011 t „ „ anomalistischen „ 365.259 641 34 + 0.000 000 0304 t „ „ julianischen „ 365.25 t = Zeit seit 1900 in julianischen Jahren Länge des synodischen Monats „ „ tropischen „ „ ,, siderischen ,, „ „ anomalistischen „
29.530 27.321 27.321 27-554
588 582 661 550
Länge des mittl. Sonnentages = 24h 3m 56J555 Sternzeit = 1.002 737 91 Sterntag Länge d.mittl. Stemtages = 23 h 56m 4fo9i m i t t l . Z e i t = 0 . 9 9 7 269 57 mittl.Sonnentag Äquatorial-Horizontalparallaxe des Mondes 57' 2 ' j o Gravitationskonstante nach Gauß k = 0.017 202 099 = 3548'.'i876i log k = 8.235 S81 44—10, log k" = 3.55000657 Astr. Einh. = 0.3068 Parsek = 9.460 • 1012 km 1 Lichtjahr = 63 275 1 Parsek = 206 264.806 Astr. Einh. = 3.2598 Lichtjahre = 30.84 • 1012 k m
Elemente der Planetenbahnen für 1958 Jan. 0, 0 h Weltzeit 1 Ü> e a 0
Merkur Venus Erde Mars Jupiter Saturn Uranus Neptun Pluto
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . .
47°834 76.302
7.004 3-394
. .
49-234
1.850
113-297 73.767 131.319 109.633
1-305 2.490 0.773 1-774 17.144
—
. . . .
. . . .
a Merkur Venus Erde Mars Jupiter Saturn Uranus Neptun Pluto
. . . . . . . . • • • •
0.387099 0.723 332
76.802 130.980 102.218 335.286 13-655 92.234 172.410 47-554 223.175
0.205 0.006 0.016 0.093 0.048 0.055 0.046 0.009 0.248
L 109.048 82.308 99.157 2 35.397 199.021 256.167 132.698 212.538 177.168
626 793 727 366 430 692 329 001 644
P.a. 0
4.092 1.602 0.985 0.524 0.083 0.033
34 13 61 03 09 46 0.011 73 0.005 98 0.003 97
a O O I I II 29 84 164 248
d 87.9693 224.7008 O.OI42 3217375 314.925 167.21
. . . . 1.523688 . . • • • • 9-554 747 8.11 . . . . . 19.218 14 281.6 . . . . . 30.109 57 157 • • • • 39.5I7 74 Merkur, Venus und E r d e nach Newcomb, Mars nach N e w c o m b und Ross, J u p i t e r bis N e p t u n n a c h Leverrier und Gaillot. P l u t o nach Bower. Bei U r a n u s und N e p t u n s j n d In L die Hauptglieder d e r langperiodischen S t ö r u n g e n e n t h a l t e n . F ü r P l u t o sind baryzentrische E l e m e n t e bezogen auf Ekliptik u n d mittleres Ä q u i n o k t i u m 1950.0 gegeben. . . . .
. . . .
. . . .
VII
Astronomische Konstanten Allgemeine Präzession
V = 50.2564 s m = 3.07234
Präzession in Rektaszension
"
Präzession in Deklination
n = 20.0468
Mittlere Schiefe der Ekliptik Länge d. aufsteig. Knotens d. bewegl. a. d. festen Ekliptik Winkel zwischen fester u bewegl. Ekliptik
+ 0.000 222 t s + 0.0000186 t //
— 0.000085 t
€ = 23 0 27' 8.26 „ TT = 173° 57' 3.6 . .
ir = 0.4711
—
— +
0.4684 t „ 32.862 t
0.000007 t
d d Länge des tropischen Jahres 365.242 198 79 —0.0000000614 t „ „ siderischen ,, 365.25636042 + 0.000 000 0011 t „ „ anomalistischen „ 365.259 641 34 + 0.000 000 0304 t „ „ julianischen „ 365.25 t = Zeit seit 1900 in julianischen Jahren Länge des synodischen Monats „ „ tropischen „ „ ,, siderischen ,, „ „ anomalistischen „
29.530 27.321 27.321 27-554
588 582 661 550
Länge des mittl. Sonnentages = 24h 3m 56J555 Sternzeit = 1.002 737 91 Sterntag Länge d.mittl. Stemtages = 23 h 56m 4fo9i m i t t l . Z e i t = 0 . 9 9 7 269 57 mittl.Sonnentag Äquatorial-Horizontalparallaxe des Mondes 57' 2 ' j o Gravitationskonstante nach Gauß k = 0.017 202 099 = 3548'.'i876i log k = 8.235 S81 44—10, log k" = 3.55000657 Astr. Einh. = 0.3068 Parsek = 9.460 • 1012 km 1 Lichtjahr = 63 275 1 Parsek = 206 264.806 Astr. Einh. = 3.2598 Lichtjahre = 30.84 • 1012 k m
Elemente der Planetenbahnen für 1958 Jan. 0, 0 h Weltzeit 1 Ü> e a 0
Merkur Venus Erde Mars Jupiter Saturn Uranus Neptun Pluto
. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
. . . .
47°834 76.302
7.004 3-394
. .
49-234
1.850
113-297 73.767 131.319 109.633
1-305 2.490 0.773 1-774 17.144
—
. . . .
. . . .
a Merkur Venus Erde Mars Jupiter Saturn Uranus Neptun Pluto
. . . . . . . . • • • •
0.387099 0.723 332
76.802 130.980 102.218 335.286 13-655 92.234 172.410 47-554 223.175
0.205 0.006 0.016 0.093 0.048 0.055 0.046 0.009 0.248
L 109.048 82.308 99.157 2 35.397 199.021 256.167 132.698 212.538 177.168
626 793 727 366 430 692 329 001 644
P.a. 0
4.092 1.602 0.985 0.524 0.083 0.033
34 13 61 03 09 46 0.011 73 0.005 98 0.003 97
a O O I I II 29 84 164 248
d 87.9693 224.7008 O.OI42 3217375 314.925 167.21
. . . . 1.523688 . . • • • • 9-554 747 8.11 . . . . . 19.218 14 281.6 . . . . . 30.109 57 157 • • • • 39.5I7 74 Merkur, Venus und E r d e nach Newcomb, Mars nach N e w c o m b und Ross, J u p i t e r bis N e p t u n n a c h Leverrier und Gaillot. P l u t o nach Bower. Bei U r a n u s und N e p t u n s j n d In L die Hauptglieder d e r langperiodischen S t ö r u n g e n e n t h a l t e n . F ü r P l u t o sind baryzentrische E l e m e n t e bezogen auf Ekliptik u n d mittleres Ä q u i n o k t i u m 1950.0 gegeben. . . . .
. . . .
. . . .
VIII
Kalender der Juden Jahr 5718 (Gemeinjahr Tewet. 10 Schewat 1 Adar 1 13 14 15 Nissan 1 14 15 16 21 22 Ijar 1 18 Siwan 1 6
Tammus Aw EIlul
7 1 18 1 10 1
354 Tagen) Fasten: Belagerung Jerusalems . . . .
1958
Fasten Esther . . . Purim Schuschan Purim
März April
Erew Pessach •Passah-Anfang •Zweites Fest . •Siebentes Fest •Achtes Fest . .
April Mai Mai
Lag B'aumer •Wochenfest •Zweites Fest Fasten: Eroberung Jerusalems
Jan. Jan. Febr. März
Juni Juli Juli
....
Fasten: Tempelverbrennung
Aug.
Jahr 5719 (Schaltjahr von 383 Tagen) •Neujahrsfest . . . Tischri 1 •Zweites Fest . . . 2 Fasten Gedaljah 3 •Versöhnungsfest 10 •Laubhüttenfest . 15 •Zweites Fest . . . 16 Palmenfest . . . . 21 •I.aubhüttenende 22 •Gesetzesfreude .. 23 Marcheschwan 1 Kislew 1 Tempelweihe 25 1 Tewet 10 Fasten: Belagerung Jerusalems
1958
2 22 2r 5 6 7 22 4 5 6 11 12 21 8 20 25 26 19 6 18 27 17
Sept. 15 16 17 24 29 3° Okt. 5 6
7 15 Nov. 13 Dez. 7 Dez. 12 21
Die mit * bezeichneten Festtage werden streng gefeiert.
Kalender der Mohammedaner Jahr 1377 (Gemeinjahr von 354 Tagen) Redscheb 1 Schabän 1 Ramaddn 1 Schewwäl 1 Dsü'l-kade 1 Dsü'l-hedsche 1 Jahr 1378 (Gemeinjahr von 354 Tagen) Moharrem 1 Safar 1 Rebl-el-awwel 1 Rebi-el-accher r Dschemadi-el-awwel . . . . 1 Dschemädi-el-accher . . . . 1
1958
Jan. Febr. März April Mai Juni
22 21 22 21 20 19
1958
Juli Aug. Sept. Okt. Nov. Dez.
18 17 15 15 13 13
Sonne 1958
2
0h W e11 z e i t
rt • •C o o
£
Di Mi Do Fr Sa So Mo Di Mi Do Fr Sa
Zeitgleichung W a h r e Zeit minus Mittlere Z e i t
-
Fr Sa So Mo Di Mi Do Fr Sa So Mo Di Mi Do Fr Sa So Mo
Scheinbare
Rektaszension
Deklination
m s 4 25.21 49-54 4 24 90 14.44 4 24-55 38.99 4 24.18 3-i7 4 23-78 26.95 4 23 35
2 4 7 - 3 1 28.65 3 15-96 28.34 3 44-30 27.99 4 12.29 27.62 4 39-91 ¿7.23 5 7-i4 26 79
18 39
19
1
5
3 3 - 9 3 26 36 0 . 2 9 25.88
19
5
50.30
19 10
13.21
6
2 6 . 1 7 25.40
19 14
35-66
6
5 1 - 5 7 24.88
19 18
57.61
19 23
19.05
19 27
39.96
-
6
So Mo Di Mi Do Fr Sa So Mo Di Mi Do
Scheinbare
18 43 18 48 18 52 18 57
24.33
8 4.60 „ „ 23.22 8 27.82 J „ „ ' 22.02 8 «5-»0 . 41 41 01 nn
19 32
0.31
19 36
20.09
19 40
39.26
9
19 44
57.82
19 49
15-74
19 53
33-oo
19 57
49-57
9 9
12-44
21 37 3 3 - 8 I 20.69 54-50
-10
14.52
10
33.83
10
52.42
11
10.26
«
27.35
11
59.20
12
13.93
13 -13
17.84 17.09
14 73 13-92
2 7 . 8 5 13.12
12 40.97 12
18 59
16.32 43.67 ' 15 53
-11 12
19 31
53-25
I2
2g
11.46
4 - 7 1 10.62 15-33
9-79
13
25-12
8.96
13
34.08
8.12
13 42.20 7 . 2 9 13
49-49
6.47 5.65
13
55-96
-14
1.61
4.84
14
6.45
4.05
14
10.50
3-25
14
13-75
2.48
14 -14
16.23 17-93
1.70
20
2
5.44
20
6
20.58
20 10
34.98
20 14
48.63
20 19
1.50
20 23
13.58
20 27
24.87
20 31
35-35
20 35
45-02
20 39
53-86
20 4 4
1.87
20 48
9.05
20 52
15.40
20 56
20.91
21
o
25.58
21
4
29.43
21
8
32.45
21
12
34.66
21
16
36.06
21 20
36.66
21 24
36.46
21 28 21 32
4 22.91 4 22.45 4 21.95 4 21.44 4 20.91 4 20.35 4 19 78 4 19-17 4 18 56 4 17.92 4 17.26 4 16 57 4 15-87 4 15 14 4 14.40 4 13 65 4 12.87 4 12.08 4 11 29 4 10.48 4
9.67
4
8.84
4
8.01
4
7.18
4
6-35
4
5 5i 4.67
4 4 4
3-85 3.02
4
2 21
4
1.40
4
0.60
3 59.80
3 59 03 35.49 3 58.26 33-75
-23
8
23
0.7
3
37-3
22 58
46.2
22 53
27.7
22 47
41.8
22 4 1
28.9
-22 34
48.9
22 27
42.1
22 20
8.8
22 12
9.0
22
3
43.1
21 54
5i-3
-21 45
33-8
21 35
5°-8
21
25
42.8
21
15
9-9
21
4
12.4
20 52
50.8
-2041 20 28 20 16 20
3
19 50 19 36 -19
22
19
8
18 53 18 38 18 22 18
7
/
//
4 23-4 4 5i 1 5 18.5 5 45 9 6 12.9 6 40.0 7
6.8
7 33-3 7 59.8 8 25.9 8 51.8 9 17 5 9 43 0 10 8.0 10 3 2 9 10 57-5 I i 21.6 11 45 5
5 - 3 12 91 5 6 . 2 12 32-3 2 3 . 9 12 55 1 28.8 13 17 6 Ii.2 ' 3 39-8 3i-4 14 1 5 29.9 1 4 22 9 7.0 14 43-9 23-1 15 4 5 18.6 15 24 7 53.9 15 44-7 9.2 16 4 . 0
-17 5i
5-2
17 34
42.1
17
18
0.3
17
1
0.3
16 43
42.4
16 26
6.9
-16
Halbe DurchgangsDauer St.-Zt.
8
14.4
15 50
5-i
15 3 i
39-5
15
12
58.0
14 54
0.9
- 1 4 34
48.6
16 23.1 1 6 41.8 17
0.0
17 1 7 . 9 17 35 5 17 52.5 18
9-3
18 25.6 18 41-5 18 57-i 19 12.3
71.09 71.07 71-03 70.98 70.93 70.88 70.82 70.76 70.69 70.62 70.55 70.47 70-39 70.30 70.22 70.13 70.04 69.94 69.84 69.74 69.64 69-54 69.44 69-33 69.23 69.12 69.01 68.90 68.78 68.67 68.56 68.44 68.31 68.19 68.08 67.98 67.87 67-75 67.64 67.52 67.41 67.30
Sonne 1958
3
0h W e 11 z e i t Julian Zeit
2436 d 203-5 204.5 205-5 206.5 207.5 208.5
Sternzeit
Nutation in A R .
Mittleres
in
Äquinoktium
Gl.
Länge
0.001
/
37.024 +678 - 1 2 680 - 1 4 33.581 682 - 1 3 30.139 684 - 1 0 26.696 23.253 686 - 5 19.810 687 o
279 280 281 282 283 284
3 4 5 6 7 8
o 4 8 12 16 19
215-5 216.5 217-5 2l8.5 219-5 220.5
7 7 7 7 7 7
16.368 +689 + 5 12.925 691 + 9 9.482 693 + 1 1 6.039 694+ 9 2.596 696 + 5 59-153 697 o 55-710 +699 - 4 700 52.266 702 48.823 703 45-38O 704 4I-936 705 + 38.493
285 286 287 288 289 290 291 292 293 294 295 296
10 11 12 13 14 !5 16 17 19 20 21 22
7.0 61 14.6 61 22.2 61 29.7 ^ 61 37-3 61 44-9 61 52.4 61 59-9 '61 7-3 61 14.7 61 21.8 61 28.6 61
221-5 222.5 223-5 224.5 225-5 226.5
7 47 35-049 +706 + 6 7 5 1 31.605 707 + 1 0 7 55 28.162 708 + 1 2 7 59 24.718 709 +-12 8 321.274 709 + 1 1 710 + 7 8 7i7-83° 8 i r 14.386 + 7 x 1 3 8 1 5 10.941 711 - 2 8 1 9 7.497 711 - 7 8 2 3 4.053 711 - 1 1 8 27 0.608 712 - 1 4 8 3 0 57-163 712 - 1 4
297 298 299 300 301 302
23 24 25 26 27 28
35-1 41.2 46.7 51.5 55.7 59.0
303 304 3°5 306 307 308
30 31 32 33 34 34
M , 61 2.8 61 3-2 60 2-5 60 0.7 60 57-7 60
2II.5
212-5 213-5 214-5
227.5 228.5 229.5 230.5 23I.5 232.5
23 27 31 35 39 43
53-7I9 + 7 1 1 711 5 0 -274 711 46.829 711 43-384 710 39-939 710 36-494
233-5 234-5 235-5 236.5 237-5 238.5
8 8 8 8 8
34 38 42 46 50 54
239-5 240.5 24J-5 242.5 243-5 244-5
8 9 9 9 9 9
58 33.048 +709 2 29.603 708 626.157 707 10 22.712 706 14 19.266 705 18 15.820 + 704
8
18.1 26.7 35-1 43-3 5i-4 59.2
- 1 2 309 35 53-5 - 8 3 1 0 36 48.0 ~ 3 3 1 1 37 4i-2 + 3 3 1 2 38 33.2 + 7 3 1 3 39 24.0 + 1 0 3 1 4 40 13-5 + 1 0 315 41 1.9 + 7 3 1 6 4 1 .9.1 + 2 3 1 7 42 35.3 - 3 3 1 8 43 20.5 - 7 3 1 9 4 4 4.6 - 8 320 44 47.8
in
Breite
6 36 6 40 644 6 48 6 52 6 56
209.5 210.5
r + 5 0 0 Breite
1958.0
langp. I kuizp. Cl.
Aufgang
//
61
8 6
61 61
8.4 8 2
61
8.1
61
7.8
61
7.8 7.6 76 7 5 7.6 7.6 7 5 7 5 7 4 7 4 7 1 6.8 6 5
61
6.1
61 61
5 5 4.8
61
42
61
3-3
61
2 4 1-4 0.4 59 3 58 2 57.0 55.8
60 54 5 60 53.2 60 52.0 60 50.8 60 49 5 60 48.4 60 47.2 60 46.2 60 45.2 60 44.1 60 43.2
in 0.01 -l8
-31
-43 -55 -65 -73 -78 -81 -80 -77 -70 -60
0.983 0.983 0.983 0.983 0.983 0.983
0.983 0.983 0.983 0.983 0.983 0.983 -49 0.983 - 3 6 0.983 - 2 2 0.983 0.983 8 + 5 0.983 + 16 0.983
2999 2815 2689 2623 2619 2679
l
o" L ä n g e
h m 184 126
66 4 60 125
7 7 7 7 7 7
2804 191 2995 257 3252 320 3572 383 3955 441 4396 498
7 7 7 7 7 7
4894 550 5444 599 6043 644 6687
7 7 7 7 7. 7;
7374 8101
+24 +3° +33 +34 +32 +27
0.983 0.983 0.984 0.984 0.984 0.984
8866 9668 0505 1378 2287 3232
+20 + 11 + 1 -11 -22 -34
0.984 0.984 0.984 0.984 0.984 0.984
4 2 1 5•i ^
-45 -55 -64 -70 -72 -72
0.985 0.985 0.985 0.985 0.985 0.985
-69 -63 -54 -44 -31 -18
0.985 0.986 0.986 0.986 0.986 0.986
6298
687 727 765
802 «37 873 909 945
983 1021 1062
H04
7402 ii 47
8549 1192 9741 1241 0982 1290 2272 1342 36l4 1396 5010 1453 6 6 4 3 ; 7 9 7 4 1 5 56 I9I 9543 9
i626 i682
2851 4588 1737 1787 6375 8208 1833
7 5i 7 50 7 49 748 7 47 7 46 7 7 7 7 7 7
45 44 42 4i 40 39
7 37 7 36 7 7 7 7 7 7 7 7 7 7 r
Sonne 1958
4
0h Zeitgleichung Wahre Zeit minus Mittlere Zeit
h Mo Dl
- 1 4 1 7 - 9 3 0.95
14 14 14 14 14
Mi Do Fr Sa So Mo Di Mi
18.88 19.06 18.51 17.22 15.20
-14 12.45 14 9.00 14 4.84 13 59-99
Do
1 3 54-46
Fr
13 4 8 -25
Sa
-13 4j-38
0.18 ° 55 1 29 2 02 2 75 3 45 4.16 4.85 5 53 6.21 6.87
So
13 33-87
7 5i
Mo
13 25-72
8 15
Di
13 I6-95
8 77
13 7-57 12 57.60
9 38
Mi Do Fr Sa So Mo
-12 12 i2 12
Di
47.06 35.96 24.32 T 12.16
11 59-51 11 46.38
Mi
-11 32.80 11 18.79
Do Fr
11
Sa
4-38
10 49.59 10 34-45 10 18.98
So Mo Di
Do
-10 3.19 9 47-12
Fr
9 30-77
Mi
Sa
l 8
So
I 4
'
1 7
57-34 8 40.29
Mo
^
Di
8
5-63
Do
7 48.04
Fr
7 3°-3 I 7 12.46
Sa So
-
11.10
11
:
12 16 12.65
1313 13 58 14 Ol 14.41 14 79
15 14 15 47 15 79 16.07 1 6
35
l6-6o
16.83 1 7 05
^ 17 24
8 23.05
Mi
997 10 54
6 54-49
17.42 17 59 17-73 17.85 17.97
21 21 21 21 21 21
W e 1 t ze i t
Scheinbare
Scheinbare
Rektaszension
Deklination
m
32 36 40 44 48 52
s
33-75 31.25 27.99 23.99 19.25 13.79
21 56 7.60 22 o 0.70 22 3 53.09 22 7 44-79 22 11 35.81 22 15 26.16 22 22 22 22 22 22
19 23 26 30 34 38
15.84 4.88 53.29 41.07 28.24 14.83
22 22 22 22 22 23
42 45 49 53 56 o
0.84 46.29 31.21 15.60 59-5° 42.92
4 8 23 2 3 11 2 3 15 2 3 19 23 22
25.89 8.44 50.58 32.34 13.76 54.83
23
23 26 35.60 23 30 16.08 23 23 23 23
33 37 41 44
56.28 36.24 15.96 55-46
23 23 23 23 o o
48 52 55 59 3 6
34-77 13.90 52.87 31-69 10.39 48.97
3 57 5 ° 3 56.74 3 56.00 3 55 2 6
-14 14 13 13
3 54 54
3 52 39 3 5i 7 ° 3 51 ° 2 3 50-35 3 49-68 3 49 04 3 48 41 3 47 78 3 4717 3 46.59
3 46 01 3 45-45
41.2 54-9 56.9 47-7 27.5 56.9
—10 10 9 9 8 8
27 5 43 21 59 36
16.3 26.1 26.8 18.7 2.2 37-8
-
8 7 7 7 6 6
14 5i 28 5 42 19
5.9 26.9 41.1 48.9 50.8 47.0
5 5 5 4 4 3 3 3 2 2 2 1
56 38.0 33 24.1 10 5-7 46 43-o 23 16.7 59 46.9 36 14.0 12 38.4 49 0.6 25 20.9 1 39-6 37 57-3
3 43-90 3 43.42 3 42.97
-
3 42.14 3 4176 3 4142 3 41-07
3 40.48
-
3 4°.2o 3 39-96 3 39-72 3 39-5° 3 39 31 3 39.13
-
3 38.97
3 38.82 3 38.70 3 38.58
36.9
34 13 52 3i 10 48
3 44-39
3 40 77
13 15
-12 12 11 11 11 10
3 44-92
3 42.55
48.6 21.7 40.5 45-4
12 55 i5-3
3 53-81 3 53-1°
34 15 55 35
+ +
1 14 o 50 0 26 o 3 o 20 O 44
14.1 30.7 47.2 4.2 38.1 19.3
Halbe DurchgangsDauer St.-Zt.
19 26.9 19 41 2 19 55 I 20
8 5
20 2 1 . 6 20 34 1 20 46 3 20 58.0 21
92
21 20 2 21 30.6 21 40.6 21 50 2 21
59-3
22
8.1
22 16 5 22 24 .4 22 31.9 22 39.0 22 45 -8 22 52.2 22 58.1 23
3-8
23
90
23 13-9 23 1 8 . 4 23 22.7 23 2 6 . 3 23 29.8 23 32.9 23 35-6 23 37-8 23 39-7 23 4 I - 3 23 42 3 23 43-2 23 43-4 23 43-5 23 43 o 23 42 3
23 4 1 2
67.30 67.19 67.09 66.98 66.87 66.77
66.66 66.56 66.45 66.35 66.25 66.16 66.07 65.98 65.89 65.80 65.72 65.64 65-56
65.48 65-41
65-34 65.27 65.20 6513
65.07 65.01 64-95
64.90 64.85 64.80 64-75 64.71 64.67 64.64 64.61 64.58 64-55 64-53 64.51 64.49 64.47
5
Sonne 1958 0h W e 1 t z e i t Tag
Julian. Zeit
1958 Febr. 10 11
12 13 14 15 16 17 18 x 9 20 21 22 23 24 25 26 27 28 März 1 2 3 4 5 6 7 8 9 10 11
12 13 15 16 17 18 19 20 21 22 23
2436 d 244-5 245-5 246.5 247-5 248.5 249-5 250.5 25I.5 252.5 253.5 254-5 255-5 256.5 257-5 258.5 259-5 260.5 261.5 262.5 263.5 264.5 265.5 266.5 267.5 268.5 269.5 27O.5
27I.5 272.5 273-5 274-5 275-5 276.5 277-5 278.5 279-5 280.5 281.5 282.5 283.5 284.5 285.5
Sternzeit
Nutation in A R . laugp. I kurzp. Gl. | Gl.
Mittleres Ä
195
Länge
m
l
Breite
s
0 / " in 0.001 s 9 18 15.820 +704 - 8 320 44 47.8 60 42 i 9 22 12.374 7°3 - 7 321 45 29.9| 41 i 9 26 8.928 701 - 4 322 46 I I . O» 60 , 40 o 60 930 5.482 700 0 323 46 5!-o1 60 38.9 9 34 2.036 698 + 5 324 47 29.9 60 37 6 9 37 58.590 69 7 + 9 32548 7-5 60 36.4 9 4i 55- I 43 +695 + 12 326 48 43.9| 60 35 i 9 45 5 i -697 693 + 13 327 49 !9-01 60 33 6 9 49 48.250 691 + 1 1 328 49 52.6 * 60 32 1 9 53 44-803 689 + 9- 329 50 24.7 60 30 6 687 9 57 41-357 + 4 330 50 55-3 10 1 37.910 685 0 3 3 1 5i 24.2| 60 28 9 60 27 .1 10 534.463 +682 - 5 332 51 51-3 ; 60 25 4 10 9 31.016 680 - 9 333 52 16.7 60 23.6 10 13 27.569 678 - 1 3 334 52 40.31 60 21 7 10 17 24.122 675 - 1 4 335 53 2.01 , 10 21 20.675 673 - 1 3 336 53 21.7 6019 7 10 25 17.227 670 - 1 0 337 53 39-5 60 17.8 ' 60 15 .7 10 29 13.780 +667 - 6 338 53 55-2 60 13 7 0 339 54 8.91 10 33 10.332 664 60 Ii.6 1 0 3 7 6.885 661 + 5 340 54 20.51 60 9.6 1 !0 4I 3-437 658 + 8 34 54 30.1 60 7.6 !0 44 59-990 655 + 9 342 54 37-7 60 56 10 48 56.542 652 + 7 343 54 43-3 60 38 10 52 53.094 +649 + 3 344 54 47-1 60 1-9 10 56 49.646 646 - 2 345 54 49-0 ' 60 o 2 1 1 046.199 643 - 6 346 54 49.2 1 1 442.751 640 - 8 347 54 47-6 59 58 4 59 56 8 11 839.303 636 - 8 348 54 44-4 1 1 12 35.855 633 - 5 349 54 39-5 59 55 1 59 53 6 1 1 16 32.407 +630 - 1 350 54 33-i 1 1 20 28.959 626 + 5 351 54 24-9 59 5i 8 1 1 24 25.511 623 + 9 352 54 15.2 59 5° 3 1 1 28 22.063 619 + 12 353 54 3-7 59 48 5 59 46 8 1 1 32 18.615 616 + 14 354 53 50.5 59 45 1 1 1 36 15.166 613 + 13 355 53 35-6 59 43 2 1 1 40 1 1 . 7 1 8 +609 + 10 356 53 18.8 1 1 44 8.270 606 + 6 357 53 0.2 59 41 4 1 1 4 8 4.822 602 + 1 358 52 39-6 59 39-4 59 37 4 " 5 2 1.374 598 - 3 359 52 17-0 59 35 4 I I 55 57.926 595 - 8 0 51 52-4 59 33 3 11 1 1 1 59 54-477 +591 1 5 25-7 h
Aufgang
-18 - 5 + 8 + 19 + 28 + 34
0.986 0.987 0.987 0.987 0.987 0.987
+37 +37 +34 +29 +22 + 13 + 2 -10 -23 -35 -47 -58 -67 -73 -77 -78 -75 -70
0.987 0.988 0.988 0.988 0.988 0.989
-62 -51 -39 -25 -11 + 2 + 13 + 21 +28 + 32 + 33 + 31 + 26 + 18 + 8 - 3 -15 -28
0.989 0.989 0.989 0.989 0.990 0.990
8208 1876 0084 1 9 1 6 2000 1950 3950 1983 5933 2 0 1 1 7944 2038 9982 2063 2045 2087 4132 2108 6240 2 1 2 9 8369 2 1 5 1 0520 2173 2693 2195 4888 2218 7106 2242 9348 2266 1614 2294 3908 2322
7 7 7 7 7 7
o Länge
h m
20 19 17 15 14 12
7 10 7
6 59 6 57 6 55 6 53 651 6 49
6230 6 47 2352 6 8582 2385 6 45 0967 43 2421 1 3388 2458 6 4 6 38 5846 2497 8343 2537 6 36 0.992 0880 34 2576 0.992 3456 2 6 1 3 32 0.992 6069 2648 30 28 0.992 8717 2679 26 0-993 1396 2707 24 0-993 4103 2730 22 0-993 6833 2750 19 0-993 9583 2766 0.994 2349 2778 17 0-994 5127 2787 15 x 0.994 79 I 4 2794 3 0708 11 0-995 2798 9 0-995 3506 2800 6 0-995 6306 2800 0-995 9106 2800 4 2 0.996 1906 2798 o 0.996 4704 2796 0.996 7500 5 58 0.990 0.990 0.991 0.991 0.991 0.991
Sonne 1958
6
0 h W e 11 z e i t Zeitgleichung
Scheinbare Rektaszension
Wahre Zeit minus Mittlere Zeit
m
So Mo Di Mi Do Fr Sa So Mo Di Mi Do
6 6
6 5 5
0
Do Fr Sa So Mo Di
1
Di Mi Do Fr Sa So Mo Di Mi Do Fr Sa
l8
23
i8.20
4 I O " 7 9 18.06 3 52-73 3 3 4 7 6 - -3
Mi Do Fr Sa So Mo
s
5449 ^ 36.43 l 8 „ 1 8 . 3 0 l8a 1 3 19 0.111 41-88 1 2 3 ^ , 18.25 23 3 i8.26
—5 5-37 4 47.14 4 28.94
Fr Sa So Mo Di Mi
i6"93
59-24 2 41.73
2
^
'
0
i 7 6 9 1
5 I
17 32
2 24.41 ^ ^ 17.10 2 7-3'X6.8 5
-
Halbe DurchgangsDauer St.-Zt.
Scheinbare Deklination
5°-46
33-86 1 x7-55 1 I-53 045.81 o J30.42 0 1 5 . T3„8
1
D
^
l6 l6
i 6 o 2 15
72
15-39 153 04 ^ 14 70
-o 0.68 4 32 + 0 1 J3 . 6 ^ 4 113.95 o 27.59 ; ' 13 356 o 4 1 . 1 5u 0 ^ 5 4 - 3 1 13.16 J 12 74 1 77 . 0J5 12 32 + 1 19-37 ^
1 31.27
o 0 o o O o
6 10 14 17 21 25
48.97 27.46 5.88 44-24 22.57 0.87
o o o o o o
28 32 35 39 43 46
39.16 17.48 55.83 34-24 12.73 5I-31
o 5 0 30.03 o 5 4 8.89 0 5 7 47-93 1 1 27.17 1 5 6.62 1 8 46.32 1 1 1 1 1 1
1 53
o 36.34 4 21.44
11 45
57-4° a +3 446
g 6 2 8
2
7
i2
*
0 6
8
6.99
1 1 53.00 1 5 39-47 2 2 2 2 2 2
19 23 27 30 34 38
3 38.33 3 38 .30 3 38.29 3 38 32
26.42 13.86 1.79 50.23 39-19 28.68
+
3 38.35 3 38.41 3 38.49 3 38 58 3 38 72 38.86
+
39 04 39 24 39-45 39 7 °
39.96 3 4 ° 23
+
3 4 ° 54 3 4 0 .83 3 41 17 3 4151
43.80
44.24 44.66 45.10 45-55 46.01 46.47 3 46.95 3 47 44 3 47 93 3 48 4 4 3 48 96 3 49 49
o 44 19.3 I 7 58.9 I 3 1 36.6
3 38.36
3 2 4 1 3 42 23 1 4 . 6 4 3 42 60 57.24 3 43 00 40.24 43-4° 23.64 7-44
+
3 38.42
3 41.85
56 5 1 . 6 8
11.90
9 I I
30 5 0 . 5 6
1 34 1 38 1 41 1 45 1 49
I ^4 2 . '7 2 11.00 1 2 J5J3 -' 7, 10 54 2 4.26 ^ 10.00 2 r4-35 9 6o + 223.95 2 33-O6 2 4I-68 2 49-80
1 2 26.28 16 6.51 1 9 47-05 23 27.88 27 9.05
3 3849
+
1 55 ! 2 . o 2 18 4 4 . 9 2 42 I4.7 3 3 3 4 4 5 5 5 6 6 6 7
5 29 52 i5 38
4i-2 4-o 22.7 37-1 46.7
1 51-3 24 47 10 33 55 18
50.5 44-1 31.6 12.8 47-3 14.9
7 40 3 5 - i 8 2 47.6 8 24 52.1 8 46 48.3 9 8 35.7 9 30 1 4 - 1 9 10 10 10
5 i 43-1 13 2.3 34 1 1 . 4 55 10.1
1 1 1 5 57-9 1 1 36 34-7 + 1 1 5 6 59-9 12 17 i3-4 12 37 14.6 12 57
3-4
13 16 39.3 1 3 36 2.1 + 13 55 i i - 4 1 4 1 4 6.8 1 4 32 48.2 14 5 i 15-1 15 9 27.2 + 15 27 24.4
23 39-6 23 37 7 23 35-4 23 32 9 23 29.8 23 26 5 23 22.8 23 18.7
64.47 64.46 6445 6445 6445 6445 6445 64.46 64.47
23
144
23
9 6
23
4.6
64.51
22 59.2
64.53
22 53.6 22 47-5 22 41.2 22 34 5 22 27.6 22 20.2 22 12 5 22
4 5
21
56.2
21 47-4 21 38.4 21 29.0 21
19.2
21
9.1
20 58 7 20 47.8 20 36.8 20 25.2 20 13.5 20
1.2
19 48.8 19 35 9 19 22.8 19
9 3
18 55.4 18 41.4 18 26.9 18 12.1 17 57 .2
64.49
64-55 64-57 64.60 64.63 64.66 64.69 64.72 64.76 64.80 64.85 64.89 64.94 64.99 65.05 65.IO 65.16 65.22 65.28 65-35 65-41 65.48 65-55 65.62 65.70 65-77 65.85 65.92 66.00 66.08 66.15
Sonne 1958 0h Julian. Zeit
Sternzeit
Nutation in A R . langp. I kurzp. | Gl. I Gl.
7
W e 1 t z e i t
Aufgang
Mittleres Äquinoktium 1958 o Länge Breite
in i + 5 0 0 Breite oh Länge
l
2436 d 285.5
286.5 287.5
288.5 289.5 290.5
291.5 292.5 293-5 294-5 295-5
296.5 297-5
298.5 299-5 300.5 3OI-5
302.5 303-5
304-5 305.5
306.5 307-5 308.5 309-5 310.5 3"-5
312.5 313-5
3I4.5 3I5.5
316.5 3I7.5 318.5 3I9-5
320.5
323-5
324-5 325-5
326.5
m
s
54-477 +591 - 1 1 2 51.029 588 - 1 3 2 47.58I 5 8 4 - 1 3 2 44-133 581 - 1 1 2 40.685 577 - 7 2 37-237 574 - 2 2 33.789 - 5 7 0 + 2 30.341 5 6 7 + 2 26.893 564 + 2 23445 5 6 0 + x 2 9-997 557 + 2 16.549 554 2 47 1 3 . 1 0 1 + 550 - 5 547 " 9 251 9-653 2 55 6.205 544 - 9 2 59 2.757 541 - 7 3 2 5 9 . 3 1 0 538 - 3 3 655.862 535 + 3 3 10 52.415 + 532 + 8 3 14 48.967 5 2 9 + 1 2 3 18 45.519 526 +14 3 22 42.072 5 2 3 + 1 4 3 26 38.625 521 + 1 2 3 30 35-177 5 1 8 + 8 3 3431.73° +515+ 3 3 38 28.283 5 1 3 - 2 3 42 24.836 510 - 6 3 4 6 21.389 508 - 9 3 5 ° 17-942 5 0 6 - 1 2 3 54 14-495 5 0 4 - 1 2 + 0 1 -I1 3 58 11.048 5 499 " 7 4 2 7.602 4 6 4.155 497 4 10 0.708 495 + 4 1 3 5 7 - 2 6 2 494 + 4 17 53-8I6 4 9 2 + 4 21 50.369 +490 + 7 4 25 46.923 489 + 4 4 29 43-477 487 o 4 33 40.031 486 - 5 4 37 36.585 484 - 9 4 4i 33-139 +483 - 1 1 59 3 7 11 15 19 23 27 31 35 39 43
1 5 i 25.7
//
/
59 3 1 2 28 9 26.8 24 4 221 59 19.8
2 3 4 5 6
50 50 49 49 48
56.9 59 25.8 59 52.6 59 17-0 59 39-i
7 8 9 10 11 12
47 47 46 45 44 44
58.9 16.4 31-5 44-3 54-9 3-2
59 59 59 59 59 59
17-5 151 12.8 10 6 83 6 2
13 43 9-4 59 4 2
1 4 42 13-6 59 2 2 1 5 4 i 15-8 16 40 16.1 59 ° 3 58 58 5 17 39 x4-6 58 56 7
18 38 1 1 . 3
19 20 21 22 23 24
37 35 34 33 32 3i
6.3 59-6 5i-i 41-0 29.0 15-4
25 26 27 28 29 30
29 28 27 26 24 23
59-9 42.6 23.4 2.4 39-5 14.5
31 32 33 34 35 36
21 20 18 17 15 14
47-6 18.7 47-6 14-5 39-2 1.9
37 38 39 40 41 42
12 22.3 10 40.7 857.0 7 Ii.2 5 23-5 3 33-9
58 55 0 58 58 58 58 58 58
53-3 5i 5 49-9 48.0 46.4
58 58 58 58 58 58
42 7 40 8
58 58 58 58 58 58
3i 1 28 9 26.9 24 7 22 7 20 4
44 5
39 37 35 33
0 1 ° 1
58 18.4 163 58 14 2 58 12 3 58 10 4
00 1/1
321.5 322.5
h
1
-28
7500 0295 2795
-54 -65 -75 -82
0.996 0-997 0.997 0-997 0.997 0.998
-87 -89 -87 -82 -74 -64
0.998 0.998 0.998 0-999 0-999 0-999
4 2 5 9 2801 7060 2809 9869 2819 2688 2832 5 5 2 0 2847 8367 2862
-51
.000 .000 .000 .000 .001 .001
1229 4106 6996 9897 o c. 2806 5720
.001 .002 .002 .002
8634 2911 I545 2904 4449 7342 2893
-42
-37 -23 -10 +• 3 + 13
+ 21 +25 + 27 + 27 + 23 + 15 +
6
- 4 -16 -30
-43 -56
-69 -79 -87 -92
-95 -94 -89 -82 -73 -60 -46 -33
3087
2792
5878 2791 8670 2792 1463
2793 2796
28 77 2890 2901 2 9°9 2914 2914
2879 .003 0 2 2 1 ' ° r, 2862 .003 3083 2843 .003 5926 2822 •003 8 7 4 8 2799 •004 1 5 4 7 2774 •004 43.21 2748 .004 7069 2722 .004 9791 2694
.005 •005 .005 .006 .006 .006
2485 5152 7792 0408 2999 5568
.006 .007 •007 .007 •007 .008
8118 0651 3171 5678 8175 0664
2667 2640 2591 2569 2550 2533 2520 2507 2497 2489
h
m
5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5
45 43 40 38 36 34 32 30 27 25 23
5 21
5 5 5 5 5 5 5
5
6
4
5 2 5 o 4 58 4 56
4 4 4 4 4 4
54 52 5i 49 47 45
4 4 4 4 4 4
43 4i 39 38 36 34
Sonne 1968
8 be
0 h W e 11 z e i t Zeitgleichung
8 £
Wahre Zeit minus Mittlere Zeit
s
So Mo Di Mi Do
+ 3 4-46 6.52 3 10.98 5-97 3 16.95
+ 3 35-11
Do Fr Sa So Mo Di
+ 3 44-70 3 44-25
Di Mi Do Fr Sa So
5 41
3 22.36 4-83 3 27.19 4-25 3 3i-44 3-67
Fr Sa So Mo Di Mi
Mi Do Fr Sa So Mo
Scheinbare Rektaszension
3-07
3 38.18 2.49 3 40.67 1.89
3 42.56 i-3° 3 43-86 0.72 3 44-58 0.12
3 43-22
3 4 I -62 3 39-45 3 36.74 +3
3 3 3 3 3
+3 2 2
3348
0.45 1.03 1.60 2.17 2.71 3.26
3-79
29.69 25.38 20.57 5 32 15-25 5-79 9-46 6.27 3-19 ^6-47 49-30 I
241.69 2 33-65 2 25.20
I
7 61
l *
8.45
8.86
h 2 38 28.68
m s
+ 15 15 16 16 16 16
27 45 2 19 36
3 i 37-36 3 3 5 30.84 3 3 9 24-91 3 3 13 19-57 3 3 T 7 !4-82 3 3 21 10.67
+ 17 17 17 17 18 18
9 25 41 56 12 26
34-8 6 3-5 38.3 5 46.1 24.4 5 28.4 52.8 5 10.4 3.2 4 52.0 55.2
66.15 66.23 66.31 66.39 66.47 66-55 66.63 66.71 66.79 66.87 66.96 67.04
3 3 3 3 3 3
25 7-09 3 57 01 29 4 - 1 0 3 57-59 33 1-69 3 58.16 36 59-85 3 58.71 40 58.56 3 59.28 44 57.84 3 59-81
+ 18 18 19 19 19 19
41 55 9 23 36 49
28.7 4 14-5 43-2 3 55-4 38.6 i4-5 3 35 -9 30.8 3 16.3 27.0 2 56.2
67.12 67.20 67.28 67.36 67.44 67.52
3 3 3 4 4 4 4
48 57.65 52 57-99 56 58.86 1 0.23 5 2.10 9 4-45 13 7-27
+20 20 20 20 20 20
2 14 26 37 48 59
2.9 2 15.4 18.3 1 54 7 13.0 1 33-6 46.6 1 12.3 58.9 o 5°-9 49.8
67-59 67.67 67.74 67.82 67.89 67.96
+21 21 21 21 21 21
10 20 30 39 48 57
18.9 0 7 1 26.0 9 45 1 n . i 9 22.6 33-7 9 0 1 33.8 8 37-3 II.I
+ 22 22 22 22 22 22
5 13 20 27 34 40
25.6 16.9 7 5i-3 7 28.1 45.0 49.7 7 4-7 30.8 6 41.1 48.2 6 17-4
68.03 68.09 68.16 68.23 68.29 68-34 68.40 68-45 68.51 68.56 68.61 68.65
+22 22 22 23 23 +23
46 41.7 52 11.3 57 16.7
2 2 2 2 2
42 18.71 3 5°-°3 3 50 59 46 9.30 3 51 14 50 0.44 3 51-73 53 52.17 3 52.30 57 44-47 3 52-89 53 48 54 °7 54-66 55-25 55-85 3 56.42
4 17
10.55
4 4 4 4
21 25 29 33
14.28 18.45 23.04 28.05
°-34 0.87
1 37 1.87
2-35 2.82 328
3-73 417 4 59 5.01
5-41
Mo Di Mi Do Fr Sa
+ 2 16.34 9.25 2 7.09 9.64 1 57-45 10.01 1 47-44 „ , , T 1 37.08 1 0 3 6 1 26.38 1 0 7°
4 4 4 4 4 4
37 41 45 49 53 58
33-46 39-27 45-47 52-03 58.95 6.21
So Mo Di Mi Do Fr
+ 1 15-35 11.32 I 4.03 II.61 o 52.42 11.87 O 40.55 o 28.44 12.II + 0 16.11 1 2 3 3
5 5 5 5 5 5
2 6 10 14 18 22
13-79 4 7-88 21.67 29.84 4 8.17 38.26 4 8.42 46.93 4 8.67 55.81 4 8.88
11.03
Halbe Durch gangsDauer St.-Zt.
Scheinbare Deklination
5.81 6.20 6.56 6.92 7.26
758
24.4 6.2 7 4 1 8 32.3 7 26.1 42.6 7 10.3 36.6 6 54 °
53 14.I
1
6 37-5
6 20.7
4 33-5
2 35-9
o 29 1
8 14.5
58-O
6 14.9 10 7.5
5 53-5 5 29.6
5
5-4
4 41-3 4 16.9
3 52.6
68.69 68-73 68.76 68.79 68.82 68.85
Sonne 1958 0h Julian.
Sternzeit
Zeit
Nutation in A R . langp. | kuizp. Gl. Gl.
9
Weitzeit
Aufgang
Mittleres Ä q u i n o k t i u m
1958.0
Länge
in{+5°° l oh Länge
Breite
2436 d
329-5
+483 14 45 29.693 482 14 49 26.248 481 14 53 22.802 480
330-5
14 57 19-357
326.5 327-5 328.5
M 4
1
33-r39
331-5
15 1 15.911
332-5
15 15
333-5 334-5
15
338.5 339-5
15 32 48-351
340.5
1 5 36 44-906
336-5 337-5
479 +
475 - 8 475 -11 475
342.5
15 40 41.461 15 44 38.017
343-5
15 48 34-572
475
34i-5
15 52 31.128 15 56 27.684 16 o 24.239 346.5 16 420.795 347-5 16 8 17.351 348.5 16 12 13.907 349-5 350.5 16 16 10.463 16 20 7.019 351-5 1624 3.576 352-5 16 28 0.132 353-5 16 31 56.688 354-5
344-5 345-5
355-5
16 35 53-244
16 356.5 16 357-5 16 358.5 16 359-5 360.5 16 16 361.5 362.5 17 3 6 3 5 17 17 364-5 17 365-5 366.5 17 17 367-5
6
42
3 33-9
43
1
42.6
4 3 59 49-6 44 5 7 55-o
475
-12 -11
- 8
+475 - 4 476 + 1
476 +
5
477 + 7 477 + 478 +
8
6
+479 +
2
479 -
3
58 58 58 58
4 5 5 5 5 8 . 9 58 46 54 M 58
478 +11 5 12.466 +478 +14 47 52 2.6 9 9.020 4 7 7 + 1 5 4850 2.3 13 5-575 476 +13 49 48 0.8 17 2.130 476 +10 Z5 °t 4 5„ „5 „7 - „9 20 58.685 4 7 6 + 5 5 1 4 3 5 3 - 8 1 24 55-240 4 7 5 48.3 o 52 4 28 51.795 + 4 7 5 - 5 J«u J ^9 41.6 ^
15 15 15 15
335-5
-11 - 9 - 6 - 1
»7 7.0 5-4 39 2 5 1.2
57 59 7 57 58 5
57 57.1 57 57-
57 55 9 57 54 5 57 53-3 57 51.9
5 4 3 7 3 3 - 5 , 7 ,Q 6 55 35 24.1 57 49-3 56 33 i3-4
57 47-9 57 466 58 28 47.9 57 45 o 57 3 1
1-3
59 26 32.9 60 24 16.6 61 21 58.7 62 19 39.3 63 17 18.4 64 14 56.0 65 12 32.1 66 10 6.6 67 7 3 9 - 7 68 5 11.5 69 2 41.9 70 o II.I
57 43 7 57 42 1 57 4° 6 57 39 1 57 37 6 57 36.1 57 34 5 57 33 1 57 318 57 304 57 29 2 57 28.x
008 0664 008 3145
-33
-18
+
5 6
+ 14 +20 +24 +23 +20 + 15 +
7
-
4
-16 -28 -40 -53
-65 -75
-84 -91 -94 -93
-90 -83 -75
-63
480 - 8 -50 481 -10 -36 | 482 - 1 1 -23 -10 483 - 8 +484 - 4 7 0 5 7 3 9 - 2 + 2 485 + 2 7 1 5 5 6.3 57 27 1 + 12 486 + 8 7 2 5 2 3 2 . 5 57 26 2 + 1 9 487 +12 7 3 4 9 5 7 - 9 57 25 4 +22 489 +14 74 47 22.5 57 246 +23 490 +14 7 5 4 4 4 6 . 5 57 224 o + 22 57 3 3 +491 +11 76 42 9.8 57 22.8 + 18
39 49.801 43 46.357 47 42.914 51 39.470 55 36.027 59 32.583 329.140 725.697 4 9 2 + 7 7 7 3 9 3 2 . 6 57 22 2 11 22.253 4 9 4 + 2 78 36 54.8 57 21 7 15 18.810 4 9 5 - 3 7 9 3 4 1 6 . 5 57 21 2 19 15.367 496 - 7 8 0 3 1 3 7 - 7 57 20 6 23 11.924 +498 -10 81 28 58.3
+ 11 +
1
-10 -21 -33
0 0
l 5617
h m 24gl 2472 24Ö2
008 8079 009 0526 29 009 2955 24IO 009 5365 2385 009 77 5 0 2358 010 0108 2328 010 2436 2294 .010 4730 2257 .010 6987 2219 ,010 9206 ,011 1384 2178 ,on 3518 2134 011 5608 2090 ,011' 7652 2044 .011 9648 1996 1949
0 1 2
J
597
012 3498
0 1 2 5352 .012 7 1 6 0
l8o8
3 2 3 3 3 l(,AQ l6
.013 5599
i586
.013 8744
27 25
4 24
4 22 4 21 4 19
4 18 4 16 15 14
12 11
10
8
5 4 3
2 1 o
50 58
x
:
.014~ 0276 ' 1507 .014 1783 1481 .014 3264 1454 .014 4718 1425 .014 6143 1394 0x4 7537
29
6
•0x3 3982
•013 7185
34 32 3i
7
I90I
l8
.012 8925 013 0648 1723 1685 0 I
4 4 4 4 4 4
57 56 56 55 54 54
1360 1321
53
1282 1238 1192 •015 3930 "44 •015 5074 1094
3 52
.014 .015 .015 .015
8897 0218 1500 2738
.015 6168
53 3 52 3 5i 3 5i 3 5i 3 5o
Sonne 1958
10
0h
tat)
+J
rt o JS o o
£
Fr Sa So Mo Di Mi Do FT
Sa So Mo Di Mi Do Fr Sa So Mo
Zeitgleichung
h 2 51
+o —o o 0 0
3.60 2 69 9.09 2 82 21.91 2 94 34-85 47.88 3 03
-1 1 1 1 r 2 —2
0.97 14.09 27.21 40.31 53 36 6.33 19.20
2 31-94
3 °9 3 12 3 12 3 10 3°5
2 97 2 87 2 74 2 60
m
s
5 22 527 5 3* 5 35 5 39 5 43
55.81 4.88 J 4-!3 23.51 33-01 42.59
5 5 5 6 6 6 6 6 6 6 6 6
47 52 56 o 4 8 12 16 21 25 29 33
52.24 i-9i 11-59 21.25 30.85 40.38 49.81 59.ir 8.26 17.25 26.04 34.63
6 6 6 6 6 6
37 41 45 50 54 58
43-00 51.13 59.00 6.60 I 3-9 I 20.90
m s 4 9 07 4 9 25 4 9 38 4 9 50 4 9 58 4 9 65 4 4 4 4 4 4
9.67 9 68 9 66 9.60
9 53 9-43
4 9 30 4 9 15 4 899 4 8 79 4 8 59 4 8 37
2 2 3 3
44-54 2 43 56.97 2 24 9-2i 2 03 21.24 1.81
Di Mi Do Fr Sa So
-3 3 3 4 4 4
33-05 1 58 44-63 1 3i 55-94 1 04 6.98 o 75 17-73 0.44 28.17 O II
Mo Di Mi Do Fr Sa
-4 4 4 5 5 5
So Mo Di Mi Do Fr
38.28 9 77 48-05 9.41 57-46 9 °3 6.49 8 62 I5-11 8 22 23-33 7 78
-5 5 5 5 5 6
3I-" 7 33 38.44 6.87 45-31 6 38 51-69 5.88 57-57 5 36 2.93
7 7 7 7 7 7
Sa So Mo Di Mi Do
—6 6 6 6 6 -6
7.76 4 28 12.04 15-75 3 7i 18.89 3 14 21.44 2 55 23.39 195
7 5i 15-72 4 0.84 7 55 16.56 4 0 27 7 59 16.83 3 59-69 i6
4-83
Scheinbare Deklination
Halbe Durch gangsDauer St.-Zt.
+ 23 23 23 23 23 23
10 13 16 19 21 23
7.5 35-5 3 28 o 38.9 3 3 4 17.8 2 38 9 32.0 2 14 2 21.4 I 49.4
68.85 68.87 68.89 68.91 68.92 68.93
+ 23 23 23 23 23 23
24 25 26 26 26 25
46.1 o 59.9 46.0 o 35 2 21.2 o 10.3 31.5 17.1 o 14 4 37-9 0 39 2
+23 23 23 23 23 23
24 23 21 18 16 i3
34.0 5-3 1 28 7 1 53 3 12.0 2 179 54.1 2 42 5 11.6 3 6 9 4-7
68.94 68.95 68.95 68.95 68.94 68.93 68.92 68.91 68.89 68.87 68.84 68.81
Scheinbare Rektaszension
Wahre Zeit minus Mittlere Zeit
+ o I6.II
Weltzeit
2 27.57 6 33-90
8
10 14 18 22
39.86 45-44 50.63 55.40
26 3i 35 39 43 47
59.74 3-63 7-05 9-99 12.42 14-34
3
-52
4 4 4 4 4 4
8 13 7.87 7.60
7 3i 6 99 6 67
4 6.33 4 5.96 4 5 58 4 5 19 4 4 77 4 4 34 3.89 3-42 2 94
4 4 4 4 2.43 4 1 92 4 1 38
3 59 10
8 7 15.62 3 58 52 8 11 14.14
+23 23 23 22 22 22
1 24 7
1
3-9
3 3i 4
9 33-3 5 37-6 1 17-6
3 55 7 4 20 o
4 44
1
+ 22 22 22 22 22 22
56 51 45 39 33 26 19 12 4
33-5 5 8.0 25.5 5 3 2 0 53-5 5 55 7 57.8 6 19 4 38.4 6 42 8 55.6 7 61 49.5 20.2 7 29 3 28.0 7 52 2
+ 21 21 21 21 21 21
56 47 38 29 19 9
13.0 35-5 8 37 5 9 0.0 35-5 9 22 1 13.4 0 29.4 9 44 10 5.8 23.6
+20 20 20 20 20 +20
58 48 36 25 13 1
56.4 7.9 58.5 28.3 37-7 26.8
8150
10 27 2
10 48 5 11
9 4
11 30 2 11 50.6 12 109
68.78 68.74 68.70 68.66 68.61 68.56 68.51 68.46 68.41 68.35 68.29 68.23 68.17 68.10 68.03 67.96 67.88 67.81 67.74 67.66 67.58 67-5I
67-43 67-35
Sonne 1958 0h Julian. Zeit
Sternzeit
Nutation in A R .
langp. kunp. Gl. Gl.
ii
We11 zeit
Aufgang
Mittleres Äquinoktium 1958.0 Lfinge
.
i+50°Breite l o^Länge
Breite
2436 d 367-5 368.5
369-5 370.5
37x-5 372-5 373-5 374-5 375-5 376.5
377-5 378.5 379-5 380.5 381.5 382.5 383-5 384.5
in 0.00z
723 7 27 7 31 7 35
11.924 + 498 1 0 8.481 499 -12 5-037 5 0 1 - 1 1 i-594 502 - 9 7 38 5 8 . 1 5 1 504 - 4 o 7 42 54708 505 7 46 51.265 +507 +.5 7 50 47.822 509 + 8 7 54 44-379 510 +7 58 40-936 512 + 8 237.493 5 1 3 + 8 634.050 5I5 8 10 30.607 - 5 1 6 - 6 8 14 27.164 518 - 9 8 18 23.720 519 -11 8 22 20.277 521 - 9 8 26 16.834 522 - 6 8 3° I3-39I 5 2 4 o
81 28 58.3 57 82 26 18.5 83 23 38.2 84 20 57.3 85 18 16.0 86 15 34.1 87 12 51.7 88 10 8.6 89 7 24.9 9 0 4 4°-5 9 1 1 55-4 91 59 9-7 92 56 23.3 93 53 36.3 94 50 48.8 9548 0.7 96 45 ".2 97 42 23.3
393-5 394-5 395-5 396-5
98 39 34-2 838 6.505 5 2 7 + " > 99 36 45-0 8 42 3.061 528 + 1 3 100 33 55.7 8 45 59.618 5 3 0 + 1 3 101 31 6.5 8 49 56.175 5 3 1 + ! 2 102 28 17.4 8 53 52-731 5 3 2 + 8 103 25 28.5 8 57 49.288 +534 + 3 104 22 39.9 9 I 45-845 535 - 2 105 19 51.6 9 542.401 5 3 6 - 6 106 17 3.6 9 9 38-958 5 3 7 - 1 0 107 14 16.1 9 13 35-5I4 538 - 1 2 108 11 28.9 9 17 32.070 5 3 9 - 1 2 109 8 42.2
397-5 398.5 399-5 400.5 401.5 402.5
9 9 9 9 9 9
385-5
386.5 387.5
388.5 389.5 390.5 391-5 392.5
8 34
9-948
+525 + 5
21 28.627 + 5 4 0 25 25.183 5 4 1 29 21.739 5 4 2 33 i8-296 543 + 37 14-852 543 + 41 11.408 544 +
9 45 7-964 +545 + 9 9 49 4 - 5 2 0 545 + 6 9 53 1-075 546 -t- 2 406.5 9 56 57-63I 546 - 3 407-5 20 054.187 546 - 7 408.5 20 450.742 + 5 4 7 - 1 0 403-5 404-5 405-5
110 5 56.0 in 3 10.2 112 o 24.9 112 57 40.0 "3 54 55-6 114 52 11.5 115 49 27.8 116 46 44.3 117 44 1.2 118 41 18.3 119 38 35.6 120 35 53.3
20 2 9-7 91 87 8 1 7.6 6.9 63 5.6 4-9 4 3 3-6 3o 25 19 1 5 11 0.9 o8 07 08 0.9 11 14 7 2 o 1
-33 -45 -56
-67 -75 -82 -85 -86
-83 -77 -69 -58
3 50 3 50 3 50 3 5i 3 5i 3 51
421
3 3 3 3 3 3
52 52 52 53 53 54
+24 +29 +30 +28 +24 + 17
016 6551 158 ,016 6709 124 ,016 6833 89 ,016 6922 52 016 6974 13 016 6987
3 3 3 3 3
55 55 56 57 57
+ 8
.016 6960 ,016 6889 7i .016 6772 117 164 ,016 6608 .016 6393 215 ,016 6127 266
190
-2
33 3-8
-36
56 5-9 6-3
.016 1558 691 .016 2249 .016 2882 633 •016 3459 577 .016 3981 522 016 4451 470
50 5o 5o 50 50 50
016 4872 .016 5248 376 -31 335 016 5583 -18 295 ,016 5878 -5 259 + 7 ,016 6137 224 + 17 ,016 6361
2 5 28
4 7 5-i
3 3 3 3 3 3
-45
-13
4-2
hm
015 6168 1041 015 7209 986 015 8195 929 015 9124 871 015 9995 811 016 0806 752
-24 -47 -57 -65 -71
-75 -76
-73
6-5 6.9 7 1
-68
7 3 77
-37 -23 -9
-60 -50
27
321
3 58
3 59 4
o
4
1
4
2
43 44
,016 5806 378 ,016 5428 435 016 4993 496 ,016 4497 016 3940 557 .016 3321 619
4 4 4 4 4 4 10
,016 2641 740 ,016 1901 798 .016 1103 852 .016 0251 903 •015 9348 951 •015 8397
4 4 4 4 4 4
680
Sonne 1958
12
0h e
J3 o >o
Zeitgleichung Wahre Zeit minus Mittlere Zeit
m
-6 6 6 6 6 6
Mi Do Fr Sa So Mo
-6 6 6 6 6 6
Di Mi Do Fr Sa So
- 5 59-50 5 53-62 5 47-I6
Mo Di Mi Do Fr Sa
-5 5 4 4 4
So Mo Di Mi Do Fr
—4 3 J 3 3
Fr Sa So Mo 2 i Di 3 I Mi
23.39 24.74 25.49 25.62 25.14 24.05
22.35 20.04 17.13 13.61 9.50 4.80
5 40.12
5 32.51 5 24-33 15-59 6.30 56.46 £ 46.07 35.14
1 35 o 75 0^13 0 48 1 09 1 70 2 31 2.91 352 4 11 4 70 5 30 5.88
6.46 7.04 7.61 8 18 8 74 9.29 9 84
10 39 IO.Qi VJ
4 23.67 1 1 4 7 ^ J ' 1 2 .00
11.67 59.14 ^ 46.ro 32.54
12 51 13 04 0
;
13 56
3 18.47 1 4 0 7 14 55 3 3-92 15.04
-2 2 2 2 1 1
48.88 33-38 17-43 1.05 44.24 27.05
-1
9.47
o 51-53
o —o +0 +0
Scheinbare
Scheinbare
Rektaszension
Deklination
Halbe Durchgangs Dauer St.-Zt.
s
Do Fr Sa So Mo Di
Sa So Mo Di Mi Do
Weltzeit
33.26 14.66 4.24 23.42
15.50 15.95 16.38 16.81 17 19 17.58 17-94 18.27 18 60 18.90 19.18
8 8 8 8 8 8
ir r5 19 23 27 30
14.14 12.04 9-34 6.03 2.11 57-57
8 8 8 8 8 8
34 38 42 46 50 54
52.43 46.67 40.32 33-35 25.80 17-65
8 58
8.91
9 1 59.58 9 5 49.67 9 9 39- r 9 9 *3 28.13 9 17 iö-S 1 9 9 9 9 9
21 24 28 32 36
4-33 5 I -59 38.30 24.46 10.09
9 39 55-17 9 43 39-72 9 47 23-75 9 51
7-26
9 54 50-25 9 58 32.74 10 2 14.74 10 10 10 10 10 10
5 9 13 16 20 24
56.26 37-31 17.91 58.08 37.83 17.19
10 10 10 10 10 10
27 31 35 38 42 46
56.16 3478 13.05 51.01 28.66 6.03
3 57-90 3 57 30 3 56.69 3 56.08 3 55 46 3 54-86 3 54-24 3 53-65 3 53 03 3 52.45 3 51.85 3 5i 26 3 50.67 3 5009 3 49-52 3 48 -94 3 48 38 3 47-82 3 47-26
+ 20
I 26.8
19 48 55-9 19 36
5-3
19 22 55.2 19 9 25.9 18 55 37-7
30.7 5.3 21.8 20.3 1.3 24.9
12 30.9 12 50 6 13 10 1 13 29 3 13 48 2 14
7 0
+j8 18 18 17 17 17
41 27 12 57 42 26
+ 17 16 16 16 16 15
10 31.4 54 21.2 37 54 5 21 I i . 7 4 13.0 46 58 8
16 42.8
+ 15 29 29.3 15 11 44.8
17 44 5
14 25 4 14 43 5 15 1 5 15 19 0 15 3 6 4 15 53 5 l6 10 2 l6 26 7 16 58 7 17 14 2 17 29 5
l
3 45 08
7 59 0 18 13 3 14 35 32.5 18 27 3 14 17 5-2 18 40.9
3 44-55
18 54 2
3 46.71 3 46.16 3 45 63
3 44 03 3 43 51 3 42-99 3 42 49 3 42.00 3 4152 3 41-05 3 4 ° 60 3 40 17 3 39-75 3 39 36 3 38.97 3 3862 3 38.27 3 37-96 3 37-65 3 37 37
1 4 53 45-8
13 58 24.3
+ *3 39
3 0
1
13
1
12 41 31.1 12 21 47.1 12 1 51.4 + 11 11 " 10 10 9
41 21 0 40 19 58
19
7 1 19 19.8 3-2 19 32 1
13 20 23.0
44.4 26.3 57.5 18.3 29.0 29.9
+ 9 37 21.2 9 16 3.4
19 44 0 19 55 7 20 7.0 20 18 1 20 28.8 20 39 2 20 49 3 20 59 1 21 8 7 21 17.8 21 26 7
8 5 4 3 6 . 7 21 35 4 x-3 8 33 21 43 5 8 11 17.8 21 51.6
-I- 7 49 26.2
67-35 67.27 67.18 67.10 67.01 66.93 66.84 66-75 66.67 66.58 66.49 66.40 66.32 66.23 66.15 66.06 65.98
65.89 65.81 65.72 65.64 65-56
65.48 65-4I
65-33 65-25
65.18 65.11 65.04 64.97 64.90 64.84 64.78 64.72 64.66 64.60 64-55 64.50 64-45 64.40 64-35 64-3 1
Sonne 1958 0 Julian. Zeit
Sternzeit
Nutation in A R .
h
W
13
e 11 z e i t
Aufgang
Mittleres Äquinoktium 1958.0
langp. | kuxzp. Gl. | Gl.
Länge
in|
Breite
+ 5 o° Breite
2436 in 0.01
d
408.5 20 409-5 20 410.5 20 4 I I - 5 20 20 412.5 4 1 3 - 5 20
450.742 +547 -10 8 47.298 547 - 9 12 43.854 547 - 6 16 40.409 547 - 2 20 36.964 547 - 4 24 33.519 547 - 8
20 21 22 23 24 25
35 33 30 27 25 22
53-3 I J -2 29.5 48.2 7-4 27.2
30.075 +547 +12 26.630 5 4 6 + 1 3 23.185 546 +12 19.740 546 + 9 16.295 545 + 5 12.849 545 0
26 27 28 29 30 31
19 17 14 11 9 6
47.6 8.8 30.8 53-8 J 7-7 42.8
420.5 20 52 9.404 +544 - 5 42i-5 2056 5-959 543 - 9 422.5 21 o 2.513 5 4 2 - 1 2 423-5 21 359.067 5 4 1 - 1 3 424-5 21 7 55.622 540 - 1 1 425-5 21 11 52.176 539 - 8
32 33 33 34 35
9-o 1 36-4 59 5-o 56 34-9 54 6.2
414-5 415-5 416.5 417-5 418-5 419-5
20 28 20 32 20 36 20 40 20 44 20 48
426.5 21 15 48.730 +538 427-5 21 19 45.284 537 + 428.5 21 23 41.838 535 + 21 27 38.392 534 + 429-5 430-5 2 1 3 1 3 4 - 9 4 6 5 3 2 + 431-5 21 35 3 I - 5 ° ° 5 3 1 + 432-5 21 39 28.053 +529 + 3 433-5 21 43 24.607 527 - 2 434-5 21 47 21.161 5 2 5 - 6 435-5 21 51 17.714 523 - 9 436-5 21 55 14.267 5 2 1 21 59 10.820 519 - 6 437-5 +517 - 2 438.5 22 3 7-374 515 + 3 439-5 22 7 3.927 440-5 22 11 0.480 512 + 8 44 1 -5 22 14 57-033 510 +12 442-5 22 18 53.586 508 +13 443-5 22 22 50.138 5 0 5 + ! 2 444-5 445-5 446.5
447-5 448.5
449-5
22 22 22 22 22 22
26 30 34 38 42 46
46.691 +502 +10 43.244 500 + 6 39.796 497 + 2 36-349 494 - 3 32.901 491 - 8 29.454 +488 - 1 0
4
36 5 1
38.8
37 49
12.7
38 46 48.0 39 40 41 42
44 24-7 42 2.8 39 42.1 37 22.7
43 44 45 46 47 48
35 32 30 28 26 23
4-5 47-5 31-6 16.7 3.0 50.4
49 21 38.8 50 19 28.5 51 17
19-3
57 17.9 57 18 3 57 18.7 57 19 2 57 19.8 57 20.4 57 21.2 57 22 0 57 23.0 57 23-9 57 25 1 57 26.2 57 27.4 57 28.6 57 29.9 57 31 -3 57 32.6 57 33-9 57 35 3 57 36 7 57 38.1 57 39-3 57 40.6 57 41.8 57 43 0 57 44
1
57 45 1 57 46 3 57 47-4 57 48.4 57 49-7 57 50.8 57 52.2
52 15 I I - 5 57 53 13 4-9 57 54 10 59.8 57 55 8 56.1 57 6 54.1 56 57 57 4 53-7 58 2 55-0 58 •58 59 o 58.0 58 59 59 2.9
53-4 54-9 56 3 58 0 59.6 13 30 4-9
- 9 + 4 +16 +26 +33 +39 +40 +39 +35 +28 +20 +10 -
1
-13
-24 -35 -46 -54 -61 -65 -65 -63 -59 -50
-39 -27 -13 +
1
+15
+29 +39 +47 +54 +56 +55
h m
015 .015 •015 .015 .015 .015
8397 7402 6365 5292 4183 3042
1073
.015 1871 .015u 0669 7
1202
995 1037 1x09 1141 1171
1232
•014 9 4 3 7
I2Ö2
• 0 I 4 8175 .014 6881
I2Q, I2< *
•014 .014 .014 .014 .013 .013
5555 i 3 6 o 4195 1396 2799 1433 1366 1473 9893 ^ 1513 8380 1
• o i 3 6823
• 0 I 3 5222 •013 3573 .01^5 1875 J 0 '
0I3
1326
™ iß49
1698 1750
.012 .012 •012 .012 012 011 ,011 •011
° I 2 5 1802 8323 1854 6469 1906 4563 I 9 5 7 2606 2005 0601 2049 8552 2090 6462 2127 4335 2159
.011 .010 ,010 010 010
2176 9987 7772 5535 3277
+51
.010 IOOI
+46 +38 +28 +16 + 5
,009 009 ,009 ,009 ,008 ,008
8707 6398 4072 1731 9373 6997
2189 2215 2237 2258 2276 2294 2309 2326 2341 2358 2376
4 l8 4 4 4 4 4 4 4 4
*9 20 22 23 24 26 27 28
4 30
4 31 4 33 4 4 4 4 4 4
34 35 37 38 40 4i
4 43 4 44 4 46
4 47 4 49 4 50 4 52 4 53 4 55 4 56
4 58 4 59 1
2 4 5 7 8 10 11 13
H
16
17
Sonne 1958
14
0h Zeitgleichung W a h r e Zeit minus Mittlere Zeit
Mi Do Fr Sa So Mo
+ o 23.42
Di Mi Do Fr Sa So
+
Mo Di Mi Do Fr Sa So Mo Di Mi Do Fr Sa So Mo Di Mi Do Fr Sa So Mo Di Mi Do Fr Sa So Mo Di
0
42.87
1 2.56 1 22.47 4 -59
1
l 9
t
1969 1991 20.12
2
20.31
2 2.90 20.47 2 23.37 J J / 20.61 2 44.00 •
£ 20.76
3
4-76
3 4 76 -. 6 4 62 9 +
428.83 4 50.03 511.27
' 20.99 21.07 21.14 21.20 2 1 2 4
3 ^ 4' z!
5 5 53-83
6 15.10
+
2127 21.24
21
Scheinbare
Rektaszension
Deklination
m
s
o 46 6.03 o 49 43.14 O 53
20.00
0 56 56.64 1 o 33.07 I
4
9-32
I
7 45.40 I I I 21.32 1 1 4 57.11 1 1 8 32.79 I 22 8.36 I 25 43-84 I 29 I9.25 I 32
i 47
15-74
50
51-05
54 26.41 58 1.84
19
7 18.65 21 1 2 739.68 2 1 0 3 8 0.59 20 9 1 8 21.36 20 7 7
1
37-37
5
I
3-°
I
8 48.79
20.60
+ 8 41.96 20.41 9 2.37 20 20 9 22.57
12 24.74 16 0.88
19.97
2 23 13.82 2 26 50.66 2 30 27.79
9 42.54
19.71
10 2.25 10 21.67 1 9
42
19.12
19
1118.02
i8'44
1136.09
18
«
5 3 - 7 7 17.26
12 11.03
+ 12 27.86 12 44.25 13 0.16 13
°7
17.68
15-59
16.83 16.39 15.91
1543 14.94
+ 1 3 44.96 1 4
43
37-23
2 34 5.22 2 37
42.98
2 41 21.09 2 44
59.58
2 48 38.45 2 52 17.74 2 55
5746
2 59
37.63
3
18-27
3
3 6 59.39 3 10 41.00 3
x
4
3 37
"
3 36.86 3 36.64 3 36.43 3 36.25 3 36.08 3 35-92 3 35 -79 3 35-68 3 35-57 3 3548 3 35-41
5 4 - 6 0 3 35-35
I 36 29.91 I 40 5.I9 I 43 40.46
6 36.34 6 57-53
Scheinbare
h
s
Weltzeit
23-12
3 35-31 3 35-28 3 35-27 3 35.28 3 35-31 3 35 36 3 35-43 3 35-53 3 35-64 3 35-78 3 35-95 3 36.14 3 36.35 3 36.59 3 36.84 37-13 37-43 3776 38.11 38.49 38.87 39-29 39-72 3 40-17 3 4°-64 3 41 -12 3 41.61 3 42.12
+7 7 7 6 6 5
49 27 5 43 20 58
26.2 27.0 20.5 6.9 46.7 20.0
+ 5 35 47-4 5 13 9 - o 4 5o 25.3 4 27 36.6
4 4 43-2 3 4i 45-4
+3 2 2 2 1 1
18 43.7
32 9 46 22
29.9 18.4 4.4 48.1
+0 o +0 -0
59 36 12 10
30.0 10.3 49.3 32.5
55 38.5
21
59.2
22
6.5
22 1 3 . 6 22 20.2 22 26 7 22 32.6 22 38.4 22 4 3 . 7 22 48.7 22 53-4 22 57.8 23
i-7
23
5-2
23
8.6
23
II-5
23 1 4 . 0 23 1 6 3 23 18 1 23 1 9 - 7 23 2 1 . 0 23 2 1 . 8 23 22.5
O 33 55-0 23 0 57 17-7 23 —i 20 40.3 1 44 2.5 2 7 24.0 2 30 44.4 2 54 3-4 3 17 20.6
- 3 40 35-8 4 3 48.5 4 26 58.5
4 50 5-3 5 1 3
Halbe DurchgangsDauer St.-Zt.
22 7 22.6
23 22.2 23 2 1 . 5 23 20.4 23 19.0 23
17.2
23
15-2
23 12 7 23 10.0 23
6.8
23
3-3
8 . 6 22 59-4
5 36 8.0
- 5 59 3-2
6 21 53.8
6 44 39-4 7 7 19-6 7 29 54-o
- 7 52 22.3
22 55.2 22 50.6 22 4 5 . 6 22 40.2 22 34-4 22 28.3
64.3I
64.27 64.24 64.20 64.16 64.13 64.II 64.09 64.06 64.04 64.03 64.02 64.02 64.OI
64.OO 64.OO 64.00 64.01 64.02 64.03 64.04 64.06 64.08 64.10 64.13 64.16 64.19 64.23 64.27 64.31 64.36
64.41 64.46 64.51 64-57 64.63
64.69 6475
64.82 64.89 64.96 65.03
Sonne 1958 Oh Julian.
Sternzeit
Zeit
Nutation in A R . langp. I kuizp. Gl. Gl.
2436
8
(i
452-5
22 5 8 1 9 . I I I
5
9
10 11 12 13
453-5 454-5
23 2 15.663 23 6 12.215
455-5
23 10
456.5
2314
20
459 +
7
459-5
23 25 54-975
456 +
4
452 -
1
23 33 48.079 + 4 4 9 - 5 462.5 2 3 3 7 4 4 - 6 3 1 4 4 5 - 8 442 - 9 4 6 3 - 5 23 41 41.183 464-5 465-5
23
26 27 28 29 30 1
23 4 5 37-734
23 49 34.286
466.5 2 3 5 3 3 0 . 8 3 8 467-5
25
2
23 2 1 58.423
21 22 24
473 -
458.5
461.5
19
476 - 6
23 18
15
18
-10
457-5
460.5 2 3 2 9 5 1 - 5 2 7
17
479
8.767 +469 + 3 466 + 6 5-3I9 1.871 4 6 3 + 8
!4
16
S
451-5
450.5
23 57 27.390
469-5
0 0
123.942 520.493
470.5
0
9
468.5
471-5 472.5
J
7.°45
0 13 13.597 0 17 10.148
65 48 13-3
66 46 32.2
75 32 47-2
+14
413 +12 409 + 8
476.5
0 32 56.356
76 31 24.2 77 3o 2.7 78 28 43.0 7 9 2 7 24.9
80 26 8.5 81 24 54.0 82 23 41.3 83 84 85 86 87 88
22 21 20 19 18 17
0 36 52.907
2
477-5 478.5
0 40 49-459
388 - 1 2
3
479-5
4
480.5
0 44 46.011 +385 - 1 0 0 48 42.563 381 - 8
5
6
481.5
052
39-"5
378 -
4
89 16 8.7 90 15 12.7 91 14 19.0
482.5
0 56 35-667
374 +
1
92 1 3 27-6
7
483-5
371 +
5
93 12 38.5
8 9
10 11
12
484-5 485-5
486.5 487-5
488.5
13
489-5
!4
490.5
1 1 1 1 1 1
0 32.219 4 28.771
368+ 7
825.323 + 3 6 4 + 7 12 21.875 361 + 4 16 18.427 3 5 8 0 20 14.980 3 5 5 - 5 24 11.532 3 5 2 - 8 28 8.084 + 3 4 9 - 1 0
-45
16.7
-50
8 18.9
-51
20.8
-48
94 "
5j-8
95 11
7-4
96 10 25.3 97
98 99
200
9 45-4
9
8
24.8
8 28.6
8 32.0 8 33-7 8 35-3 8 37 ° 8 38.5 8 4° 3 8 41.9 8 43-6 45 5 8 47 3 49 2
30.5 21.6 14.8 10.1 7.4 7.0
395 - 9 392 - 1 1
1 1
12 7
8 30.2
"-9
7.8
32.2
7 58.7
-29
8 14.8
71 38 36.0 72 37 6.2 7 3 35 38.2
-19 -37
8 26 7
3
417
10.7
69 41 40.7 7 0 4 0 7.4
435 -
+428 + 8 424 +12 420 +14
87
8 22 9
74 34
431 + 2
6.8
67 44 53-o 68 43 I 5 - 9
7
475-5
474-5
2.9 9.7 18.4 29.1 41.8 56.6
438 -
0 21 6.700 +406 + 3 0 2 5 3.252 402 - 2 0 28 59.804 3 9 9 - 6
473-5
ml
| Breite
in 0.001
6057 61 55 162 53 63 51 64 49
4
8
1958.0
Länge
59 59
22 46
Aufgang
Mittleres Ä q u i n o k t i u m
+488 - 1 0 22 50 26.006 485 - 1 2 22 54 22.558 482 - 1 2
449 5
7
s
m
e 11 z e i t
29.454
3
6
h
w
15
51.1 53-2 55 3 57 3 59.6
17 9
4.0
9
6.3
9
8.6
9
109
9 13 3 9 15.6 9 17-9 9 20 1 9 22.4 9 24 .4 9 26.5
-44 -36 -26
-13 +
1
+ 16 +30 +44 + 56
+65 + 72 +75 +75
+72 +66 +59 +49 + 38
+ 26 + 13 + 2 -10
.008 .008 .008 .007 .007 .007
6997 4602 2187
.007 .006 .006 .006 .006 .005
2304 9767 7199
.005 .005 .005 .004 .004 .004
9752 7295 4813
4598
1963 9294 6591
1091 8301 2657
-34 -31
-25 -16
2457 2482 2509 2537 2568 2601 2635 2669 2703 2735
2790 2813
2844
9813
5 5 "
2858
.002 .001 .001 .001 .001 .000
2653 9800
2853
o
1
2854
4099 1236
2863
6959
8373
6951
4110 1275
'
2860
2863 2862
2849 2841 2835 2830
8 4 4 5 2824
8725 5900 3067 0223
-35
2435
.003 .003 .003 .003 .002 .002
0.998 0.998 - 3 0.998 + 1 1 0.998 +25 0.997 +40 0.997
-33
2415
5 4 8 8 2831
5621 2802 9986 7172
-27
2395
3 8 5 6 2765
.000 .000 0.999 0.999 0.999 0.999
-21
h m
2819 2816 2814 2814
4 3 5 8 2814 ! 5 4 4 28x9
7370
4506
2825 2833 2844 2853 2864
5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 44 5 45 5 47 5 48 5 50 5 51 5 5 5 5 5
6
6 6 6 6 6 6 10
6 6 6 6 6 6
Sonne 1958
16 Cuo
d oa oo
19 20 21 22 23 24
j
Scheinbare Rektaszension
Wahre Zeit minus Mittlere Zeit
Halbe DurchgangsDauer St.-Zt.
Scheinbare Deklination
- 7 8 8 8 9 9 -10 10 10 11 11
So Mo Di Mi Do Fr
+ 15 0.08 IO.46 15 10.54 9.84 15 20.38 9.20 15 29.58 8.52 15 38.10 7-85 15 45-95 7 14 + i5 53-09 6-43 15 59-52 5 70 16 5.22 4-95 16 10.17 4.18 16 14.35 3.41 16 17.76
23.12 3 42.65 5.77 3 43.18 48.95 3 43-73 32.68 3 44 3° 16.98 3 44-87 1-85 3 45-47 47.32 3 46 09 33.41 3 46.71 20.12 3 47-36 7.48 3 48.03 55-51 3 48-71 44.22
13 14 14 14 14 14
59 3 7 ir 14 18
33-63 23-75 14.61 6.21 58.58 51.73
Sa So Mo Di Mi Do
+ 16 16 16 16 16 16
20.38 1.81 22.19 0.99 23.18 0.17 23.35 0.67 22.68 1.52 21.16
14 14 14 14 14 14
22 26 30 34 38 42
45.66 40.41 35-97 32.35 29.57 27.65
—12 12 12 13 13 13
11 32 52 12 32 52
36.1 8.4 29.0 37-7 33-9 i7-4
Fr Sa So Mo Di Mi
+ 16 18.80 3.22 16 15.58 4.07 16 I I . 5 1 4-94 16 6.57 5 79 16 0.78 6.63 15 54-15 7-49 + 15 46.66 8.32 15 38.34 9.16 15 20.l8
14 14 14 14 15 15
46 50 54 58 2 6
26.56 26.34 26.97 28.46 30.80 33.99
—14 14 14 15 15 15 -16 16 16 16 17 17
11 31 50 8 27 45 3 21 39 56 13 29
47.6 4.2 6.9 55.1 28.6 46.8 49-4 36.1 6.2 19-5 15-6 54-o
15 15 15 15 15 15
ro 14 18 22 27 31
38.03 42.91 48.62 55.17 2.54 10.72
-17 18 18 18 18
46 2 17 33 48
14-3 6 17 16.0 5 42-9 58.9 5 23-5 22.4 5 3-8 26.2 4 43 -7
15 r5 15 15 15 15
35 39 43 47 52 56
19.72 4 981 29.53 4 10.61 40.14 4 11.40 51-54 4 !2.I9 3-73 16.69 4 12.96
Mo Di Mi Do Fr Sa
1
Zeitgleichung
13 14 13 18 13 21 13 25 13 29 13 33 13 36 13 40 13 44 1348 13 5i 13 55
Di Mi Do Fr Sa So
17 18
Oh W e l t z e i t
Do Fr Sa So Mo Di Mi Do Fr Sa So Mo
+ 13 13 14 14 x4
44.96 13-91 58-87 13.37 12.24 12.82 25.06 12.26 37-32 h 6g 49-oo i i o8
2.62
2 36
9-99
15
Tl» 11.63"
15 8-38 12.45 14 56.75 + 14 44-3° 13-25 14 31-05 14.05 14 17.00 14.84 14 2.16 15.64 13 46.52 16.41 + 13 30.11
3 49.41
3 50.12 3 50-86 3 51.60 3 52 37 3 53-15 3 53-93 54-75 55-56 56.38
57-22 58.08 58.91 59.78 0.63 1.49 2 34
3-19 4.04 4.88
5-71 6-55 7-37 8.18 9.00
52 14 36 59 21 42 4 26 47 8 29
22.3 44.0 58.7 6.0 5-6 57-o 39.8 13.8 38.4 53.3 58.2
11 50 52.5
19 -19 19 19 19 20 -20
3 9-9 i7 3i 45 58 11 24
33-2 35-6 16.8 36-4 34.1 9.5
22 21.7 22 14.7 22
7 .3
21 59.6 21 51.4 21 42.8 21 34.0 21 24.6 21 14.9 21
4.9
20 54-3 20 43.6 20 32.3 20 20.6 20
8.7
9 56-2 9 43 5 9 3°-2 9 16.6 9
2.7
8 48.2 8 33-5 8 18.2 8
2.6
7 46-7 7 3°-i 7 13-3 6 56.1 6 38.4 6 20.3
4 23.3 4
2.4 41.2 19.6
2 57-7 2 35-4
65-03 65.11 65.19 65.28 65-37 65.46 65.56 65.65 6574 65.84 65-94 66.05 66.15 66.25 66.36 66-47 66.58 66.69 66.80 66.92 67.03 67.I5 67.26 67.38 67.50 67.62 6773 67.85 67.97 68.09 68.21 68.33 68.45 68.57 68.69 68.80 68.92 69.03 69.15 69.26 69-37 69.47
Sonne 1958
17
0h W e 11 z e i t Julian
Sternzeit
Zeit
>8 r4
15 16 17 18 J9
20 21 22 23 24 25 26
2436 d 49°-5 49 I -5 492-5 493-5 494-5 495-5 496-5 497-5 498.5 499-5 500.5 501.5
Nutation in A R .
Mittleres Ä q u i n o k t i u m
s in 0.00z h m s I 28 8.084 +349 - 1 0 200 346 - 9 201 I 32 4.637 I 36 I.189 343 - 6 202 340 0 203 i 39 57-742 1 43 54-294 337 + 6 204 1 47 50.847 335 +11 2 0 5 1 51 47.400 +332 +14 206 55 59 3 7 11
43-953 40.506 37-059 33-612 30.165
502.5 503-5 504-5 505-5 506.5 507-5
2 2 2 2 2 2
15 19 23 27 31 35
26.718 +318 - 4 23.271 316 - 8 314 -10 19.825 16.378 312 - 1 1 311 - 1 0 12.932 9-486 309 - 8
508.5 509-5 510.5 5II-5 512.5 5 I 3-5
2 2 2 2 2 2
39 43 46 50 54 58
6.039 +307 - 4 306 0 2.593 59-147 304 + 4 55.701 303 + 6 52.256 3°2 + 7 48.810 301 + 5
218 219 220 221 222
3 245.364 +300 + 1 3 641.919 299 - 4 298 - 8 3 10 38.473 298 - 1 1 3 14 35.028 297 - 1 1 3 18 31.583 3 22 28.138 296 - 8
224
9 10 11 12
5I4-5 5I5-5 516.5 5I7-5 518.5 5I9-5
13 14 15 16 17 18
520.5 52i-5 522.5 523-5 524-5 525-5
3 26 24.693 +296 - 3 3 30 21.248 296 + 3 296 + 9 3 34 17-803 295 + J 3 3 38 I4-358 3 42 10.913 295 +15 3 4 6 7.469 296 +15
230 231 232 233 234 235
19 20 21 22 23 24
526.5 527-5 528.5 529-5 530.5 53i-5
3 3 3 4 4 4
50 4-024 +296 +12 296 + 7 54 0.580 296 + 2 57 57-I36 297 - 3 153-692 297 - 6 550-248 9 46.804 +298 - 9
236
7 8
Breite
58.7
+40
27.2 57-5 29.6 3-5 39- 1 5
16.4
33° + *5 2 0 7 4 55-4 327 +13 208 436.2 325 + 1 0 209 4 1 8 . 7 3 2 3 + 5 210 4 3-o 320 0 2 1 1 3 49-i
1 1 2 2 2
27 28 29 30 3i 1 2 3 4 5 6
Länge
212
37-o 26.8 18.6 12.3 7-9 5-6
213 214
215 216 217
5-3
225
22Ö 227
228 229
2 37 238 239 240 241
59 30-3 59 32 1 59 33-9 59 35-6 59 37-3 59 39 o 59 4°-8 59 42 5 59 44 3 59 46.1 59 47 -9 59 49-8 59 $1-8 59 53-7 59 55-6 59 57-7 59 59-7 60
1.8
7 - i 60 1 1 . 1 60
4 0
60
8.2
17.1 25-3 35-5
223
59 28.5
6.0
60 10.2 60 12 4
3 47-9 60 4 2.3 60 4 18.8 60 4 37- 1 60 4 57-3 60 5 19-2 60 542.8 60 6 7.8 60 6 34-3 60 7 2.2 60 7 3i-5 60 8 1.9
14.4 16.5 18.3 20 .2 21.9 23.6 25.0 26.5 27.9 29.3 30 4
60 31.8
8 9 9 10 10 ix
33-7 6.7 4i-o 16.4 53.2 31.2
60 33.0 60 34.3 60 35-4 60 36.8 60 38.0
+53 +66 +77 +84 +89
0.997 0.997 0.996 0.996 0.996 0.996
45°6 1634 8755 5874 2994 0118
+90 °-995 7253 +87 0.995 44 0 2 +82 0-995 ^ 6 7 +74 0.994 8752 +65 0-994 5959 +54 0.994 3 I 9 2 +41 0.994 9452 +29 0.993 7741 +18 0.993 5060 + 6 0.993 2410 - 4 0.992 9791 - 1 4 0.992 7203 -20 -23 -24
0.992 0.992 0.991 0.991 -21 - 1 6 0.991 - 7 0.991
4648 2122 9625 7157 4716 2298
+ 4 0.990 9901 + 17. 0 . 9 9 0 7 5 2 4 +32 0 . 9 9 0 5 1 6 3 +46 0 . 9 9 0 2 8 1 7 +60 0 . 9 9 0 0 4 8 5 +72 0 . 9 8 9 8 1 6 6 +83 +91 +96 +98 +97 +92 +85 +76 +65 +54 +41 +29
Untergang
. i + 5 0 0 Breite in< J l ou L ä n g e
1958.0
langp. I kuxzp. Gl. Gl.
Aufgang
0.989 5862
2872 2879 2881 2880 2876 2865 2851 2835 2815 2793 2767 2740
^
2588 2555 2526 2497 2468 2441 2418 2397
2
;6l
2346 2332 2319 2304
2287 0 . 9 8 9 3 5 7 5 2268 0.9891307 2244 0.988 9063 2217 0.988 6846 2187 0.988 4659 2153 0.988 2506 2115 0.988 0391 2075 0.987 8 3 1 6 2032 0.987 6284 1987 0.987 4297 1939 0.987 2358
6 6 6 6 6 6
h m
h m
19 21 23 24 26 27
17 12 17 10 17 8 17 6 17 4 17 2
6 29 6 31 6 32 6 34 636
l 6 58 l 6 56 16 54 16 52
6 37
1651
6 6 6 6 6 6
1649 16 47 16 45 16 43 16 41 16 40
17
39 41 42 44 46 47
O
649 6 50 6 52 6 54 6 55 6 57
16 16 16 16
38 36 35 33
6 59 7 0 7 2 7 4 7 5 7 7
16 16 16 16 16 16
28 27 25 24 22 21
7 7 7 7 7 7
9 10 12 14 15 17
16 16 16 16 16 16
19 18 17 16 14 13
7 7 7 7 7 7
18 20 22 23 25 26
16 16 16 16 16 16
12
1631
16 30
2
11
10 9 8 7
Sonne 1958
18
0h W e 11 z e i t • u JS o o
£
Zeitgleichung Wahre Zeit minus Mittlere Zeit
m + 13 13 12 12 12 11
So Mo Di Mi Do Fr
+ 1 1 35-89
17.18 17-94 18.68 19.42 20 15 20.85
21.54 22.22
23 51
10 5-73 24.I4 9 4i-59 24 72
+
9 16.87 8 51.57
25'3°
8 25.75 l '
8 2
7 59-41
2 6 34
7'
27
' 7 26.81 7 32.60
Do Fr Sa So Mo Di
+
Mi Do Fr Sa 28 I So 29 ! Mo
+ +
32
12.93 54.99 36.31 16.89 5674
10 5 2 . 1 3 10 29.24
+
Di Mi Do
30-11
11 14-35
Fr Sa So Mo Di Mi
30 31
s
Mo Dl Ml Do Fr Sa
Sa So Mo Di Mi Do
Scheinbare Rektaszension
6
5.36 J 27.65
0
37.71 ^
6
?4
28 35
5 12.69
„
isg-
^28.92
J
*
*
° 2 9 33
33 1 45-^0 5.8029 2 46.1829
2 I 16.45 46.67 x 16.85 O 47-03
r 2
29 778 29 3 29.82 29.82 29.78
o 17.25 29.72 o 12.47
29.64
0 42.11 c. 29 29 50 50 1 II.6l
29 36
I 4 0 . 9 7 29.17
— 2 IO.I4 28.97 2 39.II
-
3 7-84
4 14.49
16 4 44.92 4 15-24 l6 9 0.l6 4 15-98 16 13 16.14 l 6 17 32.84
28.73
4 16.70 4 I7-4I
16 21 50.25 4 18 10 l 6 26 8 . 3 5 4 18 78 1 6 30 2 7 . 1 3
16 34 46.57 1 6 39
6.64
16 43 27.33
4
4 20.07 4 20.69 4 21 29
16 47 48.62 4 21.84 1 6 5 2 IO.46 4 22 39 16 56 32.85 4 22.89
17
0 55.74
17 17
5 19-11 9 42.91
17 14
„ 28.02
^
h m s m s 15 56 16.69 4 13 74 1 6 o 30.43
7.12
4 23.37 4 23.80 4 24 21 4 24 57
1 7 18 3 1 - 6 9 4 24.91 1 7 22 5 6 . 6 0 4 25.21 1 7 27 2 1 . 8 1
17 3i 47-28 1 7 36 1 2 . 9 8
4 25.47 4 25 7 ° 4 25.89
1 7 4 0 38.87 4 26.05
17 45 4-92 17 49 3 i . l i 17 53 57-39
4 26.19 4 26.28 4 26.34
1 7 58 2 3 . 7 3 4 26.37 18 2 50.10
4 26.38
18 18 18 18 18 18
7 11 16 20 25 29
16.48 42.82 9.10 35.29 1.35 27.27
4 26.34 4 26.28 4 26 19 4 26.06 4 25.92 4 25 -73
18 33 53-oo
4 25.52
18 38 1 8 . 5 2 4 25 29 18 42 43.81
Halbe DurchgangsDauer St.-Zt.
Scheinbare Deklination
- 2 0 24 9 . 5 12 12.8 20 36 2 2 . 3 II 49.8 20 48 1 2 . 1
11 26.6
20 59 38.7 11 21 10 41.6 ^
,
21 21 20.6 — 2 1 3i 35-4 2 1 4i 2 5 . 7 2 1 50 51-1 2 1 59 51-4 22 8 2 6 . 3 22 1 6 35-6 —22 22 22 22 22 22
-23 23 23 23 23 23
24 18.9 3 1 36.2 38 2 7 . 0
44 5i-3 5 0 48.8
56 19-2 1 22.5 5 58.4 10
6.8
13 47-6 17 0.5 19 45-6 22
2.7
-23 23 23 51-7
23 2 5 1 2 . 6 2 3 26 5 . 2 2 3 26 2 9 . 7 2 3 26 2 5 . 9 - 2 3 25 53.8 2 3 24 53-5 23 23 24.9 23 2 1 2 8 . 1 23
19
3-2
23 16 10.1 - 2 3 12 49.0 0.1 23 9 - 2 3 4 43-3
2.9
10 39.0
10 14.8
9 5° 3 9 25.4 9
°3
8 34-9 8
93
7 43-3 7 17-3 6 50.8 6 24 3 5 57 5 5 3°-4 5
69.58 69.69 69.79 69.88 69.98 70.07 70.17 70.26
70.35 70.43 70.51 70.58 70.65 70.72 70.78 70.84 70.90
3-3
4 35-9 4
69.47
8.4
3 4°-8 3 12.9 2 45-1 2 17.1 1 49.0 1 20.9 o 52.6 o 24,5
O 3-8 0 32.1
1 0.3 1 28.6 1 56.8 2 24.9 2 53-1 3 21.1 3 48.9 4 16.8
70.95 71.00 7I.05 71.09 7I-I3 7I-I5 71.17 71.20 71.22 71.24 71.24 71.24 71.24 71.24 71.24 71.22 71.20 71.18 71-15 71.12 71.08
Sonne 1958 0h W e l t Julian. Zeit
Sternzeit
2436 d
h m s
Nutation in AR.
laogp. I kuizp. Gl. [ Gl.
19
zeit
Mittleres Äquinoktium 1958.0 Länge I Breite
Aufgang
R
s
in 0.00z
531-5 532.5 533-5 534-5 535-5 536.5
4 9 46.804 +298 - 9 2 4 1 I I 31.2 6 ,0 „7„ „ „ , 39-3 4 13 43-36o 299 -10 242 12 IO.5 60 40.fi j 4 17 39 9 6 300 -10 4 21 36.472 300 - 8 60 43-3 4 25 33-028 301 - 4 245 14 IÖ.2 60 44-5 4 29 29.585 303 0 246 15 0.7 60 46.0
+29 0.987 2358 ,1890 + 17 0.987 0468 1839 + 6 0.986 8629 1 11788 0.986 - 2 6841 1734 - 9 0.986 5" 1 0 -7 ; 1682 - 1 3 0.986 3 4 2 5 i 6 2 9
537-5 538.5 539-5 540.5 541-5 542.5
4 33 26.141 +304+ 3 247 15 46.7 60 47-3 4 37 22.698 305+ 6 248 16 34.O 60 48.8 1 I 2 4 4 9- 54 306 + 7 249 17 22.8 60 50.2 4 45 15-811 307+ 6 250 18 13.0 60 5i-7 4 49 12.368 309 + 3 251 19 4.7 60 53-° 4 53 8.925 310 - 2 60 54-4
-15 -15
543-5 544-5 545-5 546.5 547-5 548.5
4 57 5-48I +312 - 7 60 5 1 2.038 3*3 -10 254 21 47.8 60 5 4 58.595 315 -12 255 22 44.8 60 5 855.152 316 -11 256 23 42.9 60 5 12 51.709 318 - 7 257 24 42.I 61 5 16 48.266 320 - 1 258 25 42.2 61
549-5 550.5 55i-5 552.5 553-5 554-5
5 20 44.824 +322 + 6 259 26 43-2 61 5 24 41.381 324 +11 260 27 45-o 61 5 28 37.938 325 +14 261 28 47-3 61 5 32 34-495 327 +15 262 29 50.2 61 5 36 3 I -°53 329 +13 263 30 53-6 61 5 40 27.610 33 1 + 9 264 31 57-4 61
555-5 556.5 557-5 558.5 559-5 560.5
5 44 24.167 +333 + 4 265 33 i-5 61 5 48 20.725 335 - 1 266 34 6.1 61 5 52 17.282 337 - 5 267 35 10.9 61 5 56 13-839 339 ~ 8 268 36 16.0 61 6 0 10.397 341 -10 269 37 21.4 61 6 4 6.954 343 -10 270 38 27.1 61
5-i 54 5-7 6.0
561.5 562.5 563-5 564-5 565-5 566.5
6 8 3.512 +345 - 8 61 6 12 0.069 347 - 5 61 6 15 56.626 349 - 1 273 41 45.8 61 6 19 53-I84 351 + 3 274 42 52.7 61 6 23 49.741 353 + 6 275 43 59-8 61 6 27 46.298 355 + 8 27645 7-3 61
6.2 6.5 6.9 7-1 7-5 7-9
567-5 6 31 42.856 +357 + 7 277 46 15.2 568.5 6 35 39-413 359 + 5 278 47 23.4 569-5 6 39 35-970 +361 0 279 48 32.1
55 7 57° 58.1 59.2 0.1 1.0 1.8 2-3 2.9 3-4 3-8 4-1 4.6 4.8
61 8.2 61 8-7
-10 - 3 + 7 +19 +32 +46 +59 +72 +83 +91 +96 +98 +98 +93 +86 +77
0.9861796 0 . 9 8 6 0219 1527 0.985 8692 1478 0 . 9 8 5 7214 1431 0-985 5783 1388 0.985 4395 1346 30491309 '•9851740 ^ >.985 0467 ' ^ ' 1239 >.984 9228 >.984 8 0 2 1 ..984 6 8 4 4
0 . 9 8 4 5699 0.984 4586 0 . 9 8 4 3508 0 . 9 8 4 2467 0.9841467 0.984 0510
+67 0 . 9 8 3 9599 +54 0.983 8737 +41 0.983 7927 + 3 1 0.983 7172 +20 0.983 6473 + 9 0-983 5832 - 1 0.983 5251 8 0.983 4731 - 1 3 0.983 4275 - 1 5 0.983 3882 -14 0.983 3553 -10 0.983 3288 - 3 0.983 3086 + 5 0.983 2944 + 1 5 0.983 2860
1113 1078 1041 1000 957 911 862 810 755 699 641 581 520 456 393 329 265 202 142 84
h m
7 7 7 7 7 7
35
36
37 39
740
741
Sonnenkoordinaten 1958
20
Mittleres
X + 0.154 755, 0.171 997 0.189 184 0.206 312 0.223 374 0.240 + 0.257 0.274 0.290 0.307 0.324 0.340
AX
- 49
367
7 7 7 6 6
242 187 128 062 993 918
285, 124 878 543 114 586
6 6 6 6 6 6
839" 754 665 571 472 367
6 6 6 5 5 5
258' 144 024 899 768 633
5 5 5 5 4 4
492 346 196 °39 879 713
+0.356 953, 0-373 211 0.389 355 0.405 379 0.421 278 0 - 4 3 7 046 + 0.452 6 7 9 h 0.468 1 7 1 0.483 5 I 7 0.498 7*3 0.513 752
0.528 631
+ 0 - 5 4 3 344, 4 0-557 887^ 4 0.572 256 4 0.586 446 4 0.600 453 3 0.614 2 73 3 +0.627 9 0 1 ^ 0.641 334 3 0.654 5 6 9 3 0.667 601 3 0.680 427 2 0.693 0 4 3 2 2 + 0.705 4 4 6 ^ 2
0.717 6 3 3 0.729 601 0.741 345 0.752 8% + 0.764 1 5 0
Äquinoktium
1 1 1 1
543 369 190 007 820 628 433 235 032 826 616 4°3 187 968 744 518 287
55 59
66 69 75
AY
-3
—1
+3
—2
+ 5 +3
- 79 85 89 94 99 105
+5
-109 114 120 125
+ 3 +4
131 135 -141 146 150 157 160 166 -170 174 179 183 187 192
+ 1
+3 + 2 + 1 —2
o —1
-4
+ 1 o
+2 +3 -3
+ 1 —2
-0.890 0.888 0.885 0.882 0.878 0.874 -0.870 0.866 0.861 0.856 0.851 0.846 -0.840 0.834 0.828 0.822 0.815 0.808 -0.801 0.794 0.786 0.778 0.770 0.761
880 i97+ 239 006 500 722
+277 2 683 275 2958 275 3 233 273 3 5°6 272 3 778 270 4 048 +270 674 356 + 4 318 268 770 4 586 267 917 4 853 266 798 5 " 9 264 415 5 383 264 5 647 +261 768 860 5 908 261 691 6 169 259 263 6 428 256 579 6 684 256 639 6 940 252 7 x 92 + 251 447 004 7 4431 248 3 1 3 7 69 245 377 7 936 243 198 8 179 240 779 8 419 237 8 656
o
-0.753 123
+3 +2 +2 + 1 -3
0-744 233
-195 198 203 206 210
+3 +5
213
—1
-216 219 224 226
+4 + 4
231 -234
1958.0
—2
-3 -5
—2 + 1
-4 -3
0.735 0.725 0.716 0.706 -0.696 0.686 0.675 0.665 0.654 0.643
-0.631 0.620 0.608 O.597
9
112 9 764 9 191 9 397 10 386 +10 160 10 724 10 080 10 232 1 1 i8 4 11 938 j+ii 498 11 867 11 049
^ °"5 5 ° f 8
440 +194 191 631 187 818 184 1 2 002 182
+ I 2
-0.572 863
+234 231 121 227 348 225 573 221 794 217 011 +215 226 210 436 208 644 204 848 200 048 198 246
+ 8 890
i 8 4
J X, J Y, /) Z sind in Einheiten der 7. Dezimale gegeben.
+177
+ 1 o
+3 —1
-3 -5 o
-3 -3
—2
-4
o
-4 +2 +2 -3 +3 -3
0.386 345 0.385 183 0.383 900 0.382 499 0.380 979 0-379 34 1 - 0 . 3 7 7 586 0-375 7 T 4 0-373 725 0.371 620 0.369 400 0.367 065 -0.364 0.362 0-359 0.356 0-353 0.350
615 052 376 588 689 679
-0-347 559 —1 0-344 33 1 0.340 996 —1 0-337 554 +3 0.334 007 +4 0.330 356 +5 + 5 —0.326 603 0.322 748 +4 + 1
o
+3 0
-4 —2
-5
o —2
-3 —2
-4
o
+5
T I
0.318 793
o-3 I 4 0.310 0.306 —0.302 0.297 0.293 0.288 0.283 0.278
740 589 343 002 568 °42 426 722 931
-0.274 054 0.269 ° 9 2 0.264 048 0.258 922 0.253 7*6 —0.248 432
162 283
+120 121
118 119 520 1 1 8 638 117 755 872 + 1 1 7 117 989 116 105 «5 220
401
«5 335 450 » 5 563 676 788 899 010 120
+"3 "3 112 in in 110
+108 107 335 107 442 105 547 104 651 102 753 +102 855 100 955 98 °53 98 151 95 246 95 341 + 93 434 92 526 90 616 88 704 87 791 877 86 228
962 044 126 206 284
+ 85
82 82 80 78 + 77
Sonnenkoordinaten 1958 Mittleres
X
AX
1 5 0 + 1 1 053 -234 237 10 816 242 10 574 243 10 331 249 10 082 251 9 831 + 0.826 8 3 7 + -254 0.836 414 9 577 258 0.845 7 3 3 9 319 260 0.854 792 9 059 264 8 795 0.863 5 8 7 265 8 53° 0.872 1 1 7 268 8 262 -271 + 0.880 3 7 9 0.888 3 7 0 7 99i 272 0.896 089 7 719 275 0.903 5 3 3 7 444 277 0.910 700 7 167 279 0.917 588 6 888 279 6 609 -282 +0.924 x 9 7 + 6 327 0.930 5 2 4 283 6 044 0.936 568 284 6 0.942 328 5 7 ° 285 0.947 803 5 475 286 0.952 992 5 189 288 4 9oi + 0 - 9 5 7 8 9 3 , 4 613 -288 + 0.962 506 4 323 290 0.966 829 4 032 291 0.970 861 3 741 291 0.974 602 3 447 294 0.978 049 294 3 153 -296 +0.981 202 2 857 296 0.984 0 5 9 4 2 561 297 0.986 620 2 264 299 0.988 884 1 965 0.990 849 298 1 667 0.992 5 1 6 300 1 367
-3
+0.764
203 0.786 019 0.796 5 9 3 0.806 924 0.817 006 0-775
12
13 !4 15
16 17
18 20 21 22 23
^ x
88 3 +
-299 1 068 300 0.994 9 5 i 768 299 0 - 9 9 5 719 469 300 0.996 188 169 300 0.996 3 5 7 ^ +0.996 226 - 131 -298 +0-993
—1 -3 + 3
-4 —2 ~5 -3 -4
+2 + 1 —1 +2 - 3 -4 -4 + 3
+ —2 -4
—1 + 3
-3 o
—2 + 1 + r -4
+ 1 —2
+
Äquinoktium
1958.0 AZ
a y
- 0 . 5 7 2 863 + 0.560 502 Ö-547 9 6 7 0-535 263
0.522 0.509 -0.496 0.482 0.469
392 359 169 824 331
2 361 2
2 2 3
4-177
174 535 169 704 167 871 162 °33 157
3 190
i55 3 345 148 3 493 145 3 638 0-455 693 140 3 778 0.441 915 136 0.428 001 3 914 131 4 045 - 0 . 4 1 3 956 + 4 171 + 126 0 - 3 9 9 7 8 5 4 293 122 0.385 492 4 41° 117 112 0.371 082 4 522 107 0.356 560 4 629 103 0-341 931 4 732 - 0 . 3 2 7 199 + 99 0.312 368 4 8 3 1 " 93 0.297 444 4 924 88 5 012 0.282 432 5 097 85 0.267 335 5 i77 80 0.252 158 5 252 75 —0.236 906 72 0.221 582 5 324 67 0.206 191 5 39i 63 0.190 737 5 454 59 5 5i3 0.175 224 54 5 567 49 0.159 657 5 616 46 - 0 . 1 4 4 041 + 5 662 39 0.128 379 GI 5 7 36 0 . 1 1 2 678 5 737 31 0.096 941 5 768 25 0.081 173 5 793 21 0.065 380 5 814
-0.049 0.033 0.017 o —0.002 o +0.013 4 +0.029
+ 3 + 3 + 4
21
566 + 737 897 051 795, 636
5 829 5 840
15 11 6
5 846 o 5 846 • 5 5 841 • 9
J Y, J Z sind in Einheiten der 7. Dezimale gegeben.
—0.248 0.243 0.237 ~3 0.232 + 3 0.226 o 0.220 —2
432 , +77 + 5 361 071 , 7 5
—2 —I
542 ; 7° 5 652 890 68 v
+ 4 - 3 - 3 —1
-0.215 0.209 0.203 0.197 0.191 o —1 0.185
170 +67 383 + 5 f 65 531 5 8 5 2 62 617 5 9 1 4 61 642 58
+ 1 —I
+ -
3 4 3 3
' 6 3OD 5 124
5 436 ' 75 . 71 5 582
, SII
5 720
9
6 033 J ! 57
6 o
—2 - 0 . 1 7 9 5 I 9 + + 6 I45 o 0.173 3 7 4 6 I 9 8 —I 0.167 6248 0.160 -3 f * 6 -4 0.154 6 3 1 * 2.9. 7. 0.148 287 6 344 +2 6 389
—0.102 0.096 0.089 0.082 +2 0.075 o 0.069
50 49
47 45
+ 4 -3 + 4 + 3
o o
-2 +2 + 1 - 4 - 5
o
7 4 ^ 6 646+31 9 9 5
420 7
l
7
9 8
l
2 3 8
6675
29
6 28 6 751
25
6 773
"
, 28 6 703 23
—0.062 465 , 7 +6 792 + 1 9 x» 0.055 ^ 3 6 0.048 25 15 0.042 0 3 8i ,6 8„_„ 13 0.035 2 0 0 > 849 0.028 3 5 1 6 857 ° —0.021 f 4 + 6 8 6 4 + 7 0.014 6 3 0 , 5 6 869 0.007 761 6 871^ —0.000 8 + 0.005 2 + 6 870 +0.012 851 - 5
T
-5 + 1 +3
5S
53
+42 + 4 —0.141 898 „ ? + 6 431 - 3 o . i 3 5 467 , 4° -5 0.128 9 9 i6 6' 471 *5 " 4 ° 36 + 1 0.122 4 8 5 * o 0.115 —2 0.109 3 5 6 6 1 5 3 3 +5 +3 + 5 + 5
+ 3 +3 - 3 —2
+2 —1
+2 +4
+2 -5 - 3 + 4 —2 —2 —1 —2 —2 + 1 - 3 - 3
+2 + 1 + 3 —1 —2 - 3 - 4 + 1 + + + + -
4 1 1 4 4
Sonnenkoordinaten 1958
22
M i t t l e r e s
X + 0 . 9 9 6 226
o-995 797 o.995 069 0-994 043
+ 0.989 0.986 0.984 0.981 0.978
0-975
AX
-
0.992 7 2 1 0.991 102
429 728
I 026 I 322 I 619 I 913
-298 299 298 296 297 294
-294 189 - 2 207 292 982
483
692 612 244
2
499
292
2 791 289 3 080 288 3 368 287
3 655 -286 + 0 . 9 7 1 589 - 3 941 284 0.967 648 4 225 283 0.963 423 508 282 0.958 9i5 4 4 790 280 0-954 125 5 070 280 0.949 055 5 35° -278 + 0 . 9 4 3 705 - 5 628 276 0.938 o 77 5 904 275 0.932 i73 6 179 0.925 994 273 6 452 0.919 542 0.912 820
6 722
270 270
22
23 24
25 26 27 28
29 30 1 2
3
+0.858 0.849 0.840 0.831 0.821 0.811
367 562
6
8 044 256 8 300 8
+ 4 + 0 . 0 2 9 636
+1
-252 247
0-759 572 -II 133 219 -214 + 0 . 7 4 8 439
J X, JY,
J
O.Q01 285 O.O77 0 8 3 O.O92 857 0.108 602
+5
o
+4
o + O.I24 3 " —1 O.I39 985 0.155 614 -5 o 0.I7I I95 —1 O.I86 725 —2 0.202 I99 —2 + 0.217 613^ 0.232 0.248 0.263 0.278 0.293
+2
+3 +3 +2
-3 -3
963 245 455 589 642
+0.308 610
o —1 o
488H
0.323 0.338 273 0.352 960
0.367 545 +3 0.382 022 -3 + 1 +0.396 388h
+2
-4
+ 2 +1
052 5io 9 296 244 9 242 214 -3 9 538 238 - 3 676 9 776 +1 900 10 010 234 890 -231 —2 - 1 0 241
+0.801 0.791 649 229 10 470 0.781 179 223 10 693 0.770 486 221 10 914
0.045 468
+ 2
253 + 3 553
8 805
1958.0
AY
992 -266 828 264 + 1 570 - 7 258 522 -3 048 7 262 264 7 784 260 - 5
+0.905 0.898 0.891 0.883 0.875 220 0.866 920
Ä q u i n o k t i u m
0.410 639 0.424 769
5 832 5 817 5 798 5 774 5 745 5 71° 5 673" 5 629 5 58i 5 53o 5 474
' 6 685
5 414 5 5 5 5 5 4
35o 282 210 134 °53 968
+ 5 +0. 094 3 6 9|+6 657 -28 68 + 5 0 101 026 6 628 29 72 + 5 o 107 654' 6 31
-64
-
4 878
4 785 4687
3 744
85
-3 -4
93
+2
98
+4 +3
90
-115
4 130
0.452 651 0.466 395
81
in
4 366
4 °°5
+ 2
108
4 477
0.438 774
76
102
4 585
4 251
O +0 012 851 +6 865 - 5 9 15 —2 o OI9 716 6 859 6 o 026 575 6 850 9 19 + 3 +3 o 033 425 6 840 10 24 o 040 265 6 827 13 29 + 2 o O47 O92 6 814 13 -3 35 37 + 3 + 0.053 906'+6 796 - 1 8 o.060 702 6 778 18 44 -3 48 21 —2 o.067 480' 6 757 21 o .074 237 5i + 5 o.080 9731 6 736 56 +4 25 o 087 684 6 711 26 60 + 4
3 877
121 125 128
-4
—2 i-3
o 1 1 4 251 6 597 33 o 120 8151 6 564 36 528 o 36 127 343' 6 492 -40 +0 i33 835 40 o.140 287 6 452 412 0 146 699 43 o 1 5 3 068' 66 369 44 325 o 159 3931 6 278 47 o ,165 6 7 1 230 48 6
-5i +3 +0. +6 179 0 . 1 7 8 080 52 -5 ' 6 127 o.184 207 6 -4 54 o.190 280' 6 °73 56 +1 017
o o.196 297 960 57 137 + 1 o.202 257, 5 900 60 3 607 5 -61 -141 o + 0.208 157 + 0 . 4 8 0 002 839 63 3 466 146 0.493 468H —2 O.2 1 3 996 776 3 320 148 + 5 0.506 788 O.219 772, 5 712 64 3 172 153 + 3 0 . 5 1 9 960 O.225 484 646 66 68 0.532 979 3 oi9 156 + 5 O.2 3 1 1 3 0 2 863 160 + 4 69 0.545 842 O.236 708! 5 578 509 133
2 703
+ 0 . 5 5 8 545 0.571 086
-5 +5 +1 -4 +3 +
0.583 460 o.595 665 0.607 698 O.619 555
2 2 2 2 1
541 374 205 033 857
Z sind in Einheiten der 7. Dezimale gegeben.
-162 167 169 172 176 -178
+ 5 + 0 . 242 2 1 7
—1
—1 —r -5
0
-70
o. 247 656 +5 439 72 o. 253 023, 5 367 74 0, 258 3 1 6; 5 293 74 219 0, 263 535 5 76 1+5 143- 7 7 +0. 268 678
Sonnenkoordinaten 1958 M i t t l e r e s
X +0.748
439
0-737 O92 0.725 534 V
0.713 767 0.701 795 0.689 620
-214
„
211
II 558
209
11 767 11 972 12 175
367
0.529 052
14 160
o
199
o
152
14 467
+ 0 . 5 1 4 585 - 1 4 0.499 971 14 0.485 2 1 5 14 0.470 321 15
614
139
0-393 949
133
+2
128
+3
124
—2
-119
—1
"5
-3
IIO
—1
IOÖ
—1
I02
o
96
+4
15 623
15 927
- 95
0.314 817 16 110 0.298 707 16 196 0.282 5 " 16 276 0.266 235 16 352 0.249 883 16 425 + 0.233 0.216 0.200 0.183 0.167 +0.150 X, JY,
J
966 ^ 4
799 418
80 76 73
- 67
458
AT?
86
492
16
62
554
16613 l6 666 16 715
-
+0.686 0.697 0.707 0.717 0.727
—2
+4 + 3 —2
59
- I
53
+ 1
49
—2
44
0
549 349 147 942
408 498 369 017 441
+ 9 307
+0-799 637 + 0.807 0.815 0.822 0.830 0.837
+0.843 0.850 0.856 0.862 0.868 0.874
603 338 838 103 130
918 + 466 772 835 653 226
0.884 0.889 0.894 0.898 0.902
631 460 °39 366 440
0.909 0.913 0.916 0.918 +0.921
823 130 178 967 + 496
O
180 187
+5 +3 +3
190
+ 1
193
o
-196
—1
200
-3
202
o
205
o
209
733
101
-178 184
10 745
859 +10 408 10 757 10 904 9 846 9
+3 + 0.906 259 +5
499
733 11 315 048 I i 128X7Ö 10 938 114
- 4 +0.879 553 +
+ 2
679
0-737 579 9 522
+0.747 0.756 -4 0.765 -5 0.774 -4 0.783 + 2 0.791 o
+ 1
027
0.642 0.654 0.665 0.676
o
138
894
022
+ 1
+3
15 279
839 - 1 6
+4
142
0.378 326 15 729 0.362 597 15 831 0.346 766 + 0.330
—2
0
756
+0.424 860 -15 398 0.409 462 15 513
+5 +4 +3
-147
0-455 294 15 155 0.440
o
-4
155
14 315
+ 3 + 0 . 6 1 9 555 + 11 0.631 234 +5 11
203
12 374 -195 246 - 1 2 569 192 677 12 761 916 12 949 188 186 967 13 135 180 832 13 315 5 i 7 13 492 m -173 +0.599 025 - 1 3 665' 360 169 0.585 13 834 165 0-571 526 13 999 161 o.557 5 2 7
1958.0
AY
205
+0.677 0.664 0.651 0.638 0.625 0.612
0-543
Ä q u i n o k t i u m
AX
- I I 347
23
211 -215
9 090 8 871 8 648 8 424 8 196 7 966 7 735 7 5°o 7 265 7 027 6 788 6 548 6 306 6 063 5 818 5 573
217 219 223
+5
228
—1
-230
—1
235
+3 -3
235
+ 1
238
—2
239
+ 2
231
-240 242
4 829 4 579 4 327 4 074 3 819 3 564 3 307 3 048 2 789 2 529
Z sind In Einheiten der 7. Dezimale gegeben.
79 79 82 82
4 744
0.293 209 + O.297 869 °-3°2 443 0.106911 u 0.311 331 0
84
/66o
- 86
- 86 4488
88
4 400
89
4 311
90
3 75°
0-339 565 0-343 217 3652 3 554
+0.346 771 +3 0.350 225
0-353 579 0.356 832
0-359 983 0.363 031
o —1
245
—2
245 246
+4 +3
0.368 815 1
0-37 550 0.374 180 0.376 704 0.379 122
3 253 3 151 3 048 2944
+ 2
250
+4
252
+ 1
253
+ 1
255
o
-255
+3
257
—1
259
-5
259
—1
260
+2
-260
+4
0.383 0.385 0.387 0.389
635 730 716 592
0.391 359
2 630 2 524 2 418 2 310 203
2095 1 876 1 767 1 656
+0.393 015 0.394 560 + 1
0-395 993 0-397 3i5
840
2 735
- 3 +0.381 432 + 2
249
454
3 354
+ 4 +0.365 975 +2
243
-249
- 77
0.315642 * > 0.319 863 4 i 2 g - 5 +0.323 991 + 1 0.328 027 *3 9 4 2 +4 0.331 969 3846. +2 0-335 815
224
5 327 5 078
- 4 —2
+0.268678 ' +5 066 0.273 744 O 4 987 0.278 7 3 1 0.283 639 0 , o5 i 4 826 0.288 465 ^
92 94 96 96 98 98
-100 100
101 102
103 104 -104 105 105 106 106 108 -107 108 109 110 109 111 -III
545
1 433 1 322
0.398 524 1 +0.399 620 + 1
93
209 096
112 III «3 "3
-113
Sonnenkoordinaten 1958
24
Mittleres X
19 21 22
23 24
AX
a
1958.0 y
-260 + 4 +0.399 620^ O +0.921 496 44 -"3 +2 269 263 - 3 0.400 603 983 " 3 0.923 765 38 + 5 870 2 006 34 262 + 2 0.401 473 "5 0.925 771 +1 1 744 755 29 0.402 228 "3 263 o 0.927 5*5 o 1 481 264 0.402 870 642 114 24 —r —I 0.928 996 528 1 217 264 18 + 2 0.403 398 0 0.930 213 413 " 5 953 -114 +0.049 385 —2 +0.931 166 689 -264 + 2 + 0.403 8 n + , -16 916 14 0.032 469 8 o 0.404 110 299 " 5 0.931 855 425 264 + 3 J y ^ 16 924 +3 + 0.015545 , - 3 +1 0.404 294+ 184 114 0.932 280 J 161 264 16 927 70 —0.001 J382 , + 2 —I 0.932 441 114 0.404364. 102 263 + 3 16 925 0 44 O.OIÖ J307 . 6 -3 0.932 339 366 264 - 4 0.404 320 158 114 ' 16 919 0.035 220 , 12 + 2 -3 0.931 973 629 263 0.404 162 272 114 16 907 —2 + 0.403 890 -114 -0.052 133 _ l6 8 g o +17 + 4 +0.931 344 -262 386 0.930 453 891 261 + 1 0.403 504" «3 0.069023 i 6 21 + 2 499 0.929 301 1 152 261 —2 0.085 892 i 6 0.403 005 25 —2 612 " 3 0.927 888 1 413 260 - 3 0.402 393 0.102 736 i 6 30 o 725 " 3 1 673 35 0.926 215 260 —2 0.401 668 112 0.119 550 , +4 837 ? 16 779 0.400 831 0.136 329 i 6 7 4 i 38 —1 0.924 282 1 933 258 + 4 950 113 2 191 + 43 -112 -0.153 070 _ j6 -258 +0.922 091 +0.399 881 +3 +3 -2 449 062 257 + 1 in 0.169 768 , ^ 48 + 5 0.9x9 642 0.398 8x9 „7 ' 0 16 650 2 706 173 O.186 418 „ —1 0.916 936 258 —2 51 0.397 646 113 16 599 286 2 964 0.913 972 56 + 1 0.396 360 396 110 255 + 4 0 , 2 0 3 0 ' 7 x6 543 3 219 61 + 2 0.910 753 —2 257 ° - 2 I 9 560 0-394 964 507 i n 0.907 277 3 476 254 + 5 0.236 042 „ —1 65 0-393 457 619 112 0 ^ 16 417 3 73o -109 -254 -0.252459 + 0.903 547 + 0.391 838 + 69 - 4 +3 728 -3 984 in 0.390 110 0.268 807 " I 6 348 74 —2 —2 0.899 563 254 16 274 839 4 238 80 + 4 0.285 081 0.388 271 108 1 —1 252 0.895 325 16 194 947 4 49° IIO 0.386 324 252 - 4 83 - 3 0.890 835 0-301275 * 057 4 742 109 0.384 267 250 88 0.886 093 -4 . —1 0.317 386 16 023 166 4 992 0.382 iox 108 250 1 0.881 101 93 - 3 0.333 409 274 -3 15 930 5 242 98 -0.349 339 •i5 832"1 —2 +0.875 859 -247 1 + 0.379 827 38I -IO7 102 - 3 0.365 171 0.870 370 -5 489 247 IO7 0.377 446 3 15 73° 488 I06 0.380 901 108 —2 0.864 634 5 736 246 - 4 0-374 958 15 622 i n 594 I05 0.858 652 5 982 243 + 3 0.372 364 0.396 523 699 6 225 15 511 118 +- 51 0.852 427 IO5 0.369 665 0.412 034 241 + 5 804 IO4 15 393 0.845 961 6 466 240 + 1 0.366 861 0.427 427 15 272 121 —2 908 6 706 —0.442 699 +127 -I03 o + 0.839 255 -238 +0.363 953 3 - 6 944 011 o _I5 I45 I02 O.832 311 235 o 0.360 942 5 °"457 844 , 130 "3 7 179 IOI O.825 132 —1 233 —2 0-357 829 0.472 859 g o 135 214 —1 0.817 720 i m 231 +1 0-354 615 99 0.487739 4 313 227 + 3 0.810 077 _ o 0.351 302 100 0.502 479 4 1« 413 —0.517 076 ^"'+148 + 1 +0.802 2 0 7 7 70-226 —r +0.347 889 -3 - 97 +0.150 0.133 0.116 0.100 0.083 0.066
20
Äquinoktium
418 -16 759 659 16 797 862 16 831 031 16 860 171 16 884 287 16 902
J Y, d Z sind in Einheiten der 7. Dezimale gegeben.
Sonnenkoordinaten 1958
25
Mittleres Äquinoktium AX
X -0.517 o.53i 0-545 0-559 0-573 0.587
076 525 823 967 952 774
—0.601 0.614 0.628 0.641 0.654 0.667
431 9*8 233 371 328
—0.679 0.692 0.704 0.716 0.728 0.739
689 084 284 286 085 678
—0.751 0.762 0.773 0.783 0-794 0.804
062 232 186 918 427 708
102
4 4 4 3 3 3
449 298 144 985 822 657
3 3 3 2 2 2
487 315 138 957 774 587
2 2 2 1 1
395 200 002 799 593
1 384
+ 148
151 154 159 163 165 + 170 172 177 181 183 187 H92
195
198 203 206 209
+ 214 1 170 216 o 954 222 o 732 223 o 509 228 o 281 o 050 231 +234 —0.814 758 9 816 0.824 574 ~ 9 579 237 0.834 153 9 339 240 0.843 492 9 097 242 0.852 589 8 851 246 0.861 440 8 605 246 + 250 -0.870 045 _ 0.878 400 8 355 251 8 104 0.886 504 255 7 849 0.894 353 255 7 594 0.901 947 257 7 337 0.909 284 261 7 076 +262 —0.916 360 _ 6 814 0.923 x 74~ 6 551 263 0.929 725 6 284 267 0.936 009 6 017 267 0.942 026 _ 5 746 271 +271 -0.947 772"
AY
+ 1 +0.802 207 0.794 1 1 1 -4 0.785 792 -5 +1 0-777 252 0.768 494 +4 o 0-759 521 + 2 +0.750 335 -3 0.740 938 0.731 332 + 3 0.721 520 +4 0.711 505 -3 0.701 288 —2 + 3 +0.690 873 0.680 261 +2 + 1 0.669 456 0.658 461 +4 0.647 277 + 2 —1 0-635 9°9 + 1 -3 +4 -3 + 1 —1
1958.0
+0.624 0.612 0.600 0.588 0.576 0.563
358. 628 723 645 398 986
—1 + 0 . 5 5 1 412 0.538 681" + 1 0-525 79 6 + 1 0.512 762 o 0.499 582 +3 0.486 261 -4 o +0.472 802 —1 0.459 209" 0.445 486 +4 0.431 637 -5 0.417 666 -4 +3 0.403 576 + 1 + 0.389 371 0-375 055 -4 +2 0.360 632 0.346 105 -4 0.331 478 +3 —1 + 0.316 755
—226 223 8 319 221 8 540 218 8 758 215 8 973 213 9 186 -211 9 397 209 9 606 206 9 812 203 o 015 202 o 217 198 o 415 -197 o 612 193 o 805 190 0 995 189 1 184 184 1 568 8 096
1 551 183
-179 1 73° 175 1 905 173 2 078 169 2 247 165 2 412 162 2 574
2 73i -157 2 885 154 149 3 °34 146 3 180 141 3 321 138 3 459 -134 3 593 130 3 723 126 3 849 122 3 971 119 4 090 «5 4 205
-in 29 4 316 107 30 4 423 104 31 4 527 100 Sept. 1 4 627 96 2 4 723 - 92 3 J x. J Y, J Z sind in Einheiten der 7. Dezimale gegeben.
—I +0 •347 889 510 -97 o 344 379 97 -3 607 96 o 340 772 -4 o o 337 069 703 94 o •333 272 797 94 +5 891 o •329 381 93 +3 . —91 o +0 •325 397 075 91 o .321 322 -3 166 o •317 156 o 255 o ,312 901 +4 344 89 o •308 557 —1 431 87 0 .304 126 +3 518 87 —2 + 0 .299 608 -84 602 +3 o.,295 006 687 85 +5 o..290 319 769 82 -3 o.•285 550 850 81 o,.280 700 + 1 93i 81 o..275 769 -5 009 78 .270 760 -78 + 0 . -3 087" + 1 o,•265 673 ~5 76 o,.260 510 163 75 -3 238 o,•255 272 —2 3ii 73 o..249 961 —2 71 382 70 o.•244 579 —1 452 ,-69 + 3 + 0..239 127 521 + 1 o..233 606 66 587 o .228 019 65 +3 o .222 367 652 62 —1 o .216 653 714 63 o o .210 876 777 59 -4 836 -58 - 5 + 0 .205 040 894" 57 o .199 146 -4 95i 55 o •193 r 95 -3 o ,187 189 006 53 —1 o ,181 130 059 5i -4 50 o ,175 020 —2 o +0. 168 o, 162 +2 o,•156 -3 o. 150 —2 o, 143 —1 o + 0, 137
6 160
860 -6 651 , 395 6 095 6 751 365
-49 209 256 47 300 44 44 344
386 42 -39
Sonnenkoordinaten 1958
26
Mittleres AX
X
+4
+ 0 . 3 1 6 755 o, 3 0 1 940
+2
o. 287 037
0.968
-4
o. 2 7 2 050
—2
o, 2 5 6 9 8 3
-3
o. 2 4 1 840
0.972 -0.976 0.980 0.983 0.987 0.989 0.992 -0.994 0.997 0.998
1.000 1.001 1.002 -1.003
+271 475 275 200 276 924 277 4 647 280 018 367 281 385 4 4 086 47i - 3 802"+284 2731 518 284 3 287 791 3 231 288 022 2 943 965 2 653 290 290 618 2 363 981 +291 —2 072 0531 292 I 780 8331 292 I 488 321 I 195 293 5i6 901 294 417 609 292 0 2 6i
342 1.003 365 1.003 095l I.OO3
+
1.002 5 3 2 I.OOI 6 7 6
+293 316' 293 23 293 270 293 563 293 856 293 149
+292 -1.000 527 +1 441 O.999 086 I 734 293 O.997 352 2 026 292 292 0-995 3 2 6 ! 2 318 0-993 0 0 8 2 609 291 O.99O 399' 2 901 292 -O.987 498
9 11 12 13 14
J x,
+3 O.984 305 : 3 0.980 823 ; 3 O.977 0 5 0 O.972 9 8 7 , 4 4 O.968 635' 4 - O . 9 6 3 995 0-959 0 6 7 :+4 , 5
+292
193 289 482 291 773 290 063 289 352 288 640
+288 928' 286 214 286 0-953 853 : 5 500 284 O . 9 4 8 353 1 5 784 282 O . 9 4 2 569 '+6 066 +282 -0.936 503
—1
+ 2
+ 0 . 226 626
-3
o. 211
+ 2
o, 1 9 6 0 0 0
+ 2
o, 1 8 0 5 9 8
+4 -4
o, 1 6 5 1 4 3
-4 -4 -4 + 1
+3 -4 -4 —1
345 ~
o. 1 4 9 6 3 9 + 0 . 134 091 o. 1 1 8 5 0 5 o. 1 0 2 8 8 5 o. 0 8 7 2 3 6 o. 0 7 1 5 6 3 o. 0 5 5 8 7 1
+0. 040
164
o. 0 2 4 4 4 7 "
+ 2
+ 0 . 008 7 2 4
+4 +5 +5
—o. 007 000
+ 1
—o, 0 5 4 1 3 6 . o, 0 6 9 8 2 2 o, 0 8 5 4 8 7
+3 + 1 o —2
+ 4 +4 -4 +3 +3
o, ,022 7 2 1 o, 0 3 8
434
o, 1 0 1 1 2 7 o, . 1 1 6 7 3 9 o, 132 317 —o,
147 857
o, 1 6 3 3 5 4 o, 1 7 8 8 0 5 o, , 1 9 4 2 0 4
—2
o, 2 0 9 5 4 7 o, , 2 2 4 8 3 0
—2
—0, , 2 4 0 0 4 7
o
1958.0
AY
772 o-953 247 - 5 5 0 . 9 5 8 447 4 0 . 9 6 3 37i
-0.947
10
Äquinoktium
255 194"
-5
o.
—2
o ,270 265
—2
o 285 257
-3 +3
o .300 1 6 4 — o . 3 1 4 980"
4815
4903 4 987 067 143 214
-92
O
88
+ 1
84
o
80
o
76
o
0.117 O.III
7i
+4
0.104
-67
+ 1
+0.098
281
64
345 402
57 53
455 49 5°4 548 44 •38 586 34 620 29 649 24
673
692 707
724 721
+2
283 217
147 071 4 992 4 907 4 816
J Y, J Z sind in Einheiten der 7. Dezimale gegeben.
318
+2
+ 0.017 422
o
0.010 606
787
+ 0.003
—0.003 032
+3
0.009 850
—2
0.016 664
+16
0
—0.023
21
+3
0.030
25
o
28
-4 + 2
+3
+43
+3
46
0
0.070
52
+3
0.077
56
+ 1
0.084 221
60
0.090
66
o
+4
0.097
+70
+3 +5
—0.104
101
O.IIO
670
85
—2 + 1
91
+5
+94
—1
627
6 653 6 679 6 702
- 6 816 6 819 6 819 6 818 6 814 6 810
0.037 0 7 1 6 0 . 0 4 3 855 6 0.050 626 6 0.057 382 6
38
79
6 598
474 - 6 277 6
34
76
6 535 6 567
37 35
32 3i -29 26 26 23
0.071 616 21 6 723 0 . 0 6 4 893 19 6 742 -16 + 0 . 0 5 8 151 -6 758 16 0 . 0 5 1 393 6 774 11 0.044 619 6 785 11 0 . 0 3 7 834 6 796 9 0.031 038 6 805 6 0 . 0 2 4 233 6 811
+ 1
578
343
0.078
6 500
277 - 6
0.091 650 0 . 0 8 4 997
+3
612
399
o +1
477 977 442 875
1
640
451
o
0.124
+ 3
665
497
+4
+3
702
540
o
15
713 686
—1
19
717 7 23
-3 +5 +4
-39 +0.137 3 6 5 - 6 425 38 0.130 9 4 0 6 463
—0.064 121
843 543 875 502
0.117 205 0.123 706
- 5 - 3 o -I- 1 4 4
803 + 7 9 794 10 784 13 771 15 756 r7 739
- 6 722 6 700 6 678 6 654 6 627 6 599 569 6 535 6 501
+17 22 22 24 27 28 + 30 34 34
6 463 38 0.130 169 - 6 425 38 - 0 . 1 3 6 594 +41
Sonnenkoordinaten 1958 Mittleres
Ä q u i n o k t i u m
AX -0.936 0.930 0.923 0.916 0.909 0.902 —0.894 0.886 0.878 0.869 0.860 0.851 -0.842 0.832 0.823 0.813 0.802 0.792 -0.781 0.770 0.759 0-747 0.736 0.724 —0.712 0.699 0.687 0.674 0.661 0.648 -0-634 0.621 0.607 o-593 o-579 0.565 19 20 21 22 23 24
503 '+ 155 529 1 626 449 ! 000
+282 6 348 278 6 626 277 6 9 gang westl. Länge
m
h
m
54-2
h m 22 42.7
m I.91
1 5 22
i-3
4.6
54-4
23 29.2
1.97
1 5 55
i-5
5 12 6 12
i-7 2.0
7 11 8 6
/
h m
Änderung für westl. Länge
6.3
/
r
+ 1 4 34-3 + 16 46.2
m 2-5 2-5 2.4
4 38 5 5
132
+ 18
5 32 1 7 6 26 26
55-i
0 17.3 i 6.6
2.03
+ 18 44.6
2.5 0.2
54-7
135 136
+ +
1 6 33 17 17
2.07
18
7
2.2
8 57
2.0
+ 18 20.1
—
2.2
55-5
1 56.6
2.10
19
4
2-5
9 43
1.8
7 20 49
136
+ 16 57.6
-
4.6
56.0
2 46.9
2.O9
20
6
2.7
10 23
1.6
815 3 9 857
135
+ 14 39.8
-
6.8
56.5
2.08
21
12
2.8
10 59
i-4
134
+ 1 1 32-4
57-i
2.07
22 2 1
134 136
2.07
2 3 32
2-9 3-o
11 31 12 1
i-3 1.2
2.O9
12 29
1.2
139
+ + —
8.7 —10.2
3 37-i 4 26.9
0 46
3-i
1 2 57
1.2
143 I49
3-2
—
27
Änderung fürl" westl. Länge
Dekl.
s
s
2 56 1 3 34648
25 26
Dez.
Änderung für l h westl. Länge
AR.
1958 Nov. 24
M e r i d i a n d u r c h g a n g
47
3
10
2 39
4 5
10 56 35 11 5 1 21
6
12 47 41
7 ' 8
1 3 46 1 3
9 10
1 5 50 38 16 55 i 9
—
—
11.9
—
57-8
—
—
—
2.2
-ii-3 -11.7
58.5
5 16.5 6 6.4
59-2
6 57-i
2.14
5 52.2 — 1 0 16.1
-ii-5 —10.4
59-8 60.3
7 49-3
2.22
2
2.32
318
3-2
13 27 14 0
i-3
8 43-7
156 l6l
-14 - 1 6
3-2 52.8
-
8.4
60.6
3-2
1 4 38
5-6
60.6
2-43 2.50
4 36
-
9 40-7 10 40.0
5 52
162
-18
28.0
60.4
15 2 3 16 16
159
2-53 2.48
3
1 7 5 9 47
1 1 40-5 12 40.9
7
—18 41.0
2.3 -1- 1 . 2
3-i 2.8
i-7 2.1
8
7
2.4
17
16
2.6
12
19
2 23
153
0
2.1
18 22
2.8
- 1 2
+
8.4
57-2
2.10
9 45 10 21
i-7 1.4
19 3 i 20 40
2.9
20 57 56
1 4 34-8 15 26.8
2.24
14
144 136
59-o 58.2
9
13
+ 4-3 -1- 6 . 7
2.38
1 55
- 1 7 34-9 — 1 5 22.2
1 3 39-4
20
15 16
2 1 50 38
128
56.3
16
15.4
I.96
10 52
1.2
21
47
2.8
22 40 36
11
19
1.1
22 53
2.7
17
2 3 56
2.6
18
11
1 4 47 1 7
7 43-8 3 24-6 1 12.6
—
i9-5
59-8
—
1
i-5
2.4
2.8
122
-
8 43.9 4 50.0
+ 9-5 + 10.0
55-6
17
i-3
I.87
23 28 39
Il8
-
0 49.4
+ 10.0
54-9
1 7 45-3
1.80
11 44
1.0
0 1 5 38 1 2 22
117
+
3
9-7 9-1
54-5
18 28.2
I.78
12
8
1.0
54-2
19
10.9
I.78
12 32
1.0
119
+
8.2
54-i
1.82
1 2 57
I.I
21
2 3 7 56
123
+ 1 3 27.8
+
7-°
54-2
19 54-° 20 38.3
0 59 2 0
2.6
1 49 3 5
+ 6 55.7 + 10 24.7
+ +
1.88
13 24
1.2
3
1
2.6
22
3 27 50
127
+ 1 5 56.9
+
5-4
54-4
21
24.1
1.94
13 55
4
2
23
4
9 29
131
+ 1 7 43-5
+
3-4
54-8
22
11.7
2.02
14 3 i
1-4 1.6
5
1
2-5 2.4
24
5 12 4 6 6 7 20
135
+ 1 8 39-5 + 18 38.6
+
1.2
55-2
23
0.9
2.08
-
i-3
55-6
23
5i4
2.12
1 5 12 16 1
1.9
.137
2.2
5 58 6 52
2-3 2.1
16 56
2.4
7
232
138
+ 1 7 38.0
0 42.5
2.13
17 57
2.7
7 57 47
+ 1 5 38.5
56.6
9
2
i-5
+ 1 2 45-7
-
8.2
57-1
2.10
19 3 20 12
2.8
8 52 37
1 33-7 2 24.5
2.13
29
138 136
3-8 6.1
56.1
28
-
7 40 8 24
1.9
27
2.9
9 36
i-5
946
19 20
25 26
r
117
8.5
—
—
1-7
52
135
+
9
8.5
- 0 . 8
2.08
21
22
3-o
10
10 40 44
134
4
44
2.08
2 2 35
3-i
1.0 3 5
i-4 1.2
"
135
4 58.4 028.5
—10.9
32
+ +
57-6 58.1
3 14-6
31
-II-5
58.5
4 54-2
2.08
2 3 48
3-2
11
1.1
30
34 38
6
2.6
3
Mond 1958
48
Phasen des 1958 Jan.
Febr.
März
April
Mai
Juni
Juli
5 12 19 28 4 10 18 26 5 12 20 28 4 10 19 26 3 10 18 26 1 9 17 24 1
Weltzeit h m 20 9 14 I 22 8 2 l6 8 5 23 34 15 38 20 51 18 28 10 48 9 5° XI 18 3 45 23 50 3 23 21 36 12 23 14 37 19 0 4 38 20 55 6 59 7 59 9 44 6 4
Mond
Mond es 1958
Vollmond Letztes Viertel Neumond Erstes Viertel Vollmond Letztes Viertel Neumond Erstes Viertel Vollmond Letztes Viertel Neumond Erstes Viertel Vollmond Letztes Viertel Neumond Erstes Viertel Vollmond Letztes Viertel Neumond Erstes Viertel Vollmond Letztes Viertel Neumond Erstes Viertel Vollmond
in E r d n ä h e Weltzeit 1958 h Jan. 9 0 Febr. 5 23 6 9 März April 3 21 Mai 2 6 Mai 30 7 Juni 26 9 Juli 21 11 Aug. 17 15 14 1; Sept. 13 2 Okt. Nov. 10 14 Dez. 9 0
Juli
9 16 23 3° 7 15 21 29 6 !3 20 27 6 12 19 27 4 11 18 26 4 10 17 26 33
Aug.
Sept.
Okt.
Nov.
Dez.
M 0 n d in 1958 Jan. Febr. März April Mai Juni Juli Aug. Sept. Sept. Okt. Nov. Dez.
Weltzeit h m 0 21 18 33 14 19 16 47 17 49 3 33 45 5 53 10 24 12 2 3 17 21 43 1 20 20 52 14 7 15 4 1 14 6 34 4 59 10 16 1 24 17 23 23 52 3 54 10 50
Letztes Viertel Neumond Erstes Viertel Vollmond Letztes Viertel Neumond Erstes Viertel Vollmond Letztes Viertel Neumond Erstes Viertel Vollmond Letztes Viertel Neumond Erstes Viertel Vollmond Letztes Viertel Neumond Erstes Viertel Vollmond Letztes Viertel Neumond Erstes Viertel Vollmond Letztes Viertel
Erdferne Weltzeit h 0 25 21 15 20 19 16 23 II 14 11 5 8 23 18 5 11 2 22 29 0 27 23 5 20 21
Merkur 1958
49
Oh W e 1 1 z e i t Scheinbare Rektaszension
17 17 *7 17 17 17
49 46 43 4i 40 39
44.03 17.52 34-47 35-34 19.31 44.62
m s 3 26 51 2 43 05 1 59 13 1 16.03 0 J 4 69 o 4 33
1 7 3 9 48-95 0 40 67 1 7 40 29.62 x 14 17 r 7 4 i 43-79 1 4 4 83 17 43 28.62 2 12 75 17 45 4i-37 2 38 08 1 7 48 1 9 . 4 5 3 1 00 1 7 5 1 20.45 3 21 69 1 7 54 4 2 . 1 4 3 4° 37 1 7 58 2 2 . 5 1 3 57 24 18 219.75 4 12 45 18 6 32.20 4 26 19 18 1 0 58.39 4 38 64 18 1 5 37.03 4 49 87 1 8 20 26.90 5 o°7 1 8 25 26.97 5 9 32 18 30 36.29 5 17 7 2 18 35 54.01 5 25 36 18 41 19.37 5 32 32 1 8 46 5 1 . 6 9 5 38 67 18 52 30.36 5 44 4 6 1 8 58 1 4 . 8 2 5 49 76 1 9 4 4.58 1 9 9 5 9 . 1 8 5 54 6 0 1 9 1 5 5 8 . 2 1 5 59 ° 3 6 3 09 19 22 1.30 6 6.82 1 9 28 8 . 1 2 6 10 23 19 34 18.35 6 1338 194031.73 6 16 26 1 9 46 47.99 6 18.91 1 9 5 3 6.90 6 21 37 1 9 59 28.27 6 23 62 20 5 5 1 . 8 9 6 25 70 20 1 2 1 7 . 5 9 6 27 .64 20 18 45.23 6 29 42 20 25 14.65 6 31 08 20 3 1 45-73
Scheinbare Deklination
-20 20 20 20 20 20
16 13 12 13 15 19
-20 20 20 20 20 21
25 43.1 32 42.7 40 42.7 49 2 9 . 7 58 5O.9 834.I
- 2 1 18 2 1 28 2 1 38 2147 2 1 56 22 5
5O.3 31.I l6.8 2.6 4O.O 57.7
3 19.2 1 14-3 045.8 2 37 4 4 17 7 5 45 4 6 59.6 8 0.0 8 47 o 9 21 2 9 43 2 9 54 5
28.6 9 55 4 24.O 9 47 3 II.3 9 31 1 42.4 9 75 49.9 8 37 3 27.2 8 1 4 28.6 7 20 3 48.9 6 34 .6 23.5 5 44-8 8 -3 4 5i 5 59.8 3 54 9 54.7 2 55 4 50.1 1 53 5 43.6 o 49.1 32.7 0 17 2 z 5-5 1 25 3 50.2 2 35 1 15.1 3 46.4 28.7 4 58.9 29.8 6 12 7 I7.I 4 9 . 6 7 27 5 6 . 3 8 43 3 10 0.0 6.3 1 1 17.5 48.8 12 35 7 13.I 13 54-6 18.5 15 13-9 4.6 3 0 . 6 16 34 .0
-22 22 22 22 22 22
13 20 27 33 37 41
-22 22 22 22 22 22
44 46 47 47 45 43
-22 22 22 22 22 22
39 34 28 20 12 2
-21 21 21 21 20 -20
50 38 24 9 52 r 3 4 3 6 . 2 7 54 4
Halbmesser
0.706 874 ' C* 13 613 ° - 7 2 ° f 7 i 5 358 °-735 845 r ^ 0 4 0.752 649 * 0 . 7 7 0 6 1 D5 „ '' 18 867 C 0.789 482 v n 19 537 0 . 8 0 9 O I 9 20 003 0.829 ° 2 2 20 291 0.849 3 I 3 20 430 0.869 7 4 3 20 441 0.890 1 8 4 20 346 0.910 530 20 165 0.930 695 19 911 0.950 606 19 600 0.970 206 19 243 0.989 449 I g 8 4 8 1
- o o 8 ^ 7 18 427 1.026 724 17 983 1.044 7 ° 7 17 525 1.062 232 17 054 1 . 0 7 9 286 16 576 1.095 862 16 094 I . i i i 956 15 6 n 1 - 1 2 7 567 15126 1-142 -I57 1.171 1.185 1.198 ^ 1.211
693 338 504 i93 411 161
1.223 1.235 1 1.246 ^ 1.257 1.268 1.278
45o 281 iL 659 i/ 589 074 119
I
14645 14 166 13689 13 218 12 750 : 12 289 8
II 10 10 10 9
J
0
378 930 485 045 608
1.287 727 9 172 1 . 2 9 6 899 8738 1-305 637 8 306 1-313 9 4 3 7 873 1.321 816 7 440 1.329 256
Hör. Par.
Aufgang
ObereKulmination
in o h Länge, + 50 0 Breite h tr 6 51 644 6 37 632 6 27 6 23
4.72 4-63 4-54 4-44 4-33 4-23
12.45 12.21 11.96 11.69 11.42 11.15
4-i3 4-°3 3-93 3-84 3-75 3-67
10.88 10.61 10.36 10.12 9.89 9.66
6 20 6 18 6 16
3-59 3-5i 3-44 3-38 3-3i 3-25 3.20 3-i4 3-09 3-05 3-oo 2.96
9.46 9.26 9.07 8.89 8-73 8-57 8.42 8.28 8.15 8.03 7.91 7.80
6 14
6 21 6 22 6 24 6 26 628 630
0 28.4 o 29.4
2.92 2.89 2.85 2.82 2.79 2.76
7.70 7.60 7-5i 7.42
036.4 038.1 o 40.0 041.9
7-34 7.27
6 32 6 34 636 6 37 6 39 6 41
2-73 2.70 2.68 2.66 2.63 2.61
7.19 7.12 7.06 7.00 6.94 6.89
6 43 644 646 647 649 6 50
o 48.1
2-59 2.58 2.56 2-54 2-53 2.51
6.83 6.79 6.74 6.70
651 6 52 6 53 6 54 6 55 656
1
6.66 6.62
615 6 14 6 14 6 6 6 6 6
15 15 17 18 19
1 1
9.6 2.6
056-3 050.7 045.8 o 41.6 038.0 0 35-0 o 32.6 o 30.6 o 29.0 o 27.9 o o O 0 o o
27.1 26.7 26.5 26.7 27.0 27.6
030-5 031.8 033-2 0 34-7
0 43-9 o 46.0 050.3 0 52.6 054.9 057.2 059.6
2.0
1 4-5 1 7.0 1 9.6 1 12.1 1 14.7
Merkur 1958
50 Oh
w
e
11
z e
i t
Auf-
ObereKul-
gang
mination
Scheinbare
Scheinbare
Halb-
Hör.
Rektaszension
Deklination
messer
Par.
in o11 Länge, + 50° Breite
6.62
h m 6 56
336 260
2-51 2.50
6-59
6 57
I 17-3
342 827
2.49
6-55
6 57
I 20.0 I 22.6
- 2 0 34 36.2 20 3 1 45-73 19 15 2 6 32 63 20 1 5 2 1 . 0 20 3 8 1 8 . 3 6 20 36 5 6 34 °7 20 4 4 5 2 . 4 3 ! 9 54 44-5 21 58.0 6 35-43 20 5 1 27.86 19 32 46.5 6 36 72 23 1 9 9 2 0 5 8 4.58 19 9 26.6 6 37.92 24 42.0 21 442.50 18 44 44.6 6 39.09 26 4 3 —18 18 40.3 21 11 21.59 6 40.21 27 26.8 17 5 1 13-5 21 18 1.80 6 41.29 28 49 4 1 7 22 2 4 . 1 21 24 43.09 30 12 o 6 4 2 35 16 52 1 2 . 1 21 31 25.44 6 43 39 3 1 34-9 1 6 20 3 7 . 2 2138 8.83 6 44 43 32 57-6 1 5 4 7 39-6 21 44 53-26 6 45-47 34 20 3 2 1 5 1 3 8 - 7 3 6 46 51 - r 5 J 3 z 9 - 3 35 42-8 2 1 58 2 5 . 2 4 6 4 7 56 1 4 37 36-5 37 5 0 22 5 1 2 . 8 0 648.63 14 031.5 38 26.9 22 1 2 1 . 4 3 6 49 70 1 3 22 4 . 6 39 48 4 12 42 16.2 22 1 8 5 1 . 1 3 6 50.80 41 9 2 12 1 7.0 22 25 4 1 . 9 3 6 51 90 42 29.2 - 1 1 18 37.8 22 3 2 3 3 . 8 3 6 52.99 43 48 2 10 34 49.6 22 39 2 6 . 8 2 6 54.08 45 5-9 22 4 6 2 0 . 9 0 9 4 9 4 3 - 7 46 22 1 6 55 1.5 22 5 3 1 6 . 0 5 9 3 21.6 6 56.16 47 36 .2 23 o 12.21 8 15 45-4 48 48.0 6 57 .10 7 26 57.4 2 3 7 9 - 3 i 6 57-93 49 57 ° 2 3 1 4 7 . 2 4 6 58 .62 — 6 3 7 0 . 4 51 2 4 5 45 58.0 23 21 5.86 6 59.09 52 3-7 2 3 28 4 - 9 5 4 53 54-3 6 59 31 53 °-2 4 054.1 23 35 4.26 6 59 17 53 507 3 7 3-4 23 42 3-43 6 58-63 54 34 5 2 12 28.9 23 49 2.06 55 10 7 6 57 55 2 3 5 5 5 9 - 6 I 6 55.86 — 1 1 7 1 8 . 2 55 37-7 o 2 5 5 . 4 7 6 53-43 — 0 2 1 4 0 . 5 55 54-9 + 0 3 4 1 4 . 4 o 9 4 8 . 9 0 6 50.13 56 0.6 1 30 1 5 . 0 o 1 6 3 9 . 0 3 6 45-85 55 54 1 2 26 9 . 1 o 2 3 2 4 . 8 8 6 40.46 55 34-0 3 21 43-I 03° 5 - 3 4 6 33-85 54 59 6 0 3 6 39.19 + 4 1642.7 6 25.90 54 1 0 1 0 4 3 5-09 5 ! 0 52-8 6 16 54 53 5 ° 0 4 9 21.63 6 3 57-8 6 5.68 51 44.2 6 55 42.0 0 55 27-31 5 53 3° 5° 7 5 1 1 20.61 7 4 5 4 9 - 5 48 15.6 5 39-38 + 8 3 4 5 i 1 659.99
329 256
3 48 9 5 2
6[J 5 679
359 856
J S
364 622 3.644 2 r 4 7 8 6 4 »•652 078 >•659 952 ' " ' • ^ 833 £ >.675 722 0 4 48 5 >.683 616 7 9 4 0 7 899 5 14 1 o,•691 515 5 38.8 0.699 416 ' ' ^ ^ 7 904 632 0.707 0120 ' ' 7 90Ç 6 27 2 O.715 225 u 7 905 ' ° 6 50 6 0.72^ 130 / o o - 90c 7 M 4 O.73I 035 J ' 7903 7 35 7 7 57 6 °-738 938 " •746 746 839 898 8 18 7 'TC/l 111 ' o.•754 7 3 7 7 895 8 39-4 o. 8 59 5 0.770 524 g g 6 9 19 o 0.778 410 7 8 g 2 9 37 -9 o.»•786292 9 56 3 0. 20 14 1 ' i 9 4 1 6 9 871 o.>.802 040 ' 20 31 2 O 7 865 0.•809 905 ' ¡ J 20 47.8 o.•817 763 7 21 3.8 7 851 o. O 1 21 19 3 •825 6 i 4 ; 8 4 5 o, •833 459 8 21 34 1 o. >.84I 2 9 6 7 * 3 7 ^ 7 829 21 48 3 o. 22 2 .0 >•849125 : g 2 I o, ' • g 6 946 22 15,0 o. >-864 757 7 802 22 27 5 o. >•872 559 3 3 3 4
2 7 29-8 56 3 22 .8
5.26
Obere Kul- Untermination gang
ni
h m 9 13.2
4 4 4 4 4 4
13 12 11 10 9 7 6 5 4 3 2 o
9 10-7 9 10.4 9 10.1 9 9-8 9 9-6 9 9-4
3-33 3.18 3.02 2.87
3 3 3 3 3 3
59 58 56 55 54 53
9 9 9 9 9 9
9-3 9.1 9.0 8.9 8.8 8.7
2.16 2.02 1.89 1.76 1.63 1.50
2-73 2.58 2.44 2.30 2.17 2.04
3 3 3 3 3 3
51 50 49 47 46 44
9 9 9 9
8.7 8.6 8.6 8.6 8.6 8.6
1.38 1.26 1.14 1.03 0.91 0.80
1.91 1.78 1.66 i-54 1.42 1.30
3 3 3 3 3 3
43 41 40 38 37 36
8.6 8.7 8.7 8.8 8.8 8.9
0.70 0-59 0.49 0.38 0.28 0.19
1.19 1.08 0.97 0.87 0.76 0.66
3 34 3 33 3 31 3 30 328 3 26
9.0 9.1 9.2 9-3 9-4 9-5
0.09 0.00 9.90 9.81
0.56 0.46 0.36 0.27 0.18 0.09
3 25 3 23 3 21 320 318 3 17
9 9-6 9 9-7 9 9-8 9 10.0 9 10.1 9 io-3
5-05 4-85 4-65 4.46 4.27 4.08 3-90 3-72 3-55 3-38 3-22 3-05 2.90 2.74 2-59 2-45 2.30
9-73 9.64
9 9 9 9 9
12-7 12.2 11.8 ii-4 11.0
Venus 1958
61
Oh W e 11 z e i t Scheinbare Deklination
Scheinbare Rektaszension h m s 23 51 46.49
23 55 52.31 23 59 58.53
O 4 5-15 O 8 12.IQ O 12 19.65
5.82 6.22 6.62 7.04 7.46 7.88
2 1 1 o 0 o
+
7 44 21 58 35 12
8.0 28.7 38.2 37-2 26.2 5.9
22 39 3 22 50 5 23 I O 23 II O 23 20 3 23 28.8
27.53 O II 22.9 23 36.8 35.84 4 831 O 34 59-7 23 44 1 4 8.76 44.60 0 58 43.8 23 5° 7 53.80 4 9-2° 1 22 34.5 23 56 6 4 9.67 1 46 3 1 . 1 0 3 3 3-47 24 1.9 4 10 13 o 37 13.60 2 10 33.0 24 6.4 4 10.62 0 41 24.22 2 34 39-4 4 11.12 24 10 3 O 45 35-34 4 11 62 2 58 49-7 24 13 7 o 49 46.96 3 2 3 3-4 4 ".15 24 16 1 1 1 o 53 59- 4 12.69 3 47 19-5 24 18.0 0 58 1 1 . 8 0 4 « 37-5 4 1325 24 19.2 1 225.05 4 35 56.7 4 1381 24 19 7 1 638.86 5 0 1 6 . 4 24 19 7 r 4 4i 4 1 1053.27 5 24 36.1 24 18 7 1 1 5 8.29 4 15 02 5 48 54-8 24 17 3 4 15 64 1 19 23-93 6 13 12.1 24 15 1 4 16 30 1 23 40.23 6 37 27.2 24 12 3 4 16.97 1 27 57.20 7 1 3 9 - 5 24 8.8 4 17.66 1 32 14.86 + 7 25 48-3 24 4 7 1 36 33-24 4 J18.38 7 49 53-o 23 59 8 4 9 14 8 13 52.8 1 40 52.38 23 54 3 4 19.90 1 45 12.28 8 37 4 7 - i 23 48 2 4 20 70 1 49 32.98 9 135-3 4 21 53 23 41 3 9 25 16.6 1 53 54-5i 4 22-37 23 33-8 1 58 16.88 + 94850.4 23 25 7 4 23 26 2 240.14 10 12 16.1 23 16 7 4 24 14 2 7 4.28 1 0 3 5 32.8 23 7 2 2 1 1 29.35 4 25 07 10 58 40.0 22 56 9 2 15 55-36 4 26.01 1 1 21 36.9 22 45.9 4 26 .97 2 20 22.33 1 1 44 22.8 22 34 3 4 27 -95 2 24 50.28 + 12 6 5 7 . 1 22 21 9 4 28 93 2 29 1 9 . 2 1 12 29 19.0 22 8 7 4 29 96 12 51 27.7 2 33 49-17 21 55 ° 4 3° 98 2 38 20.15 13 13 22.7 21 40 4 4 32 02 2 42 5 2 . 1 7 13 35 3 - i 4 33 °7 + 13 56 28.3 21 25 2 2 47 25-24 o 16 O 20 o 24 o 28
+
Halbmesser
O, »•872 0'•880 o».888 o.>•895
559 7 Q 2 351 l7Z 131 7 900 7 1.903 655 0.903 V J 055 J J 7' 7-'4 20.9"
397;;^
• 9 I 9 123 0.919 q •c\of\ 9 2 6 8Roe 35 ' O.•934 530 0..942 208 0.• 9 4 9 8 6 9 ^ 0. '•957 s « 7 0.965136 742 0.980 327 ; 0.987893 0.995 438 7 z 7 1.002 Q03 v 7 1.010 466 1.025 1.032 1.040 1.047 ^
'£
^ ;
f* 545
525
5°3
409 848 7 4 3 9 7 7 417 265 ' 4 ' 661 7 7 373
Ï S 2 38Î 7 35° , J ^ 7 328 1.069 7 1 2 7 3°5 ^ ^ ^ I-O84299 1-091557;
8
^
1 . 1 0 5 998 ' „ 1.1131807182 7 155 1.120 Î 7 I29 I . 1 2 7 464 ' 7 100 I-I34
564 ^ 0 7 I
1^148 677 7 0 4 2 ¿0 7 012 r i 5 5 f « ? 6981 t1 . 1i 66 2 6670 2 1.176538
- 9 ?6ÏÏ
Hör. Par.
9.64 10.09 9-55 10.00 9-47 9.91 9-39 9.82 9-3i 9-74 9.23 1 9.66
Aufgang
in ob Länge, + 50° Breite
3 3 3 3 3 3
h n 17 15 13 12 10 8
9-i5 9.07 9.00 8-93 8.85 8.78 8.71 8.65 8.58 8.51 8-45 8-39
9-57 9-49 9.42
9-°5 8.98 8.91 8.84 8.77
2 2 2 2 2 2 2
8.32 8.26 8.20 8.14 8.08 8.03
8.71 8.64 8.58 8.52 8.46 8.40
2 47 2 45 2 43 2 42 2 40 238
7-97 7.92 7.86 7.81 7.76 7.70
8-34 8.28 8.23 8.17 8.12 8.06
2 2 2 2 2 2
37 35 33 32 30 29
7-65 7.60 7-55 7-5i 7.46 7.41
8.01 7.96 7.91 7-85 7.81 7.76
2 2 2 2 2 2
27 25 24 22 21 20
7-37 7-32 7.28 7-23 7.19 7-i 5
7.71 7.66 7.61 7-57 7-52 7.48
2 18
9-34 9.26 9.19 9.12
Obere Kulmination
2 2 2 2 2
58 56 55 53 52 50 48
17 16 14 13 12
m 0-3 0-4 0.6 0.8 0.9 1.1 r-3 1-5 i-7 1.9 2.2 2.4 2.6 2.9 3-i 3-4 3-7 4.0 4.2 4-5 4-9 5-2 5-5 5-9 6.2 6.6 7.0 7-4 7-8 8.2 8.6 9.1 9-5 20.0 20.5 21.0 21.6 22.1 22.7 23-3 23.8 24-5
Tenus 1958
62 Oh
2 2 2 3 3 3
Obere Kulmination
Scheinbare
Halb-
Hör.
Rektaszension
Deklination
messer
Par.
in o h Länge, + 50° Breite
7-i 5 7.11 7.07
7.48 7-44 7-39 7-35
2 12
6-99 6-95 6.91 6.87 6.83 6.80 6.76 6-73 6.69
7-3i
47 51 56 1 5 10
25.24 4 34 15 59-39 34.61 4 35 2 2 10.92 4 3 6 3 1 4 37 4 1 48-33 4 38 5 i 26.84 4 39-62
6.46
3 3 3 3 3
!9 24 29 33 38
3 3 3 3 4 4
43 27.82 48 15-35 53 4-oi 57 53-8I 244.74 7 36-8O
4 4 4 4 4 4
12 17 22 27 32 37
47-20 29.07 12.06 56-I8 41-43
29.99 24-29 19.69 16.19 13-75 12.37
4 4 ° 74 4 41.87 4 42-99 4 44 12 4 45 25 4 4 6 39 4 4 7 53 4 48.66 4 49.80 4 5°-93 4 52 06 4 53 1 9 4 54 3 ° 4 55 4 ° 4 56 50 4 57 56 4 58 6 2 4 59 6 6
4 42 12.03
066
4 47 12.69
1.65
4 52 14-34 4 57 16.93 5 2 20.46 5 724-87
5 5 5 5 6 6
Aufgang
Scheinbare
3 15
5 5 5 5 5 5
W e l t z e i t
12 17 22 27 32 38 43 48 53 58 4 9
2 59 3 53 4 41 5.27
30.14 36.23 43.09 5 0 -70 59-oo 7-96 r7-5i 27.64 38.27 49-37 0.90 12.79
6.09
6.86 7.6t 8.30 8.96 9-55 10.13 10.63 11.10 «
53
11.89
+ 1 3 56 28.3 14 1 7 3 7 . 6 14 38 30.2 r
4 59 5-4 15 19 22.7 15 39 2 1 . 1 + 1 5 5 9 0.1 16 18 18.9 16 37 16.8 16 55 53-3
17 14 7-5 1 7 3 1 58.8 + 17 49 18 6 1823 18 39 1855 19 10
26.5 30.0 8.6 21.7 8.6 28.7
+ 19 19 19 20 20 20
25 39 53 7 20 32
21.2 45-7 4I-5 8.0 4.6 30.6
+ 20 44 20 55 21 6 21 16 21 26 21 35
25.6 49.0 40.2 58.7 43.9 55-4
+ 21 21 22 22 22 22
44 32.8 52 35-5 o 3.1 655.2 13 11.4 18 51.4
+ 22 22 22 22 22 + 22
23 28 32 35 37 39
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Venus Oh
6
Scheinbare
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Rektaszension
Deklination
messer
Par.
5-89
6.16
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5.86
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9 12.79
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7 58 2 5 . 0 8 8 3 33-31 8 840.86
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Scheinbare
6 14 25.02
8
63
1958
9 14 19 23 28 33 38
9 - 6 4 4 56 73 6-37
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318
mination
h m o 4.9
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Obere Kul-
m 1
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5-24
5.60
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325
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Venus 1958
64
0h Tag
Scheinbare Rektaszension
9 9 9 9 9 o
38 43 48 53 57 2
3641 27-72 18.14 7-69 56.38 44.22
o 7 31.22 O 12 17.40 o 17 2.77 O 21 47.36 o 26 31.18 03114.25
Weltzeit
Scheinbare Deklination
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4 48 69 4 47 84 447.00
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5-24 5-23 5.22 5-21 5.20
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6
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Venus 1958
65
0 h W e 11 z e i t Tag
Scheinbare Rektaszension
1958 Okt. 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 Nov.
1 2 3 4 5 6 7 8 9 10 11 12 13
H
15 16 17 18 19 20 21 22 23 24
Scheinbare Deklination
0 / " Ii m s 12 49 29.57 4 y I O — 3 48 36.2 1254 5-67 » 41824.1 2 9 4 7 9 4 29 43 3 1258 42.15 u 4 4 8 '7-4 TT ^ 29 37 9 ^ i 4 36.91 13 3 19.06 r 5 7 45-3 2 9 3 i 8 * 7 56.43 : ^ 54717.1 6 16 42.0 2 9 2 4 9 13 12 34.30 4 ? 472 ^ 2917.2 13 17 12.72 ~ 6 45 59.2 8 13 21 51.71 ^ 7 7 * 5 7-9 2 g 59 g c. 4 39 61 IT0 26 0II.32 0 7 44 7-5 2g 4 9 6 4 40 27 "-59 ^ ® 1 2 5 7 - 1 2838.8 13 35 52.55 4 1 35-9 2g 2 7 3 134034.25 9 1 0 3-2 28 I 5 . 0 - v9 J38 18.2 a 134516.72 28 , 28 1 9 IT 50 0.00 10 620.1 0 2748.0 4 44 12 13 54 44.12 10 T4 8.1 4 45 00 11 1 41.5 2 7 33 4 i T 59 29.12 4 45 91 112859.4 2 7 17 9 14 4 I 5-°3 4 o6 4 4 6 v , ^ 27 17 14 ^ y9 1.89 447 83f ' 26 44.6 *4 ^ 4 9 . 7 2 - 1 2 22 45-7 26 26.8 12 ^ 1 8 38-57 9 J 49 12.5 2 6 8 , 14 23 28.45 * 4 13 15 4 50 9 3 0 J 20.6 14 28 19.38 7 J 2; 48.8 ^ 4 52 03 13 41 9.4 2 i 4 3311-41 £. 0 5 28.4 4 53 15 14 6 37.8 1438 4.56 25 7 4 ^0 ^ 3 4 54 27 14 t 31 J t45.2 ~> 24 45 5 1 4 42 58.83 - 1 4 J56 J30.7 ^ ' 24 22.9 43 1447 54.26 5 15 20 53.6 23 59.4 4 56 4 52 5 0 . 8 5 4 5778 4 57 4 8 . 6 3 A 4 58 97 2 16 j3 1 3 8 . 0 2 3 9 9 47-60 o i 8 , ^ 22 44.1 16 54 22.1 15 7 4778 5 I J 8 2217.3 15 - 1 7 1 6 39.4 0 12 49.16 ^ , 5 2 60 0 2149.8 17 038 29.2 , v ' „ 21 21 6 15 17 51.76 17 59 50.8 u 1 20 52 4 15 22 55.58 5 3 8 2 18 20 43.2 Z „ „ 20 22 6 1528 0 . 6 1 5 n l 8 41 T J5.8 c. 0 5 6 26 19 51 9 15 33 6.87 197 0 57.7 , 38 14.34; ' 19 20 6 154323.02 20 f 3 i 8 48 4 48 32.91 „ J 39 6.7 i 8 i 5 6 19 57 22.3 15 53 43-99 . I 2 2 7 20 15 4.3 15 58 56.26 f 17 7 7 16 4 v9.70 5 13 4 4 ' ' , ^ ' 5 14 59 20 12 12.0, 16 32 6 16 9 24.29 - 2 0 48 44.6
sis:23 351
Halb- Hör. messer Par.
A
900 i 0897 1 140 2297 1 091 120 1 043 £ 363 ^ 359 9 4 8
I
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II II II II II II
h m 21.7 22.3 23.O 237 24.4 25.I
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55 58 i 4 8 11
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5-15 5-15 5-15 5-M 5-14 5-i4
6 6 6 6 6 6
14 17 20 23 26 29
I I 3O.2 I I 31.O 1131.8 I I 32.6 11 33-4 " 34-3
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6 33 6 36 6 39 6 42 6 45 648
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7 " 7 14 7 17 7 20 723 7 26
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4.91 4.91 4.92 4.92 4.92 4.92
5-i4 5-i4 5-i4 5-i4 5-i5 5-i5
729 7 32 7 35 7 38 7 41 7 44
11 11 11 11 11 12
//
1.697 1.699 1.700 ' 1.701 ' I-7°2 I -7°3
Auf- Obere Kul- Untergang mination gang
4-95 4-95 4-95 4-94 4-94 4-94
//
53-9 55-2 56.4 57-7 59.0 0.3
h m 17 6 17 4 17 2 17 0 16 59 16 57 16 16 16 16 16 16
55 54 52 50 49 47
16 46 16 44 1643 16 41 16 40 1638
16 16 16 16 16 16
18 18 17 17 16 16
66
Venus 1958 0
Tag
Scheinbare
Scheinbare
Rektaszension
Deklination
1958 Nov. 24
h m s 16 9 24.29
25
16 14 4 0 . 0 2
26
1613
0
m 5
56.86
29
Dez.
30 1 2 3 4 5 6 7 8 9 10 11 12 13
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22
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I.64
24
18 52 3 0 . 7 8
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26
19 19
5 3° 31 5 30
43
5 30
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5
3
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29 14
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^
Hör.
messer
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702
gang
mination
gang
in o h L inge, + 50° Breite h m
//
4.92
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3-33 3-35 3-36 3-38 3-39 3-4i
6.26 6.29 6.32 6-35 6.38 6.41
2 23 2 20 2 18 2 16 2 13 2 11
3-42 3-44 3-46 3-47 3-49 3-50
6-44 6-47 6.50 6-53 6.56 6-59 6.62 6.65 6.68 6.71 6.74 6.78
2 2 2 2
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6
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.196866 .190 994
£ 8
3
3.52 3-54 3-55 3-57 3-59 3.60 3.62 3.66 3-67 3-69 3-7i
6.81 6.84 6.87 6.91 6.94 6-97
3-73 3-74 3-76 3-78 3.80 3.82
701 7-04 7.07 7.11 7-i4 7.18
3-83 3-85 3-87 3-89 3-9i 3-93
7.21 7-25 7.28 7-32 7-35 7-39
3-64
ObereKulmination
in o h Länge, + 50° Breite h
IT
2 38
8 6 3 1 58
55 53 50
48 45 43 40 38
35 32 30 27 25
22 19 17 14
12 9 6 4 1 058
056 0 53
h
m
7 45-3 7 44-2 43-i 41.9 40.8 39-6 38.5
37-3 36.1 35-o 33-8 32.6 3i-4 30.2 29.0 27.8 26.6 25-4 24.2 22.9 21.7 20.5 19.2 18.0 16.7 i5-5 14.2 13.0 11.7 10.4 9.1 7-9 6.6 5-3 4.0 2.7 i-4 0.1
58.8 57-5 56.2 54-8
Mars 1958 0"
25.05 2.01 38.71 15.13 51.29 27.17
0 3 4 2.77 0 3 6 38.IO 0 o o o
39 I 3 - I 4 41 47.90 44 22.38 46 56.57
m s 2 36 .96 2 36 70 2 36.42 2 36 16 2 35,88 2 35 60 2 35 33 2 35 04 2 34 76 2 34 48 2 34 19 2 33 92
o 49 30.49 o 52 4 . 1 2 O 54 37-48 o 57 10.56
2 33 36
o 59 43-37 2 15.90
2 32 53
4 48-I5 7 20.11 9 12 14 17
2 33 08 2 32.81
2 32 25 2 31.96 2 31 68
51-79 2 31 38 23.17 2 31 08 54-25 2 30 77 25.02
2 30.46
19 55-48 22 25.60 24 27 29 32
55-39 24.82 53-9« 22.60
34 37 39 42 44
50.92 18.84 46.35 13-43 40.08
47
6-27
49
32.01 57-27 22.04 46.32 10.10 33-3^
5i 54 56 59 1
2 33 63
2 30 12 2 29 79 2 29 43 2 29.08 2 28 70 2 28 32 2 27.92 2 27 51 2 27 08 2 26 65 2 26 19 2 25 74 2 25.26 2 24 77 2 24 28 2 23 78 2 23 26
W e l t z e i t
Scheinbare Deklination
Scheinbare Rektaszension
o 18 0 21 o 23 0 26 o 28 031
71
Halb Hör. messer Par.
Aufgang
in o h Länge, + 50° Breite h
—O 21 9.2 - o 452.4 + 0 I I 22.1 O 27 34- 1 O 43 43-5 0 59 50.0 + 1 1 1 2 2 2
6 16.8
•zl°
6 14 5
•
6 12 o 9 4 6 5 3 4
15 53-4 6 0 3 3 i 53-7 5 57 o 47 50-7 5 53 5 3 4 4 . 2 5 49-9 19 34-i 5 46 1 35 20.2 2 5 4 -2
+ 251
2.4
3 640.6 3 22 14.7 3 37 44-5 3 53 9-9 4 830.7 + 4 2 3 46.8 4 3 8 58.1 4 54 5 9 524
4-4 5-5 i-4
5 38 5 i - 9 + 5 6 6 6 6
53 36.8 815.9 22 49.3 37 16.6 51 37-7
7
5 52.5
+ 720
0.9
7 34 2.7 7 47 57-8 8 146.1 8 15 27.5 8 2 9 1.8
5 38 2 5 34 1
M 6.5
9 35 4 - i + 9 47 54-i
^ 5 8 5 1
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l 6 1
793
•
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8o8
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Ü 5 798
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5 20.8
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5 16 1
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5 298 5 25 4
5 11 3 5
63
5
1 1
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i
8 1 1
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4 391 4 33 4 4 27 3 4 21 1
4 148 4
84
4
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3 55 1 3 48 3 3 41 4 3 34 3
3 27 2
3 12 6 3
5 1
2 57.6 2 50.0
5683 5
, 2
4
•°75 787 j gg^ .070 127 .064 474 5 5 3 .058 827
4 44 9
+ 8 42 29.0 3 198 8 5 5 48 .8 9 9 922
994 5 86l
l 8 5
•°53 1 8 6 •047 550 .041 9 1 9 .036292
5
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• ^ ^ s e x s .025 053 5 6 i 2 .019 441 .013 5 .008 :.002 0.997 0.991 0.985 O 0.980 O.974 t 0.969 0.963 0-957
,
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f 5 605 227 , , ' 5 600 627 5 596 031 5 5 9 2 439 5 5 s 7 852 270 693 122 555 994
9
5 582 _ 5 377 5 571 56;
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7-39 7-43 7.46 7-50 7-54 7-57 7.61 7-65 7.69
4-05 4.07 4.09 4.11 4-i3 4-i5
7-73 7-77 7.81
4-i7 4.19 4.22 4.24 4.26 4.28
7-85 7.89 7-93 7-97 8.01 8.05
4-30 4-33 4-35 4-37 4.40 4.42
8.09 8.14 8.18 8.22 8.27 8.31
4-44 4-47 4-49 4-52 4-54 4-57
8.36 8.40
4-59 4.62 4.64 4.67 4.69 4.72
8.63 8.68 8-73 8.78 8.83 8.88
4-75 4-77 4.80 4.82 4.86 4-89
8-93 8.98
8-45 8.49 8-54 8.58
9-03 9.07 9-13 9.19
ObereKulmi nation
0 38 0 35 o 32 030 o 27 025 O o o o O
h
m
0 53 0 51 048 0 45 0 43 o 40
22 19 17 14 II
m
6 54-8 6 53-5 6 52.2 6 50.8
6 49-5 6 48.2 6 46.8
6 6 6 6
45-5 44-i 42.7
41-4
6 40.0 6 38.6
O
9
6 6 6 6 6
37-2 35-8 34-5 33-i 3i-7
o
6
6 30.3
O 3 / 0 IV V23 58I 23 56 23 53 23 50
6 6 6 6 6
28.8 27.4 26.0 24.6 23.2
23 48 23 45 23 42 2340 23 37 23 35
6 6 6 6 6
21.7 20.3 18.8 17.4 15-9
23 23 23 23 23 23 23 23 23 23 23 23
32 29 27 24 21 19 16 13 11 8 6 3
6 14-5
6 6
13-0 11.5 6 10.o 6 8.5 6 7.0
6
5-5
6 4.0 6 2.5 6 1.0 5 59-4 5 57-9 5 56-3
Mars 1958
72
011
Scheinbare Deklination
Scheinbare Rektaszension
1958 J u l l J 24 "25 26 27 28 29 30 31 Aug. i 2
h 2
m s I 33-36
2 3 56.IO 2" 6 18.31 2 839.98 2 11 1.08 2 13 21.62
3 4
2 2 2 2 2 2
5
2 29 27.93
6 7
8 9
10 11 12 13 14 15
16 17
18 19
20 21 22 23
I5 18 20 22 24 27
4I.57 0.92 19.65 37.74 55.16 11.90
m s 2 22 74 2 22 21 2 21 67 2 21 10 2 20 54 2 19 95 2 2 2 2 2 2
2 3 3 3
28
1 1 1 1 3 15 22.66 1 3 17 14-3° 1
29
3 19
4-50
26 27
30 3i
Sept. i 2 3
9 35 8 38 7 37 6 34 5 28
4 18 3 06 1.91 143-86 o 74 3 44-6O 1 59 52 5 4 4 - 1 2 1 58 30 42.42 3946 35-20 29-61
25
10 29
55 34-71 2 57 38.89 2 59 4 1 - 9 5
3 7 3 9 3 11 3 13
24
19 35 18 73 18.09 17 42 16 74 16.03
2 15 30 2 3 1 4 3 - 2 3 2 14 53 2 3 3 5 7 - 7 6 2 13 74 2 36 11.50 2 12.92 2 38 24.42 2 12.08 2 40 36.50 2 1 1 20 2 42 47-7° 2 2 4 4 57-99 2 2 47 7 - 3 4 2 2 49 I 5 - 7 2 2 2 5 1 23-09 2 2 5 3 29-43 2
3 3 3 3 3
20 53.23 22 40.42 24 26.04 26 10.03 27 52.35
1 1 1 1 1
57.04 55 74 54 41 53 05 51.64 50 20 48 47 45 43 42
Weltzeit
73 19 62 99 32
+ 9 47 54-1 10 036.5 10 13 I I . I 10 25 37.9 10 37 56.9 1050 7.9 + 11 11 " 11 11 12
2 10.9 14 5.8 25 52.5 37 31.0 49 1.2 o 23.0
+ 12 II 36.3 12 22 41.1 1 2 3 3 37-3 12 44 24.8 1 2 5 5 3-7 13 5 33-8 15 55-o 1 3 2 6 7.4
+ 13
1 3 36 10.9
1346 5-4 13 55 5i-o 14
5 27-6
+ 14 M 55-2 1 4 24 i 3 - 8 1 4 33 23-4
14 42 24.1 1 4 5i i5-7 14 59 58-5 + 15 832.3 15 16 57-3 15 25 13-4 15 33 20.7 15 41 19-2 15 49 8-9
+ 15 56 49-8 16 422.1 16 1 1 45.6 16 19 0.5 16 26 6.7 + 1 6 3 3 4-4
2 42
4
2 2 2 2 2
34 -6 26.8 19.0 11.0 3.0
1 1 1 1 1 1
54-9 467 38 5 30 2 21.8 13 3
1 4.8 o 56 2 °47 5 o 38 .9 o 30.1 O 21 .2 o 12.4 °
3-5
9 9 9 9
54 5 45 6 36 6 27 .6
9 9 9 8 8 8
18.6 96 0 7 51 6 42.8 33-8
8 8 8 7 7 7
25 o 16 1 73 58 5 49 7 4°-9
7 7 7 7 6
32 3 23 5 14-9 6 2 57.7
0-957 994
5 5 5 5 0-935 797 0.930 258 5 5
556 552 546 543 539 535
5 5 5 5 5 5
532 530 527 526 523 522
5 5 5 5 5 5 5 5 5 5 5 5
521 519 5i8 517 515 513 512 5°9 5°7 5°4 5°o 496
5 5 5 5 5 5
491 485 480 473 467 459
0.952 438 0.946 886 0.941 340
0.924 723 0.919 191 0.913 661 0.908 134 0.902 608 0.897 085 0.891 563 0.886 042 0.880 523 0.875 o°5 0.869 4 8 8 0.863 973 0.858 460 0.852 948 0.847 439 0.841 932 0.836 428 0.830 928 0.825 0.819 0.814 0.808 0.803 0.798
432 941 456 976 5°3 036
0.792 577 0.787 124 0.781 679 0.776 242 0.770 812 0.765 390 0.759 976
5 453 5 445 5 437 5 43° 5 422 5 4*4
5 0-754 5 7 1 5 0-749 1 7 4 5 0.743 786 5 0.738 408 5 0-733 040
4° 5 397 388 378 368
Aufgang
ObereKul- Untermination gang
Halbmesser
Hör Par.
in oh Länge, + 50° Breite
4.89 4.91 4-94 4-97 5.00 5-03 5.06 5-°9
9.19 9.24 9.29 9-35 9.40 9.46
h
m
23 23 22 22 22 22
3 o 58 55 53 50
5-i2
5-i5 5.18 5.22 5-25 5.28 5-31
5-35 5-38 5-42 5-45 5-49 5-52 5-56 5.60 5-63 5-67 5-71
5-75 5-79 5.82 5.86 5-90 5-95 5-99 6.03 6.07 6.11 6.16 6.20 6.25 6.29 6-34 6.38
56.3
54-8 53-2 51.6 50.0 48.4 46.8 45-2 43-6 41.9
9-52 22 47 9-57 2 2 4 5 9 - 6 3 22 42 9.69 22 39 9-75 22 37 9.81 22 34 9.87 22 31 9-93 22 29 9.99 22 26 0.06 22 24 0.12 22 21 0.19 22 18
38.6 36-9
16 13 10 8 5 2
35-2 33-5 31.8 30.1 28.3 26.6 24.8 23.0 21.2 19.4 17.6
21 59 21 57 21 54
i5-7 13.8 11.9
2i 51
10.o
0.25 0.32 0.38 0-45 0.52 0-59 0.66 0-73 0.80 0.88 0-95 1.03
22 22 22 22 22 22
1.10
21 43 21 40
1.18 1.26 1-34 1.42 1.50
40.3
21 49 21 46
2138
21 21 21 1 . 5 8 21 1.66 21 i-75 21 1.83 21 1.92 21 2.00 21
35 32 29 26 24 21 18 15 12
8.1 6.1
5 5 5 4 4 4
4-2 2.2 0-2 58.1 56.1 54-0
4 4 4 4 4 4
5i-9 49-7 47-6 45-4 43-2 4°-9
Mars 1958 011 Tag
Scheinbare Rektaszension h
1958
Sept. 3
0
3 27 52-35 j .0 329 32-95 ,
5
3
31 11.78
3
J
0
6 7
8 9
r
3 35 57-o8
r 3i i8
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28.26
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12
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3 44 32.17
15
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+
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0.706 J 3 /7 T4
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t
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0-674 896
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5340
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0.695 807
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0.701 5 so
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21
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ff
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12.00
5 35
0.727 682
Hör Par.
ObereKul- U n t e r mination gang
Aufgang
/r 0.733 040
6 I5 3
*7 i7 5°-9
ii798 : rt
6322
6.3 6
5
Halbmesser
29.9
^53
+ 17
6 40 6
34-1
16 59
20 «
1
53-5
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I 22 6i
T 11.84
i t
A
4.4 6 ' 4 ;;
39
Ig
I 29 j 27
11
16
16
00
3 34 23.90
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20
Okt.
37
11 z e
ff
/
+1633
1 « 12
10
4
gQ
38 83
1
0
4 •/
e
Scheinbare Deklination
m s
4
W
73
v
24
+ 192547.7
1
07
532
45-7
O.573 869
^ 4 270
4 131
J
4°57
°-557 209
8.46
0 - 5 5 3 229 0 - 5 4 9 331
3 8l2
0-545
3 725
°'54«
519 7
2 4 3 63I
0.538 163
8.40
8.70
21
5
50-2
2 33-9
10 16
Mars 1958
74
Oh
Scheinbare Deklination
Scheinbare Rektaszension
2 2 I r o o
in s 30.II 12.77 5I-63 26.71 58.02 25.60
m s 0
17 34
o 21 14 o 24 .92 o 28 69 o 32 42 O 36 12
8
3 3 3 3 3 3
59 59 58 57 56 55
3 3 3 3 3 3 3 3 3 3 3 3
54 53 52 5i 50 49 48 46 45 44 42 4i
4 9 - 4 o 39 78 9-70 o 43 .40 26.30 o 46.96 39-34 o 50.45 48-89 O 53 90 54-99 o 57 25 57-74 o 52 57-22 3 71 53-51 6 77 46.74 973 37-oi 12.58 24-43 15.29 9-i4 17.85 5I-29 20.27 31*02 22 52 8.50 24.61 43-89 26.51 r 7-38
3 3 3 3
39 38 36 35
49-r7 19-44 48-41 16.32
28.21
3 33 43-37 3 3 2 9.81 3 30 329 3 27 3 25 3 24 3 22 3 3 3 3 3 3
35-87 1-78 27.79 54-io 20.96 48.57
21 1 7 . 1 5 19 4 6 . 8 9 18 17-98 16 50.62 15 2 4 - 9 7 *4 Ï - 2 I
2973 31-03
32 09 32-95 33 56 33-94 34 °9 33-99 33 69 33 14 32-39 31-42
30.26 28.91 27 36 25.65 23 7 6
Weltzeit Halb Hör. messer Par.
Aufgang ino'
Obere Kulmination
Länge, + 50° Breite
h m + 19 19 19 19 19 19 + 19 19 19 19 19 19 + 19 19 19 19 19 19
25 27 28 30 3i 32 33 34 35 35 36 36 36 36 36 36 35 35
47.7 1 38-0 25.7 1 30.4 56.1 1 22 7 18.8 1 14.8 3 3 - 6 1 70 4 ° - 6 o 59.0 39.6 o 51.0 30.6 o 42.8 J 3-4 o 34 6 48.0 o 26 4 14.4 o 18 I 32-5 o 9.6 42.1 43.2 o 1.1 35-9 o 7-3 20.0 o 15.9 55-6 o 24 4 22.6 o 33-° o 4 1 -5 + 19 3 4 4 1 - 1 o 50.0 19 3 3 5 1 - 1 0 58.3 19 32 52.8 19 3 i 46.3 19 3 0 3 1 . 6 19 29 9.1 + 19 19 19 19 19 19
27 26 24 22 20 18
1 6.5 I 14 7 1 22 5 1 30.3
38.8 i . r 1 377 1 44.8 16.3 1 5i 5 24.8 1 57.8 27.0 2 3-7 23.3
+ 19 16 14.4 19 14 0.6 19 1 1 42.6 19 9 21.0 19 6 5 6 . 5 19 4 29.6
2 8.9
2 13-8 2 18.0 2 21.6 2 24 5 2 26.9 2 28.6
+ 19 2 1.0 2 29.6 18 59 3 i - 4 2 30.0 1 8 5 7 1.4 2 29.6 18 54 31.8 2 28.8 18 52 3.0 2 27.I + r8 49 35.9
0.538 163 3 535 O.534 628 3 435 r r °-53 9 3 3 332 0.527 861
3 224
0.524 637 3 "4 0.521 523 2 999 0.518 0.515 0.512 0.510 0.507
524 2 642 2 881 2 244 2 734 "
882 761 637 510 2 2 378 0.505 ' J 0 J356 J 2 244 0.503 1 1 2 J 0 , 2 106 0.501 006 1 964 0.499 o-497 0-495 0-494 0.492 0.491 0.490 0.489 0.488 0.488
042 x l 223 551 0 3 2 , 3Ô5 667 1 205 462 1 045 4*7 538 879 711 827 540 287
0.487 0.487 0.487 0.487 0.488 0.488
921 732 723 895 252 794
0.489 0.490 0.491 0.492 0-494 0.496
524 441 548 843 328 001
917 1 107 1 295 1 485 1 673 1 862
0 - 4 9 7 863 0-499 913 0.502 150
2 050 2 237 2 423
366
0.504 573 0.507 180 • 0.509 972
189 9 172 357 542 730
2
l±
2 792
8.70 8-75 8.81 8.87 8.92
6-35 6.46
h m
8 47 8 43 8 39 8 34 829 825
2 2 2 2 2 2
33-9 29.7 25.4 21.1 16.6 12.2
8 20
2 2
7.6 3.0
8-97
6-57 6.67 6-77 6.87
9-03 9.08 9.12 9.17 9.22 9.26
6-97 7.07 7.16 7-25 7-33 7-41
9-30 9-34 9.38 9.41 9-44 9-47
7-49 7-56 7-63 7.70 7.76 7.81
7 7 7 7 7 7
51 46 41 36 31 26
1 1 1 1 1 1
39.2 34-2 29.2 24.2 19.1 14.0
9-50 9-52 9-54 9-56 9-57 9-58
7.86 7.91
7 21 7 16 7 " 7 5 7 o 6 55 6 50 644 6 39 6 34 6 28 623
1 1
8.8
9-59 9.60 9.60 9-59 9-59 9-57 9-56 9-54 9-52 9-50 9-47 9-44 9.40 9-36 9-32 9.28 9-23 9.18
7-94 7.98 8.00 8.02 8.04 8.04 8.04 8.04 8.02 8.00
815 8 11
8 6 8 1 7 56
158.4 1 53-7 1 48-9 1 44.1
3.6
058.3 0 53-0 047.7 042.3 o 36.9 031-5 o 26.1
o 20.6 O 15-1 o 9.7 ( 0
4 2\
7-94 7.90 7.86 7.80 7-74
6 18 123 6 1 3 23 6 7 23 6 2 23 5 57 23 5 52 23
S3 7/ 53-2 47-7 42.2 36.8 3i-3
7.68 7.60 7-52 7-44 7-35 7.26
5 46 5 41 5 36 5 31 5 26 521
25.9 20.5 I5-I 9-8 4-4 59.2
7.98
23 23 23 23 23 22
Mars 1958 0" Schembare Rektaszension h m s 3 14 I-2I 3 12 39.49 3 11 19-96 3 10 2.76 3 8 48.02 3 7 35-86 6 5 4 3 2 i
26.39 i9-7i I5-92 i5-io 17-34 22.71
3 031.26 2 59 43-O6 2 5 8 58.18 2 58 16.64 2 57 38-49 2 57 3-75
ni
s
i i i i i
21 72 19 53 17 20 14 74 12 16 9 47
i
6 68
i i o o o
3 79 0.82 57 76 54 63 51 45
I
o 48 20 o 44.88 041 54 o 38.15 34 74 o 31 29 0
W e l t z e i t
2 56 37-97 o 29 44 2 57 7-41 o 32 19 2 57 39.60
5 5 5 5 5 5
40 35 30 26 21 17
13 56 13 52 13 47 1342 13 39 13 35
21 21 21 21 21 21
31-8 27.5 23.2 19.0 14.8 10.7
5 5 5 4 4 4
12 8 3 59 5*5 5i
7-39 7-31 13-74 7-23 13-59 7 - i 5 13-45 7.07 13-30
21 21 20 13 18- 20 13 14 20 13 10 20
6.6 2.6 58.7 54.8 50.9 47.1
4 4 4 4 4 4
47 43 39 35 3i 28
13 13 12 12 12 12
20 20 20 20 20 20
43-4 39.7 36.1 32.5 28.9 25.4
4 24 4 21
543 - » 079 l 711 ^ ^ 436 J ^
7.00 13.16 6.92 13.02 6.85 12.87 6.77 12.73 6.70 12.59 6.62 12.46
0.714 251 £. 7 9°5 O.722 156 7 991 0.730 147
6-55 12.32 6.48 12.19 6.41 12.05
12 44 12 40 12 36
492 523 725 094 628 326
0-557 0.562 0.567 0.572 0.578 0.583
184 201 373 699 175 797
+ 18 18 18 18 18 18
n.O
8 35 3 J
1 51 9
28.0145 ° 1 37 t J50.4 7 i 29.8 20.6 I 21 6
25 59.O 24 46.O 23 42.O 22 47.4 22' 2.5 21 27.6
0.1 54.O 57-9 11.7 35-3 8.4
O II 91 o 14.96 o 17 96 o 20 91 o 23 80 o 26.65
59-i 54-4 49.8 45.2 40.7 36.2
0.530 0-534 0.538 o-543 0.547 0.552
+ 1830 18 31 18 33 18 36 18 38 1841
4^78 53-69 8.65 26.61 47-52 11.32
5 1
21 21 21 21 21 21
+1836 O 18 34 jt 18 XZ 18 30 18 28 0 18 27 '
2 2 2 2 2 2
54 54 55 55 55 56
6 10
3 154 3 334 3 5" 3686 3 861
17.5 7.8 9.0 20.9 43.5 16.6
27.84 24 40 20.94 17 51 14 10 10 71
28.3 23.3 18.3 13.4 8.6 3.8
946 100 434 945 631
+ 18 22 1823 18 24 18 25 18 26 18 28
54 54 54 54
o o o o o o
22 22 22 22 22 22
O.512 0.516 0.519 0.522 0.526
36.96 o 7 36 29-60 o 4 03 25-57 o 0.76 24.81 O 2 48 2 54 27-29 o 5 67 2 54 32-96 o 8 82
2 2 2 2
32.46 4.62 4°-22 19-28 i-77 47-67
h m 6 43 6 37 6 32 6 26 6 21 6 16
2 974
1
I I o o o o
13 o 40 54 6 44 9 34 9 24.8
° 14 3 o 3-« 070 0177 o 28 6 0 39 5 ° 1 1 1 1 1
50 3 12 11 9 22.6 33 1 43 5
1 53-9 2 39 2 13.8 2 23 6 2 33 1 2 42 4
+ 1 8 4 3 50.8 2 51.4 18 46 42.2 3 0.4 + 1 8 49 42.6
in oh Länge, + 50° Breite m 59.2 53-9 48.7 43-5 38.4 33-3
0.509 972 J v
3.2 4.9
V 9.18 9.12 9.07 9.01
Obere Kul- Untermination gang
Aufgang
h 22 22 22 22 22 22
+ 1 8 4 9 35-9 2 2 8 18 47 1 1 . 1 ^' 2 21 9 18 44 49.2 Q 2 18 3 18 42 30.9 2 2 18 4 0 1 6 . 7 1 8 38 7-3 : : :
2.8 48.5 44.7 51.7 9.4 38.O
56 56 55 55 55 54
Halb- Hor. messer Par.
Scheinbare Deklination
+ 1821 18 20 l 8 20 18 20 18 21 18 21
2 2 2 2 2 2
75
t
4 °3 I 4 202 4 369 4 534 4 698 4858 5 017 5 172 5 326 5 476 5 622 5 767
0.589 564 J 7 u ^ 5 907 0-595 471 6 ' 0.607 693 0.614 001
6 3og
0.620436,2 0.626 , 0.633 0.640 , O.647 f/ O.654 ¿.2 O.661
994 T" 673 469 379 J/v 401 5^1
6 679 L 6 6 gio 7 Q22
7 130 ' 7 235
0.668 766 , , ' 7 338 0.676 104 0.683 0.691 O.698 0.706
17.26 17.16
h m 15 21 15 16
17-05 16.94 8.95 16.83 8.89 16.71
15 I I 15 6 15 I 14 56
8.82 16.59 8.76 16.46 8.69 16.33 8.62 16.20 8.55 16.07
14 51 14 47 14 42
//
8.47
15-93
8.40 8.32 8.25 8.17 8.09 8.02
15-79 15-65 15-51 15-37 15.22
7-94 7.86 7.78 7.70 7.62
14-93 14.78
15-07
14-63 14.48
14-33 7-54 14.18 7.46
14.04 13.89
14 37 14 32 14 28 14 23 14 18 14 14 14 9 14 14
13 3 i 13 26 13 22
6 3 59 55 51 47
20 22.0 20 18.6 20 15.2
6 6
5 0
5 55 5 50 5 45
4 17 4 14 4 10 4
7
4 4 4 1 3 58
Jupiter 1958
76 0 Scheinbare Rektaszension
r
h
m s
3 47 3 2 -75
o 2 1 3 48 2 . 2 6 o o 1 3 48 3 1 - 2 8 1 3J ^ 48 J5 0 . o 80
s
29 51 29 02 V 28„ Ol 2 6 98
1 3 50 22.28 135048.73 1 3 5 1 1 4 . 6 5 2 37 13 5140.02 '3/ ! 3 52 4 . 8 6 J « 1 3 52 2 9 . 1 3 1 3 52 52.84 1 3 53 15.99 2 2 J 6 1 3 5 3 38.55 2 I ; 8 13 54 0 . 5 3 2 I 8 135421.91 1 3 54 42.70 2 J 7 j
3 55 2.87 135522.43 1 3 55 41.36 1 3 5 5 59.67 1 3 56 1 7 . 3 5
l8 Ig
J 63
13
"
1 3 J5 8 2 . 8u5 ° 12.41 1 3J 58 1 5 . 2 6 ^ 1 1 74 13 5827.00 ^ J 3 3 8 . 0 5 Tn i 3 58 4 8 . 4 2 i 3 58 5 8 . 1 0
1 3 59 7.09
g 2Q
1 3 59 1 5 . 3 8 T 3 59 22.97 6 ; 8 9 1 3 5 9 29.86 - 6 i g
59 36.04
135941-51 135946.26
W e l t z e i t
Scheinbare Deklination
134927.81
1 3 4 9 55-30
h
9 46 2 2 . 4
2 33 7 9 4 8 56-1 2 3° 5 9 5126.6 2 27 4 9 53 54-o 2 24 3 9 56 1 8 . 3 2 21 1 9 58 39-4 2 17.8 - 1 0 0 57-2 2 14.6 10 3 1 1 . 8 2 11.4 1 0 5 23-2 2 8 1 10 7 31-3 2 4.8 10 9 3 6 . 1 2 13 10 1 1 37.4 581 -10 1 3 35-5 54-6 10 15 30.1 51 2 10 17 21.3 1 0 1 9 9 . 0 47 7 1 0 2 0 5 3 . 3 44 3 1 0 22 34.0 407 37 2 - 1 0 24 I i . 2 33-6 1 0 25 44.8 30 o 1 0 27 14.8 26.4 1 0 28 4 1 . 2 22.8 1 0 30 4.0 19 1 10 31 23.1 15 5 - 1 0 32 38.6 11.8 10 33 50.4 8 1 1 0 3 4 58.5 4-3 1 0 36 2 . 8 0.7 10 37 3-5 o 56.9 1 0 38 0.4 ° 53 1 - 1 0 38 5 3 . 5 o 49.4 1 0 39 42.9 1 0 40 28.4 ° 4 5 5 1 0 4 1 1 0 . 2 o 41.8 1 0 4 1 4 8 . 2 o 38.0 1 0 4 2 2 2 . 4 o 34 2 o 30.4 - 1 0 42 52.8 o 26 5 10 43 19-3 o 22 .7 1 0 43 42.0 o 18.9 1 0 44 0.9 o 15.0 1 0 44 15.9 O I I .1 - 1 0 44 27.0
5 . 7 0 2 448 5 . 6 8 7 098 5.671672 5.656 1 7 1 5 - 6 4 0 599 5.624 961 5.609 258
5 35° 5 426 5 5°i 5 572 5638 5 7°3
5 5 5 5 5.529 900 5 6
5-593 5-577 5-56I 5-545
494 674 798 872
764 820 876 926 972 017
5 . 5 I 3 8 8 3 6 056 5-497 827 6 092 5 - 4 8 I 7 3 5 6 124 5.465 6 1 1 6 152 5-449 459 6 175 5-433 284 6 193 5.417 091 6 209 5.400 882 6 219 5-384 663 6 224 5 - 3 6 8 4 3 9 6 224 5 - 3 5 2 2 1 5 • 221
5-335 994
5-319 5-303 5.287 5.271 5-255
5-239 5.222 5.206 5.190
5- r 74 5-159 5.143 5-127 5.111 5.096 5.080 5-065 5.049
782 583 400 240 108
1 212
6 199 6 183 6 160 6 132 6 103 005 6066 939 6 026 913 5981 932 5 933 999 5 880 XI 9 5 821 298 5 762 536 5 695 841 5 623 218 5 551 667 5 47° 197 5 388 809
Aufgang
ObereKulmination
Halbmesser
Hör. Par
16.12 16.16 16.20 16.25 16.29
54 55 55
54
7
9-9
5i 48
7
6.5
56 56 56
42 138
16.34 16.38 16.43 16.48
h
57 57 58 58
16.53 I6.57 16.62
59 59
16.67 16.72 16.77 16.82 16.87 16.92
60 60 61 61 61 62
16.97 17.02 17.07 17.12 17.17 17.22
62 63 63 64 64 65
17.28
65
17-33 I7-38
in oh l.änge, + 50° Breite
66 66
17-44 17-49 17-54
67 67
17.60
68
17-65 17.71 17.76 17.81 17.87
69 70 70
17.92 17.98 18.03 18.09 18.14 18.20
72 72
68
71 71
73 73 74 74
45
1 35
m
7 3-o 6 59-5 6 56.1 6 52.6 6 49.1
32 28 25 22 18
6 45-6
1 15 1 11 1 8
6 28.0 6 24.4 6 20.9 6 17-3 6 13-7 6 10.i
1 1 1 1 1
1
5
1 1 058
6 42.1 6 38.6
6 35-i 6 3i-5
0 54 051 047 0 44 o 40 0 37 0 o o 0 o O
6-5 2.9
59-3 55-7
52.0 48.4
33
44-7
41.1
29 26
37-4 33-7
22
19 15
30.0 26.2
o II o 8 o 4 ) O 0\ \23 57/
22.5 18.8 15.0
23 53 23 49 2 3 45 23 23 23 23 23
42 38
34 30 26
"•3 7-5 3-7 4 4 4 4 4
59-9 56.1 52.3 48.5 44-6
4 40.8
Jupiter 1958 Oh
Ii 11 m il' 13 13 13 13 13 13 13 13 13 13 13 13
59 59 59 59 59 59 59 59 59 59 59 59
59-6O 59.28 58.22 56.44 53-9 2 50.68
13 59 30.49 13 59 23.66 13 59 1 6 . 1 1
4 °4 3 3i 2 59 1.87 1 13 0.40 o 32 1.06 1.78 2 52 3 24 3 96 4 69 5 4i 6 13 6.83 7 55 8 25
59 58 58 58
7-86 8.94 58.92 9 65 49-27 10 32 J38.95 o.y5 27.94 11 I l 6 . 69 13 58 16.25 12 36
13 57 37-20 * IT0 J57 22.87 4 " / ' 1 4 97 13 57 7-90 ^ 13 56 52.29 i 6 2 3 13 56 13 56 1356 13 55 13 55 13 55 13 54 13 54 13 54 13 53 13J 53 JJ 13 52
Halb- Hör. messer Par.
s
46.26 50.30 53-6I 56.20 58.07 59.20
13 59 46.72 13 59 42.03 13 59 36.62
13 13 13 13
W e l t z e i t
Scheinbare Deklination
Scheinbare Rektaszension
77
36.06 19.20 I./T 74 43-67 25-02 5-79 46.00 25.65 4-76 43-35 21.44 TT 59.02
16.86 17 46 18 07 18 65 19 23 19 79
-10 10 10 10 10 10
44 44 44 44 44 44
27.O 34.2 37.6 37.0 32.6 24.2
-10 ro 10 10 10 10
44 43 43 43 42 42
12.0 55-9 35-9 12.0 44.2 12.6
-10 10 10 10 10 10
41 40 40 39 38 37
37.2 57.9 14.8 28.0 37.4 43-i
-10 ro 10 10 10 10
36 35 34 33 32 31
45.0 43-3 38.0 29.0 16.5 0.4
-10 10 10 10 10 10
29 28 26 25 23 22
40.8 17.7 51.2 21.2 48.0 11.4
-10 10 10 10 10 10
20 18 17 15 13 11
31.5 48.4 2.1 12.8 20.3 24.9
-10 10 10 10 10
20 35 20.89 21.41 21 91 22 ,2 -
9 26.5 7 25-3 521.3 3 14-7 1 5-4 9 58 53-5
o 7.2 O 3.4 006 044 084 O 12 2
5-034 5.019 5.004 4.989 4-974
O 16.1 O 20.0 o 23.9 o 27.8 o 31.6
4-959 4-944 4-930 4.915 4-90i 4.887
° 35.4
l8.20 5 298 18.26 1 1 5 5 205 18.31 306 5 107 18.37 199 5 o°4 18.42 195 4 894 18.48 301 4782 5 1 9 4 662 18.53 18.59 857 4 539 18.64 318 4 408 18.70 910 4 275 635 18.75 4 136 499 18.80 3 991 18.86 508 3 843 18.91 665 3688 977 3 531 18.97 446 3 366 19.02 080 3 198 19.07 882 3 026 1 9 . 1 2 19.18 856 2 850 19.23 006 2668 19.28 338 2483 855 2 293 19-33 19.38 562 2 100 462 19-43 1 903 559 1 701 19.48 r9-53 858 1 496 I 9-57 362 1 286 19.62 076 1 074 002 19.67 0854 148 19.71 0633 5 1 5 10 406 19.76 109 10 176 19.80 933 9 939 19.85 994 9 7 0 1 19.89 293 9 457 19-93 836 9 211 19.97 625 20.01 8958 20.05 667 8 704 963 8 445 20.09 20.13 518 8 183 20.16 335 7 917 20.20 4*8
5.049 809
4.873 O 39 3 4.859 ° 43-1 o 46.8 4-845 o 50 6 4.832 4.819 ° 54 3 4.805 o 58 1 4.792 17 4.780 5 3 4-767 9o 4-754 12 5 4.742 16 1 4.730 19.6 4-7i8 23 1 4.706 26 5 4.695 30 o 4.684 33 2 4.673 366 4.662 39 9 4-651 43 1 4.641 46 3 4-630 49 3 4.620 52 5 4.611 55 4 4.601 58.4 4.592 212 4.583 2 4.0 2 6 6 4-574 2 9 3 4.566 2 11.9 4-558 4-55°
Aufgang
Obere Kulmination
in o» Länge, + 50° Breite
74 75 75 76 76
h 23 23 23 23 23
m 26 23 19 15 II
77
23
7
77 78 78 79 80 80
23 22 22 22 22 22
3 59 55 51 47 43
81 81 82 82
22 22 22 22 22 22
39 35 31 26 22 18
22 22 22 22 21 21
14 10 6 1 57 53
29-3 25.2 21.1 17.0 12.9 8.8
21 21 21 21 21 21
49 44 40 36 32 27
4.6
21 21 21 21 21 21
23 19 14 10 5 1
0.5 56.3 52.2 48.0 43-8 39-6 35-4 31.2 26.9 22.7 18.4
20 20 .20 20 20 20
56 52 47 43 38 34
14.2 9.9 5-6 i-3 57-o 52.7
83 83 84 84 85 85
86 86 86 87 87
88 88 89 89 90 90 90 91 91 92 92 92 93 93 93
h m 4 40.8 4 36.9 33-0 29.1 25.2 21.3 17.4 13-4 9-5 5-5 i-5 57-6 3 3 3 3 3 3
53-6 49-5 45-5 4i-5 37-4 33-4
Jupiter 1958
78
Oh W e 1 1 2 e i t Tag
Scheinbare Rektaszension
1958 März 23 24 25 26 27 28
h m s 13 52 59.02 13 52 36-I3 13 52 12.78 0 0 135148.98 1133 5s1i 2 40. 7. 151
29 30 31 April 1 2 3
13 13 13J 13 13 13J
4 5 6 7 8 9 10 11 12 r 3 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 Mai 1 2 3
O / ^ , 3, 35 ,„ 23.80 4 464 25 03
50 35-08 50 9.66 > * 1 " 149 43.89 " J 2 26 11 49 17-78 2Ö 48 51.34 48 24.60 2 7 4 ^ ^ 27 02 i 3 47 57-58 13 47 30.27 ' 13 47 2.72 134634.93 ^ 4 6 6.92 2 g 2 i 1 3 4 5 3 8 . 7 1 2 8 38 13 4 5 1 0 . 3 3 < 3 4 4 4 ^ r 3 44 13.09 28 8 o 13 43 44-29 28 ^ 4 3 *5.38 134246.40 2 q o 4 13 42 17-36 og 1 03 4 1 4T8 . 2 8 ^ 29 09 *3 4* 19.19 2Q 0 9 z 3 40 50.10 1 J3 4^0 2 1 . 0 4^ 29 Ol 1 3 3 9 5 2 . 0 3 28 9 4 13 39 23.09 2g 13 38 54.25 0 4 0 28 74 1 3J 3J 8 2 5 . J5 1 i 28 60 13 37 56.91 28 1 3J 3J 7/ 2 8 . 4 6 „ „ \ 28 28 x 3 37 0.18 2g o 9 13 3632.09 13 36 4.22 13 35 36.57 J j 1 3 3 5 9.17 2 ; : 4 1 3 3 4 4 2 . 0 3 J6S1 1 3 3 4 T-5-T-7
Halb- Hör. messer Par.
Scheinbare Deklination
53-5 00 0 95639.2 J 9•7 54 U-T 22.5 9 052 00 3.5 9 4 9 42.3 9 47 19.0 —9 44 53-7 2 9y 42 26.5 u ^ 9 39 57-5 v9 3 7 2 6 . 8 9 34 54-4 9 32 20.5 —9 v 29 v 45.2 0 9 27 8.5 9 24 30.7 i. 9 7 2 1 5J 1 . 6 , 9 19 11.6 v9 16 J30.7 7
2
2i6
2 IQO 2 21 2 2 23 3 2 25 3
2 27 2 ' 2 29 0 2 ,0„ 23 7 2 32 4 * 2
33
3
2 36 3 7 „ 2 37.8 ' 2 39 1 240 0 2 40 9 ' 2 41 a8
-9 9 ^ v9 9 v 9 9
13 48.9 2 4 2 1 1 6.5 * * 0 „ 2 43-.I 8 23.4 J ^ 2 43 5 ^ „ J5 39.9 v 2 43.8 2 56.1 2 44 1 0 12.0 " 244 2 2 57 7.8 8 54 43-6 l « ï 8 5 1 5 9 " 5 243.8 8 49 r 5 - 7 84632.2 2 4 3 5 429 8 43 49.3 22 42 4 - 8 4 1 6.9 8 8
i-93 1.94 1.94 1.94 i-95 1-95
h 20 20 20 20 20 20
m 34 30 25 20 16 II
h m I 52.7 I 48.4 I 44.I 139.8 1 35-4 i 31.1
hm 7 7 7 3 6 59 6 55 6 51
20.39 20.41 20.44 20.46 20.49 20.51
i-95 1-95 1.96 1.96 1.96 1.96
20 20 19 19 19 19
7 2 58 53 49 44
i i i 1 i i
20-53 20-55 20.57 20.58 20.60 20.61 20.63 20.64 20.65 20.66 20.66 20.67
1.97 1.97 1.97 1.97 1.97 1.97
19 19 19 19 19 19
39 35 30 26 21 16
i 0.6 0 56.2 051.8 047.4 043.0 038.6
6 6 6 6 6 6 6 6 6 6 6 5
42 38 34 30 26 22 17 13 9 5 i 57
1.97 1.98 1.98 1.98 1.98 1.98
19 19 19 18 18 18
12 7 2 58 53 48
034.2 0 29.8 025.4 0 21.0 0 16.6 0 12.i
5 5 5 5 5 5
52 48 44 4° 36 31
984 6 371 ^ 065 — r 066 373 % [ 987 g 2 l
20.67 20.68 20.68 20.68 20.68 20.67
1.98 1.98 1.98 1.98 1.98 1.98
18 44 18 39 1834 18 30 18 25 18 21
5 5 5 5 5 5
27 23 19 15 " 6
907 I 2 2 4 131 660 t 490 7 2131 4-453 621 4-456 052 a « 4-458 779 3 0 2 4 4.461 803 \ 3 3r7 4-465 120 4.468728 ^ 4.472 626 4.476 8l0 4 1 8 4
20.67 20.66 20.66 20.65 20.64 20.63
1.98 1.98 1.98 1.98 1.98 1.97
20.61 20.60 20.58 20.57 20-55 20.53
1.97 1.97 1.97 1.97 1.97 1.97
18 16 18 1 1 18 7 18 2 17 57 17 53 1748 r 7 44 17 39 17 35 17 30 17 25
//
J, ,
3825.3 35 44-5 8 33 4-7 8 30 26.0 82748.4 ' ^ ^ —8 25u 12.2 a 82237.3 8 2 0 4.1 8 15 x7 8 / j32-4 -r o ° 2.4^ - 8 12 34-3
;4s s 2 9;8 2 87 ' 2 3 f 2 36 2 2 34 9 * 2332
2 31 7 J 0 2 30 Q I 2 28
in ob Liinge, + 50° Breite
20.20 20.23 20.27 20.30 20.33 20.36
n
- 9•7 58 0
Auf- Obere Kul- Untergang mination gang
4-550 4I8 4.542 769 4-535 391 ' ' 4.528 288 7 g 2 3 4-52I46i 4-5 J 4 9 I 5 6 266 4.508 649 . 4.502 668 5 J 1 4-496 973 5 j 4-491565 ; 4486446 ! 4.481 619 4 8 7 v ^ 4 537 4-477 082 4.472 841 4 4 4.468 895 3 ^ 4-465 245 0 4-461895 3 2 4-458 843 3 % 4456 093 4.453 645 2 ^ 4-451502 « 4.449 664 ' 1 534 4.448 130 J ^ 1 226 4.446904 g 2 o 4-445 4-445 4.445 4-445 4-445 4-445 4-446 4-448 4-449 4.451
26.8 22.4 18.0 13-7 9-3 4.9
7-7 33V
6 46
0 '0 123 23 23 23 23 23 23 23 23 23 23
54-5 50-i 45-7 4 r -3 36.8 32-4 28.0 23-6 19-2 14.8
5 4 4 4 4 4
2 58 54 50 45 4i
23 23 23 22 22 22
10.4 6.1 i-7 57-3 52.9 48.5
4 4 4 4 4 4
37 33 29 24 20 16
eS
9/
Jupiter 1958 Oh Tag
1958 Mai 3 4 5 6 7 8 9 10 11 12 13 !4 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 Juni 1 2 3 4 5 6 7 8 109 11 12 r 3
Scheinbare Rektaszension h m s 13 34 15-17 * 13 33 48.60 2 Ô 2 133322.35 13 32 56.42 -j 13 32 30.84 1 S" 61 4.85 13 31 40.76 46 13 i l l6.i0 2405
133052.25 4 > J 4 I Ji J30 28.61 23.20 13 30 5.41 4 7 4 13 29 42.67 2 2 I3 13 I3 13
29 20.38 2858.57 2 1 8 1 0 1 21 31 2837.26 ^ 28 16.45 ¿ 20 30 } 13 27 56.15 13 27 36.39 ^ ^ 13 27 I7.I7 T„ - , I32658.5O 1 8 6 7 t. 4O.39 18 II 13 26 I i 26 22.85 7 54 c. 1695 1326 5.90 ¿! 132549.5415;7 132533.77 6 * 3 2 5 18.61 1 3 2 5 4.05 93 132450.12 132436.80 i Ji 24 24.11 ^ ^ 12 05 i Ji 24 12.06 ^ , 11 43 4 *324 io7 8 I3 23 49-85 i o Î 132339-71 ; 132330.22 y z 132321.38 g i 4 13 2 3 1 3 . 1 9 13 23 5-67 g ' I 0i 22 J58.80 ' ' , 6 20 I i 22 52.60 5 53 132247.07 m 13 22 42.22
79
Weltzeit
Scheinbare Deklination 0
r
Halb- Hor. messer Par.
"
—8 12 J i 4 J. i 0 7 8 10 8.0 8 8 Ifxl 8 03 i-9 v Q 8 0 44.3 J - 7 58 29.1 ' 7 7 J56 16.4 ' , T 7 54 6.3 75158.8 7 49 54-1 74752.2
2 22 1 2
I
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2 17 6 215 2 2 12 7 2 10 1 1 2
;;
is89
- 7 45 53-3 t 6 - 0 7 43 57-3 t 52 . 8 7 42 4-5 I 4 9 . 8 7 4 ° r 4-7 73828.2 11 4 6 5 c. 43 2 7 36 45.0 ™ ' 1 39 9 " 7 35 5-1 r , 6 4 7 33 28.7 ; 7 3 1 55-7 ;
0.5
1 1110 7 23 54.0 1 72 72246.8 7 21 43.4 1 3 4 ^ /7 20 43.8 ™ 0 55 7 —7 19 48.1 7 18 56.3 0 5 1 8 7 1 8 8.5 ° 4 7 ' 8 7 1 7 2 4 . 6 0 43 9 71644.6 0 4 0 0 7 16 8.6 0 36 0 —7 15 36.7 7 1 5 8-8 ' 7 14 44.9 7 14 25.0 ' ^ J 7 14 v9.3 ' ^ J - 7 13 57-5
O 31 9
027 9
023.9 0 19 9 0157 ' 0 11.8
22 22 22 22 22 22
22.4 18.1 13.8 9.4 5-1 0.8
3 3 3 3 3 3
5i 47 43 39 34 30
21 56.5
3 3 3 3 3 3
26 22 18 14 10 6
3 2 2 2 2 2
i 57 53 49 45 41
19.99 19-95 19.91 19.86 19.82 19.78
1.91 1.91 1.91 1.90 1.90 1.89
16 5 16 0 15 56 x5 52 15 48 15 43
21 48.O 21 43-7 21 39-4 21 35-2 21 31.0 21 26.7 21 22.5 21 18.3 21 14.1 21 9.9
19-74 19.69 19.65 19.60 19.56 X9-51 19.46 19.41 19-37 19.32 19.27 19.22
.1.89 1.89 1.88 1.88 1.87 1.87
15 39 15 35 15 3o 15 26 15 22 1518
21 5-7 21 1.5 20 57-4 20 53.2 20 49.1 20 44.9
2 2 2 2 2 2
37 33 29 25 20 16
1.86 1.86 1.85 1.85 1.84 1.84 1.84 1.83 1.83 1.82 1.82 1.81
15 13 15 9 15 5 15 i 14 57 14 53 14 49 14 44 14 40 14 36 14 32 14 28
20 40.8 20 36.7 20 32.6 20 28.5 20 24.4 20 20.4
2 2 2 2 i i 1 1 1 1 1 1
12 8 4 0 56 52 48 44 40 36 32 28
1.97 1.96 1.96 1.96 1.96 x-95
4-507831 4.513966 4.520371 4.527044 4-533 979 4.541 176
. ^35 J405 6 673
2O.39 20.36 20-33 20.30 9 3 5 20.27 7 " I 4 34 40-33 „ 4 8 143531-81
1 2 3 4 5 6 7 8 9 10 11 12 13 !4 15 16 17 18 r 9 20 21 22
23 24
143623.36 14 37 I4-98 1 4 3 8 6.65 143858.39 143950.17
51.17
5 5
t
6 07
7 4 5; 7
l3
144042.00 >Ig7 *4 4 i 33-87 5 I . 9 I 144225.78 \ 14 4 3 17-72 t * 14 44 9.68 3 14 45 1.66 144553-65 u z 144645-65 14 47 3 7 - 6 5 5 144829.64 1 1 44 54 09 12 31 .. 56 71
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5
°" 46 4 35-1 28.6 3 5 3 5 3 52 4 21.0 3 51 2 12.2 3 5° 0 ° " 3 48 9
14 18 22 r 26
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A
! 5 33 5 1 - 1
\
15 4 1 25.1 3 45 i 15 45 10.2 ^ - 1 5 48 53-9 3 4 3 7
6-370 9 2 4 . 4 159 6-375 0/0 0830 95G 6-379 033 ' 6 382 774 "
,
6.386307 6.389 629
33 3 322
ö - 3 9 2 7 4 1 2 OQ2 6.395 6 4 3 , t J 2 6g, 6.398 334 2 79 6 . 4 0 0 813 22 42ÔQ 6.403 082 6.405139^45 6.406 9 8 4 3 6 . 4 0 8 615J , ^ 1 420 6.410 0^5 T I 205 6 . 4 1 1 240 6.412 233 ^ 6.4I3OH 6 . 4 1 3 575 8 6.413 923 !j4 6 . 4 J 4 ° 5 7 —¿7 6 . t4 1 3j w9 7j3 2 g 9 6-413674 £ 6.413 158 5 1 0 0 ^ ° 734 6.412 424 T 951 6 . 4-t1 1 *t/ 4 7 j3 t I 7 I 6 . 4 1 0 302 ' 6, . 4^ 0 8 v9 1J3 11 608 f 9 6.407 3 0 5 i 8 2 6 6.405 479 2 0 4 6 6-403 4 3 3 2 262 6 . 4 0 1 171 6-398 68 6.395 ?9?9 1 2 9 i 6 6-393 ° 7 5 , j „ J 0 v 944 6.389 ^ 3 347 6.386 597 6 . 3 8 3 036
3 5
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^ 3 7 9 2 6 2 3 989 6-375 273 3 2oi 6.371 072] 6.366 659 4 4 1 3
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14-43 14.42 14.41 14.40 x 4-39 I4-38
I.38 1.38 I.38 1.38 I.38 I.38
14.38 14-37 14.36 14-36 14-35 14-35
1.38 I.38 I.38 r-37 1-37 1-37
r
4-34 M-34 14-34 x 4-34 14-33 14-33
1-37 r-37 1-37 1-37 i-37 i-37
14-33 14-33 14-33 14-33 14-33 14-33
i-37 i-37 r-37 r-37 r-37 r-37
14-33 14-34 M-34 r 4-34 14-34 14-35
r-37 r-37 r-37 r-37 r-37 r-37
14-35 14.36 I4-36 14-37 14-38 14.38
r-37 r-37 1.38 1.38 1.38 1.38
14-39 14.40 14.41 14.42 14-43 14.44
1.38 1.38 1.38 1.38 1.38 1.38
Aufgang
ObereKul- Untermination gang
i n o h L inge, + 50° Breite h m 12 51.4 12 4 8 . 3 12 4 5 . I 12 42.O 12 39.O 12 35-9 12 32.8 12 29.7 12 26.6 r 2 23.5 12 20.4 12 17.3
h m r 7 50 r 7 47 r7 43 17 4 0 J 7 36 r 7 33 1729 17 26 17 22 17 19 r7 x5 17 12
12 14.2 12 11.1 12 8.1 12 5.0 12 1.9 11 58.8
17 9 r7 5 17 2 16 58 r 6 55 1651
7 3 7 r 658 6 55 6 53 6 5°
rr 11 11 11 rr 11
55-8 52.7 49.6 46.5 43-5 40.4
16 4 8 16 4 4 16 4 1 16 3 8 r 6 34 1631
6 47 6 45 6 42 6 39 6 36 6 34 6 31 6 28 625 623 6 20 6 17
rr 11 11 11 11 11
37-3 34.2 31.2 28.1 25.0 22.0
16 16 16 16 16 16
27 24 20 17 14 10
11 18.9 11 15.8 11 12.8 11 9.7 11 6.6 r r 3-5 11 0.5 r o 57-4 r o 54-3 ro5r-3 10 48.2 ro 45-1 6-
16 16 16 r 5 r5 r 5 x 5 r5 r5 r5 r 5 r5
7 3 0 57 53 50 46 43 40 36 33 29
Ii m 7 52 7 50 7 47 7 44 7 41 7 39 7 7 7 7
36 33 30 28
725 7 22 7 20 7 r7 7 r4 7 12 7 7
9 6
615 6 12 6 9 6 6 6 4 6 1
Jupiter 1958
84 Oh
25 26 27 28 29 Dez.
30 1 2 3 4 5 6 7 8 9 10 11
1 m s 1 4 56 1 6 . 3 3 14 14 14 14
57 57 58 59 15 0
e11 z e i t
Scheinbare Deklination
Scheinbare Rektaszension 1958 N o v . 24
w
o
/
ff
- 1 5 48 53-9 1 5 52 36.4 ^ 56 17-6
7-96 59-52 51.01 42.42 33-76
16
Halb- Hör. messer Par.
'
' £ ,
2
7 12.8 3 3 7 ° ' 3 35-6
15 I 25.01 51.16 15 2 1 6 . 1 7 15 3 7-23 15 3 58-I9 15 4 49-04 15 5 39-78
- 1 6 10 484 161422.63342 1 6 1 7 5 5 . 3 3 32 7 1 6 2 1 26.5 3 3 1 g2
15 6 30-4° 15 7 20.89 15 8 11.24 50 22 15 9 r -46 15 9 5 i - 5 2 15 1 0 4 1 . 4 3
-163151.1 16 35 16.3 1 6 38 39.8 1 6 42 1 . 7 1 6 45 2 2 . 1 1 6 48 40.7
15 15 15 15 15 15
- 1 6 5 1 57.8 16 55 r 3 - i 1 6 58 26.7 1 7 1 38.6 17 448.8 17 7 57-2
II 12 13 13 I4 15
3I-I7 20.75 IO.I4 59-36 48.38 37-20
1 5 1 6 25.82 151714-23 1 5 1 8 2.42 1 5 1 8 50.39 1 5 1 9 38-13 1 5 20 25.64 15 21 15 21 1 5 22 1 5 23 15 24 1525
12.Qr 59-93 46.69 33.20 19-43 5-4°
49 58 49-39 49 22 49.02 48.82 48.62 48 41 48 19 47-97 47 74 47 5i 47 27 47.02 46.76 46.51 46.23 45-97 45.68
1 5 25 51-08 1 5 26 36.48 « 1 5 27 2 1 . 5 9
?
2 56-3
i 24.4 32 26.7 S'* 1Î6 28 3 25 2 3 23.5 3 21.9 3 20.4 3 18.6 3 i7-i 3 3 3 3
15 3 13-6 " -9 10.2 8.4 6.6
—17 17 17 17
1 1 3.8 1 4 8.7 3 4-9 1 7 I i . 7 3 3-0 20 1 3 . 0 3 1 3 2 59-4 1 7 23 1 2 . 4 2 57.6 1 7 26 10.0 2 55-7
-1729 17 3 i 17 34 17 37 1 7 40 1 7 43
5-7 59-6 51-6 4i-7 29.9 16.2
2 53-9 2 52.0 2 50.1 2 48 2 2 46 3 244.4
- 1 7 46 0.6 2 42 4 17 48 43-o 240 5 - 1 7 5 i 23.5
14.44
Auf- Obere Kulgang mination in oh Länge, -f 50° Breite h m 6 i 5 58 5 55 5 53 5 50 5 47
10 10 10 10 10 10
h m 45.1 42.0 39.0 35-9 32.8 29.7
5 5 5 5 5 5
10 10 10 10 10 10
26.6 23.6 20.5 17.4 14.3 11.2
4624 4 836 5 °45 5 254 5 464 5 672
14-45 14.46 14-47 14.48 14.49
1.38 1.38 1.38 1-39 1-39 i-39
764 884 797 504 003 298
5 880 6 087 6 293 6 501 6 7°5 6 911
14-51 14-52 14-53 14-55 14-56 14.58
1-39 i-39 i-39 i-39 i-39 1.40
6.297 6.290 6.282 6.275 6.267 6.259
387 273 955 435 713 79°
14.60 1 . 4 0 7 " 4 14.61 1.40 7 318 1.40 7 520 14-63 1.40 14-65 7 722 14.66 1.40 7 923 1.41 8 120 14.68
528 5 25 5 22 5 19 5 17 5 14
10 8.1 1 0 5.0 1 0 1.9 9 58.8 9 55-7 9 52.6
6.251 6.243 6.234 6.226 6.217 6.208
670 353 839 134 236 147
14.70 14.72
1.41 1.41 1.41 1.41 1.42 1.42
5 11 5 8 5 5 5 2 5 o 4 57
9 49-5 946.4
6.198 6.189 6.179 6.169 6.159 6.149
871 408 761 931 920 730
1.42 1.42 1.42 i-43 i-43 i-43
4 4 4 4 4 4
54 51 48 45 43 40
930.8 927.7
14-97 15.00 15.02 6.107 215 , % y H 059 15-05 6.096156 11 229 15.08 6.084 927 11394 1 5 . 1 0
i-43 1.44 i-44 1.44 1.44 i-45
4 4 4 4
37 34 31 28
425 4 22
9 ii-9 9 8.8 9 5-6 9 2.5 8 59-3 856.1
6.073 5 3 3 11560 6.061973 6.050 249
i-45 i-45 i-45
4 20 417 4 14
8 53-O 849.8 846.6
6.366 6.362 6-357 6.352 6.346 6.341
659 035 199 154 900 436
6-335 6.329 6.323 6.317 6.311 6.304
6 . 1 3 9 363
6.128 820
8 317 8 514 8705 8 898 9 089 9 276
14-74 14.76 14-78 14.80
14-83 9 463 14.85 9647 9 830 14.87 10 011 14.90 10 190 14.92 10 367 14-95 IO
_
IO 5 4 3
15-13 15.16 15-19
44 42 39 36 33 31
9 9 9 9
43-3 40.2 37-o 33-9
924.5 921.4 9 18.2 915-1
Saturn 1958 Oh Tag
1958 Jan. 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 Febr. i 2 3 4 5 6 7 8 9 10
Scheinbare Rektaszension h m s s 17 14T I.52 J ' 29 21 J 7 r 4 30.73 ^ r 7 ^59.82 r 7 r 5 28.80 ^ 1 7 1 5 57.67 28 7 ; 17 16 26.40 2g 6 i '7 1 6 55-01 2 17 i 7 2349 2g 33 r 7 J 7 51-82 2 g 3 3 17 18 20.02 „ 17 1848.06 28 0 4 i 7 i 9 15-96 £ £ J
7 43-70 17 20 11.28 17 20 J38.68 2 7 4 0 ' 27.24 17 21 5-92 ; * J 21 7 3 2 - f 26 59-85 17 22 26.54 2 6 4 9 ^ 172253.03 17 23 19-32 2 6 o8 17234540 17 24 11.27 ' ' ^ , ' 25 66 17/ 24^ J36.93 25 44 17 25J 2.37 J/ ' 0 25 21 17 250 27.58 ' ' °C. 24.98 172552.56 ^ 4 75 1177 22 66147 .13. 182 2 ^ 17 27 6.08 24.01 17 27 30.09 172753.85 2 ; Q 17 2817.35 a , 2 , 17 2840.59 17 29 3-57 2 2 17' 29 26.28 22 43 17 29 48.71 2 2 17 30 10.86 2 i g8 17 30 32.74 2 I 17/ J30 J54.33 T J J 2 I 2Q 17 31 15.62 Z £ 21 .00 17 31 36.62
Weltzeit
Scheinbare Deklination 0
'
"
2 1 4 3
5-3 214336.2 44 6.5 21 44 36.3 21 45 5-4 21 45 34-0 2 1 4 6 2.1 214629.5
—21
- 2 1 46 56.4 21 47 22.8 214748.6
30.9 3G3 8 2g 6 2g
Halb- Hör. messer Par.
A
—21 40 56.I 33 2 214129.3 6 21 42 1.9 ^ ^320 21 42 33-9 t
21
85
,
26 8
48 38.4 £ 21 49 2.50 23 5 —21 49 26.0 23 0 2 1 49 T-7 49.O "TV 2 2 , 21 J50 I I . 4 ^ 21 .9 21 50 33-3 2 I 3 21 5 ° 54-6 2 o 8 21 5 i i5-4 2 0 3 -2I5I35-7 2 1 5 1 5 5 4 I972 21 52 14.6 l 8 6 215233.2 l 8 l 21 5 2 51.3 I 7 . 6 21 53 8.9 I 7 f -215326.0 i66 21 53 42.6 i 6 o 21 53 58.6 6 21 54 14-2 „ j 215429.3 21 54 43-8 ¿ 1 -215457-9 6 21 55 11.5, i n 215524.6 I 2 6 21 55 37-2 I 2 2 21 55 49-4 I I 7 —21 56 1.1
10.96 506 10.95928 10.95 324 10.94 697 10.94 045 10.93369 10.92 669 2 10.91946 10.91198 10.904280 10.89634 10.88 817
£ 627 6
;
676
^
723 77°
£
87 8 ;
10.87 977 864 10.87113 ; 5 10.86 228 10.85 3*9 £ 10.84389 io - 8 3 436 10.82 462 10.81 465 r ^ 1 017 10.80 448 ^ 1 039 IO "79 409 i o 6 o I0 ' 7 349 , o8o 10.77 " 2697 1 100 10.76 169 2 I 121 r0 '75 °48 , 10.73 908 t 10.72 749 x 10.71570,4 10.70 373 I 2 I 6 10.69 157 , 2 3 4 10.67 923 , " 10.66 672 i , ' 1 269 4°3 , 2g7 10.64 116 10.62 813 1 3 0 3 x 319 I0.6l 494 I0.60 158 " IO.58 806 1 ^ IO, 5 7 439 ) 383 10.56 056 f f 10.54 658 1 3 9 8
n
Auf- ObereKul Untergang mination gang ino h L änge, + 5oc Breite
6.82 6.83 6.83 6.84 6.84 6.85
0.80 0.80 0.80 0.80 0.80 0.80 0.81 0.81 0.81 0.81 0.81 0.81
h m 625 6 22 6 19 615 6 12 6 8 6 5 6 2 5 58 5 55 5 51 5 48
6.85 6.86 6.87 6.87 6.88 6.88
0.81 0.81 0.81 0.81 0.81 0.81
5 45 5 41 5 38 5 34 5 31 527
6.89 0.81 6.90 •0.81 6.90 0.81 6.91 0.82 6.92 0.82 6.92 0.82
5 24 5 20 5 17 5 14 5.10 5 7 5 3 5 0 4 56 4 53 4 49 446 4 42 4 39 4 35 4 32 4 28 425 4 21 4 17 4 14 4 10 4 7 4 3
8 51-3 847.8 8 44.2 840.7 8 37-1 8 33-6 8 30.0 8 26.4 8 22.9 819.3 8 15-7 8 12.1
6.80 6.80 6.81 6.8l 6.82 6.82
6-93 6-94 6.94 6-95 6.96 6.97
0.82 0.82 0.82 0.82 0.82 0.82
6.97 6.98 6.99 7.00 7.01 7.02
0.82 0.82 0.83 0.83 0.83 0.83
7-03 7-03 7.04 7-05 7.06 7.07
0.83 0.83 0.83 0.83 0.83 0.83
h m 10 35-9 10 32.4 10 29.0 1025.5 10 22.1 10 18.6
h m 14 47 14 43 14 40 14 36 14 33 14 29
10 10 10 10 10 9
H
15.2 11.7 8.2 4.8 1.3 57-8
9 54-4 9 50.9 9 47-4 9 43-9 940.4 9 37-0
14 14 14 14 14 14 14 13 13 13 13
25 22 18 15 11 8 4 1 57 54 50 47
9 33-5 9 3°-o 926.5 9 23.0 9 19-5 9 16.0
13 13 13 *3 13 13
43 40 36 33 29 26
9 12.4 9 8.9 9 5-4 9 1.9 858.4 854.8
13 13 13 13 13 13 13 12 12 12 12 12 12 12 12 12 12 12
22 18 i5 11 8 4 1 57 53 50 46 43 39 36 32 28 25 21
21
Saturn 1958
86 0
m
s
s 17' 31 -J 36.62 ^ 20 70
3 1 57-32
17 32 17.72 ' „ 20 09 17 32 37.81 9 77 1 7 3 2 57-58 17 33 17-03 *7 17 17 17 17
33 33 34 34 34
1735
3^-16 54-96 13-43 3I-56 49-35
9 45 9 13
8.8o 8.47 13 7 79 7-45
6.80 7.09
1 7 35 23.89
17 35 40.64 1 7 35 57-03 1 7 36 13-05
i 6 / 5
i6 l6
02
I5
6„
17 36 28.72 V
3 6 44-02
" ' I4 g3
1 7 36 58.95 17 37 1 3 - 5 1
s6 l8
17 37 27.69
gi
1 7 37 41-50 i 7 3 7 54-93 1 7 3 8 7-97
I2
17 38 20.63
i 2 2g
66
1 7 3 8 3 2 . 9 1 11.88 i 7 3 8 44-79 i ! 4 9 49
17 38 56.28
' ° ° 1 1 09 1 7 39 7-37 i 0 7 0 1 7 39 18.07 IO 2 9
173928.36
9gg
1 7 39 3 8 . 2 5 1 7 39 47-72 1 7 39 56.79 1 7 40 5-45
8.66 8.24
174013.69
y 82
17 40 2 1 . 5 1 17 40 28.91 174035.89 174042.44 174048.57 17 40 54.28
6 6
W e l t z e i t Hor. Halb messer Par.
Scheinbare Deklination
Scheinbare Rektaszension h
h
-21 56 21 21 21 21 21 -21 21 21
56
56 56 56 56 57
I.I 11 2 12-3 10.8 23.I 10 4 33-5 99 43-4 9 5 52.9 9 i 2.0
57 IO.7 57 18.9
87
8 2
21 5 7 26.8
79
2 1 57 34-2 2 1 57 4 1 - 3
7 i
- 2 1 57 21 57 21 58 2158 21 58 21 58
47-9 54-2 0.1 5-7 10.9 15-7
-21 21 21 21 21 21 -21 21 21 21 21 21
58 58 58 58 58 58 58 58 58 58 58 58
20.2 24.3 28.1 31.6 34.8 37-6 40.1 42.4 44-3 45-9 47-3 48.3
-21 21 21 21 21 21 -21 21 21 21 21 -21
58 49.1 58 49.7 5849.9 58 50.0 58 49.7 58 49-3 58 48.6 58 47.7 58 46.5 58 45.2 58 43.6 58 41.8
7 4
6.6 6 3 5-9
5-6 5 2 4 .8
4 5 4 I 3-8 3 5 3 2
2.8 2 5 2 3 I 9
1 6 14 1 o 0.8 o 6 o 2 0.1 ° 3
0.4 0 7 0.9 1 2 i 3
1 6 1.8
IO.54 IO -53 10.51 10.50 10.48 10.47
658 245 818 377 922 454
IO
-45 10.44 10.42 10.41 10.39 10.38
973 480 974 457 928 389
10.36 10.35 10.33 10.32 !o.3O 10.28
839 280 710 132 545 950
10.27 10.25 10.24 10.22 10.20 10.19
347 737 I2 o 497 867 232
10.17 10.15 10.14 10.12 10.10 10.09
592 947 2 98 644 987 327
10.07 664 10.05 999 10.04 332 10.02 663 10.00 994 9-99 325 9-97 9-95 9-94 9-92 9.90 9.89
655 987 3I9 653 990 329
Aufgang
Obere Kulmination
in o h Länge, + 50° Breite h m
h
m
8 12.1 8 8.5 8 4-9 8 1.3
7.07 7.08 7.09 7.10 7.11 7.12
0.83 0.84 0.84 O.84 0.84 0.84
4 3
7-13
7-i 4 7-i5 7.16 7.17 7.18
0.84 0.84 0.84 0.84 0.85 0.85
3 42 3 38
3 24
7 32.3
O.85 0.85 0.85 O.85 O.85 0.86
3 20
7 28.7
3 16
7 25-0 7 21.4
603
7.19 7.20 7.21 7.22 7.24 7-25
610 617 623 630
7.26 7.27 7.28 7.29
0.86 0.86 0.86 0.86 0.86 0.86
258
2 2 2 2 2
54 51 47 43 40
0.86 0.87 0.87 0.87 0.87 0.87
2 2 2 2 2 2
36 32 28 25 21 17
6 44.4 6 40.7
7-44 7-45 7.46
0.87 0.87 0.88 0.88 0.88 0.88
2 2 2 2
13 10 6 2
6 21.9 6 18.2 14.4 10.6 6.8 3-o
7-47 7-49 7-50 7-5i 7-52 7-54
0.88 0.88 0.89 0.89 0.89 0.89
i 55 i 5i
59-2
413 427 441 455
468 481 493
506 517 529 539 55° 559
570 578 587 595
635
640 645 649 654 657 660 663 665 667 669 669 669 670 668 668 666 663 661
7-30
7-32 7-33 7-34 7-35 7-36 7.38
7-39 7.40 7-4i
7.42
4
o
3 3 3 3
56 53 49 45
3 34 3 31 327
3 13 3 9 3 5 3
2
158
1 47 143
i 39 i 35 1 32
7 57-7 7 54-i 7 7 7 7
50-5 46.9 43-2 39-6
7 36.0
7 J 7-7 7 i4-o 7
10.3
7 6.7 7 3-o 6 59-3 6 55-6 6 5i-9
6 48.1
6 36.9 6 33-2
6 29.5 6 25.7
55-4 51.6 47.8 43-9 40.1
Saturn 1958 0
h
87
W e l t z e i t
Scheinbare
Scheinbare
Halb
Hör.
Rektaszension
Deklination
messer
Par.
7-54 7-55 7-56 7-58 7-59 7.60
0.89 0.89 0.89 0.89 0.90 0.90
7.61 7-63 7.64 7-65 7.66 7.68
0.90 0.90 0.90 0.90 0.90 0.91
7.69 7.70 7.71 7-73 7-74 7-75 7.76 7.78
0.91 0.91 0.91 0.91 0.91 0.91
h
m
s
17 40 54.28
5 28
59-56 485 4.41 4 42 8.83 4 00 12.83 3 57 16.40 3-14
-21 21 21 21
58 41.8 2 o 58 39.8 2 2 58 37.6 2 4 58 35-2
!7 17 17 17 17
4° 41 41 41 41
!7 17 *7 17 17 17
4 1 r9-54 41 41 41 41 41
22.25 24.53 26.38 27.81 28.81
17 r7 17 *7 17 17
41 41 41 4i 41 41
29.38 Q.iS 29.53 o 27 29.26 0 71 28.55 1 12 27-43 i 55 25.88 1 98
-2158 5-3 21 58 I.I 21 57 56.8 21 57 52.3 21 57 47-7 21 57 42.9
17 17 17 17 17 17
41 41 41 41 41 41
23.90 21.50 18.68 15.44 11.78 7.71
-21 21 21 21 21 21
57 57 57 57 57 57
17 17 17 17 17 17
41 40 40 40 40 40
3.21 58.31 52.99 47.27 41.14 34.61
-21 21 21 21 21 21
57 5-7 56 59.8 56 53-8 56 47.7 5641.5 56 35-2
17 40 17 40 17 40 1740 x 7 39 17 39
27.68 20.36 12.65 4-55 56.07 47.22
-21 21 21 21 21 21
56 28.7 56 22.1 56 15.4 56 8.6 56 1.6 55 54-6
39 17 39 17 39 1739
37-99 9 59 28.40 9 95 18.45 10 31 8.14
2.71 2 28 1.85 1 43 1 00 o 57
2 40 2 82 3 24 366 407 4 50 4 90 5 32 5 72 6 13 6 53 6.93 7 32 7 71 8 10 8 48 8.85 9 23
10 67
*7 38 57-47 11 00 17 38 46.47
2 1 58 32-6
21 58 29.8
2 6 2.8
3 °
-21 58 26.8 3 I 2 1 58 2 3 . 7
21 21 21 21
58 20.3 58 16.8 58 I3.I 58 9-3
38.0 32-9 27.7 22.4 17.0 11.4
-21 55 47-3 21 55 40.0 21 55 32.6 21 55 25-1 21 55 17-4 -2155 9-7
3 4 35 3 7 3 8
9.89 329 9.87 671 9.86 017 9.84 367 9.82 722 9.81 082 9-79 448 9.77 820 9.76 198
658 654 650 645 640 634 628 622 615
9-74 583 9.72 976
607 590
599
5 2
9-7 1 377 9.69 787 9.68 205 9.66 632 9.65 069 9.63 516 9-6I 974 9.60 443 9-5» 923 9-57 415
5 3
9-55 920
495
5 4
9-54 438 9.52 969
469
4
0
4 2 4 3 4 5 4.6 4.8 4 9 5 1
56 5 7 5 9 6 o 6 1 6 2 63 6 5
66 67 6 8 70 7.0 7 3 7 3 7 4 7 5 7 7 7 7
9-5i 9.50 9.48 9-47 9-45 9.44
515 074 649 239 845 467
9.43 106 9.41 762 9.40 436 9.39 128 9-37 838 9.36 568 9-35 3 1 6
9-34 085 9-32 873 9.31 682 9.305"
9.29 362
582 573 563 553 542 531 520 508 482 454 441 425 410 394 378 361 344 326 308 290 270 252 231 212 191 171 149
7-79 7.80 7.81 7-83 7.84 7-85 7.86 7.87 7.88 7.90 7.91 7.92 7-93 7-94 7-95 7.96 7-97 7.98 7-99 8.00 8.01 8.02
Auf-
ObereKul-
gang
mination
in o h L ä n g e , + 50° Breite h m I 32 I 28 I 24 I 20 I 16 I 12 i
8
4 1 0 1
0 57 0 53 0 49
m
5 5 5 5 5 5
40.I
36.2 32.4
28.5 24.7 20.8
5 16.9 5 13.0 5 9.1 5 5-2 5 i-3 4 57-4 4 4 4 4 4 4
53-5 49-5 45-6 4i-7 37-7 33-7
0 21 0.92 0 17 0.92 0 13 0.92 0.92 0 9 0.92 0 5 0.92 1 0 \ V23 57/ 0.92 23 53 0-93 23 49 0-93 23 45 o-93 23 4 r 0-93 23 37 0-93 23 33
4 4 4 4 4 4
29.8 25.8 21.8 17.8 13.8 9.8
4 4 3 3 3 3
5-8 1.8 57-8 53-8 49-7 45-7
23 29 23 25 23 21 23 17 23 13 23 8
3 3 3 3 3 3
4i-7 37-6 33-5 29-5 25-4 21.3
23 4 23 0 22 56 22 52 22 48 22 44
3 17.2 3 13-1 3 9.0 3 4.9 3 0.8 2 56.7
0-93 0-93 0.94 0.94 0-94 0-94 0.94 0-94 0.94 0-94 0-95 0-95
0 45 0 41 0 37 0 33 0 29 025
Saturn 1958
88 Oh
W e 1 t z e i t Halb-
Hor.
Rektaszension
Deklination
messer
Par.
8.02 8.03
0-95 0-95
22 40
8.04
0-95
22 3 5 22 31
17 38 3 5 - ! 2 17 38 23.43 1 7 38 XI.41 1 7 3 7 59-07 1 7 37 46.40 37 37 37 36 36 36
33-42 20.13 6.53 52.64 38.46 23.99
1736
9-25
17 35 54-24 1 7 3 5 38-96 17 35 23.43 17 35
7-66
17 34 51-65 17 34 35-40 *7 3 4 I8-94 1734
2.27
17 33 45-39 17 33 28.33 17 33 7 17 17 17
mination
Scheinbare
//
r
ObereKul
Scheinbare
1 7 38 46.47
17 17 17 17 17 17
Aufgang
"-07
32 53-64 32 36.05 32 18.29 32 0.39
J
7 3 1 42-35 17 31 24.18 17 31
5.88
*7 30 47-47 17 30 28.95 *7 3 0 10.34 17 29 51.64 1 7 29 32.86 1 7 29 14.00 17 28 55.09 17 28 36.13 17 28 1 7 . 1 3 1 7 27 58.09 1 7 27 39.04
135 1 .69 2.02 2 34 2.67 2 98 3 29 3.60 3-89 4.18 4-47 4-74 5 01 5 28 5 53 5-77 6.01 6 25 6 46 6 67 6 88 7 06 7 26 7-43
-2155
9-7
2155 i-8 2 1 54 53-8 2 1 54 45-8 2 1 54 37-6 2 1 54 29-3 - 2 1 54 20.9 2 1 54 12.4 21 54
3-8
21 53 55-i 2 1 5 3 46-3 2 1 5 3 37-4 - 2 1 53 28.3 2 1 5 3 19-3 21 53 io-1 2153
0.7
21 52 51.3 21 52 41.8 - 2 1 52 32.3 2 1 52 22.6 2 1 52 12.8 21 52
3.0
21 5 1
53-i
21 51 43-1 - 2 1 51 33.0
7 59
21 5 1 22.8
7 76 7.90
2i 51
12.6
21 51
2.4
8.04 8 17 8 3° 8.41 8 52 8.61 8 70 8.78 8.86 8.91 8.96 9.00 9.04 9.05
21 50 52.0 21
5041.7
- 2 1 50 3 1 . 3 2 1 50 20.8 2 1 5 0 IO.3
7-9 8.0 8o 8 2 8 3 8.4 8 5 8 6 87 8.8
8.9 9-1 9.0 9.2 9-4 9 4 9-5 9 5 97 9-8 9.8 9 9 10.0 10.1 10 2 10 2 10 2 10.4 1° 3 10.4 10 5 10.5
10.6 2 1 4 9 5 9 - 7 10 5 2 1 49 49.2 10.6 2 1 49 38.6 10.6 - 2 1 49 28.0 10 7 2 i 49 17-3 10.6 2 1 49 6.7 10 6 21 48 56.1 10 7 21 48 45.4 10.6 - 2 1 48 34.8
9.29 362 9.28 234 9.27 128 9.26 044
i 128 i 106 i 084
i 062 9 . 2 4 9 8 2 i 039 9 - 2 3 9 4 3 i 016 9.22 927 992 9-21 935 968 9.20 967 945 9.20 022 919 9.19 103 895 9.18 208 869 9-r7 9.16 9.15 9.14 9.14 9-i3
339 495 677 885 119 381
9 . 1 2 669 9 . 1 1 984 9.11 327 9.10 698 9 . 1 0 096 9-°9 523 9.08 9 7 7
844 818 792 766 738 712 685 657 629 602 573 546
9.08 460
517
9.07 972
488
9.07 5 1 2
460
9.07 080
432
9.06 678 9.06 304 9.05 960 9.05 644 9-05 3 5 8 9.05
101
9.04 8 7 4 9.04 676 9.04 508 9.04 3 7 0 9.04 262 9.04 1 8 3 9.04 1 3 4
402 374 344 316 286 257 227 198 168 138 108 79 49
8.05
in o b Länge, + 50 0 h m 22 44
h 2 2
m 56.7 52.6
2 48.5
0-95
22 27
2 44-3 2 4O.2
0-95
22 23
2
36.1
0-95
22 19 22 15 22 10
2 2
31-9 27.8
8.10
0-95 0.96
2
23.6
8.11
0.96
22
6
2
19-4
8.11
0.96
22
2
8.12
0.96
21 58
2 2
15-3 II.I
8.13
0.96
6.9
O.96
21 54 2 1 50
2
8.14 8.14
0.96
2.7 58.6
8.15
O.96
21 45 21 41
2 I
8.16
O.96
21 37
i 1
54-4 50.2
8.16
0.96
21 33
1
46.0
8.17
0.96
2 1 28
1
41.8
8.18
0.96
2 1 24
i
37-6
8.18
O.97
2 1 20
8.19
21
16
i 1
33-4 29.1
8.19
0-97 O.97
21
12
1
24.9
8.20
O.97
21
7
1
20.7
8.20
O.97
16.5
O.97
21 3 20 59
1
8.21
1
12.3
8.21
O.97
20 54
1
8.0
8.22
O.97
20 50
1
3.8
8.22
O.97
20 46
0 59.6
8.22
O.97
20 42
0 55-4
8.23
O.97
20 38
0
8.23
O.97
0 46.9
8.23
O.97
20 3 3 20 29
0 42.6
8.24
O.97
20 25
0 38.4
8.24
O.97
20 20
8.24
O.97
20 l 6
0 34-2 0 29.9
8.24
O.97
20 12
0 25.7
8.24
20
8
0
8.25
0-97 O.97
20
3
0
17.2
8.25
O.97
19 59
0
12.9
8.25
0-97
19 55
0
8.7
19 5 1
0
4-4
8.06 8.07 8.08 8.09
8.25
0-95
0-97
51.1
21.4
Saturn 1958
89
Oh W e 1 1 z e i t Halb-
Hör.
Rektaszension
Deklination
messer
Par.
8.25 8.25 8.25 8.25 8.25 8.25
0.97 0.97 0.97 0.97 0.97 0.97
8.24 8.24 8.24 8.24 8.24 8.23
0.97 0.97 0.97 0.97 0.97 0.97
8.23 8.23 8.22 8.22
0.97 0.97 0.97 0.97 0.97 0.97
8 59 8 55
0.97 0.97 0.97 0.97 0.97 0.97
8 34
17 25 17 25 1725 17 24 x7 24 17 24
44.81 25.88 7.OI 48.21 29.49 IO.87
1 7 23 52.33 1 7 23 33.91
17 23 15.60 1 7 22 5 7 . 4 I 1 7 22 39.36
17 22 21.45 22 21 21 21 20
20 4.25 19 47-98 19 3 1 . 9 3
19 19 18 18 18 18 17 17 17 17 16 16 16 16
9.07 9.06 9.05 9.01 8.97 8.93 8.87 8.80 8 72 8 62 54 8 42 831 8 19 8.05 7.91 7-75
1 7 20 20-73
I6.II 0.53 45.20 30.12 15.30 0.76 46.48 32.50
in cP Länge, + 50° Breite h
h m 9.07
3.7O 761 46.09 7-43 28.66 7.26 II.40 7.08 54.32 6.89
1 7 2 0 37-43
17 17 17 17 17 17
mination
Scheinbare
39.04 19.97 0.90 41.84 22.79 3.78
17 17 17 17 17 17 17 17 17 17 17
Obere Kul-
Scheinbare
17 27 17 27 17 27 17 26 17 26 1726
17 17 17 17 17
Aufgang
6 70 6.48 6 27 6.05 5.82 5 58 5 33 5.08 4.82 4 54 4 28 398 3 7°
18.80 5.40 3 4 ° 3 °9 52.31 2 78 39.53 2.47 27.06 2 14 14.92
- 2 1 48 21 48 21 48 2148
34.8 10.6 24.2 10 6 13.6 10 5 3.x
21 47 52.6
21 47 42.I -21 21 21 21 21 21
47 47 47 47 46 46
31-7 21.4 11.1 0.9 50.8 40.8
-21 21 21 21 2i 21
46 46 46 46 45 45
30.9 21. r 11.4 1.9 52.5 43-3
-21 45 34-2 21 45 25-3 21 45 16.6 2 1 4 5 8.1 21 44 59.8 21 44 51.7 -21 44 21 44 21 44 21 44 21 44 2144
43.8 36-1 28.7 21.5 14.6 7.9
-2144 21 43 21 43 21 43 21 43 21 43
1.5 55-4 49.6 44.1 38-9 34-o
-21 21 21 21 21 -21
29-5 25.2 21.4 17.9 14.7 11.9
43 43 43 43 43 43
10 5
10 5 10 4 10.3 10.3
9.04 9.04 9.O4 9.04 9.O4 9.04
134 116 127 168 240 341
9.04 472 9-04 633
10 2
9.04 824
10 1
9-05 045
10 o 9-9 9.8 9-7 9 5 9-4 92 9 1 8.9 87 8 5 8 3 81 7-9 7 7 7 4 7.2 6.9 6.7 6.4 6.1 5.8 55 52 4-9 4 5 4 3 3-8 3 5 3 2 2.8
9-05 295 9-05 574 9.05 9.06 9.06 9.06 9.07 9.07
883 221 588 984 409 862
9-o8 343 9.08 852 9.09 389 9-09 955 9.10 547 9.11 168 9.11 9.12 9.13 9.13 9.14
815 490 191 919 674
9-i5 455 9.16 262 9.17 094 9.17952 9.18 835 9- r 9 743 9.20 675 9.21 9.22 9.23 9.24 9.25 9.26
631 612 615 642 691 763
18 ii 41 72 101 131 161 191 221 250 279 3°9 338 367 396 425 453 481 509 537 566 592 621 647 675 701 728 755 781 807 832 858 883 908 932 956 981 1 003 1 027 1 049 1 072
8.22 8.21 8.21
8.20 8.20
8.19 8.19 8.18 8.18 8.17 8.17 8.l6
946
9 42 9 38 9 33 929
23 34-7
9 16 9 12
9
8
9
4
851
8 47 842 838
8 30 8 25 8 21 8 17 813
8
o
7 7 7 7
8.10
0.96 0.96 0.96 0.96 0.96 0.96
8.09 8.08 8.07 8.06 8.05 8.05
0-95 0-95 o-95 0-95 0-95 o-95
8.12
8.12 8.11
51-7 47-4 43-2 39-°
23 30.5
9 4
8.14 8.13
23 23 23 23
9 21
8
8.15
W3 55-91
9 25
0.97 0.96 0.96 0.96 0.96 0.96
8.15
m
4.4 9 51 / O o 02^
7 56 7 52 7 47 43 39 35 31
727 7 22 7 18
7 14 7 10 7
6
17
2
16^58
23 26.2 23 22.0 23 17-7 23 13-5 23 23 23 22 22 22
9-3 5-o 0.8 56.6 52.3 48.1
22 22 22 22 22 22
43.9 39.7 35-4 31.2 27.0 22.8
22 22 22 22 22 21
18.6 14.4 10.2 6.0 1.8 57.6
21 21 21 21 21 21
53-4 49-3 45.1 40.9 36.8 32.6
21 21 21 21 21 21
28.5 24.3 20.2 16.0 11.9 7.8
Saturn 1958
90
Oh W e 1 t z e i t Scheinbare Rektaszension
17 17 17 17 17 17
r
7
17 17 17 17 17 17 17 17 17 17 17 17 17 17 17 17
6 6 5 5 5 5 5 4 4 4
4 32.19
4 23.88 4 4 4 3 3
15-95 8.39 1.21 54-42 48.02
3 42.00
3 13 3 3 3 17 3
17 17 17 17 17 *7 17 17 17 17 17 17 17 17 17 17
14.92 11.82 3.10 1 1 49 1 61 5 - 1 1 15 4 0 4 6 10.81 29-65 10 46 i9-i9 10 1 1 9-O8 59-3 1 9 77 49-9 1 9 4 ° 40.87 9 04 8.68
8 31 7-93 7.56 7 18 6 79 6.40 6 02 5.62
36.38 5.22 3 1 . 1 6 4-«3 26.33 4 . 4 1 21.92 4 02 i7-9° 3.61 14-29
3 19
3 1 1 . 1 0 2 78 8.32 2 37 5-95 1.96 3-99 i 54 2-45 1 . 1 2 i-33 0 . 7 1 0.62 0.29 0-33 0 1 2 0-45 o-55 1.00 0.95 1-95 1 38 3-33 1 79 5-i2
2 20
7-32 2.63 9-95 3 ° 3 12.98 3 4 6 3 16.44 3.86 17 3 20.30
Halb- i Hör. messer Par.
Scheinbare Deklination
-21 43 II.9 2 1 4 3 9-5 2 1 4 3 7-5 2 1 4 3 5-9 21 43 4-7 2 1 4 3 3-9 -21 43 3-6 21 43 3-6 1 2 1 4 3 42 1 4 3 5-o 21 43 6-3 21 43 8.1 -21 21 21 21 21 21
43 43 43 43 43 43
10.3 i3-o 16.1 19.7 23.7 28.2
-21 21 21 21 21 21 -21 21 21
43 43 43 43 43 44 44 44 44
33.2 38-7 44.6 5i-o 57-9 5-3 13.1 21.4 30.2
21 44 39-5 21 44 49.3 21 44 59.6 -21 21 21 21 21 21
2 4 2 o
i 6 1 2 0.8
° 3 00 ° 5 09
13 1.8 2 2 2 7
3 i 36 4.0
45 5° 55 59 6.4 6.9
7 4 7.8
83 8.8 9 3 9.8 10 3 10 7
45 45 45 45 45 46
10.3 11 2 21.5 11.8 33-3 12.1 45-4 12 7 58.1 1 1 . 2 13 i
-21 46 21 46 21 46 2147 21 47 -21 47
24.8 14 o 38.8 53-3 14 5 15.0 8.3 23-8 15 5 15.8 39.6
13.6
9.26 9.27 9.28 9.30 9.31 9.32
763 857 972 108 265 442
9-33 640 9.34 857
9.36 9-37 9.38 9-39 9.41 9-42 9-43 9-45 9-46 9.48
093 349 623 9r5 225 552 897 258 635 028
9-49 437 9.50 861 9.52 299 9-53 751 9-55 217 9.56 696 9.58 9-59 9.61 9-62 9.64 9.65
188 692 208 735 272 820
9.67 9.68 9.70 9.72 9-73 9-75 9.76 9.78 9.80 9.81 9-83 9.85
378 945 521 105 697 297 904 517 137 762 393 029
094
"5 136 157 177 198 217 236 256 274 292 310
327 345 361 377 393 409
424 438 452 466
479 492 504 516 527
537 548 558 567 576 584
592 600 607
613 620 625 631 636
8.05 8.04 8.03 8.02 8.01 8.00
0-95 0-95 0-95 o-95 0.94 0.94
7-99 7-98 7-97 7.96 7-94 7-93 7.92 7.91 7.90 7.89 7.88 7.87
0.94 0.94 0.94 0.94 0.94 0.94
Aufgang
ObereKulmination
in o h Länge, + 50° Breite h m 658
h
m
21 7.8 6 53 21 3.6 6 4 9 20 59-5 6 4 5 20 55-4 6 41 2 0 5 1 . 3 6 37 20 47.2 6 33 20 43.1 6 29 20 39.0 6 25 20 34-9 6 21 20 30.9 6 17 20 26.8 6 12 20 22.7
0-93 0-93 0-93 °-93 o-93 0-93
6 8 6 4
20 18.7 20.14.6 6 o 20 10.6 5 56 20 6.5 5 52 20 2.5 5 48 9 58.5
7-85 7.84 7-83 7.82 7.81 7-79 7.78 7-77 7.76 7-75 7-73 7.72
0-93 0-93 0.92 0.92 0.92 0.92
5 44 5 40 5 36 5 32 528 5 24
9 54-5 9 9 9 9
50.4 46.4 42.4 38.4
0.92 0.92 0.92 0.91 0.91 0.91
5 20 516
9 9 9 9 9
30-5 I 23 41 26.5 23 37 22.5 18.6 14-6
7.71 7.70 7.68 7.67 7.66 7-65
0.91 0.91 0.91 0.91 0.90 0.90
4 4 4 4
4 37
851.1 847.2
7-63 7.62 7.61 7.60 7-58 7-57
0.90 0.90 0.90 0.90 0.89 0.89
4 4 4 4 4 4
»43-3 8 39-4 8 35-5 831.6 8 27.7 823.9
5 12 5 9 5 5 5 i 57 53 49 45
441
33 30
26 22 18 14
9 34-5
9 10.7
9 6.7 9 2.8 858.9 8 55.0
Saturn 1958 Oh
91
W e11 z ei t
Auf-
O b e r e Kul-
gang
mination
Scheinbare
Scheinbare
Halb
Hör.
Rektaszension
Deklination
messer
Par.
7-57
0.89
7-56
0.89
4 *4 4 10
7-54
0.89
4 7
8 16.2
7-53
0.89
4 3
8 12.3
7-52
0.89
3 59
8 8.5
7-5i
0.89
3 55
8 4-7
7-49 7.48
0.88
3 51
0.88
3 47
7-47 7.46
0.88
3 44
0.88
3 40
661
7-45
0.88
3 36
7 45-6
660
7-43
0.88
3 32
741.8
7.42
0.88
329
7 38.1
7-4i
0.87
3 25
7 34-3
7.40
0.87
3 21
7 30-5
7-38
0.87
3 17
7-37
0.87
3 14
7-36
0.87
3 !0
7-35
0.87
3
7-34
0.87
3 3
7-3 2
0.86
2 59
7-3i
0.86
2 55
7-30
0.86
2 52
7 7
7.29
0.86
2 48
656.9
7.28
0.86
2 44
653-2
7.27
0.86
2 41
649-5
7.26
0.86
2 37
645.8
7.24
0.85
2 33
6 42.1
7-23
0.85
230
638.4
7.22
0.85
2 26
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998
10.32 581 10.34
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92 Oh Scheinbare
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821 244 695 178 689 231 802 4°3 032 690 375 090 831 601 397
17.62 17.63 17.63 17.64 17-65 17.66
221 071 946 849 775 728
17.67 17.68 17.69 17.70 17.71 17.72
705 706 732 781 854 950
17.74 17.75 I7-76 17-77 17.78 17.79
069 210 373 558 764 99i
17.81 17.82 17.83 17.85 17.86 17.87
238 505 792 097 422 765
331 362 391 423 451 483 5" 542 57i 601 629 658 685 7i5 74i 770 796 824 850 875 903 926 953 977 001 026 049 °73 096 119 141 163 185 206 227 247 267 287 305 325 343
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ObereKul-
gang
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in o h L ä n g e , + 50° B r e i t e
h
m
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0.50 0.50 0.50 0.50 0.50 0.50
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4 4 4 4
95 94 94 94 94 94
0.50 0.50 0.50 0.50 0.50 0.50
94 94 94 94 93 93
0.50 0.50 0.50 0.50 0.50 0.50
93 93 93 93 93 93
0.50 0.50 0.50 0.50
92
0.49
96 96 96 96 96
92 92 92 92 92
0-49
0.49 0-49
0.49 0.49 0-49 0-49
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m
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23 16.6 23 12-5
23 23 23 22 22 22 22 22
8.4 4-3 0.2 56.1 52.0 47-9 43.8 39-7
4 37
22 22 22 22 22 22
35.6 31.5 27.5 23.4 19.3 15.2
4 33 428 424 4 20 4 16 4 12
22 22 22 21 21 21
ir.i 7.1 3.0 58.9 54-9 50.8
21 21 21 21 21 21
46.7 42.7 38.6 34-6 30.5 26.5
323
21 21 21 21 21 21
22.4 18.4 14.3 10.3 6.3 2.2
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441
4
8
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96
Uranus 1958 Oh
Scheinbare Rektaszension
Q
8 8 8 8 8 8 8
8 8 8 8 8 8
^ ^ 40 40 40 40 40 40 40 40 4° 40 40 40 40
45-49 42.89 40.49 38.31 36.35 34.60 33-07 31-75 30.65 29.78 29.12 28.68 28.47
S gg
+ 185819.8
28
^ 5 8 36-7 185852.9 18 59 8.2 185922.7 x8 5 9 3 6 . 5 +185949.4
f
3
lf
19 4
4
° 2.82 3
3
2 6o
2.40 2.18 1.96 i-75 i-53
1.32
1.10 0.87 0.66 0.44 0.21 0.00 o.:•23
8 40 28.47 8 40 28.70 o.,•45 8 4 0 29.15 0.66 8 40 29.81 0.90 84030.71 84031-83
Ii34
8 40 33-I7 8 40 34.72
„ „
„^
'
84036.50 84038.51 84040.73 84043-16 8 4 0 45.82 84048.70 84051.78 84055-09 84058.62 841
2.35
x
Auf- ObereKulgang mination
Scheinbare Deklination
h m s 8 4127.95 84123.06 8 4 1 i8-39 84113-91 8 4 1 9.63 8 4 X 5.56 8 41 1.69 84058.04 8 4 0 54.58 8 40 51.34 8 4 0 4 8 . 3J 1
W e l t z e i t
1.78 /OI
2 2 2
' 2g8
- Qg „ 3-53 3 7 3
o
Halb- Hör. messer Par. in oh Länge, + 50° Breite
2
^ i 2 i
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•
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19 19 + 19 19 19 19 1 9^
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18.1
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3-i
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19 o 6.4 I I 9 +185954.512.8 185941-7 . . . 185928.3 " 185913.9 tl 5 185858.8 1 5 9 +185842.9
17.87 17.89 17.90 17.91 17.93
765 125 502 896 306
17.96 17.97 17.99 18.OO 18.02 18.03
173 628 098 581 078 587
18.05 18.06 18.08 18.09 18.11 18.12
9 642 186 743 309 886
18.14 18.16 18.17 18.19 18.20 18.22
471 067 671 283 902 529
18.24 18.25 18.27 18.29 18.30 18.32
j63 802 448 098 754 412
18.34 18.35 18.37 18.39 18.40 18.42
075 740 408 079 751 423
360 377 394
4x0 426 17-94 732 441 455
470 483 497
509 522
I0
18.44 0 9 6 18.45 769 18.47 442 1 8 . 4 9 I]C4 18.50 784 1 8 . 5 2 453
533 544 557
566 577 585 596
604 612 619 627 634 639 646 650 656 658 663 665 668
671 672 672 673
673 673 672 670
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hm
1 2 59 2 54 2 50 2 46 2 42 238
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90 90
o-49 0.49
2 2 2 2 2 2
90 90 90 89 89 89
0.49 0.49 0.49
2 10 2 6 2 2
89 89
0.48 0.48 0.48 0.48 0.48 0.48
90
89
88 88 88
88
88
88 87
87 87 87
87 87
86 86 86 86 86 86
85 85 85
0.49
0-49 0-49 0.49
0.48 0.48 0.48 0.48 0.48 0.48
30 26 22 18 14
158 1 55 1 5i 147 M3 1 39
h m 20 20 20 20 20 20
38.I 34.I 30.1 2Ö.I 22.1 18.1
20 14.I 20 10.1
20 6.1
20 2.1
9 58.2
9 54-2 9 50.2 9 46.2
9 9 9 9
42-3 38.3 34-4 30.4
9 26.4 922.5 9 18.6
i35 1 3i 1 27
9 x4-6
1 23 1 19
2.8 858.9
1 15 1 11 1 7
1 3
9 10.7 9 6.7
8 55-0 8 51.1 847.1 18 43.2
0.48 0.48 0.48 0.48 0.48 0.48
1 o 056 o 52 048 044 o 40
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0.48 0.48 0.48 0.48 0.48 0.48
O 36 032 o 29 O 25
8 16.0 8 12.1 8 8.2
10 21 10 17
8 35-4 8 3i-5 8 27.6 823.7 8 19.8
8 4-3 8
0.5
7 56.6
Uranus 1958 0h
W e l t z e i t
Auf-
Obere Kul-
gang
mination
Scheinbare
Scheinbare
Halb
Hör.
Rektaszension
Deklination
messer
Par.
in o h Länge, + 50° Breite h
m
•85 •85 •85 •85 •84 .84
0.48 0.47
10 10 10 10 10 9
17 13 9 5 2 58
17 17 17 17 17 17
56.6 52-7 48.9 45-o 41.2 37-3
9 54
i7 17 17 17 17
33-5 29.Q 25.8 21.9 18.1
841
8 8 8 8 8
97
2.35
41 41 41 41 41
6.29 10.45 14.81 19.39 24.17
8 41 8 4i 8 41 8 41 841 841
29.16 34-36 39.76 45-36 51.17 57.18
3-94 4.16
4-36 4 58 4.78
4-99 5 20 5.40 5.60 5.81 6.01 6.21
+ 18 58 18 58 1858 18 57
185731-2
18 57 11.2 + 18 56 50.5 18 56 29.1 1 8 5 6 6.8 18 55 43-8 18 55 20.0 18 54 55-5 + 18 54 1854 18 53 1853 18 52 18 52
30.2 4.0 37-2 9.6 41.3 12.2 42.4 12.0 40.7 8.8 36.1 2.7
842 8 42 8 42 8 42 8 42 8 42
3-39 9.80 16.41 23.21 30.21 37-4«
8 42 8 42 8 43 843 8 43 8 43
44-77 7 57 52.34 7 76 0.10 7-94 8.04 8 12 16.16 8 30 24.46
+ 18 51 18 51 18 50 1850 18 49 18 49
8 43 8 43 8 43 8 43 844 8 44
32-95 8.65 41.60 8.83 50.43 9.01 59-44 9.17 8.61 9 34 17-95 9.50
8 8 8 8 8 8 8 8 8 8 8 8
27-45 37-n 46.95 56.93 7-07 17-37 27.83 38.43 49- 1 9 0.09 11.13 22.33
44 44 44 44 45 45 45 45 45 46 46 46
6 41 6.61 6.80 7.00 7.19
7-37
8.49
9.66 9.84 9.98 10.14 10.30 10.46 10.60 10 76 10.90 11.04 11 20
42.9 26.1 8.6 50.3
16.8 175 18.3 19.1 20.0 20 7 21.4 22.3 23.0 23.8 24.5 25-3 26.2 26.8 27.6 28.3 29.1 29.8
18.52 18.54 18.55 18.57 18.59 18.60
453 JI9 783 443
18.62 18.64 18.65 18.67 18.68 18.70
403 °49 687 32i 949 570
101
755
18.72 183 18.73 789 1 8 . 7 5 387
18.76 978 18.78 560 18.80 131 18.81 18.83 18.84 18.86 18.87 18.89
692 245 786 316 835 34 1
+ 184828.7 18 47 54.0 34 7 35-4 18 47 18.6 36.0 18 46 42.6 36.7 1846 5.9 18 45 28.4 37-5
18.90 18.92 18.93 18.95 18.96 18.98
837 319 788 244 687 116
+18 18 18 18 18 18
50.4 38-6 11.8 39-3 32.5 39-9 52.6 40.6 12.0 41.2 30.8
18.99 19.00 19.02 19.03 19.05 19.06
530 930 315 684 039 377
+ 18 40 49.0 18 40 6.7 42.3 18 39 23-7 4 3 ° 18 38 40.1 43-6
19.07 19.09 19.10 19.11 19.12 19.14
700 005 294 566 820 056
3°-4 3i 3 31-9 32.7
33-4 34°
38.0
44 44 43 42 42 41
1 8 37 55-9
41.8
44.2
+ 18 37 11.2 44 7
666 664 660 658 654 648 646 638
634 628 621 613 606 598
59i 582 57i 561
553 54i
53° 5i9 506 496 482 469 456
443 429 414 400 385 369
355 338 323
3°5 289 272
254 236
.84 .84 •84 •84 •83 .83
o-47 o-47 o-47
0.47 0.47 0.47 0-47 0.47 0.47 0-47
9 50 9 46
9 43 9 39 9 35
h
m
17 14-3
•83 •83 .82 .82
0-47 0-47 o-47 0-47 0.47 0.47
9 9 9 9
24 20 16 12
17 17 17 16 16 16
.82 .82 .82 .82 .82 .81
0-47 0-47 0.47 o-47 0.47 0.47
9 9 9 5 9 1 8 57 8 54 850
16 16 16 16 16 16
47.6 43.8 40.0 36.2 32.4 28.6
.81 .81 .81 .81 .81 .81
0.47 0.47 0.46 0.46 0.46 0.46
846 842 8 39 8 35
16 16 16 16 16 16
24.8 21.0 17.2 13.4 9.6 5.9
.80 .80 .80 .80 .80 .80
0.46 0.46 0.46 0.46 0.46 0.46
8 24 8 20 8 16
16
2.1
813
1 5 50.8
.80 .80 •79 •79 •79 •79
0.46 0.46 0.46 0.46 0.46 0.46
•83 .83
9 3i 927
831
8 27
10.4 6.6 2.8 59.0 55-2 51.4
15 58.3
15 54-6
9 5 2 58 54
i 5 47-o 15 43-3
7 5i
15 28.3 15 24-5 15 20.8
8 8 8 7 7
7 47 7 43
15 39-5 15 35-8 1 5 32-0
Uranus 1958
98 Oh
24 25
26 27
28 29 30
Juli
1 2 3 4 5
6
messer
Par
in o h L ä n g e , + 50° Brei te
0.46 0.46 0.46 0.46 0.46 0.46
7 43 740 736 7 32 729 7 25
5 5 5 5 5 5
721
4 58.4
h
m
846
s
8 46 56.72
847 8.46 8 47 20.33 8 47 32.32
8 47 44.44 8 47 56.68 8 48 9.04 8 48 21.52 8 48 34.11 8 48 46.81 8 48 59.62 8 49 12.54 8 49 25-56
8 49 38.68 8 49 5 ^ 9 0 850 5.21 8 50 18.62 8 50 32.12
8 9
8 51 54-87
10 11 12
8 52 37-27
13
8 52 51-54
M 15
16 17
852 8.93 8 52 23.07
8 53
5-87
8 53 20.26 8 53 34-72 8 53 49-22 8 54
!9
8 54 18.37
23
24
8 36 25.9 8 35 40.0 8 34 53-6 834 6.6 8 33 I 9- 1 8 32 31.0 8 3 1 42-5 8 30 53-5 830 3-9 8 29 13.9 8 28 23.4
1 1 . 47 11.60 11 74 11.87 11.99 12 12 12.24 1 2 36 12.48 12 59 1 2 70
8 27 32.3 8 26 40.9 8 25 49.0 8 24 56.7 824 3.9 8 23 10.7
12.81 12.92 13 02 13 12 13.22 1 3 31
8 22 17.1 8 21 23.1 8 20 28.6 8 19 33-8 8 18 38.6 8 17 43.0
I3-4I 13 5° 1 3 58
13.85
8 16 8 15 8 14 8 13 8 13 8 12
13 9i 13-99 14 06 14 14 14 20 14 27 14 33 14 39 14 46
8 54 33-02 8 54 47-71
8
14 5 °
54-2
8.8
7 9-8 6 10.5 5 "-0 4 11.2 3 n-2
14.65 14 69 14 72
8 5 5 2.43 14 77 8 55 17-20 14 79 8 55 31-99
47.1 50.8
57-3 0.0 2-3 + 8 1 1 4.4 8 10 6.1 8 9 7.6
14 55 3 - 7 7 14.60
18 20 21 22
1 1 32
+ 837 11.2
8 5 0 4 5 - 7 0 13-67 8 5 0 5 9 - 3 7 1 3 75
8 51 13-12 8 51 26.97 8 51 40.88
7
mination
Deklination
45-12
23
Obere K u l -
Rektaszension
15
9 20 21 22
Aufgang
Hör.
8 46 33-65
r
t Halb
14
18
ei
Scheinbare
8 46 22.33
17
11 z
Scheinbare
1958 Juni 13 16
We
2 II.O
+
1 10.6 o 10.1
45 3 45 9 46.4 47.0 47 5 48 1 48.5 49 o 49 6 50.0 5° 5 51.1 51-4 51-9 52 3 52.8 53-2 53 6 54.0 54 5 54.8 55
2
55 6 55-9 56 3 56.6 56.9 57 3 57 7 57 9 58 3 58 5 58.8 59.0 59-3 59 5 59 8 60 o 60 2 60.4 60 5
19.14 056 19.15 274 19.16474 I9-I7 655
19.18 817 19.19958
19.21 081 19.22 182 19.23 264 !9-24 325 19.25 366 19.26 385 19.27 382 19-28 359 19.29 313 19.30 246 !9-3J
i57
I9-32 19.32 19-33 19-34 J 9-35
045 910 754 575 37 1
!9-3ö
145
19.36 896 19.37 623 19.38 326 19.39 °o6 19.39 660 19.40 291 19.40 897 19.41 478 I9-42 035 19.42 566 19.43 072 x 9-43 553 19.44 °°8 r
9-44 437 19.44 841 19.45 218 19-45 57i 19-45 897 19.46 197
1 218 1 200 1 181 1 162 1 141 1 123 I 101 I 082 I 061 I 041 I 019 997 977 954 933 911 888 865 844 821 796 774 75i 727 703 680 654 631 606 581 557 53i 506 481 455 429 404 377 353 326 300
•79 •79 •79 •79 •79 •79 •78 •78 •78 •78 .78 •78 .78 •78 •78 .78 •78 •77
0.46 0.46 0.46 0.46 0.46 0.46
•77 •77 •77 •77 •77 •77
0.46 0.46 0-45 0-45 0-45 o-45
•77 •77 •77 •77 •77 •77
o-45 o-45 0-45 0-45 o-45 0-45
0.46 0.46 0.46 0.46 0.46 0.46
h
n
7 18 7 *4 7 10 7 7 7 3 6 59 656 6 52 648 6 45
6 41 638 6 34
6 30 6 27 6 23 6 20
h
m
20.8 17-O 13-3 9-6 5-8 2.1
4 54-6 4 50.9
447.2 4 43-4 4 39-7 436.0 4 32.3 4 28.6 4 24-9 4 21.1 4 17-4 4 13-7 4 10.o 4 6.3 4 2.6 3 58.9 3 55-2
6 6 6 6
16 12 9 5
6
1
3 36-7 3 33-o
•77 o-45 5 54 •77 0-45 5 5 i .76 0-45 5 47 .76 0-45 5 43 .76 o-45 5 4 0 .76 0-45 5 3 6 ,76 0-45 5 33 ,76 0-45 5 29 ,76 0-45 5 2 5 76 0-45 5 22 76 0-45 5 1 8 76 0-45 5 15
3 29-3
5 58
3 5i-5 3 47-8 3 44-1 3 40.4
3 25-6
321.9 318.2 3 14-5 310.8 7.2 3-5 59-8 2 56.1 52-4 248.7
Uranus 1958 Oh
W e 1 t z e i t
Aufgang
Obere Kul- Untermination
gang
Scheinbare
Scheinbare
Halb-
Hör.
Rektaszension
Deklination
messer
Par.
in o*> L ä n g e , + 50° B r e i t e
o-45 o-45 o-45 0-45 0-45 0-45
5 i5 5 11 5 7 5 4
2 48.7 245.O
5
o
234.0
4 57
2 30-3
o-45 o-45 o-45 o-45 o-45 0-45
4 53
2 26.6
4 50 4 46 442
2 15-6
o-45 0-45 0-45 o-45 o-45 o-45
h
m
8 55 46.82 856
1.67
8 56 16.56 8 56 31.46 8 56 46.38
8 57
i-3i
8 57 16.27
8 57 3!-23 8 57 46.20 858
1.19
8 58 1 6 . 1 7 8 58 3 1 . 1 6 8 58 4 6 . 1 5
8 59
i-i2
8 59 1 6 . 1 0
8 59 31-07 8 59 46.02 o
0.97
o 15.89 o 30.79
0 45-67 1
h
s
8 55 3 1 99
0.52
1 15-34 1 30.13 r 44.88 1 59.60 2 14.27 2 28.90 9
99
243.47 2 58.00
3 I2-48 3 26.90
3 3 4 4 4 4
4I-25 55-56 9-79 23-96 38-07 52-10
5
483
+ 18 1 7
4.85 4.90 4.92
17
55
+ 17
54 53
4-93
17
4.96
4.98
4-99 4-97 4.98
1 7 4 8
1 7
17 17
+
4.85 4.82
4 63 4 57 4 53 4.48 4.42 4 35 4 3i 4 23 4 17 4 11 4 °3
«
48.9
44 46.9 43 44-8
1 7
4 1 40-7
1 7
36.8
1 7
3834-9
17
37 33-0
+
1 7
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i7 34 28.o i 7 33 2 6 . 5
17 30 23.1 -f 1 7 2 9 2 2 . 2 1 7 28 2 1 . 5 1 7 27 2 1 . 1 1 7 26 20.8 0
1 7 25 20.8 1 7 24 20.9 + 17 23 2 1 . 4 17
22 22.0
3-96
17 21 22.9
6.06
3.88
1 7 20 24.2
5 19-94 5 33-75
3.81
17 19 2 5 7 + 17 18 27.5
19-46 19-47 19-47 19-47 x 9-47 19-47
939 134 304 447 564 654
19.47 718
J
13.47 767
6
62 q
6 2 0 62
0
19.47426
6 2 i
19-47 278 19.47 103 v
J
1 9 . 4 6 902 ; j 6
6 i /
II7
90 64 38 11 15 42
19.47 710 19-47642
6 2 q
6 2 0
4
19-47 752 19-47 547
^ 201 22g
61 o 60 9 60 7 60 4 60 3 , 60 o 59 9 59 5
59 I ^ 8
2
76 76 76 76 76 76 76 76 76 76 76 76 76 76 76
19.46 420
2gi
76
19.46 139
3
76
19-45 832
^
19.42 944 19.42 428 1 9 . 4 1 887 i 9 - 4 i 320 19.40 728 19.40 110 " 3 9 468
1 9 . 3 8 800 19.38 108
19-37 392
76 '
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00
76 76 76 76
2 19.2 2 11.9 2
8.2
4 32
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4 25
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1 12.9
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1
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1
1.8
3 27
0 58.2
3
6
3
2
77 77 77 77 77 77 77 77 77 77
0-45 0-45 0-45 0-45 0-45 0-45
766
2 22.9
0-45 o-45 o-45 o-45 o-45 0-45
567
%
37-7
1 42.4
0-45 0-45 0-45 0-45 0-45 0-45
66g
2
o.45 0-45 o-45 o-45 0-45 0-45
76
642
2 41-3
4 ro
76
592
4 39 4 35
m
149.8
541
618
h
m
4 17 4 14
516
19.36 651 19-35 885
76 76
19-44 338 l 19-43 900 4 19-43 435
I9
594
76
76
I9-46 674
19-44 7 5 1
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76
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19-45 498 19-45 138
6
76
76
19-47 756
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173225.2 17 31 24.1
19.46 197 2 74 t 19.46 4 7 I 2 . 7 47 19 .46718 7 ' 221
61 8 ^
54-9
173631.2
4 79
4.67
61i 7 u
17 40 38.7
4.88
4.72
61 5
2.0
174242.8
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4 75
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174650.9
4-95 4.92
61 4
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4-97 4-95
4-9
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4-99
„ " 60 7
610 8.4 « * o 7.4 ^ i 61 1 6 . 3 61 4
1 7
4-97
4-99
5 9
58 17 57 1 17 56
4.89
4.96
0 IO.I
4 4 3 3 3
7 3 59 56 52
1 46.1
138.7
1 35-o 1 3i-3 1 27.7 1 24.0 1 20.3 1 16.6
324
0 54-5
3 20
050.8
3 16
047.1
3 13 3 9
258 2
55
0 43-4 0 39-7 o 36.0 032-3 o 28.6
2 51
0 24.9 O 21.2
248
O 17-5 V
Uranus 1958
100 0h Scheinbare Rektaszension
3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23
9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9 9
h m s 5 33-75 5 47-47 6 I.ii 6 14.66 6 28.12 641.50 6 7 7 7 7
54-7« 7-95 21.03 34-oi 46.88
7 59-64 8 8 8 8 9
12.28 24.82 37-23 49.52 1.69
9 13-74
9 9 25.66 9 9 37-45 9 9 49-10 9 10 0.62 9 10 12.01 9 10 23.24 9 9 9 9 9 9
10 10 10 11 11 11
34.35 45.31 56.12 6.79 i7-3i 27.67
9 9 9 9 9 9
11 11 11 12 12 12
37-87 47-92 57-8I 7-54 17.11 26.51
9 9 9 9 9 9
12 12 12 13 13 13
35-73 44-79 53-68 2.38 I0-9i 19.26
317 3.08 2.98 2.87 2 76 2.64 2 54 2.41 2 29 2 17 2 05 1.92 1 79 1 65 1 52
1 39 1 23
1 11 0.96 0.81 0.67 o 52 o 36 o 20 0.05 9.89 973 9-57 9.40 9.22 9.06 8.89 8 70
8 53 8 35
Halb- Hör. messer Par.
Scheinbare Deklination o
372 3-64 3 55 3-4 6 3.38 3 28
W e l t z e i t
'
"
+171827.5 171729.6 171632.0 7 34-8 I 7 I 4 37-9 I 7 I 3 4I-4
57
;; %
' £
x
j 6 5 s6-1
+ 171245-3 1 7 1I 1I 4^y.w 9.6 17
„
1 7> 71054.3 ; 17 9 59-3 17 9 4-9 17 8 1 0 . 8 5 4 1 ' 53-5 + 17 7 17-3 5 3 I 17 1 7 17 5 31-6 17 4 39-4 5 I 5 3 47-9 t 17 256.8 5 17 0 5° 5 + 17 2 6.3 c. 5°° 17 I 16.3 49-3 17 0 2 7 . 0 l / 16 59 3 8 . 1 l 6 58 49.9 16
J
8
2.2
+ 165715.I 165628.6 165542.9 16 54 57.6 16 54 13.1 165329.3
4 7 7
47 1 4 6 5 4
'
7
;
43 3
+165246.0 3-5 ^ ¿.'s 165121.7 * 16, 50 4 0 . 6 40.4 16 50 0.2 164920.6 » ; 9 + 164841.7 1 6 4 8
3 5
164726.2 3 7 3 164649.6 3 ' 164613.8 +164538.835 0
19.35 885 19.35 0 9 6 19.34 282 19.33 4 4 5 19-32 583 19.31698 19.30 19.29 19.28 19.27 19.26 19.25
789 858 903 925 924 902
19.24 857 19.23 790 19.22 7 0 1 19.21592 19.20 4 6 1 19.19 310 19.18138 19.16 9 4 6 I 9 - I 5 735 I 9 - I 4 503 I 9 - I 3 253 19.11 9 8 4 19.10 19.09 19.08 19.06
696 390 065 724
19-05 365 19.03 989 19-02 19.01 18.99 18.98 18.96 I8-95 18.93 18.92 18.90 18.89 18.87 18.86
595 186 760 318 861 389 901 401 885 356 814 259
789 814 837 862 885 909
931
955
978 001 022 045 067 089 109
131 151 172 192 211 232 250 269 288 306 325
341 359 376 394 409 426 442
457 472 488 500 516 529
542 555
1.77 1.77 1.77 I.77 1.77 1.77
0-45 0.45 0-45 0.46 0.46 0.46
1.78 1.78 1.78 1.78 1.78 1.78
0.46 0.46 0.46 0.46 0.46 0.46
1.78 1.78 1.78 1.78 1.78 1.79
0.46 0.46 0.46 0.46 0.46 0.46
1.79 I.79 1.79 1.79 I.79 I.79
Aufgang
Obere Kulmination
in o h L ä n g e , + 5 o ° B r e i t e h m 248 2 44 2 40 2 37 2 33 2 29 2 26
2 22 2 19 2 15 2 II 2 8
h IO 10 10 10 10
m 17.5 13.8 IO.I 6.4 2.7
958.9 9 55-2 9 51-5 947.8 944.1 9 40-4 936.6
2
4
2
O
9 32-9 9 29.2
57 53 49 46
925.5 921.7 9 18.0 9 14-3
0.46 0.46 0.46 0.46 0.46 0.46
42 39 35 3i 28
9 10.5 9 6.8 9 3-i 8 59-3 8 55-6 851.8
1.79 1.80 I.80 I.80 1.80 I.80
0.46 0.46 0.46 0.46 0.46 0.46
20
848.1
17 13 9 5 2
844-3 840.6 836.8 8 33-1 829.3
I.80 1.80 1.80 1.81 I.81 I.81
0.46 0.46 0.46 0.46 0.46 0.46
o 58 0 54 051 047 0 43 o 40
825.5 8 21.8 8 18.0 8 14.2 8 10.5 8 6.7
1.81 I.81 I.81 1.81 1.82 1.82
0.46 O.47 O.47 O.47 0-47 0-47
036 o 32 028 025 O 21 o 17
8 2.9 7 59-1 7 55-3 7 51-5 747.8 7 44-0
24
Uranus 1958
101
0h We 1t z ei t Scheinbare
Scheinbare
Halb
Hör.
Rektaszension
Deklination
messer
Par.
3 19-26
3 3 3 3
27-42 35-40 43-19 50.79
3 58.20
4 4 4 4 4
5-43 12.46 I9-29 25-94 32-37
4 38.62
4 44.65 4 50.49 4 56-I3
5 5 5 5 5 5 5 5 5
I-56 6.78 11.81 16.61 21.21 25.60 29.78 33-73 37-49
5 41-02
5 5 5 5 5 5 5 6
8 16 7 79
7-3i 7-52 7-52 7.29
^
6.83
£
6.65 6 43
4 60 4 39 4 18 3 95 3 76 3 53 3 3i 3 10 2.88 2.65 2.44 2 21
0.66 °-43
o 23
30 o
27 5
1 6 4t 0 9v . J5 + 163944.8
6 03
5 °3
30 9
164035.1
6 25
4.80
;
+ 16 42 26.2 , ^ 29.0 16 41 57.2 „ , ^ 28 2 16 4 1 29.0
7 °3
5 22
1
1 6 4 2 J1,6.2
7 23
5 43
i6 44 3 i - 3 164327.1
7 41
5 64
34 1 „ .
164358.8
7 60
5.84
4-7
1645
7.98
44-33 47-43 50.31 52.96 55-40 57-6i 1.99 59-6O 1 77 i - 3 7 1 55 2 . 9 2 1 32 4 . 2 4 1 JO 5-34 6.22 6.88
+ 16 45 38.8
'
1 6
I
1 6
! 1
2 5 6
24 7
39 21.1
163858.3
*
38 36.4 " \
^ 3 8 1 5 . 3 ^ 1 6
37 55-3
+ 163736.1 163718.0 1637 0.8 163644-5
16 36 29.3 1 6 J36 1J5 . 0 + 1 6 36 £
1.7
I6 3 5 49-4
16 35 38.0 163527.6 16 35 18.3 !6 35
9-9
+ 1635 2.7 16 34 56-3
I 9 2
i g i
1
'l
13 3 12 3 '
* *
89 43 7 2 6.4 5 3
16 34 51.0 16 34 46.7
4 3
16 34 43-3
2 4
16 34 40.9 + 16 34 39.7 16 3 4 39-4
16 16 16 + 16
34 34 34 34
40.0 41.7 44.4 48.x
34 1 2 o-3 0.6 1 7 2 7 3 7
18.86 18.84 18.83 18.81 18.79 18.78
259 692 " 3 523 922 310
18.76 18.75 18.73 18.71 18.70 18.68
688 058 4i7 768 112 447
18.66 18.65 18.63 18.61 18.60 18.58
775 095 410 719 022 320
18.56 18.54 18.53 18.51 18.49 18.48
614 902 187 470 749 026
18.46 18.44 18.42 18.41
301 576 848 121 1 8 . 3 9 394 1 8 . 3 7 669 1 8 . 3 5 945
18.34 18.32 18.30 18.29 18.27 18.25 18.23 18.22 18.20 18.18 18.17
222 502 786 °74 365 661 963 269 582 902 230
567 579 590 601 612 622 630 641 649 656 665 672 680 685 691 697 702 706 712 715 717 721 723 725 725 728 72 7 727 725 724 723 720 716 712 709 704 698 694 687 680 672
.82 .82 .82
.82
.82
•83 83
.83 .83 .83 83 83
,84 84 84 84 84 84 84
85 85 85 85 85 86 86
86 86 86 87 87 87 87 87 87
88
0.47 0.47 0-47 0-47 0.47 0.47 0.47 0.47 0.47 0-47 0.47 o-47
Auf-
Obere Kul-
gang
mination
in o h Länge, + 50° Breite h
m
O 17 O 13
44.0 40.2
o 10
36.4
7 7 7 7 7 7
32.6 28.8 24.9 21.1 i7-3 13-5 9-7 5-8 2.0
6 6 6 6 6 6 6
58.2 54-3 50.5 46.7 42.8 39-o 35-i
o 6 / O 2\ \23 5«/
23 23 23 23 23 23 23 23 23 23 23
55 51 47 43 40 36 32 28 24 21 i7
0-47 0.47 0-47 0.47 0-47 0.47 0.47 0.47 0.47 0.48 0.48 0.48
23 23 23 22 22 22 22
9 5 1 58 54 50 46
0.48 0.48 0.48 0.48 0.48 0.48
22 22 22 22 22 22
42 38 35 31 27 23
11.9 8.0 4-2 0.3 56.4 52.5
0.48 0.48 0.48 0.48 0.48 0.48
22 22 22 22 22 21 21 21 21 21 21 21
19 15 11 7 3 59 56 52 48 44 40 36
5 48.6 5 44-7
88 0 . 4 8 88 0 . 4 8 88 0 . 4 8 88 0 . 4 8 88 0 . 4 8 89 0.48
23 13
6
3i-3
27.4 23-5 19.7 15.8
5 40.8
5 36.9 5 33-o 5 29-1 25-1
21.2 x 7-3 !3-4
9-4 5-5
Uranus 1958
102
0h We 1 t z e i t Scheinbare Rektaszension
h m s 9 1 6 7.29 o 45 9 1 6 6.84 o 67 9 1 6 6.17 0 89 9 1 6 5.28 1 II 9 1 6 4-i7 9 1 6 2.84 I 33
1 55
6 5 5 5 5 5 9 9 9 9 9 9
1.29 59-52 57-54 55-34 52-93 50-30
15 4 7 4 5 1 5 44-39 5 4 1 . 1 3" c.
1 77
2 41 2 63 2.85 3o6 3 26
3 49
5 37-64 3 6 9 5 33-95 3 9G 5J J 3 ° - °u5 4 10 5 5 5 5 5 5
25.95 21.63 i7-i3 12.41 7-5° 2.40
4 4 4 4 5 5
32 5° 72 9i 10 29
4 57-11 4 5.-ö 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 1 2 3 4 5 6 7 8 9 10 11 12 !3 H 15 16 17 18 *9 20 21 22 23 24
h m6 14 917-39 14 9 25.80 9 34-24 r 4 9 42.70 r 4 9 5i-20 !4 9 59-71 14 0 8.24 14 0 16 79 14 0 25.36 !4 0 33-94 *4 042.54 14 051.14 0 59-76 1 8.38 1 17.01 14 1 25.64 14 1 34.28 I 4 1 42.91 1 5 I -54 2 0.17 14 !4 2 8.79 *4 2 17.41 14 2 26.01 14 2 34.60 14 2 43.18 !4 2 5i-75 !4 3 0.29 14 3 8.82 3 17-33 3 25.81 14 3 34-26 14 3 42.68 14 3 5i-o8 14 3 59-45 14 4 7-77 *4 4 16.06 14 4 24-32 H 4 32.53 H 4 40.70 14 4 48.82 14 4 56.90 14 5 4-93 H
8.41 8 44
8.46 8 50 8 51 8 53 8 55 8 57
8.58 8.60 8.60 8.62 8.62 863 8.63
8.64 8.63 8.63 8.63 8.62 8 62 8.60 8 59 8.58 8 57
8 54 8 53
8 51 8.48 8 45
8 42 8.40 8 37
8 32 8 29 8 26 8 21 8.17 8.12 8.08 8.03
Halb- Hör. messer Par.
Scheinbare Deklination
14 28.9
44-8
15 13-7 45 o 15 5 8 7 45 o
16 437 17 28.7 18 13.8 18 58.9 19 44 o 20 29 2 21 14.3 21 59-4 22 44.5 23 29.6 24 14.6 24 59-5 25 44-4 26 29.2 27 14.0 8 6
27 5 28 43.1 29 27.6 30 11.9 3 0 56.1
31 40.1 32 24.0 33 7 7 33 5i-3 34 34-6 35 17-8 36 0.8 36 43-5 37 26.0 38 8.2
45 o 45 1 45 1 45 1 45.2
45-1 45 1 45 1 45 1 45 ° 44 9 44 9
44.8 44.8 44.6 44 5 44 5 44 3 44 2
44.0 43 9 43 7 43-6 43 3 43 2 43-o
42 7
425
42 2 42 1 38 50-3 41.8
39 32.1 40 13.6 40 54.8 41 35-8 42 16.4 42 56.8 43 36.8 44 !6.5
41-5 41 2 41.0 40.6 40 4 40 o 39 7
1 31.29774 I 3 I -3° I 43 3 I -3° 4 8 3 |
369 34° r
3 3
3 1 - 3 0 7 9 6 285
31.31 081 3i-3i338 l 31.31566 31 31 766 3i 3 i 937 31.32 080
1
i - 3 2 195 •33!-32 283 3J-32 340 3J-32 370 3i-32 37i
257 228 200 171
143 "5
88 57
30 1 27
3!-32 344 31.32 288 31.32203 31.32 090 3i-3i 948 3i-3i 778
I9g
3 i . 3 i 580
22g
56 85 ij3
3i-3i 352 6 3i-3i 096 2g5 31.30 811 31.30498 J J 31.30 156 31.29 786 37° 3 - 9 388 ^ 31.28 961 ^ 31.28 505 4 031.28 022 in 3
" Z
5
"
31.26 972
31.26405 3 I -25 811 3 I , 2 5 189 31-24 5 4 i
31.23 866 31 .23 164 3J-22 435 31.21 680
539
II
s
' £
6 8 6-, 75 702
729 755
17 17 17 17 17 17 17 17 17 17 17 17 17 17 17 17 17 17 17 17 17 17 17 17 17 17 17 17 17 17 17 17 17 17 17 17 17 17 17 17 17 17
0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28
Aufgang
ObereKulmination
in o h Länge, -f- 50° Breite
h m 7 3i 7 27
724
7 20 7 16 7 12 7 9 7 5 7 1 6 58 6 54 6 5° 646 6 43 6 39 6 35 6 32 6 28 6 24 6 20 6 17 6 13 6 9 6 5 6 2 5 58 5 54 5 5i
5 47 5 43 5 39 5 36 5 32 5 28 5 24 521
5 i7 5 i3 5 9 5
6
5 2
4 58
h m
12 39.2
2 35-4 2 31.6 , 2 27.8 2 24.0 2 20.2 2 16.4 l 2 12.6 2 8.8 1 2 5.0 2 1.2 1 57-5 1 53-7 1 49.9 1 46.1 1
42.3 138.5
1 34-7 1 30.9 r 27.1 1 23.4 1 19.6 1 15.8 1 12.0 1 8.2 1 4.4 1 0.6 056.8 0 53-0
o 49.2 0 45-5 041.7 0 37-9 034.x o 3°-3 026.5 o 22.7 o 18.9 O 15.1 o 11.3
o 7-5 0 3-7
Neptun 1958 Oh Tag
Scheinbare
1958
25
26 27
28 29 Dez.
30 1 2 3 4 5
6 7
8 9
10 11 12 x3 H 15
16
*7
18 20 21 22 23
24 25
26 27
28 29 30 3i 32
h
m s
14 * 5
14 14 14 14
15 15 15 15
H
r
14 14 14 14 14 14
15 15 16 16 16 16
12.92 20.85 28.72 36.54
5 44-31
52.01 59.66 7.24 14.76 22.21 29.60
14 16 36.92 14 16 44.16 1 4 16 51.33 14 16 58.42 !4!7
5-43
14 17 12.37 14 14 14 14 14 14
17 17 17 17 17 17
I 44 16.5
4-93
19.23 26.00 32.69 39.29 45.80 52.22
14 1 7 5 8 . 5 5
I 44 55-9 I 45 34-9
1 46 13.6 14651.9 7.70
M S
7-5
1 48 44.7 1 49 21.5 1 49 5 7 - 9 1 50 33-9 7-32 7.24 7.17 7.09 7.01 6.94
6.86 677 6 69 6.60
6 51 6.42
6-33 6 24
1418 14 18 14 18 14 18 14 18
4.79 10.93 16.97 22.92 28.77
14 14 14 14 14 14
34.52 40.18 45.72 51.16 56.50 1.74
5 44
14 19 6.86 14 19 11.87 14 19 16.78
5 01
18 18 18 18 18 19
1 47 29.9
6 14 6 04
595 5.85 5 75 5.66
5 54 5-34
151
1 5 i 44-7
1 52 19.4 1 52 5 3 - 7 1 53 27.6 1 54
4 9i
0.9
1 5 4 33-8 i55
6-3
1 5 5 38.2
1 1 1 1
56 9.6 56 40.6 57 11.0 57 40.9
1 58 10.3 1 58 39-2 i 59
7-5
|
39 4 39 o 38 7 38 3 38 o 37
6
37 2 36.8 36.4 36.0
35 7 35 1 34 7 34 3 33-9 33 3 329 32 5 31 9 31 4 31.0
2 o 2.6 2 o 29.3 2
°55-4
1 21.0 2 1 46.0 2 2 10.4 ^
2
2
27 9
31.12 732 31.11 701
31.10647 31.09 569 31.08 468 31-07 345
5
031 054
078
101 «23
147
31.03 840 31.02 628
212
30.93 5 7 6
26 1
221
934
168
30-89 4 X 3
25.0
908
31.06 198 31.05 030
3 1 - 0 * 395
30.87 991 30.86 552 30.85 096 30.83 625 30.82 138 30.80 636 30.79 119 3 0 . 7 7 587
30.76 042
Halb-
Hör.
messer
Par.
1.17
0.28 0.28 0.28 0.28 0.28 0.28
I.17 1.17 1.17 1.17
00;
26 7
24 4
832
3 r - i 3 737
30.92 206 30.90 819
25.6
807
957 983
30.96 260 30.94 928
28 3
780
31.14 720
28 9
22 ^
3-8
31-15677
30.97 5 7 4
^ 57*5
4
31.16 611
29 4
30 4
^ 34*3
342.3
3 I - I 7 5*9
299
23 9 2j 2
2 js 20.2
31.21 680 31.20 900 31.20 093 31.19 261 31.18 403
31.00 141 30.98 868
1 59 35-4 27 2
5 24 5 12
9.6
AufA
Deklination
Rektaszension
Nov. 24
W e l t z e i t
Scheinbare
^
111
190
233 254 273 294 314 332 352 37o 387 406 422
439 456
471 487 502
1.17 1.17 1.17 1.17 1.17 1.17 1.17 1.18 1.18 1.18 1.18 1.18 1.18 1.18 1.18 1.18 1.18 1.18 1.18 1 18 1.18 1.18 1.18 1.18
1.18 1.18 1.18 1.19 1.19 1.19 1.19
517 532 545
1.19 1.19 1.19
0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.28 0.29 0.29 0.29 0.29 0.29 0.29 0.29 0.29
gang
ObereKul- Unterminatiön
gang
in o h Länge, + 5 0 ° Breite h n
h
m
4 58
10 3.7
4 55
9 59-9
4 5i
956.1
4 47
9 52.3
4 43
9 48.5
4 40
9 44-7
4 36
940.9
4 32
9 37-1
4 28
9 33-3
4 24
9 29-5
4 21
9
4 17
9
4 13
9 18.0
25.7 21.9
4
9
9 !4-2
4
6
9 10.4
4
2
3 54
9 6.6 9 2.8 859.0
3 5i
8 55-2
3 47
8 5i-3
3 43
8 47-5
3 58
3 39
8 43-7
3 36
8 39-9
3 32
836.0
3
9
8 32.2 8 28.4 824.5 8 20.7 8 16.9 813.0
3
5
8 9.2
3
1
8
328 3 24
3 20 3 17 3 13
5-4
258
8 1.5
2 54 2 50 2 46
7 53-8
7 57-7 7 50.0
2 42 2 38
746.2
2 35
7 38.4
7 42.3
Pluto 1958
112
0h Fixsternaberration
Rektaszension 1950 o h 111 s 103358.80 33 53.85 3348.48 2 33 42.69 33 36.49
+ 0
7.84
32 5 9 7 6 1 0
32 32 31 21 32 J
32 1 0 3• x2i
51.35 42.6i 3n3 -.5 « 5 2 4r . 2 1 I4-59
5 79 6 2 0 6
5g
6 7
3
7.72 8.08 8.41 8
934 9.62 9.89
IO
" f 1057 3 1 33-65 I O , 7 3T 22.89 3i IO.94 10 31 ir-95 .10 3 JXi 0.85 .25 3 1
71
4 4
10 3 0 1 5 . 1 8
•63
3-55
.68
29 5I-87
7i
29 40.16
.72
29 28.44
71
10 29 16.73 29 5-05 2 8 53-42
.68
1
-13
o
6882s
2 7 8 3
.6
7
1.16 1.19
54
°-°8;77
i-35 + 1.36
+ 22
9
8-5
36 884
8.4
35 798
-8.4 8-3 8.2
33-34 828
8.1
32 631
11 3 3 . I
i-37
1 2 4T 6 . 03
i-37
.48 •38
i-34
10 28 18.99
.26
+ I-33
+
2 2 I
5
o
7-6 '
i-37
+ i-37
8o
7 8.8
10 18.4
7 6
3
74-7 73
l 71.6 7
7 - 6 ^
1615
"5
ZI
6'.g 19 27.O 1 a 59-6 1 8
25-2
+ 22 20 26.6
1.32
21 23.8
57
i-3i
22 18.8
55 0
1.29
23
1.28 + 1.26 1.24
27 *3-79 27 3.61 * 53.«.
Z U «
1.19
2 6 4twl 3.97
g .2
1.17
1.22
II.3
2
+ 1.11
32 i 3 9 33-3i 768
970 851 733 613 492 37i 250
3 1 390
7-4
31 383
114
7.2
233
-7-i
3 1 497 33-3i 730
6.9
32 083
470
6-7
32 553
6-5
33 140
6-3
33 843 33.34 66I
-6.1 5-8 5-4
+ 22 24 4 8 . 6 ^ 2 5 33-4 42.o 26 I 5 . 4 ^
-4-9 4-6 4-4 4-i 3-8
8
1 086
7.6
5-6
30
1 202
3i
5-i
+ 22 28 35.8
1 317
7-7
52-5
1.14
33 244
8.0
49-9
1.2 ^
33 977
-7-8
*
24
4 2
39 403
5 2'. 1
1.36
7 i652 375 j 542 33.40 833 4 4 0 2
38 086
25"7 4 4
4 7 6 55 6 1 867 ? ? 45 789 i 7 2
8-5
2 2 2 . 9 81.8 3 4 4 - 7 81.0 8I.0
7
8.6 8.6 8.6 8.6
269 5 3 8'7 6 2 17 173i 5 J 1 i7 °03 2 074 33-49 6 2 9
8.6
+ 2 1 5 9 3 7 . 1 8 83.2 3 ; 2 +22 1 0 . 3 82.6
5-7
8-5
363
56 145
8
1.27
5
8.5
,
5813-3
1.32
453
8
5649.1
+22
539
2
-8.6
i-35
+ I-31
2
58 508
4
1.23
1.29
33.60 961
8-3 8.4
/
+215524.7
1943
66 124 2 7 0 4 , 2 624 63 500
8
+ 1.21
1945
-8.2
-8.6
5 1 I 0 - 7 84.6 52 35.3 8 4
28 30.37
9.13
71 611
44 r 3 . ° 8 2 3 4 5 35*3 o, T 46 58.4 83 * 4946.2^
i-35
10 27 24.20
8i
+ 2 1 4 8 2 2 . 1 4
1.36
6a
7.8
8.1
I.IO
•57
io
J
%A
+ 1.07
i-37
13 7 56-6o I 0 98 0.98 2 7 45-62 i o go
42 5 M
d O.1946
33-74 468
2 1 4 1 3 0 . 8 ^
1.04
•63
2
+
0-94 O.98 I.Ol
28 41.85
28 7-73
36 20.1
O.87
r-34
26 O 3 f4 -J5J5 10 26 25.42
zeit
-7-6 7-9
•37
7 34.82
Licht-
;
8.0
.48 •57
7 4
37 35-8 ! ! - ;
30 38.23 30 26.75
5.8
3 8 52-9 40 11.3
i-33
2
3 5
O.83
30 49.60
30
+ 2 1
O.79
+ O.9O
¿1.70 4.70
3 1 54-57
1950 o
0-75 5 3 7
33 22.92 33
Fixsternaberration
Deklination
s s
103329.90 33I5.56
W e l t z e i t
3-5 -3-3
518
128 7
353 587 7°3 818
93° 35 591 . ' 1 0 4 3 36 634 1 154 ™ „SS 37 788 39051 ^ 33-40 420 41 895 1 475 1 577 43 4 7 2 l 6 7 45 M g , , , 4 6 9 2 4 , ^ 4 8
793
33-50 7 5 3
7
I 9 6 o
1942 I94O O.I939 1937 1936 1935 1933 O.1932 1931 1930 1929 1928 O.1927 1926 1926 1925 1924 O.1924 1923 1923 1922 1922 O.I922 1922 1922 1922 1922 0.1922 1922 1922 1923 1923 O.I924 1924 1925 1925 1926 O.I927 1928 1929 1930 1931 1932 0.1933
Pluto 1958
113
0h W e 1 t z e i t Tag
Rektaszension 1950 o h
m
10 26 26 26 25 25 10 25 25 25 25 25 10 25
Fixsternaberration
s
25.42 16.59 8.06 59.86 51-99 44.46 37-29 3°-49 24.07 18.04 12.41
8 83 8 53 8 20 7.87 7 53 7 17 6.80 6 42 6 03 5 63 5 22 25 7.i9 4 80 25 2.39 4 38 24 58.01 3 95 24 54.06 3 51 10 24 50.55 3 o7 24 47.48 2 63 24 44.85 2 19 24 42.66 1 73 24 40.93 1 28 ro 24 39.65 o 82 24 38.83 0.31; «4 38.48 o 10 24 38.58 0 57 24 39- I 5 1.04 10 24 40.19 1 5i 24 41.70 1 97 24 43.67 2 43 24 46.10 2.89 24 48-99 3 35 10 24 52.34 3 80 24 5 6 -i4 4 25 25 °-39 4 69 25 5-o8 25 10.22 5 14 58 ro 25 15.80 65 01 25 21.81 6 45 25 28.26 6.87 25 35-13 7 29 25 42-42 7 7i 10 25 50.13 8 11 25 58.24 8 51 26 6.75 8 90 26 15.65 9 28 26 24.93 9 64 26 34-57 10 01 10 26 44.58
+
s I.II
Deklination 1950 o
+22 28 35.8
28;
1.08
1-05 1.02 +
O.99 O.96 O.92 O.89 O.85 0.8l
O.77 0-73 O.69 O.65 o.6r + 0-57 0.52 0.48 0.44 0-39 + 0.35 0.30 0.26 0.21 0.17 + 0.12 0.07 + 0.03 —0.02 0.06 —O.II 0.16 0.20 0.25 0.29 -0.33 0.38 0.42 0.46 0.50 -0-55 o-59 0.63 0.67 0.70 0.74 -0.78 +
292I.8
2 5 0
^ 22 2 29 u51.0 * 19.2 3010.2 , , 16 2 +22 30 26.4 13 2 30 39.6 10 2 30 49.8 7.2 30 57-o 42 31 1.2 1.2 +22 31 2.4 19 3i 0.5 4.8 30 55-7 7-9 30 47-8 10 7 30 37-i r 3 7 + 22 30 23.4 16 6 30 6.8 l 9 5 29 47-3 22 3 29 25.0 25 1 28 59.9 27 9 + 22 28 32.0 30 6 28 1.4 33 4 27 28.0 36I 26 51.9 38 7 26 13.2 41 2 +22 25 32.0 43.8 24 48.2 46 3 24 J-9 48 6 23 x 3-3 51.0 22 22.3 53 3 + 22 21 29.0 55 5 20 33-5 57 7 i9 35-8 18 36.1 59-7 17 34-2 61.9 + 22 16 30.4 63.8 15 24-7 65 7 67.6
il ' I i
69 3
i3 7-8 71.1 11 56.7 72.7 + 22 10 44.0 74 3 9 29.7 75.8 813.9 77.1 6 56.8 78.4 5 38.4 79-7 4 18.7 80.8 + 22 257.9
Fixsternaberration
Lichtzeit d
-3-3 3-o 2-7 2-4 2.1
-1.9 1.6 r -3 1.0 0.7 -0.4 —0.1 +0.2 o-5 0.8 + 1.1 1.4 1.6 1.9 2.2 + 2.5 2-7 3-o 3-3 3-5 + 3-8 4.0 4-3 4-5 4.8 + 5.0 5-2 5-4 5-6 5-8 +6.0 6.2 6.4 6.6 6.8 +6.9 7-i 7.2 7-4 7-5 7.6 + 7-8
33-50 753 2 049 0-1933 52 802 2 135 1934 54 937 ;2 217 1935 57 i54 2 298 1937 59 452 2 376 1938 33.61 828 .2 45° 0.1939 1941 64 278;2 521 1942 66 799 2 589 1944 69 388; ' ~ 2 653 r 945 722 0411 7 04 2 ji 33-74 755 0.1947 •74 ^ *7
+ +
2 98 10
—
24
17 29 95 19 20
+43 + 4 + 71 -52 —21
-
+ + + +
+ — — —
+ + —
+ —
+ -
+ — — -
II
1
'32 + 15 + 13 - 4 -27 — 1 + 28 + 36 -37 —21
6 2 160 8 9
- 8 -75 +67 + 38 -19
7 39 8 17 41 10 55 9 73
4
+ 61 —
+ —
— — — —
332 3 2 1
26 489 167 41 15 2 8 46 20
Jährl. Eigenb e w . in
o'ooi
1958.5
-62 + 33 + 59 -26 -16
-
+ + + + + + 3.7897 +
+ 4.8148 + 2.6238 + 1.8295 +1.0830
Jährl. Veränderung
0*0001
s
5 7 22.245 5742.891 328.699 4 1.143 4 19.106
x
A 5
Jähr}. Veränderung 1958.5
3i*
tt
14 18 20 21 25
18.25 46.14 "•54 2.52 46.08
53 8 14 59 9
23-50 51.21 29-39 44-33 49.08 50.87 35-56 58.83 49-38 0.98
//
+ 4.182
-
+
—
4-2II
+ 4-4I3 + 4.512 + 4-4*7
+
+ + + + + + + + + +
+
4-767 4-728 4.803 4-784 4-771 4.967 4.922 5-388 5-441 5-304
+ 11 + 53 + 73 -35 -16
37 0 47 56 44 24 43-oi 33 41.06 1 59-96 58 1 8 . 5 3 5 3i-73 0 40.72 52 24.96 35 15-67 3 28.37 1 45-85 3i 6.14 17 25-05 16 41.28 29 5 8 . 2 8 2 7.67
+ 6.532 +6.660 + 6.666 + 6.598 + 6.796
-44 -40 + 11 + 3 + 79
32 41 5i 1 3i
23-47 48.56 11.21 46.64 13-40
+ 6.808 + 6.820 + 7-740 +7.218 + 7.170
40.75 40.21 24.18 48.11 3i-7i
+ + + + +
-29
-54 + 19 + 44 + 57
49 24 48 50 56
+ 5-552 + 5-693 + 5-677 + 5.648 + 5-764 + 6.055 +6.079 +6.332 + 6.438 +6.444
7.164 7-236 7.190 7.161 7-275
— —
17 2 25 55 187 82
+ 36 + 47 + 8 —
+ — — — —
-
+ — —
—
+ + —
14 1 74 94 87 250 9 87 0 99 37 7 12 93 2 16
+ 18 + 123 + in —
2 6
—
118
+ 640 + 85 —
3i
-
45
+ 15 — —
+
46 77 9
Name
Größe
Nr.
Spektrum
Mittlere Sternörter 1958.0
32*
AR. 1958.0
Jährl. Veränderung 1958.5
Jährl. Eigenbew. in
+ + + + +
s 2.4961 3.1366 + 1.51X8 + 2.4192 2.2291 —
[[i. Aquilae] [t Telescopii] 52 Sagittarii [x. Aquilae] & Cygni
m h m s 4-&3 M o 19 26 57.368 5.22 M o 19 28 27.989 3-94 A 2 19 28 38.780 3-24 Ko+Ao 1929 I.563 19 30 12.550 4-85 B 3 4-65 K o 1932 2.186 5.02 K o 19 32 6.277 4.66 B 9 19 34 9 - I 5 5 5-04 B 0 19 34 37.883 4.64 F 5 19 35 18.817
+ + + + +
2.9302 4.4466 3.6490 3.2263 I.6074
1512 1513 1514 I I 5 5 740
[54 Sagittarii] [ß Sagittae] [55 Sagittarii] [10 Vulpeculae] 15 Cygni
5-45 4-45 5-io 5-45 5.02
19 38 19.039 19 39 9-673 19 40 6.999 194158.043 19 42 45.604
+ + + + +
3-4354 2.6941 3.4298 2.4942 2.1634
1516 15 T7 741 739 743
[228 G. Sagittarii] [56 Sagittarii] y Aquilae |v Telescopii] 8 Sagittae
19 43 20.557 19 43 54-775 194415.716 19 44 35-892 1 9 4 5 30.818
+ + + + +
3-8253 3-4978 2.8516 4.8930 2.6747
744 745 746 1518 1519 1520 749 1521 1522 748
[51 Aquilae]
Name
Nr.
ca ••o u
Ü
AR. 1958.0
O, tn
m 3-83 4.60 5-14 6-53 4.24
[(A Aquarii] P Indi 32 Vulpeculae [64 G. Capricorni] v Cygni
4.80 3.72 5-24 5-95 4.04
[33 Vulpeculae] [ n Aquarii] [59 Cygni] [y Microscopii] [oc Octantis]
5-57 6.26 4.88 4.71 5-24
20 50 23.347 205132.517 20 52 46.084 20 55 19.629 0 A 0 20 55 36-3 9 20 56 23.579 K5 20 58 21.126 G o 20 58 23.716 B g 5op 20 58 43.150 F 2 20 59 42.O9O
5-35 3-92 4.19 7.10 4.60
F 0 K5 Ao K2 Mo
5-57 6.28
K S K 5
OI7-255 3 24-055 335-283 4 24-059 440-439
h m s 2045 24.181 204531.283 20 45 38.676 20 47 7.626 20 49 19.074
A 0 Mo F 0 M3 Mo A3 Ko K5 A3
* 6 i Cygni pr Br 2777 Ceph v Aquarii [y Equulei] [0 Pavonis]
5-90 4-52 4.76 5-08
[58 G.Microscopii] SCygni [23 G. Indi] a Equulei [24 G. Indi]
5-55 K 5 3-40 K o 5-84 A 5 4.14 F8+A3 6.70 K o
5 M54 6 22.250 7 18.434 8 17.917 9 26.225 1048.109 11 8.784 12 46-453 1343-423 15 1.428
[e Microscopii] [a Cygni] [u Cygni] a Cephei [•9-1 Microscopii]
4-79 4.28 4.42 2.60 4.92
Ao A op B 3P A5 A 2p
15 23.698 1545.810 16 11.293 17 34.619 18 4.797
[Grb 3434 Cygn] [1 Capricorni] 1 Pegasi [18 Aquarii] y Pavonis
6.81 4-30 4.27 5-54 4-30
K2 Ko Ko A5 F 8
18 19 20 21 22
Nr. 793.
rung
1958.5
s Aquarii [3 Aquarii] [1 Microscopii] [-i°4057Aqar] [w Capricorni]
Z, Microscopii Cygni] Capricorni] [—o°4i6i Aqar] [A Capricorni]
Verände-
B9
Ko F op Mo
19.605 54-595 8.543 53.862 59.819
+ + + + + + + + + + + + + + + + + + + +
Jährl. Eigen bew. in ofoooi
Jährl.
Dekl. 1958.0
Veränderung
1958.5
20 - 9 39 3-2459 + 2 - 5 10 3.1641 4.0624 + 167 - 4 4 8 3-0835 24 - o 43 3-5776 7 -27 4 26 - 9 8 3-2343 + 23 - 5 8 36 4.6801 + 2.5571 6 + 27 53 3-3564 + 31 —16 11 2.2369 + 5 + 41 o 2.6820 6 + 22 9 26 - 4 53 3-I574 + 0 + 47 21 2.0404 o - 3 2 25 3.6767 7-2345 35 —77 11 24 - 3 8 47 3.8294 4 + 43 45 2.1826 57 - 1 7 24 3-37°5 6 - o 16 3-0785 20 —25 10 3.5062 32 57 32 57 17 47 3 26 4 53 20 13 43 24 59
+13.212 + 13.214 + 13-157 +13-344 +13-496
45.52 36.89 22.64 23.74 il.01
+ I3-954 + 13.940 + 14.078 +14.100 +13-795 +14.082 +14-386 + *4-339 +14-458 + 14.416
48.53 34-35 3.14 27.11 30.02 20.33 23.70 34.40 40.92 58.67 30.79 13-73 17.70 23.58 38.55 57.13 4-23 10.81 25.84 17.94
+ I3-539 + 13.623 + 13.721 + 13.882 +13.889
+17.668 + 14.596 +14.606 + 14.526 + 14.714
+ 2.6898 -1-2251 + 3.2662 + 2.9174 + 5.6089
+ 3522 + 60 61 + + 38 + 85
+ 3-554Ö + 2.5536 + 4-2759 + 2.9983 +4.0803
+ + + -
+3-6341 + 2.3569 + 2.4672 + I-4307 + 3-8325 + 1.9295 + 3-3384 2.7746 3.2766 +4-9479
+ 39 4 + 6 + 212 + 56 6 + 52 52 46-7° +15.260 + + 22 - 1 7 o 52.33 + 15-356 + 72 + 19 37 26.17 + I5-430 60 - 1 3 3 33-8I + I5-47I + + 151 - 6 5 33 28.25 + 16.321
73 4 18 36 24
+ 38 + 77 -11 + 9 -70 -27 + 30 -53 + 5 -48 -32 + 39 + 34 + 62 -40
2.63 57.66 34.98 10.51 39-57 31.58 51.21 49-02 40.10 17.01
+ 14.710 + 14.792 + 14.930 14-9I3 + I4-993 15.072 15.111 15-r35 15.269 + 15.246
O r t des S c h w e r p u n k t e s . Die R e d u k t i o n a u f den Ort des helleren S t e r n s b e t r ä g t nach den E l e m e n t e n v o n S t r a n d ; (siehe Veröff. des A s t r . R e c h . - I n s t . Heidelberg Nr. 4, S. 10, 1 9 5 4 ) :
I958.O 1959-0
A a = —os7ii = —o 710
A 8= =
+io"43 +10.50
1563 806
1564 807
1565
Na me
[y Indi] £ Capricorni [2 G. Pegasi] [71 Cygni] [2 Pegasi]
P Cephei P Aquarii 1566 [6 Piscis austr.] 1567 [3 G. Gruis] 1568 [p Cygni] 809 808
8 l l 74 Cygni 1569 [E Aquarii] 1570 [5 Pegasi] 8lO v Octanjfcis 813 [13 H. Cephei] 812 817
815
814
[y Capricorni] [11 Cephei] e Pegasi [1 Piscis austr.]
I57I
[+35°4626Cygn]
1572
[v Cephei] [X Capricorni] 8 Capricorni [11 Pegasi] ti2 Cygni
818 819
1574 821
1573 [13 G. Gruis] 820 [0 Indi] 1575 [14 Pegasi] 1576 [127 G. Capricor.] 15 77 [(A Capricorni] 823 16 Pegasi 822 y Gruis 1578 [Br 2880 Ceph] 1579 [Pi 2i h 339 Pegs] 824 [8 Indi] 1580 826 825 1581 827
[98 G. Aquarii] [20 Pegasi] [e Indi] [X Gruis] a Aquarii
m 6.24
3-86 6.66
5-34
4.76
3-33 3-07 5-99 5-73
4.22
5-09
4.78
5-29 3-74 5-97 3.80
4-85 2-54 4-35 6.60
4.46
5-43 2.98
5-50 4.26
5-75 5-50 5.00 6.85
5.18 5-05
3.16 6.58 6.62
4-56 6.42
5-66 4-74
4.60
3-19
Spektrum
Nr.
Größe
Mittlere Sternörter 1958.0
F 0 G5P Mo Ko K5 B 1 Go A 2 Ko Ko A5 A5 F 0 Ko 0 e5 F op Ko Ko A0 Ko A 2p Ao A5 A0 B3
A R . 1958.0
h m s
s
21 23 16.450 + 4.2725
21 24 16.324 + 21 26 20.556 + 21 27 53.800 + 21 28 2.589 +
3.4228 2.9569 2.2147 2.7179
7.517 + O.7698 21 29 20.904 + 3-I5Ö9 212942.473 + 3.6261 2128
21 30 40.674 + 3.8827 21 32 23.898 + 2.2573
21 35 15-749 + 2.4055
Jährl. Eigen bew. in
+ + + + + + + + -
— —
+ + +
21 37 45-948 + 3.3218
+ + + + +
+ + + +
21 41 18.735 + 0.8745 2142 7.323 + 2.9462
21 42 26.997 + 3.5703 21 43 57-492 + 2-5447
-
c 8
r 4 42
13 21 12 6 18
25
21 21 21 21
B3 B8 A0 K5 F 0
21 51 21 51 21 52 21 54 2155
21 45 32.358
47 16.049 47 59.028 49 1.380 51 0.456 8.916 23.472 17.998 25.994 4.396
2156 43-555 2 1 5 9 2.467 22 0 9.674
22 3 35-391 22 3 37-589
3.8962 5.0586 2.6546 3.4124 3.2689
+ + + +
2.7305 3.6286 0.6953 2.8054
+4-0759 + + + + +
+ -
+ + + + + + -
+
/
131 235 18 29
75
i59 44
tr
+ 70 22 34.38 - 5 45 24.87 - 3 4 7 50.89 - 4 5 2 7.78 +45 24 19.82
+ + +
IO9 6
27 — 32
— —
+15-934 + 15-938
-
- 1 6 5i 10.96 + 16.284 + 71 7 4-45 + 16.589 + 9 40 53-79 + 16.529 - 3 3 13 6-37 + 16.450 + 35 39 46.45 + 1 6 . 6 3 1
—
+ + + + +
+ 6 0 55 35-54 + 16.629 —11 33 37-89 + 16.626 —16 7.68 + 16.359 + 2 29 27.98 + 16.675 +49 6 52.66 + 1 6 . 6 7 9
-47
-23
3.1277 — 4 2.9226 + 35 4.5796 + 4806 3.6118 — 18 3.0804 + 10
46
+
10
85 79 3 63
+ 15.814 + 15.862 + 15.883
+ +
16.196 16.169 16.221 16.023 16.300
253 2
n
+ 46 21 17.07 + 15.897 + 23 27 13-95 + 15.803
-69 + 29
211
Jährl. Jährl. Verände- Eigenbew. In rung 0.00z 1958.5
- 5 4 50 35-29 +15-583 —22 35 39-58 + 15.619 + 8 0 42.83 + 15.672
7 + 4 0 13 27.17 74 - 8 2 36.66 70 + 19 7 43-59 187 - 7 7 34 42.25 7 + 57 17 54-99
2 1 4 4 14.119 + 1.7310 — 7 21 44 16.507 + 3.2276 + 17 2 1 4 4 43.467 + 3.3092 + 181 2 1 4 5 6.151 + 3.0416 + 5 2 2145 I 4-3 I ° + 2.2176 + + + + + +
Dekl. 1958.0
0?000I
3.1921 2.8077 6.6369 1.8617
21 35 30.991 213547-401 2 1 3 6 53.159 21 37 39.286
Gr 5 K 2 A0 F 8 F 0
Ko F 2 K5 K 2 Go
Jährl. Veränderung I958-S
35»
-13
29 44.81 + 49 34-56 + 58 40.51 + 28 1.26 + 45 1.42 +
16.397 16.773 16.785 16.775 16.965
+ 25 43 36.52 + 16.961 - 3 7 33 47-75 + 16.957 +73 30 12.70 + 1 7 . 0 4 1 + 21 2 22.29 + 17.128 - 5 5 11 35.92- + 17.136 - 4 34 17.84 + 16.959 + 12 55 5.06 + 17.270 - 5 6 57 34-95 +14.820
- 3 9 44 48.54 + 17-399 — 0 31 28.59 + 17.511 c>
r3
4
3
4 90
19 — 22
+ -
16 240
0 22
+ 105
+ —
+ -L — —
+ + — — — —
+ + —
+ +
5 9i 17 2
4 293 5 2
295 3 23 84 14
3
12
3i
—
3
—
254
—
46
-2546 —
114 4
36*
Nr.
Ñame
Größe
Spektrum
Mittlere Sternörter 1958.0
830 828 831 829 832
20 Cephei 1 Aquarii [1 Pegasi] oc Gruis [¡jt. Piscis austr.]
m 5-39 4-35 3-96 2.16 4.62
833 834 835 837 836 838 1583 1582 840 839 841 1584 843 842 844
[27 Pegasi] fr Pegasi 7t Pegasi 24 Cephei £ Cephei [X Piscis austr.] [1 H. Laceriae] [125 G. Aquarii] Aquarii [e Octantis] a Tucanae [47 Aquarii] [31 Pegasi] y Aquarii ¡3 Lacertae
1585 1586 1587 845 846
[:K Aquarii] [Pi 22H 97 Pegs] [72 G. Indi] [v Gruis] [81 Gruis]
1588 1589 847 1590 I59 1 1592 1593 848 1594 849
[36 Pegasi] [Pi 22H 120 Pegs] [S Cephei] [38 Pegasi] [a Aquarii] [(3 Piscis austr.] [p Cephei] a Lacertae [Grb 3834 Ceph] [u Aquarii]
850 851 1595 853 852 854
7] Aquarii 31 Cephei [x Aquarii] [30 Cephei] io Lacertae [e Piscis austr.]
5.65 3-70 4-38 4-99 3.62 5-40 4.64 6.60 4-32 5-ii 2.91 5-40 4-93 3-97 4.58 4.64 6.40 5-70 548 4.02 5.82 5-96
3.7-i
4
5-51 4.89 4.40 5-50 3.85 5-74 5-29 4-13 5.22 5-33 5-21 4.91 4.22
K5 B8 F5 B5 A2 Ko A2 F5 05 Ko B9 K2 G5 Ko M3 K2 Ko B3P Ao Ko B ip Ko A3 Ko G5 K2 K2 Gov Ao Ao A0 A2 Ao A0 F5 B8 F 0 Ko A2 OES B8
Jàhrl. Jfihrl. Eigen AR. 1958.0 Verände- bew. in rung ofoooi 1958.5 h 22 22 22 22 22
ms 3 43-751 4 10.210 5 3-173 5 35-670 556.274
22 7 21.770 22 8 4.801 22 8 7.122 22 9 0.199 22 923-589 22 11 56.147 2212 4.335 22 12 21.841 22 14 37.082 22 15 26.549 22 15 38.539 22 19 17.017 22 19 26.927 22 19 29.204 22 21 54.203 22 23 7.886 22 23 38.916 22 25 33.722 22 26 11.852 22 26 45.989 22 27 2.138 22 27 11.942 22 27 36.347 22 28 6.325 22 28 25.513 2229 7.338 22 29 31-.568 22 29 33.346 22 31 32.325 22 32 23.914 22 33 11.869 22 34 43.8I3 22 35 34-872 22 37 9-265 22 37 22.328 22 38 20.163
Dekl. 1958.0
Jährl. Jährl. Verände- Eigen bew. in rung o'oox I958-5
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855 856 857 858 1596
N a me
Ç Pegasi P Gruis 7) Pegasi [13 Lacertae] [45 Pegasi]
859 X Pegasi 1597 [68 Aquarii] 1598 [—2° 5826 Aqar.] 860 e Gruis 8 6 l [t Aquarii] [¡x Pegasi] 1 Cephei 1599 69 G. Gruis 864 X Aquarii 865 p Indi 862 863
8 Aquarii
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Scheinbare Sternörter 1958 Obere K u l m i n a t i o n 52) 51 Andromedae
Tag
AR.
Febr.
0 10 20 30 g
19 März 1 11 21 31 April 10 20 30 Mai 10 20
2 4-374
30 Juni Q 19 29 Juli 9
25-390 25-749 26.140
24-453 j , , 24-598 208 24-806 2 6 7 2 5-°73
1
Okt.
Nov.
Dez.
59-o8 57- I 7 i 6 7 55-5° J Ï.V7 54- r 3 ° IOI 53- 1 2
;
26-553 22 2 £L 4 2 975 422
62
52-50 2 I 52.29 ~ 52.50 6 53.13 JJ IOI 54-^
I38
2 55-5 ^ 171 57- 2 3 J 200 59-23 223 61.46 3
27-397 4 I 2 27-809 28.201 39 28.567 3 6 6 241 28.899 332 63.87 0 ' 254 w 294 7 f 263 29-193 253 17 9-04 265 27 29-446 7 9 264 29-655 l 6 7 74-33 256 3 ^ 117 76.89 16* 1529.818 v ' 243 29-935 7 2 26 30.007 27 5 30.034 ~ 15 30.017 6 l 85.42 , 25 29-956 I O I 86.88 1 4 6 m 5 29. 55 I 4 Q 87-99 72 2 9-7 I 5 15 88.71 7 25 29.541 ^ 203 0 29 89.OO 29-338 35
19 29 Aug. 8 18 28 Sept.
Dekl.
+ 48° 24' i h 35 m // s 26.007 73-22 2 ' 215 25.792 ? 231 25-561 239 72.84 £ 72.02 J 70.8I 25.086 0 221 ' 155 69.26 „ 24.865 r 182 c. 94 6744 , ' 202 2 4-5 i 6 65.42 J -T 212 24-410 4 9 63.3O ,J 215 24-361 " 6I.I5J 207
1958 Jan.
54) a Eridani
Mittl. Ort 24.129 sec 8, tg S + 1.507 a, a' b, V
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58.52 + 1.127 +18.3 — 0.40
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52*
Obere Tag 1958
70) 50 Cassiopeiae
ih
AR.
+ 72 12'
59«
o 10 20 30
Febr. 9
19 März 1 11 21
31 April 10 20 30 Mai
10 20 30
Juni
9
Juli
29 9
19 29 Aug. 8 18 28
Sept. 7 17 27 Okt.
7 17 26
Nov.
5
Dez.
15 25 5 15 25
35
1
2h I "
Dekl.
+ 42° 7'
87-73 93 88.66 35
52-32 55 51-77 60 5i-i7 62
89.01 24 88.77 81 87.96 136 86.60 184 84.76 224 82.52 256 79.96 276 77.20 285
50-55 61 49-94
59
49-35
53 48.82 45 48.37 35 48.02 23 47-79 9 47.70 4 47-74 18 47.92 32 48.24 44 48.68 55
74-35 283 7 I - 5 2 270
68.82 248 66.34 218 64.16 180 62.36 60.99 137 90 60.09 41 59.68 9
49-23
65 49.88 72 50.60 77 51-37 81 52.18 82
59-77
53-oo 82 53-82 80 54.62
60.36 61.42 62.94
75
59 106 152 193
64.87 230 67.17 262 69.79 290 72.69 310
55-37 „
56.08 71 64 56.72 56 57-28 48 57-76 39 58.15 29 !2 58.44 19
75-79 325 79.04 82.38 334 335
58.63 „ 58.71 ,
85-73 328
58.68
92-15 293 95.08 262 97.70 223
89.01
3
14
58.54 o 24 58.30
35
57-95 44 57-51 51
314
99-93
179 101.72 128 103.00
57.OO
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48.17
sec S, tg 8 a, a' b, b'
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+
75) ß Trianguli
+ 34° 47'
s
s.
S
Jan.
Greenwich
73) y Andromedae pr
Dekl.
AR.
Kulmination
45.16 + 0.904
47.989 + 1.089
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0.51
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56.35 165 58.00
171
59-7i 173 61.44
63-15
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165 64.80 156 66.36 145 67.81 69.12 131
70.27 " 5 99 71.26 82 72.08 66 72.74 48 73.22 3° 73-52 12 73-64
6
73-58 23 73-35
3-895 145 3-750 167
31.81
3.032 2.864 2.720 2.6l0 2.542
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5 31-76 33 31-43 62 30.81 87 29.94
3-583 181 3.402 187 3-215 183
2.523
2-557
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2.646 143 2.789 194 2.983 241 3-224
9 - 6 ° .g
18.82 18.15
28i
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3-505 314
3.819 337 4.156 351 4.507 357 4.864 355 5-219 344 5 - 5 6 3 326 5.889 303 6.192 276
25-14 26.98 28.91
245 6.713 212 6.925 177 7.102 141 237-243 105 7.348 70 7.418 34 7-452 2 7-413
37 71
7-342 103 7-239
45-73 42 46.15 46.28
7.106 133
53."
2-159 1.218
171 184 193 197
30.88 198 32.86 34-8I 195 188 36.69 179 38.48 166 40.14 151 41.65 134 42.99 114 44-13 92 45-05 68
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+ 0.430
+
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13
Scheinbare Sternörter 1958 Obere K u l m i n a t i o n 78) |j. Fornacis
Tag
AR. 2
1958
h
1
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AR. 54'
2h
0 10 20
4458
l 6 l
4"297
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4"
30
Febr. 9
1 2 1
186
3'935
l 8 g
3-746
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83.60 0 84-70
1 1 0
ü 5 4 2 85-73 85.63
5 "
6
März
3Ö 2
1 11 21
3.389
J3.238 J
124 88 3.026 , J 46 2.980 0 3 - " 4
31
April 10 20
2 98
Juni
10 20 30
9
19
17
27 Okt. 7
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5
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5
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De kl. m
848.643
IAI 77
48.875 48-827
2 *
48.722 48.568154 48.375193 219 4 -T8 . 1 5 6 2 o 2 47-92 4 2 3 I 2I9
i63
4
7 - I X 122 46.994 7 8 46.916 46.885 46.903 46.969 47.080
^ IIt i54
47-234 4 7 - f 7 229 47-656 2 6 o 47-9J6 288 48.204 T ^ 312 48.516 48.849 3 3 3 49.199 362 49-561 49.932 ^ 374 50.306 ? 371 5 77 3 ^ 8 5-°3 U 2 51-380 42 5-694
7h
De kl.
i5m
-37°
tt
n
48.784 48.861
47.693 47-474 4 7'279
AR.
+39° 23'
s
2
4 3
43-755 44-054 44-341
19'
2
42.296 4 2 - 58 6 5 42- 5o
AR.
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43- 9° 43.166 4 3 . 0 9y 1
274) 63 Aurigae
De kl.
AR.
tr
653-494
G r e e n w i c h
273) S Canis maj.
271) y Canis maj. De kl. AR.
Tag
Jan.
K u l m i n a t i o n
83*
^
5-970 5 2 - 2 0 ° 176 52.376
I
5-7I 16.61 , x 7-63 b 18.72 0 19.82 * 20-87 2 1 . 8 3J , 22.64 23-25 23-65 23-81 23-74 23-44 22 -93 22.25
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90
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68 83
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32
i5 -
7 - I 3 24 7 -J3/7 ' 45 7-82 , 65 8-47 83 9-30
46.113 + 1.294
27.43 +0.821
+ 4-i —0.02
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23.25
8I
2
4I-874 23 4I-897 « 41.862 35 91 41.771 ^ " 140 41-631 l8 41.448 2 4 - 2 3 3 238 4°-99 5 25g 40-745 2 J 2
330 5 5 316
29 2-
f
3 5 2644 3 5 . 2 97 230 37-59 1 9 I 39-5° I48 40.98 ^ 7 103 42.01 42-59
40.493 2 4 2 4 0 . 2 05 1 ^ 2244 40.027 39.828 l6 f 7 39.661 129 39-532 39-442 39-395 4 39-391 39-431 82 39-5I3 I a 39.636 l 6 39-799 I 9 8 39-997 40.228 : ^ 261 40.489
333 42.38 41.62 ^ 119 40.43 57 J3 8 . 8 6 192 36-94 2 2 2 34-72 32.26 Z ^ 265 29.61 26.86 2 7 ^ 278 24.08 c 272 21.36 18.79 257 234 1 6 - 4 5 202 x 4 43 l 6 l
287
307 4 - o 8 3 2; 41-404
12.82 11.68 II.07 11.02
333
1 1 - 5^5
42.068 , ^ 326 42.394
12.66
4 2 7 0 7
42.996 43-253 43.638
\2
4 2 7 1
4 0 7 7 6
4 1 7 3 5
i'
289 2j7
I
4-32 16.48
166 6
0
292
19.06 v -I
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39-5I3 + 1.252 + 2.1 + 0.02
I I "I aI ® 258
5 3 28.41
„
43-753
-
a
21.98 2
"4 6i
315 328 3
33°
15-29 -0.754 -6.5 —0.95 F*
84*
Scheinbare Sternörter 1958 Obere 277) X Geminorum Dekl. AR.
Tag 1958 Jan.
1 10 20 30 Febr. g 19 1 11 21 31 April 10 20 30 Mai 10 20 März
30 Juni
Q
7h 15m s 42.888 9 123 43-011 43-084 7l 43-105 3 I 43-074 7 8 4-996 150 42.728 ^ 42.557 4 42.374 i 8 3
Aug.
25 51-57 I 3 51-44 i 51-43 ~8 5 I ' 5 I I3 51-64 I 7 5i.8i l D 18 51.99 IQ
53-07 I 9 53-26, 20 53-46 2 o 53-66 OA 2 0 53-86 JJ 19 54-05 I 5 54-20 „ 54-31 3 54-34 6 54-28 i 8
25
" 5° «7
Ì10 97
I20
1-9
4I"8f 41.969
I52 l8l
16 26 36
40
41-572 4 I -547 2 41.560 4 I 41
Sept. 7 17 27 Okt. 7 17 27 Nov. 6 16 26 Dez. 6
55
5 - 1 » 4 4.01
^
^ 63 4-63 I 2 7 5-90 7.78 l88 ' 242 10.20 „ 289 1 30 . 0 9V 325
171
23-52 7-74
-1.321
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-0.88
35-33 0 35-33 2 I 35-54 8 35-92 l 36-45
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72
58.959 I 4 58.973 " 58-932 58.842 ^ 5 8 . 7 " l 6l O 2 58.549 58-366 2
37-°8 69 37-77 7G 3 8 -47 65 39-12 ' 39-70 4 g
40.18 58.174 0 !9° 40.54 J 57.984 ^ 0 179 ^ 7 40.76 57-646 » 40.85
22 9
;
40.80
5 7 - 5 1 4 4
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8.894282 302
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338
339
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316
85
25.89
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25.37 32 25.05 24.94
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49-05 0.530
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2
m
7.24
139
8^83 21
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8.962
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23.06
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147
8.691
189
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9
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6.878 199 ' 170 6.708
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1958 1
II.485
11
II.712
21
II.887
3
1
Febr. 9 März
19
1
11
21 3i
A p r i l 10 20 30
Mai
Juni
10 20 30
9
19
Juli
29 9 19
Aug.
29 8 18 28
Sept.
7 17
27 Okt. 7 17 27
Nov.
6 16 26 Dez. 6 16 26
//
175
c. « 9 12.000 / 1 , 61
12.067
12.072 12.023
38-43 38.28 38.40 38.76
I5 6
39-33 49 ^
II.927 133
«
9
5
84 89
41-78
89
4 - 7 43-51
84
4 0
4° 2
"•794 " • ß 3 3 178 "•455 i84
72
6
7s
44.26
11.271 „ 44-88 0 1„8 2 11.089 7 169 4 5 . 3 6 10.920 45-68 7 ISO 10.770 '' 125 45.83 i o
-645
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1958
Greenwich
9h
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3
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3 3 - " 9 226 51-474 ,73 5 - 7 4 7 £ i f 356 33:528 183 5-949 I 2 6 55^86 371 52.075 50 59.61 375 33-663 ^ 52.125 - 63.31 370 „33-748 I0J
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Tag 1958 Jan.
1 11 21
Febr. 10 19 März 1 11 21 3i April 10 20 30 Mai 10 20 30 Juni i) 19 29 Juli
9
19 29 Aug. 8 18 28 Sept. 7 17 27 Okt. 7 17 27
Nov.
6 16 26 Dez. 6 16 26 36
gh 27111 s 32.649 32.888 2 3 9 33.076 33.208 „33.282 7 4 33.300 33.265 8 ^.182 123 33-059 32.904 l ? g 32725 I 9 4 32.53 1 ¿.QQ 32.331199 32.132 31.940 1 7 ( ) 1
3-76 160
31.601
31.463¿ 3 I 3 -35° 031.266
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//
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5 3
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Mittl. Ort 30.564 sec d, tg d 4-1.232 a, a' +2-5 +0.04 b, b'
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104*
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406) $ Carmae
407) 42 Leonis min.
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33.206
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43-24 295 297 4°- 2 7 288 37-39 268 34-7i 236
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35-86
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56.52 56.11
56.09
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56.45
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34-320 34-196 34-053
60.69 143 62.12 144 63-56 138 64.94 126 66.20
82 334-47i 29 34-5oo 20 3 4 . 4 8 0 62 3 4 - 4 1 8 98
33-900
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57-31
124 143 153
6 8 . 9 0 44 6 9 - 3 4 19 69-53 6 6 9 . 4 7 3i 6 9 . 1 6 56 6 8 . 6 0 80 6 7 . 8 0 103 6 6 . 7 7 125 65-52 6 4 . 0 7 145 166 62.41 183 60.58 198 58.60 212 56.48 221 54-27 226 52.01 49-74 227 221 47-53 210 45-43 191
Il8
99 77
99 135 3 3 . 2 6 1 174 33-435 213 3 3 - 6 4 8 251 3 3 . 8 9 9 287 34.186 317 3 4 . 5 0 3 342 34-845 358 35-203 363
25.98 - 2.066 -18.9
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- 0.34
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+3-3
91 68
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31 63
36.262
III
68.22
32.964
35-566 35-923
98 120 136
154
54 28 o
33.027 33.126
59-33
67-31
157
32.961
32.933 32.933
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357 339
43-52
167
41-85
137 4 0 . 4 8 101
39-47
74-55
+ 0.599 -18.9 - 0.33
409) 53 Leonis AR.
+30° 53'
43m
s
//
VW** 17 f 7 M6
Dekl.
AR.
IOh 4 7 1 4.266
4-557 4.816
5-035
291 259 219
x 74 5 . 2 0 9 126
5-335 45-4i4
5446
5-436 5-391
79 32 10
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5-054
258 287 5-599 3°9 5 . 9 0 8 323 6.231 328 5-312
6-559
322 6.881 305 7.186
3.OI7 + I.018
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64.55 + 0.190 —19.0 0.31
Scheinbare Sternörter 1958 O b e r e 415) 239
Tag
G.
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1958
416) ß Ursae
Velorum D e kl.
AR. h
58
m
-41°
AR.
59'
IOh
s
Jan.
1
I 5
11 21 3i F e b r . 10 20 März
2 11 21 3i
April
Mai
Juni
15.771 i
16.023 , ° IÖ.22I
3
16.478
3
^•459
100
16.014
1,3
20
15-843
£
30 9
i s3 6 6 1 1 n8n8 I5 -47-> * 5 - 2 8 4 184 15.100
7 17 27
Okt.
7
85-04 86.80
4-7
6
4
14.622 ^
I4-4I3 14-356 14-338 M-364 J 4-437 14.560
272 243
211 T„, 176
88.19
139
89.18
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89.70
175
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9-383 z 9-239 19.138
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394
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68.08
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0.27
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68
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170
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56.593
ii 43-66 42.11
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74.75 + 0-379 —19.6 — 0.21
4 5
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61.097 , 112 62.21 r 112 ^•33 Io6 64-39 ^ 65-35 8 4
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3-534 3-468 3-422 3-397 3-398 3-427 3-487 3-582
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132 3-7*4 * 3-884 * 4-°92
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30
Juni
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16.746
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ff
6.11 303
%
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108*
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Dekl.
AR. Uli
1958
20m
Jan.
1
23-29
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59
21
24-42
[I
3i
24.89
%
20 März
2
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Mai
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1
7
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25
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19 Aug.
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29 8 18 28 7
39
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-
2 I
-5°
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17
27 Nov.
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6 16 26 6
22.99
6 o
24-64
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26.49
a'
b,
b'
£
23-49 24-04
36
a,
93-77
i
6
251 272
22.54 + 2.328 + 3.6 —O.I4
58-45
2
58.93
5
59-31
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59.69 59.70
212 0 98.32
58.68
38
58-24
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57-76
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22
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s I.966 2.403 ^ 2.810 4 ° 7 365
37-32 39-77 41.92
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Dekl.
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log 5.836 ^ u 104
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49-55 50.11
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Mittl. Ort 30.387 sec 8, tg 8 J- I.OOI a, + 3-1 b, 6' 0.00
a'
Dekl.
3I-349 313 31.662
Greenwich
447) y Ursae m a j .
445) ß Virginis 1
Tag
Kulmination
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204 216 224 226 220
2.467 A 207 2 - 2 6 0 187 2 "°73 158 r - 9 r 5 121 i-794 y 6 1-718 „ I.694 35
99 1.828 f r 7 2 9
J-993
2.223 2.516 2.865 3.260 3.690 0 v 4.I4O 4-596 5.O42 IO.342 + 1.572 + 3-1 + 0.08
165
230 293 349 395 430
450 456 446
245 215
43-7i 45-13
179 142 102
34-76 245 32.31 239 29.92 222 27.70 196 25-74 162 24.12 119 22.93 69 22.24 l6 22.08 39 22.47 9 4 23-4I 147 24.88 195 26.83 18.56 - 1.213 —20.0 + 0.03
Scheinbare Sternörter 1958 Obere Kulmination
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Dckl.
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Dekl.
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7"
Greenwich
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453) e Corvi AR.
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III»
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+77° 50'
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Dekl.
12h 13m
AR.
+ 57° 15'
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tf
8.16
58.716
59-050 334 59-363 313 59-645 282 246 59.891
10.43
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17.60
204
60.095 60.255 60.372 60.448 25, 60.485
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60.246
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30.95
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4
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59-9°7 I2 o 4 59-783 T 25 59-658 121 59-537 1 1 4 59-423 102 59-321 85 59-236 63 59-173 35 59-I38 59-137 36 59-173 79 59-252 123 59-375 170 59-545 215 59.760 257 60.017 292 60.309 320 60.629 337
60.966 345 61.311 34° 61.651 57.621 + 1.082
+ 3-i
+ 0.03
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76
60.142 60.028 "
238
19.89 2 I 5 2 2 " ° 4 196
160
60.488 27 60.461 52 60.409
60.336
227
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30.72 62 30.10 82 29.28 100 115
120 103
20.73 19.70 81 18.89 53 18.36 20 18.16
17
18.33
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336 357 371 376
34-87
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3I-23
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27.79 315 24.64 278 21.86 232
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61.22 236 58.86 276 56.10 309
18
9.64
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216
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22.79 26.89
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19.84 40 19.44 55 18.89 67 18.22
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37 84 129
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322 337 343 344 335 319
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49.68 49.64 49.82 50.21
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56.38
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58.99
27.32 294 24.38 259 21.79 x
125
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505
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258
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144
5"
+ 3.0
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210
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50.42 + 5.278 + 3.6
+ 0-34
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112*
Scheinbare Sternörter 1958 Obere 460) Y) Virginis AR. Dekl.
Tag 1958 Jan.
1 11 21 3i
Febr. 10
I2h
17m
s 46.128 46448 r
4 6 -750 47.O26 47.26 8
6 242
205
20 März 2 12 22 3i
47-473 47.637 47-76o 47.843 47.889
April 10 20 30 Mai 10 20
47-901 l 6 47.885 [I 47.844 g r 47.783 7 7 47.706 g
30 9 19 29 9
47-617 gg 47-518 » 47-413 47-304 1 0 9 47- I 95 I o y 47.088 101 c. 0 46.987 46.896 9 46.81977 46-760 » 46.724 7 46.717 2 6 46.743 6 i 46.807 6 4 r ' I05
Juni
Juli
19 29 Aug. 8 18 28 Sept. 7 17 27 Okt. 7 17 27 Nov. 6 16 26 Dez. 6 16 26 36
i64 I23 3 I2
K3 7.89 ^ 11.58 5
206
%
d
75
153 127
14-38
99 1 5-37 „ 16.08 7 16.53 1? 20 16.73 16.71 , ' 20 16-5i , 16.15 3 6 15.68 4 7 ? 3 64 *4-47 68 x 3-79 13.08 7 «•a» r A 69 1 9 66 ir-°3
60 I O -43 t o 52 9-9 1 43 948 y ^ 29 9- J 9 I 4 9-°5 9.09 1 9-36 9.86 10.62
. 27
;
5° 7
102 n.64 ^ 129 47.O6O IQO 12.93 47480 J 14.48 47-745 2 g 16.24 1 9 4 48.039 3I J 18.18 205 20.23 48.353 J 211 48.677 324 22-34 210 24.44 49.001
46-912
Mittl. Ort 45.321 sec 8, tg 8 + 1.000 a, a' + 3.1 b, b' 0.00
I4g
0.71 — 0.008 —20.0 + 0.08
Greenwich
462) a Crucis med. AR. Dekl.
—0° 26' //
320 3°2
Kulmination
I2h 24 m s I 7-°3 t 59 17.62 18.17 55 18.67 50 rg.II 44 V 37 19.48 0 3° 19.78 7 ' 22 20.00 14 20.14 29 ^ 7 20.21 £ 20.21 , 6 20.15 I 2 2 0 -«3 l8 19.85 2 2 19.63 2 6 19-37 I9"°7
18.74 18.40 18.050
30
33 34 35
35 17-70 17.36 4 r 7-°5 L 16.77 2 2 1 55 l 6 16.39 c 9 16.30 r 16.29 16.38 9 £. 17/ I6.55 JJ 27 I6.82
^
17.61 l8.II 18-67
43 5°
g
^9.25 go 20.45 15.09 +2.193 +3.3 +0.13
-62°
466) 20 Comae Dekl. AR. 5I'
//
46- 1 1 i 8 4 47-95 2 3 2 5°- 2 7 272 304 5
3
3 4 2
59-3 1 U4g2 62.73 66.21 348 69.68 3 4 7 73.06 338 76.28 79-28 300 82.00 2 7 2 84.40 2 4 0 86.41 2 0 1 ^ 159 88.00 89-81 89.98 89.66 v
88.86 87.59 85.89 8 3'8 2 44
27 m
••' 21° 7' // s , 37.215 336 3°-3 8 176 37-551 " 28.62 141 37-873 ^ 27.21 i 102 3 8 - I 7 ° 265 9 62 38.435 2 2 ; 25-57 21 38.660 25.36 l 8 38.843 25.54 38.981 1 3 8 c. 95 8 39.076 26.91 3oJV ' 53 0 109 39.129 Jj 28.00 127 39-144 29 f '38 39.126 3 0 -65 ' 143 32.08 39.080 ^ ° 142 0 1 1 398q 38.922 i o 8 4 38.818 36-08 „ ,108 38.704 ;; 4 37- 1 6 go 38.06 ^ 3« 586 ' S 38-76 3 -45 I 2 6 3 9 . 2 3 4 ; 38-33° I 2 4 39-47 o 38.206 38.089 i1o1 7 39-47 2 6 0 7 37.982 ; 39-2i 37.889 38.70 5 37.815 £ 37-93 /J3 37-764 21 36-90 I a 8 37-743 - 35.62 37-756 ' 34-09 r 32-32 4 37.807 l 37.900 i 3 3 3°-33 28.16 38-038 i 8 2 2 5'83 24! 38-220 2 2 6 23-39 2 4 4 38-446 265 20.91 38.711 2 9 7 18.46 2 4 5 39.008 322 ^ 235 l 6 . I I 219 39-330 39.666 330 13.92 339 193 40.005 II.99
% 2 32
80 z
2
l
78-84 2 7 4 7 278 73-32 i 270 70.62 252 68.10 222 65-88 l 8 , J 4 " 0 5 13 62.70 24
4 36 62.00 62.95 « 64.46 5 59.99 - 1.951 -19.9 + O.II
I2h
36.681 + 1.072 + 3.0 —0.03
42.56 + 0.386 -19.9 + 0.12
465) 8 Corvi Dekl. AR. I2h
27 m
s 4 2 - I 37 42.468 ' 42-782 3 ; 4 43.070 43.325 2 I 7 43-542 43-7 1 8 43-854 3043-95O 44.008
r 6
44-032 ~ 44-027 A 43-995 : 43-942 " 43-870 £ 43783 gg 43.684 » 43-575 43.460 43-341 i i 8 43-223 43 - I °8 £ 41.002 93 42.909 J. 4 2 -835 2 42.786 2 0 42.766 42.782 57 42.839 ^ 100 42-939 I 4 5 43-084 I 9 I 43-275 2 3 4 43-509 43-780 2 7 Q 302 44.O82 ^ 323 44-405 3 3 4 44-739 „ 4 45-073 3 3 4 41.228 + 1.042 + 3.1 + 0.02
- 1 6 0 16' //
53-65 2 i 6 55.8I 222 58.03 t 219 60.22 , 212 199 64-33 l 8 l 6 4 l6l 67-75 69-^5 t\6 1 70-3 ' ° 94 7 1 -25¿ 7 1 7 T "9 49 72-45 2g 72.74 9 72-83 I O 72.73 Ì 27 72-46 l 72-02 6 o 7I-42 70-69 £ 69.85 94 68.91 , 7 100 67.91 66.88 103 65-87 X™ 84
64.08 63-40 62.94 6 2 -73 62.83 63.26 64.03 J 65.r3 J 0 66.55 ^
68 46
21 IO 43 77
HO 142 170
68.25u
192 7 0 - I 7 208 72.25
54.51 — 0.292 -19.9 + 0.12
Scheinbare Sternörter 1958 Obere 472) x Draconis
Tag
AR. I2h
1958
31m
-i 11 21
4 1
-
2 5
41.99
74 72
4 2 - 7 r 67 43-38 ^ 43.98 5 2
31 Febr. 10
44.50 44.91 45-21 3.45-39 45-44
20 März 2 12 22 31 April 10 20 30 Mai 10 20
3
g 5 6
45.38 45-21 z 6 44-95 , , 44.61 3 4 41 44-20 ^
+70° 0' tf 47-20 6 6 46.54 0 4 6 -54 64
306
6 4 ' 1 9 295 69S274 245 72-33 2 o 6 74-39 l 6 l 76.00 l r 3 77-13 6 I 77-74 8 77.82 -
19 29 Aug. 8 18 28
41-16 « 40-69 %
7 6 -40 74-93
« 7 3« 39-89 , 39-58 ^
7 0 S 67-89 -
Sept.
39-34 l 6 39-18 39-11 39-14 39-27 2 3
64-83 61.49 57-96
40
7 17 27 Okt. 7 17 27 Nov. 6 16 26 Dez. 6
39-5° 33 39-83 40.27 : : 40.80 » 4 I ' 4 I 67 42.08 42.8072
16 26 36
43-54
Mittl. Ort sec S, tg 8 a, a' b, V 1
74
42.00 + 2.927 + 2.6 —0.18
I2h
31m
s
45-314 45-7°6 46.083 *
392 9 377
35 1
46.434 „ , 4 4 3 1 8 ; 46.748 % 47-015 2 i 6 J50.24 229 47-231 i 6 2 52-53 2Ô5 47-393 I o 6 55.18 58.08 2 9 0 3.47-499 53 À 305 47-552 3
43-73 43-23 5 2 42.71 5 42.18 41-66 £
Juli
45
77-37 // 0/
97
6
334 3
»
54-30 5°"58 46.89
S g
"
37
4 3
3 1
39-94 36-87 34.20
J y
220 32-00 30-34 29.29
471)
Dekl.
AR.
30 9 19 29 9
Juni
Greenwich
470) ß C a n u m v e n . 1
Dekl.
s
Jan.
Kulmination
i66 io5
70.20 + 2.750 -19.8 + 0.14
+ 4 1 ° 34' // 49-6I 48-27 47-45 2 9 47-16 47-41 76 48.17/ 49-39 51.00 52-93 55-07
49-68 ^ 46.60
46-^38 % 46-434 337 46-771
g
4 7 - I 3 8 387 47-525 3 9 ; 47.919 45.070 + Ï-337 + 2.9 —0.06
43-55 40.62 37.89 J / v
308
3°5 29 273
244
35-45 2Û7 33-38 2, 31-74 67.59 + 0-887 —19.8 + 0.14
Die jährliche P a r a l l a x e (o'io8| ist bereits berücksichtigt.
AR.
- 2 3 ° 9'
I2h
";878
£
-503
266
12.204
49-46 51.60 0
214
227
299 53-87 ? 233 56.20 r> 231 I2'7 9 58.51 U U 228 224 I2
Dekl.
33 m
+ 18 0 35' //
s
s
r3-l83
70.10 46.117 ^ ' 170 r 63 45-947 I 5 5 69.47 ,o 100 45-792 I 3 6 68.47 137 45.656 ^ 67.10 172 65.38 J 45-544 gl ° 203 45-463 .- 63-35 61.03 2 3 2 45.418 45-414 - 58.46 2 5 7 45-457 9 2 55-68 2 7 8 95 45-549 I 4 4 52.73 2305
4 7 3 ) 24 C o m a e sq
Dekl.
32 m
12-997
47-024 46.851 7 3 6 ^ 7 0 1 2 8 ^ £ 182 46.669 i 8 6 69.63 9 3 46-483 l 8 6 7 0 - 1 7 1 6 46-297 l 8 o 70.33 2 3
45-693 45-890
I2h
l6l
47-555 t 57-34 2 3 0 47-514 go 59-64 2 2 3 223 47-434 I I 3 61.87 , ' 208 47-321 i 3 8 63-95 i87 47-^83 ^ 6 5 - 8 2 1 6 ;
ß Cor vi
AR.
I22
193 24 22;
"3*
l86
6O.75
I.9O4 2.237
333 300 320
2'557
296
2"
53 ir 3 0 - 71 3-344 3-53° 3.672
77-72 i g 2 75-90 74-4° „ . 73-26 72.51 7 ;
264
227
72.16 72.19 38 72.57 7 0 73.27 7 5
l86
62.88 ^ I42 ^3-328 « 64-84 % 66.62 7 l 3 . 3 " 7 7 1 60 1 3-43 2 6J 156 68.18 I 3-497 30 3-831 22 134 13-527
x
I 3-526
13-497 r 3-445 13.372 I 3
7, 7
9
" 2 ^ 3 103 J
13.180 , 13.065 I2-942
us 123
*
127 12.815J 128 12.687 I25 J 12.562 ° 117 I 2 -445 103 I2-342 0, 84 3 12.258 58 12.200 27 „„ 12.173 12.184 53 12.237 •J' 100 1 2 -337 J J / 147
12.484 7 *95 12.679 ' 7 240 12.919 0 279 13.198 311 1 3-5°9 ° D v 333 13.842 , 14.188 3 4 6
4-533 345 10.574 + 1.088 + 3.2 +0.03
69-52 I i r 70.63 8 7 I ' 5 ° 63 7 2 - I 3 4o 72.53 I 7 72.70
"
72.65 72.37 7-87
2g
5
70.30 ' 0 103 69.27 ' 68.11 66.87 65.58 •J 64.31 A 63.12 C. 62.05 61.18 60.56
116 124 129
127
60.25 60.28 3 60.68 4 0 61.45 7 7 62.60115 149 64-09
I7 8
6^88
201
1I7
54
2
2
-8
I7 6
2.940 ^ 219 3.159 259 3.418 u 292 3 ' 7 1 0 316 4.026 331 4-357 6 4-693 1.379 + 1.055 + 3.0 —0.02
130
121 107 92
-
85-07
j3
85-39 85.48 85.34 84-95 84-32
g l 3 8
3
8344 „ 3 3 82.31 0 138
26
"545 87 2.632 J 132 2 -764
¿
81.81 82.88 83.80 84.54
Z 2 "744 95 2.649 2.572 77
g7 3
52.85 — 0.428 -19.8 + 0.14
2.969
0
80.60
2 -852
8;
7
75-36 76.63 2 7 k !33 77.96 134 79-3°
3-853 „ 3.842 3-803 » 3-741 g 2 3-659 9 7 3-562 3-453 I I 7 3.336 J JJ I2I 3.215 J J 124 J3.091 7 I22
2.5I8 2-492 2.500
"9 io
74-22 „ ;
80-93
4
77-46
2o6
73.18 2 2 2 70-83 : 3 5 68.42 2 4 1 66.00 2 4 2 235 63.65 2 2 I 44 I98 5946 88.89 + o-337 -19.8 + 0.14 II
114*
Scheinbare Sternörter 1958 O b e r e 474) a M u s c a e
Tag
AR.
68° 53'
1 2 h 34111
I 2
1
41.60
59-99
11
42-33
^•59
21
43-01
63-71
43.64 ^ 44-20 4 g
66.27
256
69.21
294
3i F e b r . 10 März
44-68
20 2
45-06 45-3 6 J , 20 4 5 . 5 6 II 45-67 2 3
12 22 31* A p r i l 10
Mai
45.69;
20
45.63
30
45-49 2 ; 45.28 28 45.00 34
10 20
Juni
Juli
30
44.66
9
44-27 43-85
29 9
43-39
4 7
42.92
l
8
27
17 27 Nov.
Dez.
40.97
6
41.38;
16
4I-90
26
42.50
6
43.17
16 26
43-88 44.61
322
J J
96.14 298 98.80 266 230 101.10 J 189 102.99 143 104.42 ^ 95 105.37 105.81
4
5-73
^
36
45-34
73
7.200 „ 8 4 7 . 3 8 4 1 133
7.5I7 g, .7-602 £ 7.642 J
7-523
i
232
75-47
2o6
79-3°
^
"
80.74
I32
7-285 7.129
73-15 77-53
7-598 7417
4
59.15 • P J 294 62.09 £ 293 65-02 ^ O D 286 67.88 ^ 272 70.60 ' 255
236
7-639
255
s-
285 6-964
44
' ^ 110 i56
81.84
r74
197
7,3
82.91
-
82.87
4
82-44
«
5"9 167 5.819 ' 139 5.680 u 104
81.64 80.48 ^ 148 79-00 \ ' 7 176 77.24 / 197 75-27 '212
95-5° 282 92.68 282
5-576
^
77 J3
5-516
g
89-77 Z 86.89 288
5.5o8
100.47
199
08.12235 262
84.15 274 ^ 3 248 81.67 _ 213 79-54 l 6 ;
76.15 76.19 76.84
5-842 6.078 6-37
5-7
- 5r 219 70.96
49 5-55.7 „ t 5.668 3 174
1
I
68-79
2 6 23
Z 2
39.40
75.31 — 2.592
3.887 + 1.437
46.89:
19.621
47-o6
'
47-I3
-
47-02 l 46.86
45-33 44.96 44-59 44-22 43-88
4
43-57
3
43.29
2 4
43.05
z
42.87
I 2
g
;
100.53 0 I3I IOI.84 aJ 8 2 102.66 31 IO2.97 IO2.78 \9 69 102.09 „ ^ 118 100.91 , e. l 6 5 99.26 „ 0 208 97.18 247 94.71 ^ ' 281 91.90 88.80
310
85.46 8« 9 5
334
l 8
7
3 6J
42.97
25
74-7
42.75 42.69
6 r
44-43
4 7
42.79
-19.8
+3.3
-19.8
+2.6
+0.17
+ 0.15
+0.07
+ 0.17
—0.13
^ 8 3
-74
239
59-35 I g g 57-4Ö c. 132 56.14
44.18
95.90 +
1.958
—19-7 + 0.17
246
19.966 I9-958 19.896 ^ • f 2
r
- 7' v9 322
35.01 330
41.62 331 44.86 324 ^ 311
g
47-97 2 9 3
62
5 0 - 9 0 268
l 6 o
19.622 '
2
38.31
79 19.800 1114 319-914 s l
53.582 3 8 55-96 0 204 58-oo l 6 ]
200
19-422
6a89 124 i; c7 8 0 ^ 33 62.02
18.631 1 8 . 3 28 3 0 3 ° 308
61.88
l8.020
61.27 io5 * 6 ° - 2 2 148
1
^
17.166 c. 223
56-89
943
54-72
1
iy2
16.661
3g
16.623
~
16.663
40
16.788
125
17.291 17.661
370
18.098 437
i. 551
20.216 15.128 + 1.968 + 3-5 + 0.11
61
2 I
52-30
16.771
' 210 16.998 293
1
^4*57 6 i
45-52 46.10
+ 2.198
34
67-73
44-96
+ 3.6
* Bei Stern 1325). 47") und 481) lies A p r i l 1.
37
151
295 88.52 o J 289 91.41 - 274 9 4 - r 5 2 ^8 96.63 4 98.78 215 * ' 175
46-63 2 46.35 3I 46.04,,
95
85 5 7/ J .J
6
4
I-032
74.06
47.11
43-96
57.36 -
3 J
2 I
64.83
484
'9-375
61.04
7-937 : 2 7 8.364 4 7
18.252
i e - 6 7 163 21.30 J 211 2 3 - 4 1 249
19.063
"
78.08124
2 3
46.64
43-55
I20 166
548
46.30
7 7
72
-69 7 17-245
16
5 ' 9 ° 282 28.72 ' 307
61-33
3
"
27'
ft
x 7 - 7 6 8 52
72.78 73.11
4I
3
6j-97 «7
+ 2.778
^
i
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s
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43-22
7 - 5 1 1 426
Mittl. Ort
45-89
4
66.73 £ 0186 64.87 ^ 7 157 6 3 . 3J 0 120 62.10
65
6
48
42.70
61.25
7-099
2
45-41
45.69 *
82.57
6 - 9 5 5 ja« 6.766 189 197 6.569 ° 7 200
Si-
s e c 8, t g 8
a, a' b, b'
4°4 5 j -v9/7J5 3 7
369
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6 26
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50-95
33
4 -56 ! 41.18 38
4 0 . 4 9 l87 40.67 3C
7
3
53-50
102.46157
r5 40.47 5 40.42
9 4
73-09
7
86.52 354 D 341
I0
74-03
5 6
6-347 6.679
72-43 , , , 75.86 343 354 79-40 82.98 358
89-93 93.16
58
44-31
Dekl.
I 2 h 45m
+62° 55' //
43-73
2I2
^
,
1 2 h 39111
AR.
46.76
424
2
AR. 54'
481) ß Crucis
Dekl.
4 8 - 6 7 -
5-571
104.03
40.62
7
-45° //
5-I47 ,
41-99
32 40.86 n 24
17
h 39111
l 6 o
6
r
18
Okt.
6
42-45
28 Sept.
A2
!9
19 29 Aug.
68
478) 7 6 U r s a e m a j .
Dekl.
s
s Jan.
G r e e n w i c h
132 5) 133 G . C e n t a u r i
De kl.
AR.
1958
K u l m i n a t i o n
2-8
49-72 47-o8 44.48
J
245 42.03 n J 220 39-83 l
8 5
37-98
J
36.57
9 2
35-65
37
35-28
-
3548 36.25
77
i 131
37-56
33.69 — 1.695 - 1 9 - 7 + 0.20
Scheinbare Sternörter 1958 O b e re K u l m i n a t i o n 482) 150 G. Centauri Dekl.
AR. I2h
51m
- 3 9 ° 56'
7.188
4
53-39 187 397 7 - 5 8 5 382 55-26 218 57-44 241 7.967 355 59-85 258 8.322 320 62.43 8.642 267 279 65.10 8.921 270 234 67.80 9-155 188 70-45 265 9-343 142 257 73.02 9-485 243 9 . 5 8 3 98 75-45 225 56 77.70 9 - 6 3 9 18 79-74 204 9-657 17 81-54 180 9.640 49 153 9 - 5 9 1 77 83.07 124 9 - 5 I 4 103 84.31 93 9.4II 85.24 60 125 9.286 85.84 28 143 9-143 86.12 159 7 8.984 86.05 169 41 85.64 8.815 174 73 8.641 84.91 104 174 8.467 83.87 167 132 8.3OO 82.55 156 153 8.I47 80.99 174 131 8.0IÓ 101 79-25 187 7 7 . 3 8 191 7-9I5 63 7 . 8 5 2 18 75-47 i8 o 9
7-834 7.868 7-957
8.105
34
" 5 8 178 71.80 158 70.22 131 68.91 97 73
206 8.311 67.94 260 57 8-571 309 67-37 12 8.880 349 67.25 34 9.229 378 67-59 80 68.39 9.607 124 395 69.63 10.002 164 399 10.401 71.27
483) e Ursae maj.
I2h
52m
s O.864 I.356
+56° 10' 54.67
492
I25
53-42 483
52.78
52-75 53-34 54-51
3 59 117
168 56.19 211 5 8 . 3 0 245 60.75 268 6 3 4 3 280 66.23 3-895 43 280 69.03 3-852 271 102 3-750 152 71.74 251 3-598 195 74-25 223 3-403 230 76.48 189
3- r 73
2.918 255 274 2.644 285 2-359 288 2.071 285 1.786 274 1-512 256 1.256 1.025 231 0.825 161 0.664 "5
7 8 . 3 7 148 79-85 105 80.90 58 81.48 10 81.58 38 81.20 86 80.34 131
79-03
77.28 175 214 75-14 251 72.63 283 69.80 0-549 61 66.71 309 0.488 331 3 63.40 0.485 345 62 59-95 0-547 130 353 0.677 56.42 200 352 0.877 52.90 269 342 1.146 49.48 333 324 1.479 46.24 391 296 1.870 43.28 259 438 40.69 2.308 213 471 2.779 3 8 . 5 6 160 e. 490 3.269 ^ 36.96
62.77 - 0.838
II.195 + 1.797
+ 3-3
-19-5 - 0.22
+ 2.6 —0.10
Greenwich 484) S Virginis
486) 8 Draconis
AR.
AR.
i2h
Dekl.
-3° 37'
5 3 m
I2h
53m
//
1-839 4 . g 2.297 ^ 2.716 419 366 3.082 3°4 3-386 235 3.621 162 3 - 7 8 3 91 3-874 21
6.122 + I.304 + 0.05
Dekl.
AR.
115»
74-97 + i-493 -19-5 + 0.23
29.719 323 30.042 3r3 30.355 293 30.648 265 3 0 . 9 1 3 232
3 I - I 45 3I.340 3I-496 31.614 53i-694 3i-74i
31-757 3I-746 31-7" 31-656
195 156 118 80 47 16
25.86 204 23.82 187 21-95 165 20.30 139 18.91 HO 17.81 79 17.02 49 16.53 19 16.34 16.40 6 16.69 17.17
11 35 55 72
17.79 18.52 I 9-3 I
20.13
31-584
87 98 107 31.292 114 31.178 116 31.062 116 30.946
29 48 62 73 79 82
30.645
20.96 83 80 76 22.52 69 23.21 61 23.82 24-33 51 40 24-73 26 24.99 10 25.09
30.577
25.02
30.536 30.525 30.551
24.26
31-497 31-399
30.835
30-733
24-75 23-53
30.619
22.55
30.730
2i-33
156 30.886 200 31.086 239 31-325 274
31-599
31.900 32.217 32.540 29.164
+ 1.002 + 3-1 0.00
21.76
3°i 317 323
147 19.86 170 18.16 189 16.27 203 14.24 212 13.12 214 9.98 209 7.89
31.II + 0.063 -19-5 + 0.23
47.70
63 48.33 62 48.95 59
49-54
50.08
54 47
50-55
39 50.94 30 51-24 21 51-45 s5i-56
51-57 51-49 51-33 51.09 50.79
50-45
38 50.07 41 49.66 42 49.24 43 48.81 42 48.39 40
47-99
37 47.62 34 47.28 3° 46.98 24 46.74 18 46.56 10 46.46 3 46.43 6
46.49
46.63 46.87 47.20 47.61 48.09 48.64
49-24
49.86
H 24 33 41 48 55 60 62
48.53 + 2.427 + 2.4 —0.14
57-30
+ 2.211
-19-5
+ O.23 H»
Scheinbare Sternörter 1958
116«
Obere K u l m i n a t i o n 485) a Can. ven.
Tag
AR. I2h
1958
1
1
4.022 . ^ 380 4.402 371
11
21
4-773 5 u.124
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1958
Greenwich 525) i Virginis AR. Dekl.
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82.53 8 30 . 8 0
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365
2
72'68
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9
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5-495 25.604 30 219 70.42 ^ 25.670
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24.327 ,IO 6,
80.97
x
33.03
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257 i83
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6l.35 61.41 A 61.97 , 63.00 A 6444 ^ ^ 66.21 AO 6 8 . 2 3J
+ 3 8 ° 29'
2 2
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48.003 0 219 47-784 2 4 6
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s 0.72I
535) Y B o o t i s Dekl.
Dekl.
3om
14h
//
l
28
16
+ 52° 2'
48.503
47.961
6
23m
14h
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18
Nov.
16'
534) p B o o t i s AR.
Dekl.
49-732 49.682
48-684
Okt.
%
4 9 4 6 7 ^
19 29 8
Sept.
8
47-259 OI 47.660 * 48.048 £
20 März
Mai
46.471 46-858
AR.
ff
s
G r e e n w i c h
531) d B o o t i s
Dekl.
AR.
1958 Jan.
K u l m i n a t i o n
123*
28.21 +
0.795
-15.9 +
0.61
Scheinbare Sternörter 1958
124»
Obere Kulmination
1958 Jan.
1 11 21 3i Febr. 10 20 März 2 12 22 April 1
Mai
11 21 30* 10 20
30 9 19 29 Juli 9 Juni
29 Aug. 8 18 28 Sept. 7 17 27 Okt. 7 17 27 Nov. 6 16 26 Dez. 6 16 26 36
14h 32m s J50.149 ^ 403 5°-55 2 5°-9 6 3 4 0 7 5I 3 " r 394 51.764
- 4 1 ° 58' ff
•i'
76 no 139
20 -7° 182 / t 372 22.52 52.136 24.47 195 7 204 343 W 52.479 J 310 26.51 0 208a 28.59 52.789 ' 30.66 2 0 7 53.063 ^ ° 203 53.299 4 3 2 i 9 196 53498 53.657 120 34-65 l 8 6 53-777 0. 53-858 4 53-901 39.81 157 53-906 ~ 42.38 139 53-873 £ 43-33 ^ 53-803 * 44.02 41 53-699 6 44-43 I 3 53.563 i 6 4 44-56 53-399 l 8 44-39 4 7 53.214^ 200 43-92 6 5 3 - ° i 4 2 o 8 43.16 103 52.806 42.13 J52.601 193 ^ J 127 52.408 Ä 0 '7° T40.86 146 52.238 7 39-4° r 0 59 52.102 91 52.OII ^ ^ 1677 51-973 - 34-48 i s 51-994 8 , 3 2 ' 9 ° 143 52.079 3 I -47 Z 30.27 52.229 A 91 52443 2 y 2 29-36 .„ 52.715 3 2 I 28.78 S 53-036 6 l 28.57 53-397 389 7 28.74 29.29 55 53-786
14h 36m s 44-31 57 44-88, 58 45-46 46.03 7 46.58 ¡I
D
Mittl. Ort 49.806 I sec S, tgS + -345 +3-8 a, a' +0.05 b, b'
28.07 - 0.90° -15-7 + 0.62
1382) 32 Bootis Dekl. AR.
545) AR.
—6o° 39'
I4h 39m + 11° 50' // s 42.l86 . 22.6o 217 ^ 306 2 42.492 3 „ . l 8°"43 196 -47 ,6g 42.807 l 109 43- 1 2 2 07 16.78 135 3 43-429 2 9 0 15.43 97 .„ 43-719 2 6 8 14-46 58 43.987 242 13.88 0 i9 44.229 -r-r 7 2 I 2 13.69 44-44 1 l 8 l 13-88 19 44.622 1 5 0 r 4-4 2 84 44-772 i i g 15.26 1 109^ 44.890 8 8 16.35 127 i 17.62 ,44-978 139 45-°36 29 ^•O 1 146 45-065 0 2 0 -47 ,447 45.065 2 . 21.94 45-038 2 7 23-37 143 134 44-985 " 2 I 44-908 7 7 2 4 ' 7 t22 44.8097 9 9 2 5'93 -00 io7 89 ^ 119 7 27.89 44-690 44-555 " 2 8 -59 ; 44.408 ; 4 7 2 9 - 0 7 26 44.255, 29-33 2 44.102 ^ 147 29-35 23 43-955 2 29.12 4 9 43-823 ¿0 28.63 7 4 43.713 8 I 27.89 101 c. 00 „ 26.88 43-632 , 128 25.60 J 43-589 154 43-589 7 24.06 8 43-636 ; 22.280 *7 199 43-733 J46 2 °- 2 9 2X8 18.II 43-879 23 I ° J 44-°7 234 15.81 236 x 44.305 268 3'45 2 3 6 44-573 22 9Q33 11.09 44.866 8.82 2 2 7
14h 40™ s u50.632 J iio 50-942 g 51.260 r 37 51-577 3 7 u51.884 291 5 2 - I 7 5 269 52.444 2 4 4. 52.688 215 °2 5 -903 l 8 6 53.089 i 5 6
538) a Centauri Dekl. AR.
537) V Centauri AR. Dftki.
Tag
47-58 48.01 48.39 48.72
4 4 33
48.98 0 20 49.18 14 ,49-32 4 49-4° 2 49-42 49-37 „ 49-26 j 6 49-10 48.89 " 48.62 7 30 48
" 3 2 33 47-99 « 47-64 47-29 46.94 £ 46-6i 2g 46.33 2 3 46.10 ^ 45-94 8 45-86 45-87 IO 45-97 2G 46.17 2Q 46.46 % 46-84 44 * 47-28 47-78 48.33 55
43.86 + 2.041 +4-6 +0.09
Greenwich
1
ff
3i-49 3 I - 66 6 J32.30 ° 109 33-39 ,, Q 34-88 185 f 36-73 2 I , 38-87 23g S o ; » 46.46 ^ 272 49.18 54-56 57- 12 241 59-53 61.72 63.66 1 9 4 63 65.29 1130 66.59 J, 67.50 s o 68.00 g 68.08 67-72 8 o 66.92 , 7 121 65-71 l 6 o 64.11 62.18 193 219 59-99 2 3 8 57.61 249 55- 12 248 5 2 '64 2388 ** R » 48.08 „ s 189 46.19 £ 152 44-67 ^ 43-58 42.95 I 3 42.82 3 47.91 - 1.779 -15-5 + 0.63
42.330 + 1.022 + 2.9 —0.01
26.02 + 0.210 -I5-4 + 0.64
l O r t d e s helleren S t e r n s . Die j ä h r l i c h e P a r a l l a x e (0*756) i s t b e r e i t s b e r ü c k s i c h t i g t . * Bei S t e r n 538), 1382) u n d 545) lies Mal 1.
Virginis Dekl. - 5 ° 28' ff
34-*9 l 8 o 35-99 37-76 ^ 39-43 I 5 2 4°"95 I 3 3 42.28 ^ 109 43-37 g4 44-21 4 4 -79 33 45-12 £ 45-22 i o 45-12 44-85 l 44-43 52 43-91 ^ 43-31 42.67 6 42-oo ^ 4 I -3 2 6 7 4 5 6;
53-245 53-372 £ ,53-470 53-539 53.5804; 53-594 I 3 53-5S1 ,g 53-542 53-478 g 7 53-39 1 IOg 53-282 53-157 i 3 8 53- OI 9 52-874 I 52-727 I 4 „
4 0 - 0 1 60 39-41 38.86 55 38-37 J 37-96 3Q 37-66 52-587 I 2 6 37-47 4 2 46 5 - ^ X03 37-43 " 52.358 \ 37-56 > 52.285 7 3 32 52.250 -8 37.88 J/ 53 52.258 38.41 7 „7 52-314 I o 6 39.18 99 w 40.17 52.420 T / I22 41 52.575 201 -39 , , , 52776 2 4 I 42-82 ~ 160 53- OI 7 2 7 44-42 53 - 2 9 I 298 4 5 180 53.589 47-95
50.587 + 1.005 +3-2 0.00
36.08 0.096 -15-3 + 0.65 —
Scheinbare Sternörter 1958 Obere Tag 1958 Jan.
1 11 21 3i Febr. 10 20 März 2 12 22 April 1
Mai
11 21 1 10 20
542) a Apodis Dekl.
AR.
14h 42 m s 32.84 J ^ I2Q 34-13 35-48 36-84
44-27 44-81 345-
18
45-39 45-43
„, * I 4
"
19 29 Aug. 8 18 28
42.35 9 2 4 I - 4 3 97 4°-46 98 39-48 06 3 8 -52 £ 37.6I 36.81 67 36.14 35.63 35-32 35-23 " 35.36 3 35-72 36-30
17 27 Nov. 6 16 26 Dez. 6 16 26 36 Mittl. Ort sec 8, tg § a, a' b, b'
< 6o
9°*34 QI'5«
II
Il8 66
92.18 92.31 ~ 91.89 v90.94 ^ 147 89.47 87-53 £ 82.52 / A 289 79-63 ' 7 J 3OO 7 Ö
73-
i
3 2
30I 288
97
68.09 /232 5-77 4
38.06 o 112 39.l8 4O.4I
63.88 /141 62.47 I 61.60 7
37-09
547) 109 Virginis AR. De kl. 14h 44m s 7-310 7.620 3 0 4 3r3 7-933 t 8.246 3 3 305 8.551 290
5°-4i l 6 ; 52.02 8-84 1 , 204 54.06 9* I 0 9 242 56.48 274 9-35i 59-22 „ i 298 9-566 62.20 9-751 317 65-37 9-9°7 68.64 3 7 10.033 331 71.95 ' 327 3 I O - I 2 9 75-22 ' ' -•IO.I97 78.40 3 1 8 ' ' 300 10.236 81.40 , 10.248 84.16 2 7 6 86-6i ^ 10.233 IO-I92 88-69 J IO-126
3 8 " 1 ? ¡28 39-45 I 2 G -4 5 IIO 4 1 -75 9 8 4 2 -73 85 43-58 ^
45-29 44-98 44-52 43.92 43- r 9
7 17 27 Okt. 7
49-17 S2 48.65 5" 48.69 4 49.28 „ 5
£
30 Juni 9 !9 29 Juli 9
Sept.
- 7 8 ° 51' tt
Kulmination
32.79 + 5.I8O
-
67.80 5.082
+7-5 +0.26
-15-2 + 0.65
IO'°37
9-9 2 7 9.801 9.661
268
242 « « is6 I26
#
68 39
* 66 89 IIO I2 6 140
147 9.514 ' 149 9-365 ^ J 3 143 9.222 7 129 9-°93 IO „ 8-985 J 8.907 4 I 8.866
8.867 5 A r46 * 9.160 193 9-353 2 3 3 9-586 2 6 7 9 53 2 j 10.144 9- O I 4
7.364 + 1.001 +3.0 0.00
+ 2° tt
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549) Grb 2164 Draco AR. Dekl.
- 1 5 ° 52' tt 0.94 147
14h 50™ s 20.442
34"394
304
2.41
34-698 2 8 2 34-980 35-237^ 35.667
I7I
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68.2030 a 5° 67-70 ; 73 66.97 97
34-984 34-904 34.862
66.00 , 121 64.79,.. 63-36 J4 6i-72 i8i X94 57-97 2GO 55-97 2 0 2 53-95
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6
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8.75 8*48
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153 145
117 10-99 ' "r12.80 • 9 8 ,f2 3'44 64 47
go
6
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8.50 9.82 y
10.22 9.66 9.16
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0
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59 ,
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35-838 57.89 35-979 „ 2 58.44 36-091 8 59.^7 6°-°4 96 4 36-i74 J 61.00 IOI 36.227 ^ 62.01 , 102 36.251 ~ 63.03 36.247 „ £L 99 36.214 £ 64.02 64-97 % 36.068 J 109 65.84 % 35-959 I2g 66.62 6 35.83 1 67.29 1. 67.83 2 3 5 . 6 8 7 ; : 68.244' 35-535 £0 26 35-380 £ 68.50 9 35.231 e. 13? 68.59 9; 35-096 68.50
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4
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22.867 23-323 ; I 2 23.735 „ 8 2 4*°93 29 6 24.389 2 2 9
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4-6i858
39-54 2 9 5 4 2 -49 3 I O 45-59 „ . 48.73 3 4 0 3°7 51.80 J ' u 290 54-70 57.36 2 2 33 59.69 r 2 c. 93 61.62 iL I50 J 103 64.15 53 64.68 53 64.70 t 49 64.21 , 99 3-22 I 4 8
2
2 4-776
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24.864 24.883 24.835
^
2 4-7 2 4
i69
24.555 2 2 2 24-333 2 6 8 24.065 n 3°7 23.758 0 / 3 339 23'4r9 362 23.057 3,77 6 22.681 381 22.300 21.924 V ^ 359 21.565 331 21.234 293 20.941 20.698 2 4 3 182 20.516 J 112 20.404 34 20.370 20.418 132 20.550 ¿^ 2 1 6, 20.766 294 2I.0Ö0 , 364 21.424 21.847 4 2 3 22.213 + 1.968 + 1.5 —0.08
6i"74
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Scheinbare Sternörter 1958
126"
Obere
AR. 14h
1958
Dekl.
jo1"
+ 7 4 ° 19' //
Jan.
1 11 21
44.14 44.89
3i Febr. 10
46.56
20 2 12 22 April 1
48.29
März
11 21 1 10 20
Mai
30 Juni g IQ 29 9
Juli
19 29 Aug. 8 18 28 Sept.
7 17 27
Okt.
7 17 27
Nov.
Dez.
45-70 47-44 85 80
49.09
73 62 5°-44 5i 50.95 38 49.82
51-33 24 51-57 10 ,5i-67 S 5i-62 5 17
51-45 5i-i5 50.73
30 42
5 0 . 2 2 51 4 9 . 6 2 60 4 8 . 9 5 67 4 8 . 2 2 73 4 7 . 4 6 76 4 6 . 6 8 78
45-90 78
4 5 - 1 3 77 4 4 . 4 0 73
43-73 67 43- I 3 60
4 2 . 6 2 51 40 42.22 27
4 -95 r
14
6 16 26 6
41.81
16 26
42-73 58 43-31 69
a
6
_
Mittl. Ort sec 8, t g 8
27.83
313 3 0 . 9 6 324 3 4 . 2 0 325 37-45 313 40.58 292 43-50 46.12
48.37 50.19
225 182 134
51-53
52.37 31
52.68
23 52-45 75 5 i - 7 o 127 50-43 176 48.67
222
46-45 263 4 3 . 8 2 301 4 0 . 8 1 332
37-49 355 33-94 S 7 2
15 41-97 31 42.28 45
° " 2 2 380 26.42 0 2 2 . 6^ 4 37« 365 18.99 342
44.00
12.49 263 9.86
41.82
48.30 + 3.702
a, a'
—0.2
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1
22.O8 20.68 2 3 0 18.9617! 17.88108 40 17.48 28 17.76 94 18.70 1 56 2 0 . 2 6 211 2 2 . 3 7 256 24-93 290
3
15-57 308
37-77
+ 3-564 -14.7 + 0.68
G r e e n w i c h
5 5 1 ) Pi I 4 h 221 Boot
550) ß Ursae min.
Tag
K u l m i n a t i o n
AR. 14h
Dekl.
54*
+ 14° 36'
s 13.900 300 14.200 313 14-513 316 14.829 310
5 0 . 4 5 223 4 8 . 2 2 201 4 6 . 2 1 171
44-50 136
5-435
42.19
16.188
224
16.383
T 163
41-55 41.84 42.50
15.712 * 252
0
0
95
5 1 - 0 4 160 5 2 - 6 4 150
54- 4 137 1
55-51 119 56.70 99 57.69 77 58.46 53 5 8 . 9 9 28 59-27 2
136
59-29 25 59-04 54
I 5 - 7 8 4 145 I 5 - 6 3 9 124 I 5 - 5 I 5 95 1 5 . 4 2 0 59 I 5 - 3 6 I 16
5-345
5'376 I5-456 I
5 8 . 5 0 81 5 7 . 6 9 110
56.59 138 55-21
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18 15.7654
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16.900 18 16.882 46 16.836 72 16.764 97 16.667 118 5 4 9
53 11
41.66
43-48 125 44-73 145
16.546 132 1 6, . 6 7' 8 101 1 6 . 7 7 9 6 * O 7° 16.849 ' 16.889 £
I"
AR.
Dekl.
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i 4 h 55 m
15h
Dekl.
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+40°
32'
s
43-14 1
555) ß Bootis
552) ß Lupi AR.
53-95
0.261
-14-5
0.69
46-394 C. 46.793 47.206 47.620 48.026
399
46.43 47-55 406 * 414
389
4 8 . 4 1 5 364 4 8 . 7 7 9 335 4 9 . 1 1 4 3°3 4 9 - 4 1 7 267 49.684 230 49.914 192 50.106 153 65O.259 »3 50.372 73 50.445 33 50.478 50.470
8
48 86 5 0 . 3 3 6 123 5 0 - 2 1 3 156 50.422
5 0 . 0 5 7 182 49-875 203 4 9 . 6 7 2 215 49-457 218 49-239 211 49.028
191 4 8 . 8 3 7 160 4 8 . 6 7 7 119 48.558 68 48.490 48.482 56 48.538 123 48.661 188 48.849 250 49.099 304
49-403 3 g 49.751 50.132
46.216 + 1.367
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174 185 54-10 191 56.01 195 57-96 194 52.25
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65-37
72-59
72.62
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132 149 67.05 161 65-44 165 6 3 7 9 161 62.18 6 0 . 6 7 151 133 59-34 108 58.26 78 68.54
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57-79 0.931 -14.4 + 0.69
20.895 335 21.230 357 21.587 367
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2 2 . 3 2 0 366 354 22.674 2 3 . 0 0 6 332 303 23.309 269 23-578 230 23.808 188 23.996 145 24.141 102 24-243 59 24.302 17 2
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23.228 231 22.997 232 22.765 226
22-539 22.329 22.144 2I
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2 I
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+ 2-3
—0.04
61.75 61.86
62.55 123
6 3 7 8 171 65-49 209 67.58 240 69.98 260 72.58 270 75-28 270 7 7 . 9 8 263 80.61 246 83.07 224 85-31 194 87-25 160 88.85 90.07 90.88 91.27 91.22 90.72
2IO
89-79
l8
88.44
152 2
21.823 _5 21.818 54 21.872 "5 21.987 c. 2 2 . 1 6 1 *74 229 22.390 2 77 22.667 315 22.982 21.748 + 1.316
69.71 259 67.12 216 64.96 165 6 3 3 1 108 62.23 48
86.68
81 39 5 50 93 1
176
o 215 8 4 - 5 3 249 82.04 280 79.24 305 76.19 324 72.95 334 69.61 336 66.25 329 62.96 59-85 3 " 283 57.02 79.20 + 0.856 -14.I + O.71
Scheinbare Sternörter 1958 Obere
15h I m s 36.428 r 33* 3 6 7 5 9 43 37"IO*46 3 7 4 f 39 37787 Jf 4 38.HI 38416 ? 0 2 281 38.697„.,
1958 Jan.
1 11 21 3i Febr. 10 20 März 2 12 22 April 1
Mai
3^76195
11 21 1 10* 20
30 Juni 9 19 29 Juli 9
- 2 5 ° 6' // 57-3° 58-38
Io8
*
5 9 " 6 2 *37 60.99 " 62.42 1 4 3
^
63.88 * 65.3I 66.68 ^ 67-97 69-j5 70.21 71.16 o 71.98 ' l 72.69 73.28
146
I43
£
37
129 Il8
Sept. 7 27 Okt. 7 17 27 Nov. 6 16 26 Dez. 6
38.444 % 38.387 % 38-378 38-422 s 38.520 9 38.673 " 38-877 £
16 26 36
39- I 2 7 39415 39-731
Mittl. Ort 36.351 sec 8, tg S + 1.104 + 3-5 a, a' +0.02 b, b' *
15h
2m
s 3 ^ 4 9 3o6 38.455 ' 323 38.778 0 1 1 ,29 39.107 39-433 3 I 5 39-748 40.044 4°.3 I 5 ' 40-556 ^ 209 40.765 I 7 6
0
28-71
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68-35 67-71 66.95 66.90 ,
J 48
5
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22
7 - 1 2 48 67.60 68-33 Ij A 96 69.29
65.47 — 0.469 -14-1 + 0.71
Bei Stern 503) lies Mai 11.
40.862 40.703 . 40.528 ¿ 5 40.343 i 8 7 40.156 i 8 3 39-973 39.802 , 39-652 J 39-532 39-449 39-410 39-420 39.483 39-599 39767
150 120 8 39 iQ
J l68 2I5
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40.528
38.661 + 1.123 + 2.6 —0.02
2t4
24-84£ 23-57 7Ö 22.81 23 22.58 ~ 22-85 23-60 7 '
46.10 45-18 43-91 42.29 40.35 38.11 35.62
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92
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224 249
271
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20.196 20.194 20.142 ^ 20.042
* 100
Il8
32-9 1 m 3°'°5 2 9 3 27.12 24-I9
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I 5 h 9m s r 5 . 3 1 0 -j. 15.761 4 5 1 i 472 16.233 0 0 479 , 16.712 ™ 17.185 4 7 3 D 457 ' 17.642 18.076 4 3 4 18.480 4 ° 4
247
45.31 46.16 85 46.68 * 46.85 e. e. 20 t46.65J S5
I7I
283 J 265
37.49 + 0.512 —14.0 + 0.72
563) 8 Bootis Dekl. AR.
558) X, Lupi Dekl. AR.
+27° 6' // 31-18 „ „
24-79 26-35 40.941 39.371 95 41.082 28-20 82 39.536' 41.187 ^ 3°-26 39.6704 71 8 ' 103 ; V258 ; 32.45 39-773 ' 59 47 41.294 3 34-69 39^44 73-75 „ 41.297 2 9 36.89 39-883 74.10 2 , 4 1 . 2 6 8 2 9 39- 00 39.890 " /-T 6 0 41.2080 39.866 4 74-33 „ 0 9° 40.94 41.118 , 42.66 116 39-810 f 74-44 " ^ 41.002 1 140 44-*3 39725 I I 2 74-42 i 6 io6
39.613 6 74.26 39-477 I 5 3 73-97 4 2 73-55 „ 39-324 l 6 73-00 » 39-159 38.989 7 2 " 3 4 75 38.823 7 r "59 8 I 38.671 3 0 130 7 0 7 «4
19 29 Aug. 8 18 28
Greenwich
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127*
70
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332
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36"2^97
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135
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2 4'43 64 2 3 7 9 23 23-56
27.01 — 1.277 -13-6 + 0.74
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0
1
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^
;
58.04 57.88
l6
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83.68 84.63 57 85-20 85-5
i 104
174
49.262 49-xxS J 4 4 49-012 6 i 48.951 I r 48.940 48.984 4 4 ^ 101 49-085 6 49-241 2 g 8 49-449 49.702 ' 49.992
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2
„
290
8:
143 3180
80-25 78-10
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^
75-64 2 7 3 72.91 ' , 69.96 295 66.86 3 1 0 317 63.69 ° y 314 60.55
302
57-53 54-73
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73.73 + 0.661 -13.3 + 0.75
128*
Scheinbar© Sternörter 1958 Obere
Tag
565) 1 H. Ursae min. AR. Dekl.
1958
15h 14m
+67° 29' //
Jan.
1 11 21 3i Febr. 10 20 März 2 12 22 April 1
Mai
11 21 1 11 20
30 9 19 29 Juli 9 Juni
19 29 Aug. 8 18 28 Sept. 7 17 27 Okt. 7 17 27 Nov. 6 16 26 Dez. 6 16 26 36 Mittl. Ort sec 8, tg 8 a, a' b, V
5-84 . 2 6'36 8
69.21 , 66.57 2 141 ^ 1
0" 64 8.20 J* 63 8-83 6o 9-43 s6 9-99 s o 10.49 42 10.91 v 34 II.25 24 11.49 1 15 11.64 5 II.69 11 ¿ 4 11.65 ^ I? II.52 ° 21 II. 31 II.Ol IO.65 3 42 10.23 J 47 9.76 9.26 50 8-73 " 8.18 55 7.64 54 / ^ 53 7.11 6.61 50 6.16 45 5-77 39 5-45 23 5.22 5-08 * 5-05 5- J 3 I-98
84
5 " 3 2 30 5.62 r 39 6- 0 1 8 6.49
8.76 + 2.614 +0.7 -0.11
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^ »
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Kulmination
Greenwich
564) ß Librae AR. Dekl.
560) y Triang. austr. AR. Dekl.
15h 14m s 44-473 299 44-772 45.084 45-4 01 ; ; 45-714 3 0 3 46.016 2 g 6 46-302 46-567 24 46.808 24 ^ 215 47- 02 3 Ig g
15h 14m s 41.02 r 6, 57-29 70 0 5 57-99 ' 42-58 > 5«-72 6 44.16 152 45-68 142 59-48 ' 60.23 75 47- 1 0 I 2 7 ° 74 48-37 I o 8 6°*97 49-45 86 6^-67 62.33 , 5°'3 I 64 , 60 62.93 e , 50-95 4 4 54 63.47 0 ^ 47 51.37 4 t 63.94 47- 2 1 2 l 6 l 51-58 x ,J 40 64.34 4 47-373 T „ 5 I - 59 r 4 47-506 1 3 3 5 1 '45 28 64.65 ¿ 104 23 47.610 5 I " I 7 38 "c.64.88 14 65.02 ] "47.685 2 5°"79 4 6 4 7 . 7 3 1 1 6 50-33 65.07 " 65.03 1 3 47-747 " 49.81 2 64.90 22 49.26 » 47-734 64.68 47.691 ; 48.70 £ 29 47-620 ^ 48- r 3 % 64.39 36 - 9 ° 13'
- 6 8 ° 31' //
//
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64.03 i 2 63-61 J 63.I5 4 62.66 4 9 6 2 - J 6 48 61.68 61.23 45 60.84 39 31 60.53 , 22 60.31 „
46.337 " 44-97 4 7 46.361 45-44 Z 46.435 I 2 4 4 89 46.560 x 01 47IIO £. 7 3 48.11 129 46.733 2 ; 7 ^ 49-4° 46.950 50.84 4 4 47.205 " 153 52.37 47.488 283 44.566 45.08 +1.013 — 0.162 +3.2 -13.2 +0.01 + 0.75
60.20 60.22 60-36 II 60.62 61.01 39 49 61.50 62.08 J , OD 62.74
47-523 I2Q 47-403 „ g 47-265 >
57-50 + 2.732 + 5.6 +0.11
566) 91 Lupi AR. Dekl.
5 6 T 16.90 « 16.73 -
« 4 78 17.82 ' ' 122 17
19
161
20 -65
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z
53.64 8 l 54-45 „ 54-80 i 54-67 62 J 109 52.96 153 51.43 193 49-5° 224 47-26 4 44-77 264 42- i 3 267 39-46 2 6 ; 36.85 245 34-40 2 4 8 32-22 i 8 j 30.39 28.98 28.02
IA1
34.74 - 2.542 -I3.2 + 0.75
£
96
15h 19m - 3 6 ° 6' s 26.36 7-962 52 26.88 3 5 7 8.319 78 27.66 8.692 373 28.66 100 9.071 £ 29.85 1 1 9 V J 134 9-446 g 3I-I9 9.811 10.157 346 " 32.62 149 ^ 10.480 323 34- 1 1 ^ , 296 £ 152 35-63 xo.776 J J 0 151 14 J 8 374 0 4 3 "236 38.62 11.279 c. r44 40.06 "•483 137 2 169 11.652 4 r -43 Z 11.786 1 3 4 42-72 I 2 0 43-92 i o 9 ""•885 l 11-946 23 45- 01 96 81 11.969 11.954 53 46.78 65 I I ' 2 ° I 89 47-43 4 6 II.812 122 47-89 26 II.690 151 48.15 5 II.539 48-20 175 48.02 11.364 J ^ lei C. 4° II-I73 199 47.62 6 2 I 0 '974 I97 47.00 g 2 46.18 100 IO-777 l 8 0 45.18 I 0 '59 2 l6l 114 10.431 127 44 04 I 2 2 42.82, 126, 10.304 ' ^ 41.56 T j I23 4 10.220 3 10.188 " 4°'33 I I 4 26 39-J9 98 10.214 38.21 I 0 - 3 0 1 148 37-44 52 10 -449 2o6 36.92 24 10.655 36.68 J J 259 10.914 36.73 \ 35 302 11.216 11-55 3 337 37.08
ff
i
7-953 + 1.238 +3.8 +0.03
37-50 - 0.729 -12.9 + 0.76
Scheinbare Sternorter 1958 O b e re K u l m i n i i t i o n 569) y Ursae min. AR.
Dckl.
15b 20=
+
I °
58'
571) 1 Draconis
AR.
AR.
22 53-258
Dekl. m
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4 8 . 5 1 264
41-43 16
54.604
46.2;
41.27
54-949 329
45-87 43-77
48-3i 62 52 48.83 41
52 118 42.97 177 44-74 228 47.02 270
49.24
49.72
47.01 47.69
74
4 I -79
68
31 49-55 18 49-73 6
52.72
55-92 59-20
49-79 5 49-74
62.45
17
49-57 28 49.29 48.91
48-45
65-56 68.45
38 46
71.02
73-2i
54 47-9i 60
74-97
47-31 64
46.67
44.60
78
77-03 2_5
45-99 70 45-29 69
27 80
77.28 77.01
68
76.21
43-92 64 43.28 59 42.69 52 42.17 43 41-74 33
131
74.90
180 226 267
41.41
61.79
41.20
58.21
73-
70.84 68.17
65-13
5 19 4!-36 3i 41.17
41.67
42.66
40.06
37-12
46.63
—0.1 - 0 . 1 3
334
43-38 332
44 55
+3-233
304
358 5448 373 5 0 . 7 0 378 4 6 . 9 6 374 358
41.12
42.11
10
294
60.52
+ 3-°75 —12.8 +
0.77
352 345
55-278
3°7 55-585 277 55-862 5J 6 . 1 0 6
2 4 4
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56.243 56.053
55-844
58.289
58.769 59.262
y 45 8-75 100 9-75 148 11.23 191 I 3 - I 4 225 8.30
37.68
22
60.661 61.056 6i
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60.611
60.237
5J J5 . 1 6 8
59.068
54.134 +1.261 +2.3 -0.03
307 322 329 326 313 290
489
7-93
5.068 293 5-36X 315 5.676 327 6.OO3 329 6.332 322 6.654 308
228 171
26.86
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26.46
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12 42.79 55- 45-97 49.06
117 176 230 2 „
51.96
54-59 56.88
58.77
7 7
318
306 318 318 3°9 290 263 229 189 144
60.21 3 5 1
61.18
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61.65
394
61.61
3 8 9
61.06
386
60.00
7-5 1 1 231
7-94i 8.106 8.236
8.330 '4, 8.389
48.00
57.988 58.296
308
58.670
374
29.91 26.52 23.46
59436 +
1.948
+ i-3
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—12.6 +
0.78
59 23
8.030
161 180 7.689 194 7-495 201 7.294 199
7.869
47 4 55 106
7-095 191
155
6.904
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6-475
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165 130
8.400
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199
8.412
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7.742
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£
216 J^g
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2
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Tag
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29
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133 " 73
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19 29 Aug. 8 18 28
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9-55
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54
2 5142 176 205 22
236
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Tag
15h 57m
1958
Jan.
1 11
50787
21
5I
3i
Febr. 10 20
März 2
5
12 22
April 1 11 21
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1 11 21 30
Juni 9 19 29
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Aug.
4
" °
7
84 7\
240
13-54
£
53.500 J J J 215
14.19
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1 11 21 3i Febr. 10 20 März 2 12 22 April 1
Mai
11 21 1 11 21 30
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9
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1958
20
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1 11
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27 Nov. 6 16 26 Dez. 6 16 26 36 Mittl. O r t 4 0 . 8 2 9 s e c 8, tg 8 + 1 . 1 6 6 a, a ' + 2.3 b, V —0.01
Kulmination
1449) 85 G. Ophiuchi Dekl. AR. 17h
+ 3 0 ° 59'
ff
5m
r4'42
287
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3-23 2'34 2.00 2.22 2.99
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77 127
4.26 »8.06 " 2 2
237
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307
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4
6
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1958
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143*
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Tag
AR. 17h
1958
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47-781
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AR. l8h
1958 Jan.
1 11 21
3i Febr. 10 20
März
2 12 22
April
11 1 11 21
3i J u n i 10
Juli
Aug.
Okt.
AR.
29.24 2
2I
4
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J
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r9 29
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8 18 28 7 17 27 7 17 27
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11 21 Mai
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Die jährliche Parallaxe (o'ii9) ist bereits berücksichtigt.
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l8h
1958
23m
1 11
5
21
5°-9 77
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20 2 12 22 April 1
£
53.576 J /
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Tag 1958 Jan.
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Mai
Juni Juli
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19 29 Aug. 8 18 28
26.42 s ^ 26.41 e. 26.31 26.13 25.88 3
Sept.
25
7 17 27 Okt. 7 17 27 6 16 26 Dez. 6 Nov.
16 26 36 Mittl. Ort sec 8, tg 8 a, a' b, b'
I 10 ig 25
32
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50
Scheinbare Sternörter 1958 Greenwich
Obere Kulmination
1958 1 11 21 3i F e b r . 10
Dekl.
AR. 22h 4Ö m s
-5i° // 85.71
Jan.
20 März 2 12 22 April 1
Mai
11 21 1 11 21
3i J u n i 10 20 30 J u l i 10 20 30 Aug. q 19 29 Sept.
Okt.
7 17 27 7 17
27 Nov. 6 16 26 Dez. 6 16 26 36
863) 1 Cephei
860) 6 Gruis
Tag
0
°
o
f
i
-
O.4 ? 8 0.390
,,
0-347
4
0-351 54 0.405 ^ ^ J 104 0.509 I 0-665 0.871 2< * ' 256 1.127 302 r-429 L 3!4 1 - /7 /7 J3 381 2-I54 2.564 4 1 0 0 ^ 43° 2.994 439 3-433 J! 4.294 , 4-694 ^ ^ 5-°59 0 5 -Z3 7 8 5"643 5-847 25*9^5
400 , 365 319 V 265 20I
'
AR. 3i'
„ 128
84-43 l 6 6 82.77 80.76 201 231 78.45 / -tJ 255 75-9° 2 7 , 74 73-16 /0 286 70.30 c. 293 67-37 299 4'43
289 6^*54 278 58-76 J 6 l 56.15 1. 239 53.76 ' 210 51.66 J 177 4
^
8 9
47-52 46.97 46.87 7 ^ 47-22 48.01 ^ 49"19
X39 » ® 35 79 q
118
yj
50-73 J 4 5 2 - 5 7 2D g
6.O56 6.060 " 6l 5-999 5-88O J 169 5-711
54.65 2 2 2 56.87 ' 227 59-14 t 225 61.39 , 212 63.51 J J 190
^'
65-41 67.01
209
5 -' 25 f4 2238 5.008 '6 J , 262 4-746 257 4.489 t ^ 243 4.246 , 220 4.026 0 A '9° 3-836 5
1.636 Mittl. O r t sec 8, tg 8 +1.608 + 3.6 a , a ' —0.08 b, b '
l6o
68.25 , ° 82 69.07 69-45 69.37 68.82 67.83 77.44 — 1.259 +19.0 + 0.32
g
s 10.72 -34 10.01 10
3 27
AR.
67.96 2 66.24 7 , ^ 220 64.04 61-45? 289 58.56 J J 307
9-44 9-43 9'5I 9-69
55-49 3 I 2 52'37 05 49.32 „ a 285 46.47 25
9"97 IO-34
r 8 l8 28
37 ,.
10.78
44
11.85
56
51 11.29 , 12-44
59 60
13
13.65 j8 14-23 54 I4"77 0 " 2 7 44 15-7I * 2 36 16.07 16.36 29 16.56 2 0 12 16.68 2 3 1 16.71 16.66 5 16.53 1 3 , 21 16.32 S 27 l6.05 ° 34 I5
" 7 1 38 15.33 I5
I4
"92
L
i4
- ° 2 46
" 5 6 44 13-I2 2 4 12.70 I3
IO.69 + 2.457 + 2.1 + O.I4
43-92
J
41'78
i67
4
40.11 0 112 38.99 5 4 38.45 ! 38-50
63
39-I2G 40.33 42.05 J 220 ^ 4 4 " 2 5 263 46.88 203 297 49.85 53-10
325 1
56.56 3 4 6 60.15 3 f 3*5 63.80 J 362 67.42 352 70.94 74.29 335 ^ 110 77-39 2 7 9 80.18 2 7 9 240 82.58 84-55 86.02147 * • « i 87.29 7 * 25 87-04 8 , 86.21 83 84.81140 45-41 + 2.244 +I9.I + O.31
864) X Aquarii
Dekl.
22h 48111
+ 6 5 ° 58' //
9.74 9-54 7 10
8
„ " "
1599) 69 G. Gruis
Dekl.
22h 4 8 m
n3*
AR.
- 3 9 ° 22'
22h 50"»
38-596 I 2 2 38.474 38.381 l 38.319 27 38.292 -
53-20 52-44 5I-34 49-94 48.26
38.302
46.34 t Ot 44.22 ^ 4 I ' 9 2 39-50 37-00
48 88 130
38.953 2 253 39.206 j 3 39-494 39
"814
45
40.159 40.521 40.892 41.262 41-621 41-959
37 370 359
338
42.269 7 272 ^ 42.541 227 42"768 5 42.944 3 43-°67 ,43-135 43-149
18.54 18.75 19.34 20.27 21.51 J
I23 6
3
I4
24^68 t
43.028 . 122 42.906 ^ v 154
28
4
7
-29
42"751
176
3I-73
42"57
189
33.19 34-40 35-31 35-87 36.08 35.92 35-40
42-387 42"194 42.005 i l l 41-666 41.528 4
I
39.062 + 1.294 +3.4 -0.05
IIO I40 r l 168
192
2x2 230 242 240 ^
34-47 2X 5 31-96 * 29.52 7 J 232 27.20 214 25.06 J 190 23.16 , 163 21.53 130 20.23 94 I9-29 „ i8-72 5 j;
32Q
I93 i89 i78
1 6 1
138
I46 I2I
56 2I
47
ft
25-4I3 83 7 ° ' 2 5 50 25-330 62 7 0 - 7 5 4 0 25.268 41 7 1 - 1 5 2 / 25-227 l 6 7 ^ 4 2 25.211 ° 11 . 7 I - 5 4 5 25.222 71-49 2 5 n 42 25.264 4 7I"24 46 25*338 ¿ 4 7°-78 69 25-445 ' 70.09 2 5-588 ; ; 3 69-> 11m o ® 26
Dekl.
+ 23 +4 + 16 -6
15-92 15-52 15-15
• Tag der doppelten unteren Kulmination: Dez. 24.
3i-59 31.29 30.99 30.69
26.24 25-9i 25-58 25-25 24.91 24.58 24.25 23.92
13-45 13.26 13.10 12.96 12.85
23-58 23-25
12.77 12.71
22.91 22.58
8 sec 8 tg 8 +60.840 +89° 3' 40" +61.028 +61.020 +61 209 5° 81958.0 == +89° 3' 14*82
32.47 32.18 31.89
tgS +61.020 +61 201
+ 22 + 29 i 30
+1 -2 -5 -7 -8 -6 -3 n
>23 1-4 + 11 + 7
- 5 + 7 + 17 +24 t-26 +24 +18
-5 -7 -7 -6 -4 -2 +1 +4 +6
+ 9 +7 - 1 +6 -11 + 5 -18 + 2 -20 -1 -17
-4
- 8
-7 -8
+ 4
Scheinbare Sternörter 1958
208 •
Obere
Kulmination Nk)
Tag
Januar AR
Dekl.
+ 20h 45m 82° 22' s I 2
37-72 37.62
3
37-52
AR
-L
in
s
tt
0. Ol 0.01
20h 45m 82° 22' s »36.03 48.61
58.14
+
3
-5
57.87 57.60
+
3
-2
36.02
48.28
+
3
+2
36.02
+5
36.02
47-94 47.61
57-33
+
5
37-33
57-05
+ 2 +6
36.02
47.28
6
37-25 37-16 37.08
+6
36.03
56.49 56.20
46.95 46.61
56.77
3
0
-1
+
- 3
+ 2
36.04 36.06
55-91 55-62
- 3
-2
36.07
- 3
- 5
36.IO
4
9 10
36.93
11
36.86
- 7
36.12
36-79 36.72
55-32 55-02
-2
12
- 1
- 7
54-72
+ 1- 5
!3
45-95 45.62
!9 20
+1
+ 9
36.38
0
+8
36.33
52.54
-1
+6
S
S
32.67
- 3
-
6
40.86
32.53
- 3
- 5
- 1
- 8
37-07
39.64
+ 2 1- 6
+ 1+ 6 -I + 5
37-15
39-35
37-24
39-07
-2
37-33 37-42
+
3
0
- 3
- 3
- 4
- 3
- 6
O+
1
-I
+
4
41.01
38.79
- 3
+
1
41.16
32.39 32.26
38.51
- 3
-
3
4I-3I
32.13
0
37-51 37.60
38.24
- 3
-
5
41.46
-
3
-
7
41.62
32.01 3I.9O
+ 2
-2
+
3
+
1
37-7 0
-
7
41-77
3
+
5
i- 2 - 1
41-93 42.08
3!-79 31.69 31.60
+
+ 1-
- 1
- 7
0
- 6
37-7 0 37.80
I
- 3
37-9°
r
in
s
0.01 0.01
40.71
+5
+ 2
45m 82° 22'
37-97 37-44 37-I8
0
-
7
- 6
5
1-2
r-
+1
+ IO
8
3
42.24
3 I -5 I
36.15
+ 6
42.40
31-43
-1
+
7
44-63 44-30
+ 2
+ 7
38.23
36.42
+2
+
42.56
31-35 31.28
-2
+
5
- 3
+ 1
31.22
- 3
- 2
31.16
-2
-
31.11
-2
- 6
43-36
31.06
- 1
-
31.02
0
30-99
+ 2
-
43-34 43.02
53-17 52.86
-t20h
+ 3
43.66
36.42
in
+ 3
36.28
18
s
0.01 (0.01
36.92
36.32
f
22'
36.67
+ 5
+
53-49
82°
38.12
3
36-53 36.48
53.8O
17
45m
38.01
2 +8
16
20h
£ Glieder
+ 4
43-98-
+
+•
n
O.Ol
Dekl.
3
36.24
+2
54-n
April AR.
i Glieder
+
-2
54-42
Dekl.
+ 2 + 1
+ 2
36-65 36-59
in
s
0.01
AR.
45-29 44.96
3
!4
36.37 36.42 36.47
42.70 42.38
^
9
0
9
9
38.34
36.18
+ 1+10
0
+ 9
38.45
35-94
- 1
- 1
+ 7
-2
+ 6
+
35-47
- 3
+
- 3
+2
38.57 38.69 38.81
35-70
-2
35-25
- 3
- 3
- 1
3
- 4
35-03 34.82
-
- 3
38.93 39.06
- 3
-2
-
5
43-53 43-70
-
7
43.86
30.97
1-3
-
3
-
7
30-95
' 3
-
1 2
+ 1+
5
+
42.72 42.88
9
43-04 43.20
3 0
4
7
- 6 5
36.53
42.07
-2
-6
39.18
34.61
-1
36.59 36.64
41-75 41.44
-1
-8
39-32
0 l-I
-
7
44-°3 44.20
3
t
36.71
4I-I3
+ 2
-
5
44-36
30.93 30.92
+
- 5
+
3
+
4
-2
- 7
36.77
40.83
- 2
44-53
30.92
+2
+
5
0
-8
36.84
5
36.91
40-53 40.23
+
+ 1-8
+
39-93
+
3
+ 4
39-64
+2 +6
21
36.29
52.22
-2
1-4
22
51.89
- 3
+1
23 24
36.25 36.21 36.18
5i-57
- 3
- 3
51-25
-2
25
36.15
50.93
26
36.12
50.60
27 28
36.10
50.27
36.08
1-2
-6
29
36.06
49-94 49.61
+
3
- 3
36.99 37-07
30
36-05
49.28
+
3
31 32
36.04
48.95 48.61
+
3
+2
+ 82'
46.28
36.17 36.21
15
36.03
5^69 März
Dckl. | { Glieder
37-43
37.00
76 Draconis
Februar J Glieder
4
7 8
Greenwich
0
-8
•r
2
- 7
39-45 39-58
34-41 34-21 34.02
+
3
- 5
39-72
33-83
+ 3
3
-2
39-85
33-64
+
3
0
44.69
30-93
0
+
3
+ 2
39-99 40.13
33-47 33-30
+
3
+
3
44.86
30.94
-1
+
+ 2
+
5
45-02
- 3
-
4
- 3
-
7
- 1
- 8
40.27
33-13
+ 1+
5
45-r9
30.95 30.98
0
40.42
32.97
0
4
45-35
31.01
+
3
40.56
32.82
-2
+ 2
45-52
S
+
5
40.71
32.67
" 3
sec 8 +7.542
+ 7
8 I sec S | tg S 22' 30" | +7 536 1 +7 47° 40 | + 7 5 3 9 | + 7 - 4 7 3
8 I sec 8 +82° 22'40" ' +7 539
011958 o = 20h 45m 44^84
5 °
+ 7 - 5 4 2
tg $ +7 473
+
-
8 +82° 22' 50"
+ 7 - 4 7 5
6
0
+ 7 5 4 5
81958.0 =+82° 22' 38*86
* l ag der doppelten unteren Kulmination: Febr. 1.
1
- ^
1
tg 8 4 7 5
+7.478
3 0
Scheinbare Sternörter 1958 Obere Kulmination Nk) X-1
Greenwich
76 Draconis
5^69
l a gn Dekl.
AR.
+ 20h
4 5
m
82° 2 2 '
i
Glieder in s I » o.ox|o.ox
AR.
Dekl.
+ 2 0 h 45™ 82° 2 2 '
C Glieder in s 0.01 0.0z
AR.
45-52
2
45.68
3I.O9
3 4 5
45-85
31-14 3I-I9 31-25
6
46.01 46.18
46.35
7
46.51 46.67
9
46.83 46.99
8 10 1 1
12
13 *4 15 16
17
18
19'
20 21 22
47-15 47-3i 47-47 47-63 47.78
47-94 48.09
48.25
48.40
31.05
3I-3I 31-39 31-47 31-55 31-64 31-74 31-85
31.96 32.07 32.19
32.32 32.45 32.59 32.73
+
3
50.78
+3
+
6
50.91
36.19
-2
+7
51-03 5i.i5
36.43
-3
+4
0 - 7
50.39 50.53 50.65
+1
- 5
+ 2 - 1
+2 + 9
26
49-44 49-58
33-89
28 29
49.72 49.86
30
49-99
34-27 34-46 34-66
3i 32
50.13
50.26
34.08
34-87 35-o8 8
+82° 22' 30* 40
+8
+1
+9
0 +9
+1
-2
5i-39
37-17
-2
-5
-3
51-51 51-63 5i-74 5I-85
37-43 37-69 37-95
-2 -6
+
-3
3 0
- 3 - 3
-2 - 5 - 1 - 7
51.96
0 - 7
52.06
+
1 - 6
+ 2 - 4 +3
-
1
+3
+
2
- 3 - 2
49.29
+2
-3
+ 1 + 6
25
+4
-3
33-04 33-20 33-37 33-54 33-71
49-15
+3
36.67 36.92
f i o
48.70
24
0
51.28
0
32.88
23
+3
-x + 9 -2 + 6
48.55 48.85 49.00
27
+3
50.26
+ 3 + 4
+2 f 5 + 4
-1
- 2 + 1
-3
-
5
- 2 - 7 - 1 - 8 + 1 - 6
+ 2 - 3 +3
52.17 52.27 52.36 52.46 52.55 52.64 52.73
0
4 5
>r s 0.01 0.01
+2
+8
43-58
0
+9
43-90
—X
+8
44-23 44-56
-2
+5
-3
+2
43.26
53-67 53-73 53-78 53-83 53-88
44.89
53-92 53-96 54-oo 54-04 54-07
46.59 46.93 47.27
+3
0
47.62
+3
+2
47-97
+2
+5
48.32
+2
+6
48.67
0
4-6
49.02
-1
+4
49-37 49-73
-2
-l-i
-3
-2 -5
45-23 45-56 45-9° 46.24
-3
-i
-3
-4
-2
-6
-7 0 -7
+1
-6
+2
-3
-6 -4
+3
-2
38.75 39-03 39-3i
+3
+1
+3
+4
+2
+5
39.60
+2
39-89
0
+ 5
54-io 54-13 54-15 54-17 54- I 9
40.18 40.47
-2
+3
54-2i
50.09
-3
-3
0
54.22
50-44
-2
40.77
54-24 54-24 54-25
50.80
54-25 54-25 54-25 54-25 54-24
51.86 52.22
54-23
-4 -7
52-9 1
4i-37
-1
-8
52.99 53-07 53-15 53-22 53-29
41.68
0
-7
41.99 42.30
+1
-5
-1-2
-1
42.62
+3
+3
42-94
+3
+6
53-36
43.26
+2
+8
54.22
8 tg 8 +82» 22' 40' +7-47° +7-473 5° 4Sm 4 4 s 8 4
see 8 +7-539 +7-542
/ \
-1
+1
-2
20h
/r
53-36 53-43 53-49 53-56 53-62
Dekl.
AR.
+
in
82° 2 2 '
+2
-3
1x1958.0 = 20h
m
J Glieder
38.21 38.48
0
sec 8 +7-536 +7-539
-7
41.07
52.82
Dekl.
S
35-o8 35-29 35-5i 35-73 35-96
- 1 - 8
|
+ 20h
S I
August
Juli
Juni
Mai
209«
4 5
m
82° 2 2 '
S
/t
54.22 54.20
54.02
5419 54.17
54.74 55.10
54-14 54-12
55-45 55-8I
54-09
56.17 56.53
54.06
54-38
54-03 53-99 53-95
56.88
53-9i 53.87 53-82 53-77 53-72
57-95 58-30
53-67 53-6I 53-55 53-49 53-43
57-24 57.60
58.66 59.01
59-36 59-71
60.06 60.40 60.75 61.09
53-22
61.44 61.78 62.12
53-14 53-07
62.45 62.79
52.99
63.12
52.82
63.78
52.94
+1
+1 +5 +7 +8
52.73
64.11
53-30
-1
+8
52.64
64.44
53-66
-2
+6
54.02
-3
+3
52.55 52.46
64.76 65.08
sec 8 +7-545 +7-547
+7.478 +7.481
51-i5 5i-5o
52.58
tg 8 +7-473 +7-475
-7 -1 -7
+1
-6
+2 - 2 +3 +3
+2
8 +82" 23'
0' 10
53-36 53-29
52.90
63-45
tg 8
81958-0 = +82° 22' 38"86
O
Scheinbare Sternörter 1958
210*
Obere
Kulmination -6 Draconis
Nk) Tag
September AR.
Dekl.
+
Greenwich 5^69 November
Oktober
([ Glieder
AR.
Dekl.
+
in I *
s
1
"
0.0I[0.0X
0 -7 -I -6 -I -3 -2 0 - 1 +3 0 +6 +1
+7
+ 2 +7 +3 +5 +3 + 1 +2 -3 +1 -6 0 -8 - 2 -7 - 3 -S
36.40 36.45 36.50 36.55 36.59
43-78 44.11 44-44 44.78
36.63 36.66 36.70 36.72 36.75
45-45 45-79 46.13 46.47 46.81
36.77 36.79 36.81 36.82 36.83
47.16 47-50 47.84 48.19 48.53
+2 - 5
36.84
48.88
-2
45-12
sec 8 +7.690
tg 8 -7.624
+7.692
-7.627 81958.0 =
-3 -2 -3 + 1 - 3 +4 -2 +7 - 1 +8 0 +7 +1 +5 +2 +3 +2 0 +2 -3
-7 0 -7
+1
-6 -2 -4 -1
-1
8 - 8 2 ° 3 1 ' 50* 60 -82* 3 1 ' 47*43
AR.
Dekl.
5 h 3m 82° 3 1 ' 36.84
36.84 36.84 36.84 36.83
48.88 49-23 49-57 49.92 50.27
36.82
50.61
/ 36.81
V 3«-7»
50.96 51.31
36.77 36.75 36.72
5i-99
36.69 36.66 36.62 36.58 36.54
52.68 53-02 53-36 53-70 54-03
36.49
54-37 54-70 55-04 55-37 55-7o
36.44
36.39 36.33 36.28 36.21 36.15 36.08 36.0I 35-93 35-85 35-77 35-68 35-6O 35-5i
51-65
52.34
56.02 56.35 56.67 56.99 57-31
57-63 57-94 58.25 58.56
58.86
35-41 35-32
59.16 59-46
see 8 +7.692
tg s -7.627 -7.630
+7-695
Scheinbare Sternörter 1958 Obere K u l m i n a t i o n Sc) Januar AR.
9
3m
27-58
27.71 27.83 27-95
28.07 28.18 28.28 28.38 28.48 28.57 28.65 28.73 28.80 28.87 28.94 29.00 29.05 29.10 29.15 29.19 29.22 29.25 29.27 29.29 29.31
Dekl.
AR.
in s I*
85° 29' O.OX|O.OI 9 h 3 " 0
49.86 50.20
+4 +6 +6 +4 4-6 o
50.54
+ 6 -3
49-53
50.88
+ 4 -5
51.22
+1
-6
51-57 5*-92
-1
-6
-4
"3
-6
o
52.27 52.63 52.99
Greenwich
X, Octantis
5™38 März
Februar • Glieder
29.27 29.25 29.22 29.18 29.14 f 29.10 l 2» .05 28.99
- 6 +3
28.93 28.87 28.80
-5 4-6
28.72
- 2 +7
Dekl.
Glieder
85° 3 0 '
in s I ' 0.01I0.01
m
0.82 1.20 1.58 1.96 2-34 2.7« 3.09 3-47 3-85
+
14.101
0.I2II
O.3477O
2i8
+187
15.098
O.I239
16.096
O.I266
7-°93
O.I293
18.090
O.I32O
19.087
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20.085
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+ O.352O4 O.35418 J J T 0 210 0.35628 0 207 0.35835 0 0 204
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2.165 I.811
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+ 0.39644
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15.022
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0.40132
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17.016
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18.014
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+ 14
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337
6.336
7.044
10.036
297 300
9.308
8.041
7
292
8.988 3 8.665 323 0 326 8-339 8.010 329
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353
Reduktionsgrößen 1958 für i2 h S t e r n z e i t Greenwich
272 •
Weltzeit
t
A
A'
B
1 9 5 8 a 2 3 0 .0 0 0 2 .2 2 2+ 0 4 .1 4 0 9 3 5 5 + 7-190 6 2 . 2 4 9 0 4 .1 5 6 8 1 . 9 6 2 3 9 -9 7 O — 4 6 1 7 2 . 2 7 6 0 4 .1 7 2 8 7-203 g — 4 6 1 2 4 9 -9 5 O 1 6 0 2 5 9 .9 2 O 2 . 3 O 3 0 4 .1 8 8 8 7-2II 8 -352 2 6 9 .8 9 O 2 .3 3 I 0 4 .2 0 4 8 -233 7.219 9 7.228 2 7 9 .8 6 O.2358 0 4 .2 2 0 9 - 77 ' 10
März
2 8 9 .8 4 O.2385 + 0 4 .2 3 7 1 2 9 9 .8 1 O.2413 0 4 .2 5 3 3 3 0 9 .7 8 O 2 4 .4 O 0 4 .2 6 9 5 2 . 4 6 7 0 4 .2 8 5 9 3 1 9 -7 5 O April 1.973 O 2 . 4 9 5 0 4 .3 0 2 5 2 9 .7 0 O 2 . 5 2 2 0 4 .3 1 9 2 3 9 -6 7 4 9 -6 5 5 9 .6 2 6 9 -5 9 7 9 .5 6 8 9 -5 4 9 9 -5 1 1 0 9 .4 8 " • 9 4 5 1 2 9 .4 3 1 3 9 .4 0 1 4 9 -3 7 I 5 9 3 5 1 6 9 .3 2 1 7 9 .2 9 1 8 9 .2 6 1 9 9 .2 4 2 0 9 .2 1
2 1 9 .1 8 2 2 9 .1 5 2 I 3 9 3 2 4 9 .1 0 2 5 9 -0 7 2 6 9 .0 5 2 7 9 .0 2 2 8 8 .9 9 2 9 8 .9 6
Mai
3 0 8 .9 4
1.891
2 8 .8 8
2 .3 8 + 81 + 7 ' o 10 7 2 .4 8 + 199 o 10 + 2 5 5 7.258 r II + 2 2 5 7-269 I2 + 122 7.28I
- 27
7 2 -9 4 „
B' 1 8 7 .6 9 -30 13 1 8 7 .5 6 — I 19 +2 9 18.737 2 4 8 7 .1 3 +5 3 1 3° +6 91 8 6 .8 3 36 1 8 6 .4 7 + 71
41
+ 56 + 27
—10
4 6 7 2 8 2
1 8 6 .0 6 4 6 1 8 5 .6 0 52 1 8 5 .0 8 58 1 8 4 .5 0 3 1 8 3 .8 76 68 1 8 3 .1 9
74
4 .3 3 6 0 1 7 7 + 7-307 1 8 2 .4 5 -70 O 2 . 5 4 9+ 0 1 6 8 79 O 2 . 5 7 6 0 4 .3 5 2 8 1 8 1 . 6 6 2 7 9 7-321 4 2 1 7 0 8 4 0 2 . 6 0 4 0 1 8 0 .8 2 4 .3 6 9 8 — i -304 7 3 -3 5 8 9 172 I O 2 .6 3 1 0 4 .3 8 7 0 3 -5 0 [I + 37 1 7 9 -9 3 2 4 4 7 174 O 2 . 6 5 8 0 4 .4 0 4 4 — 0 1 6 7-3f 16 + 6 7 1 7 8 .9 9 O 2 . 6 8 6 0 + 8 2 4 .4 2 1 9 1 7 7 .9 9 7-382 1 0 5 + 74 O 2 .7 1 3+ 0 1 7 6 . 9 4 4 .4 3 9 6 + 7 8 + 7-398 5 3 1 8 0+2 O 2 . 7 4 O 0 4 .4 5 7 6 I7.583 7-4I5 + 59 1 8 1 + 391 "5 O 2 . 7 6 8 0 + 27 ^•468 7 4 -3 3 4 -4 7 5 7 +467 O 2 . 7 9 5 0 7 4 -5 0 - 5 4 -4 9 3 9 17.349 I2Ó +4 6 4 O 2 . 8 2 2 0 4 .5 1 2 4 7 4 .6 8 1 7 2 .2 3 3 5 130 +3 8 2 O 2 8 .5 O 0 7 4 .8 6 -56 I7.093 4 -5 3 " 135 1 8 9 + 270 I O 2 . 8 7 7+ 0 6 9 .5 8 4 .5 5 0 0 6 7 1 + 117 + 7-505 - 8 7 .9 3 4 19 1 9 1 O 2 9 .O 4 0 16.818 !1 ° -66 4 .5 6 9 1 9 1 . 0 7 3 9 7 5 2 4 4 4 1 9 4 16.674 1 5 7 O 2 .9 3 1 0 1 8 5 7 4 .5 8 8 5 4 .1 8 -4 " 0 9 ' 5 ,4 21 ,195 I 2 5 6 54 * -36 O 2 . 9 5 9 0 4 . 6 0 8 0 2 -9 9 7-565 9 7 .2 5 , 198 2I 1 6 3 . 7 0 —li O 2 . 9 8 6 0 4 .6 2 7 8 1 0 0 . 3 0 3 7 3 J/ 7 5 8 6 2i 0 1 , 158 O 3 . O 3 I 0 4 .6 4 7 9 i2 1 6 . 2 1 2 l 1 0 3 .3 2 7-607 2I + 18 3 9 ° 1 6 4 2 0 4O 3 . O 4 I+ 0 1 0 . 6 3 1 + 7 6 .2 8 6 0 .4 8 4 .6 6 8 3 31 1 6 8 t 2 1+ 4 2 0 6 -350 £. 295 0 3 . 0 6 8 0 6 .4 9 1 5 8 .8 0 4 . 6 8 8 9 2 5 2 7 + 6 3 IO.926 7 2 ' 2 1 2 0 9 o 292 7 6 .7 0 15.708 1 4 .7 0 9 8 • 7 '1 1 1 8 2 I 0 3 -0 9 5 0 ' 2 1 " • ® 288 2 1 1 + 6 3 O 3 .1 2 3 0 4 .7 3 0 9 0 6 + 32 15.531 z " • 5 285 7-691 22 + 4 0 1 O 3 . 1 5 O 0 + 160 5 3 .5 0 4 .7 5 2 3 7.713 22 1 8 5 "•79* 282 +6 4 .7 7 4 0 1 5 1 . 6 5 2 O 3 .1 7 7 0 + 235 1 8 9 1 ° 7 3 278 2 3 7 7 -3 5 1 2 . 3 5 1 4 .7 9 6 0 1 4 9 .7 6 O 3 . 2 O 4+ 0 +2 2 9 -30 + 7-758 2 2 1 9 4 2 2 1 4 .8 1 8 1 1 4 7 .8 2 1 2 6 .2 5 O 3 . 2 3 2 0 5 9 + 151 1 9 8 7 7 .8 0 2 2 4 23 -78 4 .8 4 0 5 2 8 .9 6 O 3 . 2 5 9 0 1 4 5 .8 4 2 0 2 1 7-803 2 2 6 + 25 O 3 . 2 8 6 0 4 .8 6 3 1 3 7 5 1 4 3 .8 2 1 3 1 . 6 2 1 4 4 2 0 5 7 8 . 2 6 : 230 4 .8 8 6 1 2 3 -56 1 4 1 . 7 7 13-425 O 3 .3 1 4 0 2 7 2 7 8 .4 9 233 — 1 3 6 .8 4 4 . 9 0 9 4 1 3 9 .6 6 0 3 -3 4 I+ 0 3 3 9 + 7 8 .7 2 23 —21
Reduktionsgrößen für
I2 b S t e r n z e i t
Weltzeit
Mai
1958 2 .888 3.885 4.883 5.880 6.8 77 7.874
A'
+ 444
13-858
0.3505 0.3532 0.3559 0.3587 0.3614 0.3641
14-855 15-853 16.850 17.847 18.844 19.842
0.3669 +0.52106 268 0.3696 0.52374 0.3723 0-52645 ' 0.3751 0.52918 0.3778 °-53 I 95 " 0.3805 0.53474 2 g 2
20.839 21.836 22.834 23.831 24.828 25-825
0.3832 + 0 . 5 3 7 5 6 0.3860 0.54040 2 8 0.3887 0.54325 2 8 8 °-39 I 4 0.54613 2 9 0 0.3942 0.54903 2 9 2 0.3969
26.823 27.820 28.817 29.814 30.812 31.809
0.3996 + O.55489 297 0.4024 O.55786 298 0.4051 0.56084 301 0.4078 O.56385 302 0.4106 O.56687 0-4I33 0.56991
+ 79
1.806 2.803 3.801 4.798
0.4160 +0.57297 309 0.4187 0.57606 308 0.4215 0.57914 0.4242 0.58225 311 312 0.4269 0.58537 313 0.58850 0.4297
-149
7.790 8.787 9.784 10.782 11.779 12.776
B'
D
ID 0.00Z
-339
5-795 6-793
G r e e n w i c h B
0-3341 + 0.49094 236 0.49330 0.3368 238 0.49568 0.3396 241 0.49809 0.3423 245 0.50054 0-3450 247 0.50301 0.3478
8.872 9.869 10.866 11.864 12.861
273»
1958
250
+ 0.50551 252 0.50803 256 0.51059 258
°-5 3 7 I
I
26o
0 . 5 1 5 7 7 263 0.51840
266
294
0.4324 0.4351 0.4379 0.4406 0.4433 0.4460
315
+0.59165 317 0.59482
0-59799
317 318
0.60117 320 0.60437 320 +0.60757
-317 —207
- 39 + 155 +328
+481 +440
+ 338
+ 194 + 31 -145
-255
-340 -363 -348 —267 -141
+
3
+ 141 + 230 +254 +200
- 76 —229
-333 -354
-289
+ 37
+ 224
+373 +454 +457
—21 + 21
+ 8.010 8.033 8.056 8.079 8.102 8.125 _
+43 + 9
-12.628 236 12.392
-23 -51 -65 -69
12.153 242 11.911 247 252
- 1 5 - 1 5 1 230 15-381 224 15-605 221 15.826 216 16.042 211 16.253 207
+ 8.147 8.169 22 22 o 8.191
-62
-11.163 10.908 255 258 10.650 261 10.389 , c. 2^3 10.126 Jl 266 9.860
—16.460 202 16.662 197 16.859 192 17.051 187 17.238 183 17.421
o «
2 1 3
+ 54 + 76 + 82 + 70
22 «
234 « «8.255 2I
+ 8.276 o 21 8.297 o
20
19
8-336 £ 8.356 o
19
375 ¿
+8-394
l8
s 412 8.430
8-447 8.464 % * 8.480 10 17
+ 8-497 l 6 8.513 14 8.527 14 8.541
8-555
8.569
14
14 13
+8.582
+ 99
8.606 il 8.617 il 8.628 10 + 8.638
8-594
-45 -19 + 8
+ 35 +59 +68
+ 65
+ 49 + 19 -16
-49 -71
-77
-64
+386 + 268 - 66 -213 -318
-13.684
+ 7.872 7.896 7.919 7.942 7.964 7.987
12 12
-37 + i +39 +67 +81
+77 + 55
+24 —10 -41 -62 -72
-13.966 13-753
13-535
ai8
222
13-313 225 13.088 228 12.860 232
239
11.664 249 II
-4I5
269
9-591
272
9-3I9 274
9-045
276
8.769 279 8.490 281 8.209
284
7-925 7-639 7-352
286 287 290
7.062 290 6.772 293 6.479 296
6.183 297 5.886 298 5.588 298 5.290 301 4.989 4.686 303 304
-67
4.382 304 4.078 305 3-773 307 3.466
-31
3.158 309 • 2.849
-53
308
r
3-939
14.190
2
55
251
247 243 14.680 238 14.918
14-437
233
177
-r7-598 173 17.771 r 7-939
168
i62
18.101 158 18.259 18.410 151 147 - 1 8 . 5 5 7 142 18.699 136 18.835 131 18.966 126 19.092 121 19.213 «5 —19.328 19-438 104 I 9-54 2 99 19.641 93 19-734 88 19.822 83 -19.905 19.981 20.052 20.117 20.178 —20.232 S
76
71 65 61
54
Reduktionsgrößen 1958
274*
für 12h S t e r n z e i t
Weltzeit 1958 Juni 12.776 13-773 14.771 15.768 16.765 17-763 18.760 19-757 20.754 21.752 22-749 23746 24-743 25-741 26.738 27-735 28.732 29.730 Juli
30.727 1.724 2.722 3-7I9 4.716 5-7I3
t
a 0.4460 + 0.60757 , ' 320 0.61077 O.4488 , "320 0.61197 0-45I5 O.61719 O.4542 r 322 O.62O4I O.457O 1 Î22 0-4597 O.62363 J ° 323 O.4624 + O.62686 324 O.4652 O.63OIO c. 324 O.4679 0.63334 ,-T 0.4706 0.63658 4 O.4734 0.63981 2 O.4761 0.64305J 323 O.4788 + 0.64628 r 323 O.4815 O.6495I ° 322 O.65273 O.4843 J /J ™ O.487O O.65595 2 2 O.659I7 O.4897 ' 320 O.66237 O.4925 32O O.4952 + O.66557 ? 2 0 O.4979 O.66877 3 ¿ í 319 0.5007 O.67I96 0.5034 0.67514 ' 0.67830 0.5061 0.68145315 0.5088 313
6.711 7.708 8.705 9.702 10.700 11.697
O.5116 o-5 I 43 0.5170 0.5198 0.5225 0.5252
12.694 13.692 14.689 15.686 16.683 17.681
0.5280 0.5307 0.5334 0.5362 0.5389 0.5416
18.678 I9-675 20.672 21.670 22.667 23.664
A
0.5443 0.5471 0.5498 0.5525 0.5553 0.5580
+0.68458 0.68771 ; 3 0.69082 ID t. 3 O.69392 0.69700 0.70007 307 ' ' 305 + 0.70312 Î 3°3 0.70615 ¿ 301 0.70916 ' 7 , 300 0.71216 299 O.71515 ^ 0 296 O.71811 293 + 0.72104 ' 7 292 0.72396 2 q o 0.72686 ^ O.72973 2 85 O.73258 + O.73541
A'
in OO . OOOI -318 -371 -364 -299 -197 - 33 + 113 + 229 +281 +254 + 161 +
13
Greenwich B
+ ¿638 8.647 8.656 8.664 8.671 8.679 + 8.686 8.692 8.697 8.701 8.705 8.709
c
B'
l
9
7
* 5 4
\ 3
in 0.00z -31 - 3 + 27 +49 + 68 + 70 + 56 + 33 - 3 -34 -62 -77
D
it 2.849 2.54O 2.231 u I.921 1 I.610 I.299 -0.988 I £ 0.676 O.364 —O.O52 2 + 0.260 O.572 D/
;
-69 -48 -14 + 23 + 54 + 77
+ 0.883 u
+ 80 + 64 + 38 + 4 -26 -53
+ 2
+404 +304
+ 8.717 8.716 ; 8.714 * 8.711 3 8.70838.704 ;
+160 4 -161 —290 -371 -392
+8.700 8.6951 8.6905 8.6841 8.678 8 . 6' 7 1 77
-67 -70 • -61 -43 -15 + 13-
-348 —246 —102 + 57 + 193
+8.664 8.657 g 8.649 i 8.640 9 8.631 9 8.621 IO 10 + 8.611 8.601 11 01 0 8.590 H 8-579 „ 8.568 „ + 8-557
+ + + + +
-151 —276 -344 -323 —221 - 58 + 124 +289 +399 +439
+281 + 290 + 225 + 96 - 60 —207 -299
+8.712 8.714 8.716 8.717 8.718 8.718
2 1
43 63 71 65 42
+ 13 -24 -55 -73 -74 -58 -29
n
J309
309 310 311 311 311 312 312 3I2 312 312 3" 311
311
ÏT
2.126 3 1 0 3 2-436 308 ™ -744 3o8 3 - 5 2 306 3-358 3.664 3 c. 3°5 3-969 0
4 +
- 2 7 4 303
4-879 302 ^ 5- I 79 2 9 9 5.478 J 297 5-775 295 6.070 294 + 6.364 , ¿ 7 292 6.656 291 947 2 8 9 7- 2 3 287 7-523 2 5¿ 7.808 * ' 282 + 8.090 0 0 281 8 - 3 7 t 278 8.649 7 8.924 2 7 5 273 9-197 ' +9.468 2 7 1
—20.232 20.281 20.324 20.362 20.394 20.420 ^ —20.441 20.456 20.465 20.469 /• 20.467 20.460 ^ —20.447 20.4280 20.404 ^ ^ 20.374 20.338 20.297 ^' —20.250
49
38 J 21 > 2 13 *9 24 30 s6
>
47
53 20.197 58 20.139 6 3 20.076 20.007 75 19-932 80
-I9-852 8-3 19.767 ¿ 1 91 I9-676 r 9-579 I 0 2 j 9-477 19-370 I I 2 —19-258 19.140
Il8
123 I29
18.888 9 18.755 18.617138 ' 144 J — i80-473 149 i8 -324 I 4 18.170 * ' 160 18.010 ^ ^7-846 S -17.677
Reduktionsgrößen 1958 für i2 Sternzeit h
1958 Juli 23.664 24.661 25-659 26.656 27-653 28.651 29.648
30-645 Aug.
31.642 1.640 2.637
3-634 4-631 5.629 6.626 7.623 8.621 9.618
0.5580 0.5607 0.5635 0.5662 0.5689 0.5716
2go
-299
268
-313 —246 -108 + 61 + 227
0.73821 0.74099 ' 0-74374 2 ' 2 0.74646 4
o-749 I 5
0-5744 + 0.75183 266 0.5771 0-75449 2Ö2 0.75711 25Q 0.5798 0.5826 0.75970 2 5 8 0.76228 0.5853 255 0.76483 252 0.5880 0.5908 + 0.76735 2 4 9 0.76984 2 4 6 0.5935 0.5962 0.77230 244 0.5990 0.77474 2 4 1 0.6017 0.777x5 238 0.6044 0.77953 235
+353
+417 +409
+335
-391
-318
16.599 I7-596 18.593
0.6235 + 0.79542 216 0.79758 0.6263 0.79971 2 1 3 0.6290 211 0.80182 0.6317 208 0.80390 0.6344 206 0.80596 0.6372
+ 155 + 8 —142
0.6399 +0.80799 201 0.81000 0.6426 198 0.81198 0.6454 196 0.81394 0.6481 0.81587 193 0.6508 0.81778 1 9 1 0.6536
-137 + 25 + 193
0.6563 +0.81967 0.6590 0.82154 0.6618 0.82339 0.6645 0.82521 0.6672 0.82701 0.6699 + 0.82879
20.588 21-585 22.582 23.580
24-577 25-574 26.571 27.569
28.566 29-563 30.560 31-558 Sept. 1.555 2-552
D
203
189 187 185
182 180 178
—192
- 35
+ 118 + 236 +287
+255
-255
—306 -254
-29 + 10
8.493
+69
+ 9.468 2 6 8 9736 2 6 6 10.002 2 6 3 10.265 260 10.525 2 5 7 10.782
+8.480 8.467
+46 + 17 -14 -42 -61 -69
+ 11.037 11.289 11-537 11.782 12.024 12.263
-65 -50 -26 + 2
+ 12.498
+ 8.557 8.545 8.532 8.519 8.506
8-453 8-439
+210 8.425 8.411 + 56' —102 +8.396 -244 8.381 -350 8.367 —401 8-353
0.6071 + 0.78188 0.6099 0.78421 2 3 3 230 0.6126 0.78651 227 0.6153 0.78878 224 0.6181 0.79102 222 0.6208 0.79324 2 I 8
9-59 I
B' in 0 . 0 0 1
+ 0 -7354i
10.615 11.612 12.610 13.607 14.604 15.601
I
Greenwich
A'
Weltzeit
275 •
8.338
8.323 +8.309 8.295 8.280 8.265 8.251 8.238 +8.224 8.210 8.196 8.182 8.169 8.156
+ 44 + 68 +77
+33 +57 + 70
+ 68 + 54
+ 26
- 9 -44 -69 -78 -68
-41
- 5
+ 32 + 62 + 78
+416 +425
+8.143 .8.131 8.119 8.107 8.095 8.083
+366 + 258 + 115 - 40 -187 -303
+8.072 8.062 8.051 8.041 8.033 +8.025
-33 -55
+334
+ 74 +57
+ 28
- 5
-67 -66
-56
-35
255
I2
"73«
252 248 245 242 239 235 232 228
12.958 225 13-183 j j 22I ^ • f 4 2i8 13.622 2 1 4 + 13.836 14.046 14-253
14-455
14-653 14.847
2x0 207
15.926
-16.560 16.358 16.151 I5.940 15-724 15-503
r
7-3 2 4
17.140 16.952 16.758
-I5-279 I5-049 14.816 I4-578. r
4-337
14.091 '3-587
*
202 194
8 266 12.802 2 6,9
191
272
198
+ 15.038 185 15-223 15.406 183 177 15-583 174
15-757
-17.677 I7-503
169 164
+16.090 161 16.251 16.406 155 151 16.557 147 16.704 142 16.846 137 + 16.983 17.116 133 I7-243 1 2 7 I7-365 1 2 2 17.484 1 1 9
+ I7-597 " 3
I2
-533 J J J
-12.261 11.985 11.706 11.423 II-I37 10.848 -10.555 10.258
9-959 9-658
9-354 9.046
- 8.736 8.424 8.109 7.791 7-471
- 7- I 49
Reduktionsgrößen 1958
276 * für
t
Weltzeit
i2h Sternzeit
A'
A
a
1958 Sept. 2.552
O.6699
+ 0.82879
3-550
O.6727
0.83056
4-547
O.6754
0.83231
5-544
O.6781
0.83404
6.541
0.6809
0.83574
7-539
O.6836
0.83744
77 75 73
70 70 69
-303
Greenwich
B'
B
+ 8.025
D
^•597 Io8 17-705 103
-7.149
-381
8.016
—400
8.007
-35 - 9 + 20
-266
7-999 7.992 7.986
+45 +64 + 72
17.998 18.087
5-507
-365 -128
17.808
98
17.906
92
6.824 6.498 6.170 5.840
8.536
O.6863
+ 0.83913
26
+7-981
+64
+ 18.170
O.6891
0.84080
+ 161
-5-173
9-533 10.530
7-975
+40
18.248
4-837
11.528
0.84408
7.970
+
O.6945
+ 251
12.525
O.6972
0.84571
13-522
O.7OOO
0.84733
14.520
0.7027
+ 0.84894
I5-5I7 16.514
0.7054 0.7082
0.85053 0.85211
17-511 18.509
O.71O9
0.85370
O.7136
0.85529
19.506
O.7164
0.85686
20.503
O.7191
+ 0.85842
21.500
O.7218
22.498
O.7246
0.85999 0.86155
56
23-495 24.492
O.7273
0.86312
O.73OO
0.86468
7.964
-25
25.489
O.7327
0.86624
56 + 457 56 ++ 419 321
7.969
-48
18.769
26.487
0-7355
+ 0.86781
+ 183
+ 7-974
-62
+18.756
7-979
-67
O.6918
67 64 0.84244 64
27.484
O.7382
28.481
O.74O9
0.87094
29.479
O.7437 O.7464
0.87251
O.749I
0.87568
30.476 Okt. 1.473
0.86937
0.87409
2.470 3.468
O.7519 + 0.87727 O.7546 • 0.87888
4-465 5.462
O.7573 0.7600
0.88050
6-459
O.7628
0.88374
7-457
O.7655
0.88539
8-454
O.7682
+ 0.88707
9-451 10.449
O.771O
0.88875
O.7737
0.89045
11.446
O.7764 O.7792
0.89215
O.7819
+ 0.89562
1
2-443
I
3-44°
0.88211
0.89388
63 62
61 59
58
59 59 57
56
+
+ 243 + 182
57
57 57
7-954
-297
7-953
-281
7-952
—181 -
+317 + 426
+
29
61 62
-76
+ 18.557
-56 -23
2-795
18.604
7-952
+
18.710
1-759
7-952
+ 74
1.412
+7-953
+ 76
—1.064
7-955
+ 64
18.735 +18.754 18.768 18.776
0.368
18.779
—0.019
18.777
+ 0.330
7-957 7.960
8.000
-375
8.008
-365
+8.017 o ] 8.027 1 O
51
+39 + 8
-59 -42 -18 +
9
19
35
41 46 52
18.607
+57
18.509
+ 68
18.452
+ 67
18.389
+
18.321
+ 23
18.247
—li
+ 18.168
-46
18.084
-72
17-994
-79 -69
17.899
-41
13
18.648
+ 18.561
52
0.716
18.737 24 18.713 30 18.683
+36
17.798
330 333 334
336 337 338
341 3-48I 343 -3-I38 343 2.105
7.992
48
18.506
18.680
7-985
-
-77
328
3.822 3 4 °
18.449
+ 17
8.O37 , 8.O47 . 63 8.058 ; + 91 65 8.070 + 192 68 ' 1 + 228 +8.082 68 + 186 8.095 70 + 81 8.109 70 8.123 - 67 73 —214 8.137 74 -311 +8.153 61
4.500 4.162
2.450
-243
-299. -187
18.320 18.387
18.644
-116
58 -332 59 59
-59
—229
57
56
7.962
52 7-959 - IOO + 7-956
+ 157 57
7.966
+
23
9
-29
325 326
57
63 68 74 79
0.679
95 IOI
105
+17-693
345
346 347 348
348 348 349 349 349 35°
+1.029
1-378 349 r-727 349 348 2.075 348 2.423 2.770
347
347
3463 346
+ 3-"7
3.808 345 344
4-152 344 342 4.838 342 4.496
+ 5.180 90
345
339
5-5I9 339 5.858 336
6.194
6.530 336 333
+ 6.863
Reduktionsgrößen f ü r 12' S t e r n z e i t t
Weltzeit 1958 Okt.
O.7819
+ 0.89562
14-438 I 5-435
O.7846
0.89739
O.7874
0.89917
O.79OI
0.90098
O.7928
0.90281
18.427
O.7955
0.90467
19.424
O.7983
+ 0.90654
17.429
20.421
0.8010
0.90843
21.418
0.8037
0.91036
22.416
0.8065
O.91232
23-413
0.8092
O.91429
24.410
O.8119
0.91629
25.408
O.8147
+ 0.91832
26.405
O.8174
0.92037
27.402
O.82OI
O.92245
28.399
O.8228
0.92456
29-397 30.394
O.8256
0.92670
O.8283
0.92888
3I-39I
O.831O
+ 0.93108
r.388
O.8338
2.386
O.8365
3-383
O.8392
4.380
O.842O
5.378
O.8447
6-375 7-372
O.8474
8.369
9-367 10.364
11.361
12.358 I3.356 14-353 I5.350 16.347 17-345
183 186
193 196 197 200 203
0.96523 0.96790
O.872O O.8747 O.8775 0.8802
+0.97611
O.8829
0.978921
20.337
O.8856 O.8884
22.331
O.891I
23-328
O.8938
+ 474 +391 + 260 +102
-205
- 85 + 47 + 154 + 212
+ 197
+ 115 -
26
-177
-307 -369
-
45
137
16.346
-68
16.183
+ 8.371 2 I
-62
+16.015
-49
15-843
-27
15.666 183 15-483 188 I 5- 2 95 191
8-457 8-479
22 22
21 22 22
+ 8-501 8.524 z
— 2 + 26 + 48
15.104
142 148 152 158
163 168 172 177
197
+ 65 + 69
+ 14.907 14.501
8.56923 o 22
8.59I 2 3
+ 59 + 35 + 4
8.614
3
^ 23 + 8.637 2,
-29
13-857
224
-60
8.660
-76
+ 13-633
227
3
8.546
8.682 "
8.705 I] 8.728
-75 -54 —21 + 19
+8-773 2 2 8-795
+342 + 459 + 497
8.885
21
+ 452 +337
+8.907
2I
8.928
2i
+ 183 + 20
8.949
21
1
8.864
3
îî 22
o 21 8.97O 2 I 8.99I 20
+ 9.OII
14.706 14.290 14.076
13.406 I3-I74
205 211 214 219
232 236
12.938 240 12.698 244 I 2 -454 249
+ 53 + 77 +79
+ 15.205
+64
11.438
+36
"•175
ii-'953 11.698
i
10.909
-31 -57
+10.639
+
201
10.365
-67
10.088
-67
9.809
-56 -35
9.526 + 9.240
252
255 260 263 266 270 274
6.863
7-194 7-523 7.851 8.176
17.216 133 17.083
-60
8.842
—241
122 127
8.331 1 9 0 8.351 220
20
+
116
16.504
8.312
8.819
-130
17-465 17-343
112
16.656
162
+
+67 +81 + 76
17.581
-42
.292
-343 —224
+37
+ 17.693
16.804
8.436
223
2
+20 -14
8.414
-298
—
+ 16.946
-340 -344
220
r7
-41
+ 54
-284
218
17
.236 • 54 I9 8.:•273 ' ° 19 8.:
211 214
51
8. .219
8.392
281 283 0.98175 285 0.98460 289 0.98749 292
+ 0.99041
+ 8.22
l6 16
202
-185
270 0.97060 1274 0.97334 277
18.342
+412
8,
208
0.94737 242 24s O.8529 0.94982 ' 250 O.8556 0.95232 251 O.8583 0.95483 255 O.861I 0.95738 259 O.8638 +0.95997 O.8693
+ 8. 8.1'« 9 8.1[ 8 5
-
0.8502
0.96259
tt
-311 -329 -258 - 112 + 79 + 265 +483
D
B'
205
+ 0.94495
Ï9-339 21.334
177
0-9333 1 227 0.93558 0.93789! 2 3 1 23 3 0.94022 235 0.94257 238
O.8665
Greenwich
A'
a
13.440
16.432
Nov.
A
277*
1958
8.499
+
325 323
321
318 316 9-454 313 9.767 310 9.138
10.077 307 10.384
305
+ 10.689
302 0 o 298
10.991
11.289 11.584 11.875 12.163
+ 12.448 12.729 13.006
295 291 288 285 281 2 77
274 13.280 269
^•¡kq 13-815
+ 14.077
14-335 14.588
14-837
266
262 258 253 249
244 15.081 240
!5-32I
235
+15.556 230 15.786 227 16.013 221 16.234 216 16.450 16.661 + 16.867 17.068 17.265
283
17.456 17.641
2S6
328
8.820
277
279
331 329
+ 17.821
211 206 20I
I97 I9I 185 180
278*
Reduktionsgrößen für i 2
h
Sternzeit
1958
Greenwich B'
Weitzeit 1958 ov. 23.328 24.326 25-323 26.320 2 7-3 I 7
0.8938 0.8966 0.8993 0.9020 0.9048
-4-0.99041
0-99335 0.99632
0.99932 1.00235
28.315
0.9075
29.312 30.309 1-307 2.304 3-301 4.298
0.9102 0.9130 0.9157 0.9184 0.9211 0.9239
+
5.296 6.293 7.290 8.287 9.285 10.282
0.9266 0.9293 0.9321 0.9348
+
11.279 12.277
0.9430
r 3- 2 74
0.9484 0.9512
14.271 15.268 16.266
304
•00539 3074 .00846
3IQ ..OI469 OII56 ^ 3 .01783 1 4 V-7 .02100 ' r
.02418 3 1 ^ 321 .02739 .03061 •03385 .O37IO .04038 •04367
0-9375 0.9403
0-9457
29/
+
.04698 .05029 .05362 .05697 .06032 .06368
0-9539
0.9566
17.263 18.260 I9-257 20.255 21.252 22.249
0-9594 +
23.246 24.244 25.241 26.238 27.236 28.233
0.9758 0.9785 0.9812 0.9839 0.9867 0.9894
29.230 30.227
0.9921 0.9949
3^225 32.222
«.9976 1.0003
324 325 328 329 331 331 333 335 335 336 336
• ° 6 7 ° 4 337 • ° 7 ° 4 1 337
0.9621 0.9648 0.9676 0.9703
.07378 .07716 .08054
0-973°
.08392 +
322
I
"
J s
- ° 8 7 f 339 .09069 J •°94°7 i • ° 9 7 4 4 337 3 3 7 .X008l .10418 3 3 7 ^ 336 •IO754 .11089 .II423
+ •"757
335 334 334
0.00001 —241 —310
D
Ino.ooi
-327 -294 —216 —101
+9.011 9.032 9.052 9.070 9.088 9.106
+ + + + + +
+9-124 9-I4I ' ^ 5 8 : 9-r75 l 6 9.191 I5 9.206
+ 62
-115 -266 -363 -386 -315 —164
+9.220
-76 -65
9.248 9.261
-37
9.284
+67
4-3*9 3-996
+ 34
+9-295
+80
+ 3.670
+ 230 + 388
9.306 9.316
27 142 225 226 166 42
+472 +469 +389
+ 253 + 90 - 69 —202 —292 -327 -309 —242 —129 1 + 127 + 218 + 256 + 222 + 119 - 28
9-234 9-273
9-325 9-333 9-340 +9-346 9-353 9-359 9-363 9-367
9-37i
-35 - 9
+ 17 +42 -f-60
+ 68 + 45 + 17 -17 -48 -70
+
1
+38
+ 73
292 295 298 300 303
+ 7-463 304
7-159 308 6.851 309 6.542 312 6.230 314 5.916
+ 5.601
318 5.283 320 4-963 321 4.642 323
3-344
323 326 326 327
-64
+ 1.697
-71 -63
1-365 332 1-033 332 0.701 333 0.368 333 +0.035 333
-45 —21 + 8
+9-374 9-371
- 4
+65 +52 +28
-36 -62
-75
+ 17.821
17-995 18.164 18.327 18.485 18.636 + 18.783 18.923 19.058 19.187 19.310 19.427
315
3-OI7 2.688
+ 34 +55 +66
+9-364
289
+ 50 + 15 -18 -46
+9-374 9-376 9-377 9-377 9-376 9-375
9.368
+9.240 8.951 8.659 8.364 8.066 7.766
2-359
2.028
329 329
331
+19-538 19.642 19.741 19-834 19.921 20.000 + 20.074 20.142 20.204 20.258 20.307 20.350
331 332
174 169 163 158 151 147 140
135 129 123 Ii 7 in 104
99 93 87 79 74
62 54 49 43 36
+ 20.386 20.415 29 20.438 23 20.455 17 20.465 10 4 20.469 3
—0.298 332 0.630 333 0.963 333 1.296 332 1.628 331 1-959 331
+ 20.466
—2.290
+ 20.317 20.269 54 20.215
2.621
331
2.950 ™ o 328 -3.278
20-457 20.442 20.421 20.392 20.358
+ 20.155
9 15 21 29
34 41
60
Reduktionsgrößen 1958 f ü r 12h S t e r n z e i t Weltzeit
279»
Greenwich
log A
log B
logC
log D
1958 Jan. 0.2 10.2 20.2 30.1 Febr. 9.1
—0.0017 + 0.0256 0.0529 0.0802 0.1075
9.339I3 9.40062 945136 9.49290 9-52673
0.89636 0.89404 0.88868 0.88104 0.87256
0.48144 « 0.79609« 0.96745« r.07943« 1.15703«
I
19.1 r.i II.O 21.0 31.0
+ 0.1348 0.1621 0.1894 0.2167 0.2440
9-55431 9.57702 9-59638 9.6i375 9.63038
0.86451 0.85836 0.85534 0.85612 0.86082
1.21093« 1.24655« 1.26696« 1.2736 7« 1.26736«
1.01094 0.84584 0.55279 8.62325 0.54033«
10.o 19.9 29.9 9.9 19.8
+ 0.2713 0.2986 0.3259 0-3532 0.3805
9.64734 9-66537 9.68489 9.70589 9.72814
0.86911 0.88001 0.89226 0.90488 0.91672
1.24783« 1.21405« 1.16388« 1.09314« 0.99388«
0.83626« 1.00130« 1.11046« 1.18698« 1.24107«
29.8 8.8 18.8 28.7 8.7
+0.4078 o.435i 0.4624 0.4897 0.5170
9.75116 9-77439 9.79717 9.81900 9-83936
0.92670 0.93420 0.93882 0.94042 0.93902
0.84893« 0.61045« 9.99476« 0.32756 0.71425
1.27798« 1.30062« 1.31050« 1.30831« 1.29394«
18.7 28.7 7.6 17.6 27.6
+ 0-5443 0.5716 0.5990 0.6263 0.6536
9.85796 9.87457 9.88916 9.90177 9.91264
0.93505 0.92906 0.92184 0.91434 0.90757
0.90795 1.03270 1.12001 1.18250 1.22650
1.26654« 1.22422« 1.16370« 1.07864« 0.95646m
6-5 16.5 26.5 6-5 16.4
+0.6809 0.7082 0-7355 0.7628 0.7901
9.92207 9-93050 9.93842 9.94632 9-95472
0.90266 0.90053 0.90168 0.90623 0.91392
1.25522 1.27054 I-273I4 1.26295 1.23912
0.76641« 0.38917« 0.01242 0.65283 0.89492
26.4 5-4 i5-3 25-3 5-3
+0.8174 0.8447 0.8720 0.8993 0.9266
9.96396 9-97431 9-98583 9.99840 0.01174
0.92387 0.93520 0.94655 0.95674 o 96473
1.19984 1.14167 1-05835 0-93747 0.74827
1.04T04 1-14035 1.21043 1.25921 1.29088
i5-3 25.2 35-2
+0-9539 0.9812 + 1.0085
0.02544 0.03905 0.05212
0.97002 0.97206 o 97081
0.37273 9.98363« 0.62931m
1-30765 1.31052 1.29966
März
-3°539 1.28558 1-25035 1.19695 1.12044
280*
Reduktionsgrößen 1958 Übertragung
mittlerer
Sternörter
von dem Äquinoktium t1 auf t2 — 1958.0 n'Ca-ii)
log n H t s - t J
log n ' ^ - t j
n + 4070.26 3368.25 3167.69 2967.14 2666.33
2-433531 2 -35I3I3 2.324651 2.296246 2.249822
33.245 17.890 2.534 47-177 3!-820
s +271.351 224.550 211.179 197.809 177-755 + 171.071 164.387 I57-703 151-019 144-335
+ 5 5 4 4 4
16.463 1-105 45-747 30-389 15-030
+ 137-651 130.968 124.285 117.601 110.918
+ 2064.77 1964.52 1864.27 1764.02 1663.78
2.233176 2.215867 2.197840 2.179032 2.159372 2.138779 2.117165 2.094419 2.070411 2.045002
3.609622 3-527404 3-500743 3-472338 3-4259I4 3.409269 3-39I958 3-373930 3-355122 3-335464
+ 3 3 3 3 2
59-670 44-3io 28.950 13-589 58.227
+ 1563-53 1463.29 I363-05 1262.81 1162.58
2.018014 1.98924 1.95842 r -9 2 525 1.88933
1905 1910 I I 9 5 1920 1925 1930 1935 1940 1945 1950
+ 2 2 2 1 1 + 1 1 0 0 0
42.865 27.503 12.140 56.776 4i-4i3 26.048 10.683 55-318 39-953 24.587
+ 104.235 97-553 90.870 84.188 77-505 + 70.823 64.141 57-459 50-777 44.096
+ IO62.35 962.II 861.88 761.66 661.43
1.85017 1.80714 r-75936 1.70567 1.64440
3.194106 3-165330 3-I34512 3-ioi338 3065423 3.026268 2.98322 2-93545 2.88176 2.82048
+
+
I -573°3 1.48760 1-38113 1.23980 1.02894
2 -749I3 2.66369 2-55723 2.41591 2.20504
1955 i960
+ 0 9.220 — 0 6.147
0.60304 0.4268471
1.77909 1.60293«
'1
mHtz-tj)
1755 1790 1800 1810 1825
m s + 10 23.519 8 36-073 8 5.368 7 34.662 6 48.601
1830 1835 1840 1845 1850
+ 6 6 6 5 5
1855 1860 1865 1870 1875 1880 1885 1890 1895 1900
37-4I4 30.733 24.051 i7-37o 10.689
+ 4.009 — 2.672
+ 2566.07 2465.80 2365-54 2265.28 2165.03
56l.2I 460.99 360.77 260.56 160.34
+ 60.13 — 40.08
3-314872 3-293256 3.270509 3.246504 3.221096
Sind OLv die Koordinaten für tt und a 2 , d2 jene für -o c §o 13
h m + I 17.1 + 2 12.9 + 2 17-3 —2 59-1 — I 59-5 + 6 14.1 + 4 25-7 + 2 15-1 + 5 2.2 + 2 50.0 + 2 55-0 + I 35-6 -HO 7-2 + 3 56.1 + 4 28.0 + 0 29.9
+1.1401 +0.8471 +0.8815 +1.1221 + 1.1965 +0.6771 +o-3975 +0.6564 +0.5350 +0.8145 +0.6091 + 1.1158 + 0.5212 +0.6061 + 1.1797 + 1.11x8
0.5964 0.5991 0.5991 0.5933 0.5696 0.5534 0.5651 0.5675 0.5677 0.5684 0.5684 0.5683 0.5685 0.5687 0.5710 0.5747
—0.1676 —0.1276 -0.1275 —0.0396 +0.0596 +0.0684 —0.0132 -0.0538 —0.0590 —0.0977 —0.0978 -0.1340 —0.1637 —0.1680 —0.1897 —0.1986
d 15-7 16.8 16.8 18.6 20.7 2-7 4-7 5-7 5-8 6.7 6.7 7-7 8.7 8.9 9-9 10.8
li m —0 40.4 - 0 23.8 - 4 12.4 - 4 50.2 —4 12.6 + 3 3 1 + 2 39.3 + 4 20.3 + 2 16.1 +1 2.6 + 2 34.9 + 2 39-4
+0.4241 +0.9176 +1.0685 +0.7104 +1.0281 +0.5890 + 0.5692 +1.2024 +0.5887 +1.2025 +0.8715 +0.9061
0.5895 0.5897 0.5868 0.5281 0.5278 0.5698 0.5644 0.5629 0.5768 0.5861 0.5960 0.5960
—0.1831 —0.1829 +0.0354 +0.1627 +0.1631 —0.0861 —0.1564 —0.1814 —0.1867 -0.1655 —0.1280 —0.1279
d 12.8 12.8 17.9 22.0 22.0 4.0 6.0 7-1 IO.I 11.1 12.2 12.2
d h ni 3 2 2 6.6 4 0 34.1 4 0 55.0 14 2 3 1 . 5 24 19 55-5 26 22 39.6 28 0 26.4
h m - 3 46.5 - 1 24.4 - 1 4-4 - 6 53.4 + 1 37-5 + 2 32.6 + 3 21.6
+1.0770 +0.5314 +1.1148 +0.8639 + 0.8176 + 1.1361 +0.6634
0.5851 0.5836 0.5834 0.4938 0.5671 0.5833 0.5915
+0.0600 +0.0646 + 0.0653 +0.0990 —0.1899 —0.1421 —0.1004
d 16.1 16.2 16.2 26.3 7-5 9-6 10.7
Juli 0 / " d h m —14 54 49.2 3 2 9.3 - 1 4 54 3 7 - 1 3 2 15.7 8 2 3 54.9 + 6 1 5 36.6 + 10 50 1 7 . 3 10 2 29.0 + 1 7 26 40.7 13 4 10.3 --16 5 4 8 . 1 24 2 0 44.9 — 16 19 28.2 24 2 0 49.7 - 1 8 2 5 33.4 2 5 2 1 8.0 - 1 9 50 57.9 28 1 35.3 - 1 8 37 15.6 28 22 8.4
h 111 + 0 33.2 + 0 39.5 - 5 57.1 - 4 9.6 - 4 48.1 + 1 48.8 + 1 53-4 + 1 17.6 + 3 47-3 —0 24.4
+0.4503 +0.4604 + 1.1336 +0.2594 + 0.8953 + 0.6959 +0.9185 +0.7402 +1.0506 +0.7873
0.5614 0.5613 0.5201 0.5269 0.5600 0.5827 0.5827 0.5871 0.5841 0.5773
+0.1261 +0.1263 +0.1660 +0.1477 + 0.0560 -0.1168 —0.1167 -0.0738 +0.0299 +0.0681
d 15.8 15.8 21.7 22.8 25-9 8.1 8.1 9.1 1 [ -3 12.1
- 1 2 13 - 1 5 49 - ' 5 52 - 1 9 50 — 19 19 + 17 10 + 1841 + 17 43 + 17 4 1 + 15 43 + 15 54 + 12 47 + 9 57 + 9 14 + 4 8 + 0 9
O f f / - 8 45 - 9 19 - 1 9 51 — 9 16 — 9 28 + 16 36 + 1050 + 5 48 — 7 24 - 1 2 13 - 1 5 49 - 1 5 52
50.5 7-9 0.3 23.6 2.9 52.9 4.5 46.0 28.6 13.0 34.1 14.6
d h m 1 2 1 48.8 1 2 2 6.0 6 22 59.3 1 1 1 39.2 1 1 2 18.0 22 18 47.2 24 19 37-2 25 22 1 3 . 0 28 22 40.3 29 2 2 18.6 31 0 5 1 . 2 3 1 0 55.9
Juni
0 -19 -18 —19 + 14 - 5 -14 -17
Mai
/
19 38 11 19 47 39 17
»
23.3 46.3 16.8 50.2 39-3 IO.I 54-4
Sternbedeckungen 1958 d e r in M i t t e l e u r o p a
sichtbaren
Stem Name
2
47 c Capricorni 147 B . Piscium . Mars 162 B . Tauri . . . 26 Geminorum 194 B . Librae . . BD—I8°4320 BD—I7°5ó99 seq. 9 (3 Capricorni
86 X, Piscium . . BD+6°I75 . 1 1 5 Tauri 124 H 1 . Orionis . BD + i7°i2i4 51 Geminorum 54 X Gemi . . . . B D + i4 0 i85O 76 x Cancri . . . . 32 Librae 7 % Ophiuchi . 71 B . Y Sagittarii 95 B . Sagittarii 44 p Sagittarii . BD-i7°56ii 16 B . Capricorni 9 p Capricorni 8 Aquarii . . . . B D - 9 0 5854 BD-9°5876 13 Piscium . . . . 1 7 1 B . Piscium . 86 £ Piscium . . BD+6°i75 .
Katalog Nr.
Sternbedeckungen
0.5403 0.5203 0.5098 0.5503 0.5774 0.5859 0.5854 0.5648 0.5563
+0.1634 +0.1689 +0.1171 +0.0728 -0.0535 —0.0860 —0.0421 +0.0941 +0.1207
d 15-3 19.3 21.6 23.3 26.3 6.7 7-7 10.8 11.6
0.5233 0.5233 0.5604 0.5670 0.5679 0.5732 0.5737 0.5773 0.5795 0.5942 0.5922 0.5781 0.5764 0.5661 0.5656 0.5531 0.5530 0.5446 0.5350 0.5338 0.5235
+0.1608 +0.1608 +0.0078 —0.0296 -0.0351 —0.0758 —0.0794 —0.1187 -0.1531 —0.1032 —0.0576 +0.0355 +0.0424 +0.0806 +0.0821 +0.1187 +0.1188
Konjunktion in Rektaszension 8app.
Weltzeit
Stundenw. H
Gr.
aapp.
590 1029 2259 2408 2871 2969
m 6.2 5-8 -0.2 6.3 5-1 6.7 6.9 7-1 3-2
h m s 21 44 5.48 0 46 13.72 2 34 52.18 3 58 15-05 6 39 59.16 15 47 30.75 16 43 5.82 19 36 51.98 20 18 43.01
Augi list 0 ' " d h m — 9 27 50.5 I 3 2.9 + 5 4 10.6 5 I 3 1 - 1 7 9 44-9 + 12 38 1.3 9 2 20.5 + 17 10 47.5 + 1 7 41 8.6 12 2 44.5 — 17 46 3 1 . 6 21 20 6.9 - 1 9 3 37-2 22 19 1 6 . 1 —17 0 1.6 25 21 59.0 —14 54 34-8 26 17 8.5
h m + 1 55-7 —2 22.7 +4 i l . 7 - 4 29.5 - 6 35.3 + 2 17.9 + 0 35-4 + 0 36.8 - 4 52.5
180 181 814 944 970 1096 1106 1237 1359 2209 2361 2658 2680 2826 2830 2968 2969 3070 3r99 3216 3467 136 180 181
m 5-6 6.5 5-3 5-7 6.5 5-3 3-6 6.4 5-1 5-9 4.8 S 4-6 5-8 4.0 6.9 6.2 3-2 6.6 6.8 6.6 6.5 6-3 5-6 6-5
h m s 1 1 1 35-64 i 1 1 37-13 5 24 45-69 6 12 3.85 6 19 1.29 7 10 59-70 7 1 5 42.89 8 10 3.03 9 5 29.96 15 25 55.28 16 24 37.72 2 18 18 57.90 18 27 46.87 19 19 17.64 19 21 26.85 20 18 28.56 20 18 42.73 20 57 40.05 21 48 24.98 21 55 29.49 23 29 52.08 0 57 42.91 1 1 1 36.04 i 1 1 37-54
Septei nber 0 / " d h m + 7 2 1 32.9 I 22 2.8 + 7 21 43.0 1 22 3.6 + 17 55 36.0 7 2 29.2 + 17 55 5.0 7 23 44-6 + 17 46 57.4 8 2 49.9 + 16 1 3 45.0 9 I 39-3 + 16 36 54.0 9 3 42.6 + 14 7 4 0 . 8 10 3 1 2 . 5 + 1 0 50 6.6 1 1 2 5 9 . 7 —16 34 18.1 17 17 49-5 — 18 21 43.0 18 17 4 1 . 4 —18 52 39.0 20 17 16.8 —18 45 1 5 . 0 20 21 3.8 - 1 7 55 24.8 21 19 38.4 — 17 16 24.7 21 20 36.2 —14 54 47-4 22 22 43.3 —14 54 35.2 22 22 50.0 - 1 3 12 35-3 23 17 23.9 — 9 10 19.1 24 18 27.5 — 8 45 28.8 24 22 1.5 — I 18 38.2 26 22 53.6 + 6 1 5 47.9 28 2 1 17.7 + 7 2 1 35.4 29 4 35-3 29 4 36.0
h m —4 26.6 - 4 25.8 - 3 52.9 - 7 21.3 - 4 22.5 —6 2 1 . 3 —4 22.4 —5 42.9 - 6 47-3 + 2 8.2 + 1 5-3 - I 5-8 + 2 33.0 + 0 19.8 + 1 15.6 + 2 30.0 + 2 36.4 - 3 25.5 - 3 8.7 + 0 18.9 - 0 15-3 - 3 11-5 + 3 53-4 + 3 54-2
3>87 104
y'
Alter des Mondes
Elemente
299*
y
J
+0.5017 +1.1522 + 1.2048 +0.2809 +0.5607 +0.8134 +0.6482 +0.6447 +0.4873
+0.6264 +0.6254 +0.8783 +0.6482 +0.6909 + 1.0465 +0.4829 +0.7143 +0.8142 +0.5982 +0.4851 +0.5224 +0.5422 + 1.0771 +0.4685 +0.6035 +0.6131 + 1.1965 +0.5950 +0.7193 +0.9638
1
+0.5957 +0.5619 +0.5609
0.5239 0.5248 0.5248
+ 1.1262 +0.3249 +0.3206 +0.4585 +0.6062 +0.5794 + 1.1385 +0.3991 +0.9059 +0.8427 +0.2958 +0.6067 +1.0335 +0.9299 +0.3366
0.5414 0.5462 0.5476 0.5477 0.5698 0.5902 0.5768 0.5596 0.5466 0.5362 0.5345 0.5342 0.5222 0.5226 0.5481
+0.1394 +0.1599 +0.1622 +0.1769 +0.1644 +0.1601 +0.1601
d 17.8 17.8 23.O 23-9 24.0 25.0 25.1
26.0 27.0 4-2 5-2 7.2 7-4 8-3 8.4 9-4 9-5 10.2 II-3 11.4 13-5 15.4 15.7 15.7
+ 7 2 1 45-4
30 193 61 64 50
B . Tauri . . . B . Tauri . . . 8 Tauri . . . . Tauri A2 Cancri . . BD—I9°48OO BD-I8°5I55 337 B . Sagittarii BD-I3°5779 BD-IO°57I4 46 c1 Capricorni 47 c2 Capricorni BD—3°5592m. 147 B . Piscium . 193 B . Tauri . . .
523 620 648 653 1318 2596 2764 2927 3051 3163 3185 3187 3411 104 620
m 6-5 6-3 3-9 4-8 5-7 7-3 6-3 7.2 7.0 7-3 5-3 6.2 7-2 5-8 6.3
h m s 3 35 3 0 . 1 1 4 1 0 10.50 4 20 34.41 4 21 44.15 8 44 40.23 17 59 26.25 18 57 2 . 1 6 20 i 13.82 20 50 15.27 21 34 43-19 21 42 49.33 21 44 5.28 23 1 2 0.38 0 46 14.76 4 IO 1 1 . 1 2
ber d h m O f / / 2 5 45-2 + 1 5 1 7 46.8 2 22 34.6 + 1 7 10 19.7 3 3 33-6 + 17 26 47.3 3 4 7.0 + 17 20 56.6 8 3 46.7 + 12 1 5 4 1 . 4 17 16 8.7 - 1 9 6 1 5 . 1 18 16 19.6 - 1 8 37 16.5 19 20 44.5 - 1 5 31 37-7 20 19 39.7 —13 21 2 1 . 6 21 17 23.0 —10 21 24.8 21 21 26.0 — 9 16 10.6 21 22 4.0 — 9 27 49.9 23 19 27.0 — 2 51 23.0 + 5 4 16.9 25 2 1 24.4 + 1 7 10 20.4 30 4 33-3 Oktç
h m + 2 51.4 - 4 5I.I —0 1.6 + 0 30.7 - 3 52.8 —0 8.1 —0 50.9 + 2 34.6 + 0 44-5 —2 1 3 . 1 + 1 42.4 +2 19.3 - I 38.2 — I 6.8 + 2 55.1
+0.0873 +0.0635 +0.0560 +0.0552 -0.1381 +0.0202 +0.0651 +0.1087 +0.1355 +0.1544 +0.1573 +0.1577 +0.1752 +0.1670 +0.0638
d 18.7 19.4 19.6 19.7 24.7 4.8 5-8 7.0 7-9 8.8 9.0 9.0 10.9 13.0 17.3
300 •
Sternbedeckungen 1958
Elemente
der
in
Mitteleuropa
sichtbaren
K o n j u n k t i o n in
Stern i Katalog | Nr
Name
Gr.
Stern bedeckungen
|
aapp
Sapp
Weltzeit
Stu " d enw / i
8
Rektaszension
Y
i
\
x
1
! !
m
y
November m 130 26 68 65 46 110
Tauri Geminorum Geminorum pi L e o n i s . . . B. Virginis . B. Sagittarii
BD—I7°5òggseq.
36 A q u a r i i . . . . 128 B . A q u a r i i . . BD—O°4566 87 G . P i s c i u m . 86 £ P i s c i u m . . B D +6° 175 . 88 P i s c i u m . . . . 115 Tauri 120 T a u r i 124 H 1 . O r i o m s . BD + i7°i2i4 51 G e m i n o r u m f 54 X G e m i
....
878 1029 1147 1611 1/44 2699 2871 3247 3248 3502 53 180 181 184 814 836 944 970 1096 1106
h
m
5 6 7 11 12 18
45 40 31 4 3 32
3-35 1.49 16.28 47-89 52.71 57.36
7.1 7.0 6.6
19 22 22 23 0 I I I
36 7 7 44 24 II II 12
50.71 16.79 20.02 29.14 10.72 36.15 37.64 35.27
7-4 6.9 5-6 6.5 6.2 5-3 5-5 5-7 6-5 5-3 3-6
5 5 6 6 7
0
s
5-5 5-1 5-i 5-7 6.5 7.2
24 47-85 31 8.72 12 6.16 19 3.61 11 2.09
7 15 45-29
+17 + 17 + 15 + 2 - 2
/
"
42 48.8 41 6.5 54 52.9 1 0 46.6 54 3.8
- 1 9 17 5 8 . 8 -17 0 3.5 — 8 23 1 1 . 5 +
7 4 4 37-6 0 18 1 3 . 6
+ + + +
3 35 721 721 6 46
59-9 35.6 45.6 46.4
+ 17 5 5 3 5 - 5 + 18 30 3 8 . 4 + 17 + 17 + 16 +16
55 2.2 46 54-2 13 39.2 36 48.0
d 1
li m 1 13.6
2
2 34.1
3 2 1.8 7 2 34.5 8 4 18.0 14 1 5 9 . 2 15 18 18 20 21 22 22 22
17 16 16 18 15 17 17 17
54-2 19.7 21.3 52.6 58.8 5.1 5.8 36.1
27 28 28 28 29 30
21 0 19 22 22 0
39.1 35.0 23.6 34.6 18.9 28.3
li ni - i 52.2 — 1 22.5 —2 42.2 - 5 27.1 - 4 38.5 +0 9.1 -hi 5 4 . 6 - i - i - 0 —4 - 4 - 4
58.8 57-2 54.8 24.8 1.8 1.1
- 3 - 3 0 - 6
31-7 20.5 30.5 19.8
-3 - 4 —2
15-2 19.0 14.0
+ 1.0153 -1-0.3040 +0.5723 +0.3772 +0.4792 + 1.1711 +0.7443 + 1.2233 +0.5324 +0.4816 +0.5113 +0.5213 +0.5203 + 1.2486 +0.8694 +0.2518 +0.6720 +0.7210
—0.0078 0.5565 0.5587 1 —0.0501 —0.0879 0.5596 —0.1906 0.5697 -0.1938 0.5785 0.5936 +0.0473 +0.0943 0.5758 +0.1654 0.5322 +0.1655 0.5323 +0.1756 0.5195 0.5194 0.5228 0.5228 0.5230 0.5588
+0.1715 +0.1603 +0.1603 +0.1600 +0.0092 +0.0042
0.5593 0.5612
—0.0278
+0.5524
0.5613 0.5611 0.5610
-0.0332 —0.0726 —0.076 t
+0.2418 +0.8323
0.559I 0.5590
—0.1126
+0.7575 +0.3456 +0.9740 +0.7894 +0.9101
0.5573 0.5572 0.5569 0.5721
+ 1.1273
d 19.2 20.2 21.2 25.2 26.3 3-3 4-4 7-4 7-4 9-5 10.4 11.4 11.4 11.4 16.6 16.7 17-5 17.6 18.6 18.7
Dezember
30 B . C a n c r i . . . B D +1401850 60 C a n c r i 65 a C a n c r i . . . . 76 x Cancri . . . . 25 / Virginis . . . 8 Aquarii . . . . BD—9°5876 209 B . A q u a r i i . . 11 P i s c i u m . . . . 13 P i s c i u m . . . . 14 P i s c i u m . . . . 86 G . P i s c i u m . 171 B. Piscium . B D + 50141 . 86 £ P i s c i u m . . BD+6°i75 . 1100 Piscium .. B D + I40565 30 B . T a u r i . . . 193 B . T a u r i . . . 61 8 T a u r i 64 T a u r i 115 Tauri 4 5 A1 C a n c r i . . 5 0 A2 C a n c r i .. 60 C a n c r i 65 a C a n c r i . . . .
1234 1237 1332 I34I 1359 1807 3070 3216 3328 3459 3467 3474 53 136 148 180 181 257 504 523 620 648 653 814 1309 1318 1332 I34I
m 6.1 6.4 5-7 4-3 5-1 5-9 6.6 6.6 7.0 6.6 6.5 6.0 6.9 6.3 6.9 5-6 6.5 4-5 7-3 6.5 6-3 3-9 4.8 5-3 5-7 5-7 5-7 4-3
h 8
m s 841.58
8 10 5.39 8 53 4 1 . 9 0 8 56 15-35 9 5 32.19 12 3 4 4 0 . IO 20 57 3 8 . 9 1 21 55 28.46 22 39 5 7 . 8 3 2 3 27 2 0 . 7 5 23 23 0 0 1
29 32 24 57 1
51-39 2.59 10.44 42.70 40.06
i " 35-93 1 11 3 7 . 4 2 1 43 14.48 3 26 4 2 . 3 5 3 35 3 I - 0 4 4 10 1 1 . 6 9 4 4 5 8 8
20 21 24 40 44
35.67 45.42 48.20 58.30 42.64
8 53 42.67 8 56 1 6 . 1 3
t "
0
+ 14 4 4 59.3 + 14 7 32.4 + 1 1 46 54.6 + 12 0 5 5 . 9 + 10 4 9 56.6 -1 — — — —
5 3 8 5 2 1 1
36 12 45 18 0 18 28
17. i 39.0 33.1 54.6 58.6 41.9 24.0
+ 3 35 5 8 . 1 + 6 1 5 46.3 + 6 32 4 4 . 6 + 7 21 34.1 + 7 21 44.1 + 8 57 8.2 + 14 5 1 1 9 . 8 + + + +
15 17 17 17
17 10 26 20
47-1 19.8 47.3 56.5
+ + + + +
17 12 12 11 12
55 49 15 46 0
34-6 33.0 30.0 50.5 51.9
d h 1 0 1 1 1 21 1 22 2 2 6 2
m 42.2 20.7 24.8 35.6 52.6 9.0
14 15 16 17 17 17 18 19 19 20 20 20 22 23 23
15 18 16 17 18 19 22 16 18 0 0 16 20 1 17
I9-0 36.6 42.1 4.7 23.3 31.8 59.6 43.8 49.1 3.0 3.7 36.4 51.3 8.8 48.0
23 23 25 28 28
22 23 4 21 22
43.4 16.4 32.0 6.6 48.6
29 29
2 54.4 4 4-3
h m —2 49.0 - 2 11.8 —6 48.0 - 5 -1
39-6 31.2
- 5 28.3 —0 7.6 + 2 16.7 — 0 18.6
d
- 5 7-0 - 3 28.5 + 0 29.0
+0.4133 + 0.4649 +1.1823 +0.6455 +1.0248 +0.2775 +0.3324 +0.3628 +0.3122 +0.3112 +1.1265 +1.1526 +1.0680 +0.3244 +0.3368 +0.4761 +0.8825 +0.6507 + 1.0209 +0.9614
+ 1 36.5
+0.5527
- 0 39-4 + 0 36.9 + 1 +4 —2 —0
43-5 23.7 22.8 21.2
+ 4 43-7 + 4 44-4 - 3 11.8 - 0 31.8 + 3 —4 +0 + i + 5
37-6 15-2 30.7 2.5 20.0
0.5597 0.5423 0.5 3 1 3 0.5232 0.5229 0.5227
-0.1135 —0.1396 —0.1410 —0.1460 —0.1872 +0.1418 +0.1640 +O.I737 +0.1772 +0.1771 +0.1771
0.5195 0.5204 0.5206
+0.1723 +0.1649 +0.1638
0.5214 0.5214
+0.1610 +0.1609 +0.1500 +0.0966 +0.0909 +0.0674 +0.0599 +0.0591 +0.0113 —0.1320 —0.1341 —0.1392 —0.1406
0.5247 0.5426 0-5443
0.5507 0.5525 0.5527 0.5616 0.5629 0.5627 0.5622 0.5619
19-7 19.8 20.6 20.6 20.8 24.8 3-9 5-1 6.0 7.0 7-1 7.1 8.3 9.0 9-i 9-3 9-3 10.0 12.2 12.3 13.0 13-2 13-3 14-5 18.2 18.3 18.4 18.5
Sternbedeckungen 1958 E i n -
u n d
A u s t r i t t e X -= — o 1 1
Katalog Nr.
Tag
Stern
Febr.
März
April
Mai
B er l i n - B a b e 1s b 9 = + 520
1 Größe
Phase
BD+I6°45O
h
0
m
I 18
38.3 9.4
140 52
A.
23 22
53-3 46.6
39 280
E.
22
54-5
18
4.1
20
8.0
m + 0.4
E.
B. Tauri
6.6
E.
H.iTauri
6.0
E.
5-i 6.6
7-i 6.1
E. E.
6.8
E.
21
33-8
5-i
E.
22
56.9
85
-0.8
7-5
E.
19
47-4
97
2
188
2
639
85
7 28
1359
76
X
450
145
B. Arietis
30
7IO
30
718
302
B. Tauri
30
726
305
30
730
97
B. Tauri Tauri i
3
862
Cancri
BD+I8°68
4
BD+I8°920
..
..
-0.9 —1.2
+ O.7
12.7
— I.I
+ O.7
I7.7
43
-O.5
—0.2
9.0
94 106
- 1 . 5
+ O.4
IO.9
-1-5 —1.1
—I.I
IO.9
" 5
6.7
E.
20
1.7
98
886
BD+I8°987
..
7.0
E.
0
47.0
164
23
284
B D + IO°257
..
E.
19
3.8
25 26
505 663
BD+I6°45O
..
7-4 7.0
E.
17
B D + i 7 ° 7 2
..
6.9
E.
20
27
4
d II.8
863
Tauri
m - 3 1 + 2.2
3i 1
127
Alter des Mondes
b
1
7.0
505 617
1
.
a
P
Weltzeit 1
m 2
e r g
24'4
1
1958 Jan.
f ü r
52^4
301*
12.5
- I . 9
II.0 II.0
-1-5
-1-3 —0.1
-1-5
—0.2
11.9
11.9
12.1
—
—
87
-0.6
49.0
30
40.3
87
-1-3 -0.8
-1-5 +2.1
-1.2
-1.4
7-i 8.2
800
B D + 1 8
831
.
20
57-4
61
943
B D + i 8 ° i i 2 9
.
7-5 6.2
E.
28
E.
18
49.6
28
28
951 1091
B D + i 8 ° i i 4 i
.
6.8
E.
19
46.6
1
B D + i 7 ° i 5 i 8
.
6.7
E.
18
57.2
" 3 84
1
1106
..
3-6
E.
22
29.0
102
.
6.4
E.
20
25.9.
126
—1.2
—1.1
12.2
E.
18
43.1
i n
—1.0
+0.5
13.2
..
5-i 6.4
0
54
*
Geminorum
X
Cancri
B D + i 4 ° i 8 5 o
-0.3
—
-1-3 -1-5 -0.9
9.2 IO.I
—
-1-3 +0.6
10.2
-1-5
" • 3
11.2
2
1237
3 8
1359 1887
76
A.
0
4
280
2322
14 M
Scorpii
4-3
E.
3
9-5
149
-1-3 —1.0
+0.1
11
-0.7
17-4 20.5
11
2322
14
V
Scorpii
4-3
A.
3
58.9
230
- 1 . 8
+0.8
20.5
26
764
IO4
TO
Tauri
5-o
E.
22
8.2
34
6-5
1183
BD+I5°I676
.
7.2
E.
21
16.6
-0.5 -0.6
+0.2
29
—2.2
8
2401
B D - i 9 ° 4 4 o 6
.
5-6
A.
0
14-3
9-5 18.6
.
7-4 6.7
E.
19
1.9
90
-0.8
- 1 . 4
5-6
E.
20
37.8
107
-0.4
- 1 . 8
6.7
24
IOII
25
" 4 5
BD—8°3495
B D + i 7 ° i 3 o 6 67
Geminorum
..
Geminorum
..
20
46.4
61
-0.9
-0.8
6.7
21
31.6
163
E.
19
28.7
47
-2-3 -0.4
10.7
3-6
-0.5 -0.8
5-8
E.
22
44-7
-0.9
—2.1
11.1
Venus
-3-5
A.
1
5i-5
59 269
+0.2
+
26.3
Librae
6.6
E.
21
6.7
92
-0.9
-1-3
1106 1971
54 86
X
29
2160
22
—
E.
p6 Leonis
24
—
E.
68 69
Juli
134 212 '
5-i
1147 1623
14
J
5-4
25 29 22
Juni
3
Geminorum Virginis
..
T
1.6
4.0
8.1
302*
Sternbedeckungen
1958
E i n - u n d A u s t r i t t e f ü r B er 1 in - B a b e l s b e r g X • —oh 52^4 Katalog Nr.
Tag 1958 J u l i 24 25 A u g . 12 Sept.
25 7
8 9 9 10 21
Okt.
3 3 8 20 21
Nov.
23 2 3 8
26 115
44 P
648 648 1318
61 S T a u r i 61 8 T a u r i 2 50 A C a n c r i
3051 3187
3411 1029 1 1 47 I744
814 944 970 1106 1106
2 47 c
BD+i7°i2i4 . Geminorum . . Geminorum . . BD+i4°i85o . Sagittari 1 . . . .
BD-I3°5779 • Capricorni . . .
Größe Phase m 5-3 6.8
Weltzeit h m 21 18.8 21 24.7
P
a O
5-i 7-i 5-3
E. E. A. E. A.
6-5 3-6 3-6 6.4 4.0
A. E. A. A. E.
3 2 37-7 19 31-7
3-9 3-9 5-7 7.0 6.2
E. A. A. E. E.
3 4 3 19 22
37-6 17-8 25.6 36.4 34-9
23 325 277 90
7.2
18 23.6
97 344 278 316 68
2 3-2 22 1 5 . I I 51.2
2 22.6 2 15-0
ni
-O.3 + 0.6 + 0.7
259 66 302 261 120
-0.6 —0.2 -0.8 —0.1 -1.8
+ 1.7 + 2.1
—
-0.9
+0.8
A. A. A. E. A.
21 4.9 18 46.5 22 19.0
BD+i4°i850 . BD-9°5876 .. Piscium Piscium Tauri
6.4 6.6
A. E. E. E. E.
1 19 18 15 22
14.0 29.6 24.4 20.8 55-3
217 11
30
-1-5
E. A. A. E. A.
23 23.0 20 33-7
66 271 238
-1.4 -0.4
1237 3216
23
13 110 0 61 8
23 28
653 1309
29 29
1332 Ì341 1341
64 1 45 A 60 65 a 65 a
Tauri Cancri Cancri Cancri Cancri
6-5 4-5 3-9 4.8 5-7 5-7 4-3 4-3
3 57-7 4 26.6 4 59-9
56 142
49 351
—
-1.6
5-3 5-7 6-5 3-6 3-6
23 19-3 0 36.4
+ 0.5 + 1.7 -1-3
+ 1.1 -0.8 -0.6
Tauri 115 124 //^Orionis BD+i7°i2i4 . 54 X G e m i n o r u m . . 54 X G e m i n o r u m . .
243 95 280
+ 3-5
-1-5
57
206 284
—
—
E. A. A. A. E.
3 39-5 18 14.3
m
—1.0 —0.2 -0.6 —0.2
—
5-i 5-i 6-5 7-i
2 33-1 2 0.1
6
29 48 310 26 212
B D —3°5592m. 26 Geminorum . . Geminorum . . 68 46 B . Virginis BD—i70$6gQseq.
3467 257 648
29
Librae BD-i8°4228 . Geminorum . . B D — i7°56ggseq. Tauri
1237 2826
27 28 28
1
v
54 X 54 X
2871
15 17 20
21
970 II06 II06
15
29 30 Dez.
2159 2301 1029 2871 814
Stern
i-O
-4
M
•2x
15 16 17 18 19 20 21 22
2-3. • ••>
-/
28
O O
•l0 0
3•
'
4-
'•2
44• -4
3•4
0
-2 3-
2 1
'
3•
1• •2 2
'
'4
3.
-4 •
-4 4
'
O
1- O 2 - 4 0 ' - 3 -1 4 - ?. O O 1- -2 - 1 O 2 -32• 3• O 1 ' O -3 1• O
3-
2
'
2.'03
II
III
1
-
23 24 25 26
2
x3
•3 X • O '4 2 • O '3
13
'
"
ov. 0 O -2- X
•* 1 •
3-
4
4. 4
•?!
?.
7 8 9 10 ii 12
O
-8 '2s' «•
IV
e e
Trabant IV wird nicht verfinstert
l O
Jupitertrabanten 1958 MÄRZ
I
Tag i 2 3 4 5 6 7 8 9 IO ii 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31
325*
Anordnung um i h 45m Welt zeit •2i •4 O O -ii •1 O 2-3- '4 2 • O i3• 2.1O •3 O 4-, •SO'I •2 • O -3 4. O -»-i. • 14 • O 2•3• 4 • 2 •3-0 14 • 3 • MO 4• -3 Ol•4 3 O2' •4 2 • i-O •4 O '2 -1 -3 •4 1 • O 2• ö 4 3- -2 •1 0 •3 O l - -2 -4 •3 O 2" 2 • 1 O "3 O -1 -3 41 .O 2- 3 • 42- Qs- -1 4 • 3 • -21 O •3 4 • O 1- '2 4- -3 •O 242• O "3 4• •O2"! "3 •4 1' O 2- 3; II
• •1 •• 2
" III
B»
IV
M v;
j
IQ" «O
»O;
•:
. •
' ' 1 Ü•
9
c\ so Trabant IV wird nicht verfinstert
326*
Jupitertrabanten 1958 A
P
R
I
A n o r d n u n g
T a g
L
u m
i
o
h
o
W e l t z e i t
S'-1
2 - 0
2
m
O
3
•
o •l 1-
•
> 0 • 3
O
2 5
• • 2
O 2
2 4
•2
2 •
0 O
•2
2 3
3 •
1•
O
2 2
-3
2
O
- 1
1 9
2 1
4 •
,
• 1
4 - 2 0 ' 4-
44-
O
1 7
• 4
1
•Ol O
1 3
1 8
- 4
2
O
I - O
- 3
3-
- 1 3 - 0
•2
1 2
' 1
• 3
O
i-
9
• 1
• ' 1
- 3 3 •
ÖJO
2 6 •1
2 7 2 8
• 3
II
e
IV • A
-4
•
2 •
1
• 2
-4
'
• 4
O »•O
3 0
1 •
O O
2 -
•2
2 9
III
3 •
1 • 3 •
Ol-
5 6
1 4
•
• S s . ' O
4
1 0
- 3 2
4 •2
- 3
«
- 1
•
4-
e e
•A
Trabant IV wird nicht verfinstert
- 3
Jupitertrabanten 1958
329*
J U L I
i 2-
4
3'
5
4-
•
6
4•
4-
2
•2
2 - 0
1•
0 0 •4
2 - 1• •4
i i
3-
3• .4
3•>
O
•2
•i-O»
14
O l -
15
0 2 •
16 17 18 19 20 21
22
44 •
1- O
*
•2 •«• •4 •3
-4 3 •
-4
•
•1
•
-2
•
•2
4-
3
32 O -1 31 2 O •3 O 1- 4•2 • l^O" 43 Ol•Ol 2> i-O 3-0 -1 3• 1 2 0 -3 O 2- -1 •4 2\ 0 4 O 1 - "3 2 •lO 3• O •2 3O
4• 4•
•3
•
4• •4 •4
26
1 O
O
1 O
-3
3•
-1
• 2 O
2 - 0
13
23
'x
•lO
•4
9
27 28 29 30 3
W e l t z e i t
4-
O
-3 -2
10
25
m
3• 4•
O ' O
4 •
7 8
I
1S •
3
24
o
O
2
12
2ih
u m
A n o r d n u n g
Tag
1
II
e-
I V
III M
•3
lO
-4 '4
9" " 0
*
«-1
Trabant IV wird nicht verfinstert
330*
Jupitertrabanten 1958 A U G U S T
Tag
A n o r d n u n g
i
um
I
3•
9h
45
i-
O '31 2.1-
3
1
6 ••1
4- " 2 3•
4• 4-
•12-
0 0 •2
• 4
O3
1
O •2
14
•2 -4
O
1
22
O
3•
23 24
4-
2
•«0 0
2• •4 3• •4 3
e
1
'Ol 2-X-.0 4
IV ^
^
•B
M
4 •
4• • •2
4• 2•
• X
•I •2-3 2-1-
0 B-O2 1 •
II
III
43-
3•
0
•4
29
• I-
Ol
1•
•4
-4 •2 -3
•i-O
•2
4-
27 28
•4
4 - 0
4-
25 26
-4
•X
O
•1
3
l O
2-
O O
2•
2(0"
O
2 •
21
3-
O
• 3 2-1•
-3
3-
• .o
3•
19 20
•2 1-
4
3•
•«3
•X
O
• 4
13 15 l6
•2
i - O
•32- 1-
3-
3-
O
•4
12
42
4P 1•
3-
4-
ii
31
4•
O
2
9 10
I
21
•O
5
30
-4
O
4
17 l8
•2
O
2
7 8
W e l t z e i t
m
-3 8• 2-
ee
Trabant. IV wird nicht verfinstert
Jupitertrabanten 1958
331*
S E P T E M B E R
i
•2 • 3
3 2.
4
1
s-
zeit
4
-1
•4
-2
•3
1
2.
-4
S-
O
•1
-4
2 0 • -1
O -23
O 4•
ii 4-
13
•4
3-
1
32-. 3
•4
•4
3•
O O 3 - 1-
2. •4
•3
O
X 2•
4•
12
•2
O
Ol•Ol •
i.O-» 2-
17
18
1 2 •• •2
19 20
O
3•
22
.3 2.
I
3•4
3 -1 2
0
O •lO O O O O O O O O
-3 .4
0
3. •
21
4.
O L .2.3
9 10
.2
O
•3
7
8
III
W e l t
4•
5 6-
15 16
O
• O O
2
14
i8h 15 m
A n o r d n u n g u m
Tag
-4 •4
1
2 ' 4-
II
9" q, .
eIV
©
Trabant IV wird nicht verfinstert
'2
332*
Jupitertrabanten 1958 N O V E M B E R A n o i d n u n g
Tag
6 h 45™
u m
W e l t z e i t
O O O
'
O O O O O O
.
O O O O O O O O " 0 0 0 •4
22
0 O
2-
'1 3
23
•4 1 •
24
3.
O
25 26
21 -2
O O
•3
8
O 4
" • '2
'
.12.
'
4
27 28
O 2•
29
O" 1• .2O
30
-3 1
-4 3
3
'
4
' 4
lO-
'
'
II
HI
e IV
©
Trabant IV wlrd nicht verflnstert
Jupitertrabanten 1958
333*
DEZEMBER Tag
A n o r d n u n g um 6h 30™ W e 11 z e i t
i 2
3- O -1 -2 431- 2-O 4 ' •3 -2 4- O 1O -2 O 1 ' 2 ' '3 2O '3 2 l -0 -1 -2 3Q
3 4 5 6
4• '•l
4-
7 -8
•4
.43.
9 io Ii 12 13 14 15 l6
•3
0 O
"I
O I' 'I'O1 ' s '4 O 3O. -1 1 • O2' 3• •3 2O -1 4• 4' •3-1 O - 2 O Í - 2 ' 4- 2- -1 O "3 8' 4-2 l O ' O 3' 2 3- 1 • O 23-2O -3 1O 2" •4 O '3 42? O •2 Ol"- 4 O 3 -4 3- l . O 21 32• O " • 3 1 • -2Q 2-
l-O
17 l8 20 21 22
4• 4-
23 24
III
1. -24
•4
25 26 27 28
••2
29 30 31 32
••1
"G '"'G
-4
2
II
IV
4
'
• -1
4
-e e
"4 4•
Trabant IV wird nicht verfinstert
334*
Saturn und Saturnsring 1958
Oh Weltzeit 1958 Jan. - 5 +3 11
März
April
Mai
Juni
Juli
Nov.
Dez.
„
Pa
rt
//
15.16
13.92
0.00
15.22
13-97 14-05
—O.Ol
14.14
O.Ol
14.26
0.02 —0.02
a //
b
U' rf
B'
P' 0
+ 15-36 I5-42 15-50
O 88.166
0 + 26.592
-0.863
88.436
26.604
0.736
88.706
26.615
0.609
15.60
88.975
26.626
0.482
i5-7i
89.245
26.636
0-355
+ 15.84
89-5I5
+ 26.646
—0.228
15-99
12
I5-84
14-39 14-54
0.03
89.785
26.655
—O.IOI
20
IÖ.02'
14.70
0.03 _
36.09
16.15
90-055
26.664
+ 0.026
28
IÖ.22
14.88
O.O4 '
26.672
15.08
O.O4
37-oi
0*153
I6.43
16.33 16.52
90.324
8
36.54
90.594
26.680
0.280
16
16.65
15.28
O.O4
37-50
+16.73
90.864
+26.687
+ 0.407
24
16.87
I5-48
O.O4
38.00
16.94
9I-I34
26.694
1
0-534
17.10
15.69
O.O4
38.51
17.16
91.404
26.700
0.661
9 17 25 3 11
I7-32 17-54 17-74 17-93
15.89
O.O4
39.02
91.674
26.706
0.788
16.09
-O.O3
91.944
26.711
16.28
0.03
+ 17.80
92.214
+ 26.716
+ 1.042
16.45 16.60
0.02
39-51 39-97 40-39
I7-38 I 7-59 18.00
92.484
26.720
1.169
O.Ol
40.76
18.17
92-754
26.724
1.296
19
18.23
—O.Ol
41.06
18.32
93.023
26.727
1.422
27
18.33
16.73 16.82
0.00
41.29
18.44
4
18.4O
16.88
0.00
12
18.43 18.42
16.91
20
16.90
28
18.37
27
I5-30 I54I 15-53
4
15.68
I8.O9
0.00
0.00
41-45 4i.5i
+ 18.53 18.58
0.00
41.49
18.59
16.86
0.00
41.38
18.56
93-293 93-563 93-833 94-103 94-372
0.915
26.730
1-549
+26.732
+ 1.676
26.734 26.735 26.735 26.735 + 26.735 26.734
1.803 1.929 2.056
6
l8.29
16.78
+ 0.01
41.19
18.49
94.642
14
I8.I7
16.68
O.Ol
l8.02
I6-54
0.02
+ 18.39 18.25
94.912
22
40.93 40.59
I7-85
16.38
0.02
40.20
18.09
26.732
2.562
17.91
95-451 95-721
26.730
2.688
17.71
95.990
26.728
2.815
+ 26.725
+2.941
30 Aug. 7 15 23 3i 8 Sept.
Okt.
ß
34-15 34-29 34-47 34-71 34-99 35-32 35-69
19 Febr.
a
95.182
2.182 +2.309
2-435
17.66
16.20
0.03
17-45 17-23
16.01
0.03
39-77 39-30
15.81
+ O.O4
38.80
+ 17-51
96.260
17.00
15.61
O.O4
17.29
96.529
26.722
3.067
I6.78
I5-40
O.O4
17.08
96.799
26.718
16
16.56
15.20
O.O4
38.30 37-79 37-29
16.87
97.068
26.713
24
16.34
15.00
O.O4
36.81
16.66
97-338
26.708
2
16.I4
14.82
+ O.O4
+ 16.47
97.607
+ 26.703
10
15-95 15-77
14.64
0.03
16.28
97.876
26.697
18
14.48
0.03
16.11
98.146
26.691
3.824
26
15.62
14-34
0.02
36.35 35-92 35-53 35-17
3-194 3-320 3-446 +3-572 3-698
I 5-95
98.415
26.684
3 11
I5-48 I5-36
14.21
0.02
34.86
15.80
98.685
26.676
3-949 4-075
14.10
+ 0.01
+4.200
14.01
+ 0.01
99.223
26.659
27
15.18
13-94
0.00
99.492
26.650
I5-I3
13.89
0.00
99.761
26.641
4.325 4-45 1 4.576
13
15.09
13.86
0.00
34.00
+ 15-67 I5-56 I5-46 I5-38 15-32
+ 26.668
15.26
34-59 34-37 34-19 34-07
98.954
19
100.030
26.631
21
15.08
0.00
33-98
+ 15.27
100.299
29 37
15.10
13-84 13-85
34-oi
15-24
100.568
26.609
4-95i
I5-I3
13.89
0.00
34-09
+15.24
100.837
+ 26.597
+ 5.076
5
0.00
+ 26.620
4.701 +4.826
Saturn und Saturnsring 1958 Oh Weltzeit 1958 Jan. — 1 + 3 7
11
15 19 23
27
3i Febr. 4
8 12 16 20 24 28
März
4
8 12 16 20
24
28
April 1 5 9 J 3 17
21
Mai
25 29
3
7
11 J
9
23
27 3i Juni 4
8 12 16 20 24 28
Juli
2
U
B
O
0
i3i-582 + 26.731
132.088 132.586
I
33-°74 133-55°
134.014 + 134.464 134.898 I35-3I5 I35-7I4
136.094 +
136.454
136.792 137.107
I37-398
137.664 + 137.904 138.118 138.304 138.463 138.593 +
138.694
138-765
26.730 26.726 26.721 26.713 26.704 26.693 26.680 26.666 26.651 26.635 26.619 26.602 26.585 26.568 26.552 26.536 26.521 26.507 26.493 26.481 26.471 26.462
Oh
P
Weltzeit
O +4-747
4.796
4-843
4.889
4-933
+4.976
5-QI7 5-057 5-095 5-I30 + 5-163 5-195
5-225
+
+
138.807 26.455 26.450 138.819 138.802 + 26.446 + 26.444 138.755 138.680 26.444 1 26.446 38-577 26.450 138.446 138.289 + 26.455 + 26.462 138.107 26.470 137.902 137.674 26.479 26.490 137.426 I I + 26.501 + 37- 59 136.876 26.514 i 26.527 36-579 136.270 26.540
5-252 5-277 5-300 5-320 5-338 5-354 5-367 5-378 5-386 5-392 5-395 5-396 5-394 5-390 5-383 5-374 5-363 5-350 5-334 5-3I6
9-93927
9.94020 9.94129
1958 Juli 2
6 10
9-94254 9-94394 9-94548
9.94717 9.94900 9.95096
14
18 22 26
30 Aug.
9.95998 9.96249 9.96510 9.96778
9-97053 9-97333
9.97618 9.97906 9.98197 9.98488 9.98779 9.99068
9-99353 9-99633
9.99907 0.00174 0.00431 0.00677 0.00911 0.01131 0.01336 5-297 0.01525 5.276 0.01697 5-253 0.01849 5.228 0.01982 5-202 0.02094 5-175 0.02185 I 35-952 26.554 5-147 0.02254 z 35-627 - 26.568 + 5.118 0.02300 I 26.583 5.089 0.02324 35-299 26.597 5.060 0.02325 134.969 134.640 26.612 5-030 0.02302 I I 26.626 5.001 0.02257 34-3 5 26.640 133-997 4-971 0.02190 133.688 + 26.654 + 4.942 0.02100
3
7
9-95304 9-95524 9-95756
11
15 19
23 27
3i Sept. 4
8 12 16 20 24 28 Okt. 2 6 10 14
18 22 26
30 Nov.
3
!9
23 27
1
5 9 13 17
21 25 29
33
B
P
O O O 133.688 + 26.654 + 4.942 26.667 I33-390 4-9I5 133.106 26.681 4.889 132.838 26.694 4.864 132.588 26.707 4.841 I32.359 + 26.719 + 4.820 26.732 132.152 4.800 131.968 26.745 4-783 26.758 131.809 4.768 i i 26.770 4-756 3 -675 131.568 + 26.783 +4.746 131.488 26.795 4-739 I I 26.808 3 -437 4-735 26.821 i3i-4i5 4-733 131.422 26.834 4-734 I3I-458 + 26.846 +4-738 I I 26.859 3 -5 2 3 4-745 131.617 26.871 4-754 r I 26.883 4.766 3 -739 131.890 26.895 4.781 132.069 + 26.906 +4.798 132.274 26.917 4.818 132.506 26.927 4.840 132.763 26.936 4.865 26.944 4.892 I33-045 133-350 + 26.950 + 4 - 9 2 1
0.02100 0.01990 0.01859 0.01708 0.01539 0.01352 0.01149 0.00932 0.00701 0.00457 0.00203 9-99939
9.99668 9.99390 9.99107 9.98821
9-98532
9.98243
9-97954
9.97666 9.97382 9.97102 9.96826
9-96557
9.96295 9.96042
I33-679
26.955 26.959
4-952
9-95797
135-624
26.955
5-i3i
9-94735
134.029 134.400
4.984 ' 9-95562 26.961 5.019 9-95337 26.961 9.95124 134-79° 5-055 9.94924 135-198 + 26.959 + 5-092
136.065 136.521 15 •136.990
7 11
Dez.
U
335*
26.949 5- I 7 I 26.940 5.211 26.929 5-252 + 26.915 + 5-294 I37-47I 26.898 137.962 5-336 26.879 138-463 5-379 138.971 26.857 5.422 139.486 26.833 5-465 140.006 + 26.806 + 5-508 140.529 26.777 5-551 i4I-°55
141.582 142.108 142.633 r43-i54 +
26.745
5-593 5-635
26.710 26.673 5.676 26.634 5-7I7 26.593 + 5-757
9.94560
9-94399
9.94252 9.94119 9.94002 9.93900
9-938i3 9-93742
9.93687
9-93649
9.93627 9.93622
9-93633
9.93660
9-93704
Saturnstrabanten 1958
336* Oh Weltzeit 19.58 Jan. -- 5 27 Febr. 12 28
L
M
MIMAS 0 0 78.819 172-35 148.29 70.771 62.723 124.23 54.676 100.17 46.629 76. IX
März 16 April i 17 Mai 3 19 Juni 4 20 Juli 6 22 Aug. 7
358.361 350.319 342.277 334-236 326.195
23 8 24 10 26
318.154 310.115 302.076 294.037 285.999
11 27 13 29 45
277.962 269.925 261.889 253-853 245.818
Sept. Okt. Nov. Dez.
0h Weltzeit 1958 Jan. -- 5 + 11 27 Febr. 12 28 März 16 April i 17 Mai 3 19 Juni 4 20 6 Juli 22 Aug. 7 Sept. Okt. Nov. Dez.
38.583 30.538 22.493 14.448 6.404
52.04 27.99 3-93 339-87 315.81 291.76 267.70 243.64 219-59 195-53 171.48 147-43 123.38 99-32 75-27 51.22 27.17 3.12 339-07 315-02
L
23 8 24 10 26
228.527 229.759 230.992 232.225 233-458 234.691 235-924 237-156 238.389 239.622
11 27 13 29 45
240.855 242.088 243.320 244-553 245.786
85.926 329.631 213.336 97.040 340.742 224.443 108.143 351-842 235.540 119.236 2.931 246.626 130.319 14.011 257.703 L
27.47 28.67 29.88 31.09 32.30
0 199.081 109.030 18.801 288.418 197.908
33-51 34-72 35-93 37.14 38.35 39.56 40.77 41.98 43-19 44.40
M
L
107.300 16.630 285.932 195-239 104.588
L
M
221.959 33-122 204.285 15-448 186.611
7-3 245.6 123.9 2.2 240.5
357-774 168.937 340.100 151.263 322.426
263.014 207.572 152.129 96.687 41.246
118.8 357-1 235.4 "3-7 352.0
I33-589 304-752 "5-915 287.078 98.241
230.3 108.6 346.9 225.2 103.4
269.403 80.566 251.729 62.891 234-054
M
XETHYS 0 86.143 257.306 68.469 239.633 50.796
e
345.804 290.362 234.920 179.478 124.037
55.824 250.864 85.903 280.943 115.982
221.8 56.8 251-7 86.6 281.5
68.596 13-154 3I7-7I3 262.271 206.830
42.4 345-6 288.8 232.1 175-3
311.022 146.061 341.101 176.140 11.180
116.4 3"-3 146.2 34I-I 176.0
loga
2.33173 2.33193 2.33211 2.33226 2.33238
181.65 91.78 1.87 271.96 182.09 92.29 2.61 273.07 183.69 94-50
2.33248 2.33254 2.33256 2.33255 2.33250 2.33241 2.33229 2.33214 2.33196 2.33176
45.60 46.81 48.02 49.23 50.44
r4.on 283.542 193.210 103.041 13-057 283.275 193.708 104.364 15-244 286.344
5.52 276.77 188.25 99.96 11.90
51-65 52.86 54.07 55.28 56.49
197.654 109.160 20.845 292.684 204.648
284.06 196.42 108.96 21.66 294.49
0.10176 0.10178 0.10173 0.10160 0.10142 0.10I20 O. IOO96 O.IOO69 O.IOO44 0.I0020 O.O9998 O.O9983 O.O9973 O.O9971 O.O9976
RHEA 0 0 178.2 10.232 205.272 13.1 40.311 208.1 235.351 43.0 70.390 237.9 72.8 265.430 100.469 267.7 102.6 295-509 130.548 297-5 325.588 132.4 160.627 327-3 162.2 355.667 190.706 357-1 192.0 25.745 220.785 26.9
250.3 193-5 136.7 79-9 23-1 326.3 269.5 212.7 156.0 99.2
H Y P I:RION O 0.09650 269.33 180.12 0.09739 90.72 0.09821 0.09896 I.I5 0.09965 271-45 0.10025 0.10075 O.IOI 14 0.10145 0.10164
M
L
DIONE 0 1 0 98.1 97-439 41.4 41-997 346.554 344-5 291. i n 287.8 235.668 231.0 180.226 174.2 124.783 117.4 60.6 69.34 t 13.898 3-8 318.456 307.0
ENCELADUS 0 0 168.800 144.2 22.6 52.517 296.234 260.9 179.949 139.2 63.663 17-5 307.376 255-8 191.089 I34-I 12.4 74.800 318.509 250.7 202.218 129.0
M T H 'AN
216.198 217.431 218.664 219.897 221.130 222.362 223.595 224.828 226.061 227.294
L
2.33155 2.33132 2.33109 2.33085 2.33062 2.33040 2.33020 2.33002 2.32986 2.32974
L
M
J A P IÌ T U S 0 7.452 51-01 80.061 123.61 152.671 196.21 268.82 225.280 297.890 341-42 10.499 54-02 83.108 126.62 155-718 199.22 228.327 271.83 300.936 344-43 57.03 I3-546 129.63 86.155 202.23 158.765 231-374 274.84 303-983 347-44 60.04 16.593 89.202 132.64 161.812 205.24 234.421 277.85 307.030 350.45 19.640 63.05 92.249 135.65 164.859 208.26 237.468 280.86 310.077 353-46
Saturnstrabanten 1958
337*
B e w e g u n g der m i t t l e r e n L ä n g e L und der m i t t l e r e n A n o m a l i e M
L d i
Encelados
Mimas
r/ -, Zeit
M
L
r 0
0
0
21.9974 20.997 262.7315 2 43-9948 41-993 165.4630 3 65.9922 62.990 68.1946 4 87.9896 83.986 330.9261 5 109.9870 104.983 233-6576 6 131.9844 125.979 136.3891 7 153.9816 149.976 39.1206 8 175-9791 167.972 301.8521 9 197-9765 í 88.969 204.5837 IO 219.9739 209.965 107.3152 I i 241.9713 230.962 10.0467 12 263.9687 251.958 272.7782 285.9661 272-955 175-5093 14 307.9635 293-952 78.2413 15 329.9609 314.948 340.9728 i6 351-9583 335-945 243-7043 d 0 O.I 38-I997 0.2 76-3995 0.3 114.5992
O.4 152.7990
190.9987 229.1984 O.7 267.3982 O.5 0.6
0.8 305-5979 0.9 343-7977 I.O 381.9974
d 0.01
0.02 0.03 0.04 0.05 0.06 0.07 0.08 0.09 0.10
d
3. OOI 3.002
D.003 3.004
O.OO5 O.OO6 D.007 3.008 3.009 3.0I0
0
3.8200 7.6400 11.4599 15.2799 19.0999 22.9198 26.7398
0
0
3-4380
3.8200
M
0
0
0.381 0.762 I-I43
1.524 1.905 2.286 2.667 3.048 3-429
3.810
0
2.6273
0
2.62 5.25 5-2546 7.8820 7.87 10.5093 10.50 13.1366 13.12 I5-7639
18.3912 21.0185 23.6458 26.2732 0
0
0
1.9070 3.8140 5.7209 7.6279
0 13-1535
26.3070 39.4605 52.6139 65.7674 78.9209 92.0744 105.2279 118.3814 I I
3 -5349 0 I-3I53
M 0 I3I-45
0
0.26 0.52 0.79 1.05
I-3I37 1.5764
I-3I 1-57
1.84 2.10 2.36 2.62
0
0.1907 0.3814 0.5721 0.7628
0 0.1315
0.2631 0.3946 0.5261 0.6577 0.9535 1.1442 0.7892 0.9207 1-3349 1.5256 10.5228 1.7163 11.8381 1.9070 13.1535
L 0
79.6900
Titan
M
O
79-68 262.90 159-3799 159.36 34-35 239.0699 239-05
165.80 318.7599 318.73 297.26 38.4498 38.41 68.71 118.1398 118.09 200.16 197.8298 197.77
331-61 277-5I97 277-45 103.06 357.2097 357-14 234-51 76.8997 76.82 5-96 156.5896 156.50 I37.4I 236.2796 236.18
268.86 315.9696 315.86 40.31
171.77 303.22
35.6596 115-3495 I95.0395
0 13-15
7.9690
26.29
0
15-9380
35-54
115.23 194.91 0 7-97 15-94
0 I-3 2
0
0.13 0.26 O.39 O.53
O.66 O.79 O.92 1.05 1.18 I-3I
0
0.7969 1-5938
2.3907 3.1876 3-9845
4.7814 5.5783 6.3752
7.1721 7.9690 0
0.0797 0.1594 O.2391 0.3188 0.3985 0.4781 0.5578
0.6375 0.7172 0.7969
0
Ai
L
M
0
0
0 4.5381
0 4.538
22.5771 22.576
45-151 9.0762 9.075 67.7312 67.727 13-6143 13.613 90.3082 90.302 18.1523 18.151 112.8853 112.878 22.6904 22.688 135-4623 135-453 27.2285 27.226 158.0394 158.029 31.7666 31.763 180.6164 180.605 36.3047 36.301 203.1935 203.180 40.8428 40.839 225.7705 225.756 45-3809 45-376 248.3476 248.331 49.9189 49.914 270.9246 270.907 54-4570 54-452 293.5017 293.482 58.9951 58.989 316.0787 316.058 63-5332 63-527 338.6558 338.634 68.0713 68.064 361.2328 361.219 72.6094 72.602 45-1541
0
2.2577
4.5154
0
0.80
0.2258
1-59 2-39 3-19 3-98 4.78
0.6773 0.9031 1.1289
5.58
6-37
7.17
7-97 0
0.08 0.16 0.24 0.32 0.40 0.48 0.56 0.64 0.72 0.80
Japetus
L
23.9070 23.90 6.7731 31.8760 31-87 9.0308 39.8450 39-84 11.2885 78.87 47.8140 47.81 13-5462 92.02 55-7830 55.78 15-8039 105.16 63-7520 63.75 18.0616 118.31 71.7210 71.71 20.3193 13'-45 79.6900 79.68 22.5771 39-44 52.58 65.73
2.6307 2.63 3.9460 3-94 5.2614 5.26 6.5767 6.57 9-5349 7.8921 7.89 15-74 II-44I9 9.2074 9.20 18-37 I3-3488 20.99 15.2558 10.5228 10.52 23.62 17.1628 11.8381 11.83 26.24 19.0698 13-1535 I3-Î5
0.2627 0.5255 0.7882 1.0509 1.8391 2.1019 2.3646 2.6273
L
0 0 0 262.39 190.69 77 I 3 I -5349 164.79 21.3954 263.0697 67.18 212.0931 34.6046 329-58 42.7907 166.1395 231.97 233-4884 297.6744 I34-36 64.1861 69.2092 36.76 254.8838 200.7441 299.15 85.5815 332.2790 201.54 276.2792 103.8139 103.94 106.9768 235-3487 6-33 297-6745 6.8836 268.73 128.3722 138.4185 171.12 319.0699 269.9533 73-51 149.7676 41.4882 335-91 340.4653 173.0231 238.30 171.1630 304.5580
0
Rhea
Dione
L
38.100 26.2732 26.24 19.0698 76.199 52.5463 52.48 38.1395 114.299 78.8195 78.72 57.2093 i5 2 -399 105.0926 104.96 76.2791 190.498 i3!-3658 131.20 95.3488 228.598 157-6389 157-44 114.4186 266.698 183.9121 183.68 133-4884 304-797 210.1852 209.92 152.5581 342.897 236.4584 236.15 171.6279 380.997 262.7315 262.39 190.6977
3.810 7.620 11.430 15.24O 19.050 22.860 26.670 30.5598 30.480 34.379 8 34.290 38.1997 38.100 0.3820 0.7640 1.1460 1.5280 1.9100 2.2920 2.6740 3.0560
0
Tethys
0.4515
I.3546
1.5804 1.8062 2.0319 2.2577 0
0.0226 0.0452 0.0677 0.0903 0.1129 0.1315 0.1580 0.1806 0.2032 0.2258
0
0
2.258 0.4538 4.5I5 0.9076 6.773 1.3614 9.030 1.8152 11.288 2.2690 13-545 2.7229 15-803 3.1767 18.060 3-6305 20.318 4.0843 22.576 4-538I 0
0
0.0454 0.0908 0.1361 0.1815 0.2269 1-355 0.2723 1.580 0.3177 1.806 0.3630 2.032 0.4084 2.258 0.4538
0.226 0.452 0.677 0.903 1.129
0
0.023 0.045 0.068 0.090 0.113 0.135 0.158 0.181 0.203 0.226
0
0.0045 0.0091 0.0136 0.0182 0.0227 0.0272 0.0318 0.0363 0.0408 0.0454 w
0 0.454
0.908 1.361 1.815 2.269 2.723 3-176 3-630
4.084 4-538 0
0.045 0.091 0.136 Ö.182 0.227 O.272 0.318 0.363 0.408 0.454 0
0.005 0.009 0.014 0.018 0.023 0.027 0.032 0.036 0.041 0.045
Saturnstrabanten 195$
338*
y
Oh Weltzeit
Mimas
iQ58 Jan. —5 + 11 27 Febr. 1 2 28 März 16 April 1 17 Mai 3 Juni
4 20 Juli 6 22 Aug. 7 23 Sept. 8 24 Okt. 10 26 Nov. 1 1 27 Dez. 1 3 29 45
0 24.7 8.7 352.7 336.7 320.7 304-7 288.7 272.7 256.7 240.7 224.7 208.7 192.7 176.7 160.7 !44-7 128.7 112.7 96.7 80.7 64.7 48.7 32.7 16.7 0.7
Encel. Tethys
Dione
Rhea
Rhea
0 56.7 53-5 50.4 47.2 44.0 40.9 37-7 34-5 3i-4 28.2 25.0 21.8 18.7 15-5 12.4 9.2 6.0 2.8 359-7 356.5 353-3 350-2 347-0 343-8 340.7
0 102.6 101.2 99.9 98.5 97-2 95-8 94-4 93-1 91.7 90.4 89.0 87.6 86.3 84.9 83.6 82.2 80.8 79-5 78.1 76.8 75-4 74.0 72.7 71-3 70.0
0 44.2 43-7 43-2 42.7 42.2 4i-7 41.2 40.7 40.2 39-7 39-2 38.7 38.2 37-7 37-2 36-7 36.2 35-7 35-2 34-7 34-2 33-7 33-2 32-7 32.2
18^66 18.66 18.66 18.66 18.66 18.67 18.67 18.67 18.67 18.67 18.68 18.68 18.68 18.68 18.69 18.69 18.69 18.70 18.70 18.70 18.71 18.71 18.72 18.72 18.72
228?5 221.8 2I5-I 208.4 2OI.7 195.0 188.3 l8l.6 174-9 168.2 I6I.6 154-9 148.2 I4I.5 134-8 128.1 121.4 II4.7 108.0 IOI.3
94.6 87.9 81.2 74.6 67.9
log
-u u—
I+c
in E i n h e i t e n
der
N
I
CO
Saturnsring
128.756 128.757 128.759 128.761 128.763 128.765 128.767 128.769 128.771 128.772 128.774 128.776 128.778 128.780 128.782 128.784 128.785 128.787 128.789 128.791 128.793 128.795 128.797 128.799 128.800
6.655 6.655 6.654 6.654 6.654 6.654 6.654 6.654 6.653 6.653 6.653 6.653 6.653 6.652 6.652 6.652 6.652 6.652 6.651 6.651 6.651 6.651 6.651 6.650 6.650
4I-257 4I-255 4I-254 4I-253 41.251 41.250 41.249 41.247 41.246 4I-245 4I-243 41.242 41.241 4I-239 41.238 4I-237 4I-235 4I-234 4I-233 41.231 41.230 41.229 41.228 41.226 41.225
5. D e z i m a l e
Mimas
Encel.
Tethys
Dione
Rhea
u— -u
0° 10 20 30 40
360° 350 340 330 320
-6+ -6+ -5 + -5 + -4+
-7 + -7+ -7 + -6+ -6 +
-9+ -9+ -8+ -8+
—11+ —11+ —11+ —10+ - 9+
-16+ -16+ -15 + -14+ —12 +
180° 170 160 150 140
i8oc 190 200 210 220
50 bo 70 80 90
310 300 290 280 270
-3 -3 -2 -1 0
-5+ -4 + -3 + —1 + 0
-6+ -4+ -3 + -2 + 0
—
—10 + - 8+ - 6+ - 3+ 0
130 120 HO 100 90
230 240 250 260 270
+ + + +
8+ 6+ 4+ 2+ 0
Saturnstrabanten 1958 Oh Weltzeit 1958 Jan. —5 +3 11 27 Febr. 4 12 20 28 März 8 16 24 April 1 9 25 3 11 19 27 Juni 4 12 20 28 Juli 6
Mai
22 30 Aug. 7 15 23 3i Sept. 8 16 24 Okt. 2 10 18 26 Nov. 3 11 19 27 Dez. 5 13 21 29 37
TITAN
339 •
HYPERION
U
B
P
0 136.066 137.084 138.068 139.007 139.889 140.704 141.442 142.094 142.650 143.104 143-449 143.680 143-793 143.790 143.670 I43-438 143.102 142.672 142.160 H 1 ^ 140.960 140.310 I39-655 I39-OI5 138.412 137.864 I37-388 136.999 136.708 136-524 136.453 136.497 136.657 I36.93 1 I37-3I5 137.804 138.391 139.069 139.829 140.661 I4I-556 142.504 143-494 I 44-5I4 145-555 146.605 I47-653 148.687
0 + 26.403 26.395 26.378 26.353 26.323 + 26.288 26.250 26.212 26.174 26.140 + 26.110 26.086 26.069 26.060 26.059 + 26.066 26.080 26.101 26.127 26.157 + 26.189 26.223 26.257 26.290 26.322 + 26.352 26.382 26.411 26.438 26.465 + 26.491 26.516 26.540 26.562 26.580 + 26.595 26.605 26.608 26.604 26.591 + 26.569 26.537 26.495 26.441 26.377 + 26.303 26.220 + 26.129
O + 5.214 5-305 5-392 5-473 5-547 + 5-615 5-675 5-727 5-771 5.806 + 5-832 5-850 5-858 5.858 5.848 + 5-830 5.804 5-770 5-730 5.684 + 5-633 5-58O 5-526 5-472 5-421 + 5-374 5-333 5-299 5-274 5-258 + 5-253 5-258 5-273 5-299 5-334 +5-378 5-430 5-489 5-554 5-625 +5-699 5-775 5-853 5-931 6.009 +6.085 6.158 +6.228
u O
I33-704 !34-729 i35-7 T 9 136.664 137-552 138.373 139.116 I 39-773 I 4°-335 140.793 i4i-i43 141.378 141.496 141.496 i4i-379 141.150 140.816 140.388 139.879 i39-3 0 4 138.683 138.035 137-382 136.744 136.142 I35-596 135.122 I34-736 134.448 134.267 I 34-I99 I34-247 I 34-4ir 134.689 135-078 I35-572 136.164 136.847 137.612 138.450 I 39-35I I40-305 141.301 142.328 143-375 144.432 I45-485 146.526
JAPETUS
B
P
U
0 + 26.710 26.703 26.687 26.664 26.634 + 26.599 26.562 26.524 26.486 26.452 + 26.422 26.397 26.380 26.371 26.370 + 26.376 26.390 26.410 26.435 26.464 + 26.496 26.528 26.561 26.593 26.624 + 26.654 26.682 26.710 26.737 26.763 + 26.789 26.814 26.837 26.859 26.878 + 26.893 26.903 26.906 26.902 26.890 + 26.869 26.837 26.795 26.742 26.678 + 26.604 26.520 + 26.429
O + 5.119 5-217 5-3IO 5-397 5-477 + 5-550 5-6i5 5-671 5-7I8 5-756 + 5-785 5.804 5-8I3 5-813 5-803 + 5-783 5-755 5-719 5.676 5.627 + 5-573 5-516 5-457 5-401 5-346 +5.296 5-253 5-217 5.190 5-174 + 5.168 5-I74 5.190 5.218 5-255 + 5-302 5-358 5.422 5-492 5-567 + 5.646 5729 5.812 5-897 5.981 +6.063 6.143 +6.219
211.958 212.889 213.788 214.644 215.448 216.190 216.861 217-453 217.959 218.371 218.684 218.893 218.996 218.992 218.882 218.671 218.365 217.973 217.508 216.984 216.418 215.828 215.232 214.651 214.104 213.607 213.176 212.825 212.563 212.399 212.338 212.383 212.533 212.787 213.141 2i3-59i 214.129 214.750 215.444 216.204 217.020 217.883 218.783 219.711 220.657 221.611 222.562 223.501
O
B
P
O
+14-294 14.158 14.021 13-885 13-753 + 13.626 13-508 13.400 13-304 13.222 + I3-I57 13.110 13.082 I3-073 13.084 + 13.114 13.162 13.227 13.306 13-398 + 13.498 13.604 i3-7ii 13.817 13.920 + 14.016 14.103 14.179 14.242 14.291 + 14.326 14-345 I4-348 14-335 14.306 + 14.261 14.200 14.123 14.031 I3-925 + 13-805 13673 13-529 13-374 13.211 + 13.041 12.866 + 12.688 w»
O + 13.362 13-230 13.098 12.968 12.843 + 12.725 12.616 12.518 I2 -433 12.362 + 12.308 12.271 12.253 12.253 12.271 + 12.307 I2 -359 12.425 12.503 12.590 +12.683 12.778 12.873 12.964 I 3-°49 + I3-I25 13.191 13-244 13.284 I 3-3I° + 13.321 I3-3I7 13.298 13.264 13-215 + 13-151 13-073 12.980 12.874 12-755 + 12.624 12.481 12.329 12.168 12.000 11.827 11.650 + 11.472
Saturnstrabanten 1958
340* H Y P E R I O N
0h
atr—apl
btr—bpl
s
+ 2.0
-8 3 - 5 -9 -12.2 -1 7 _I3-9 +2 4 +54
- 6-3
-
6.i
+ 0.9 +
7.6
0
+7.0 +6 7
- 77 -
62
- 21 +
27
+ 68 +
91
+
9i
+
67
Weltzeit
+ 15 +41 +48 +41
30
April
- 8.4
-13-3
-14.0 -10.7 - 4.6 +
2.6
+ 9.2
-8 2 -8 o
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o -24
-
68
-
78 + 2 4
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+
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;+ 58
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42 76 76
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+
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+ 12.4 + 13.8 +
9.6
+7 7 +5 7 tI.4 -4.2
+ 100
+ 79 + 34 - 22
-
70
-45 -56
-62
23 25 27 Mai
29 1
3 5 7 9
+
+ 13-8+ I3-5+ 7-5-
: 8 - 65
-
11
Juni 18 20 22
18
° 3 6.0 9.6
-
70
18
41
- 82
Juli
+ 12.5 +
4.6
- 23
"79
- 59
-41
18
- 1.6
+ 85 + 6.9 + 6 4
25
+ I3-3
27
+ 15.0
29 31 Juni 2
+ 10.4
+ 1.1
- 8.8
4 -15-4 6
10 12 H
16 18
-17.0
+ 17
-
6.6
-
1 6
-11.6
-
+ 3 2+
+ + 14.7 - 0.6 + 14.1
+ 12.2
-16.7 -14.7
26
+
-58
28
+ I3-4
-3i
30
1
+ 14.4
-12.6
+ 1.0
19 21
+ 12.9
+ 23
23
+ 6.3
+ 50 2 0 + 58 38 +47
25 27
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29 31 2
+ 14.0
- 3-2
1o
82
75 + 42 - 1 1 -
6 .6
- 95 -82
- 4
1
-15-5 + 0 6 -14.9 + 4.6 -10.3 + 72
4 - 3-1 6 + 4-9 + 8 + 11.3 +
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94 59
35 + 67
- 5-9 + 2-3 +
+
-52
- 44
+ 5-8
+ 9-4 -- 952°
+ 9.8
-62
+ 59
+ 81 + 83 7.6
17
18
+ 2.0
3 + 0.2 5 - 9.2 7 -15-1 9 -16.1 +
11
Sept.
-2.9
+ 3-9 -- 1 08 13
- 0.7
-13.8 + 6 . 8 + 85 +25 - 7-o + 8 6 + 110 - 3 + 1.6 + 8 1+ 107 -33 + 9-7 + 5 0 + 74 -56
77
+ 3-i
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70
+ 47
- 3-9 +
24
-18
r\ 1
18
15
23
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20
13
- 75 - 93
- 9 1
- 6.2 - 76 -13.8 - 2.9
-49
+ 39
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+ 87 + 4.8 + 72 + 12.0
- 8.8
+ 52
btr—bpl
14 16
+ 110 -22
+ 88
- 4 .6 -
- 93 - 9-9
30 2
22
-15-3 ++ 15 56+ 7 0 + 33 19 - 9-7 + 8 1+ 103 + 7
23
*-'
12
17 21
i
2.6
-16.3
10
- 90 Aug. + 9 —10 o - 81 -80 +43 - 38 + 56 - 34 +
-
7
+ 15.I
+ 57 1
+
28
6
-59
52 +40 92 + 16 + 73 - 4.4 + 8 4 + 108 - 1 2 + 4.0 + 96 -39 + 73 + 11.3 -58 + 3 5 -
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4
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+ 14.8
atr—apl
24
- 4 - 86 - 2.1 - 8.8 + 33 -10.9 - 4.9 - 53 + 52 1 -15-8 - 0 1 + 53
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1958
+ 9.0 + 4.8 +
15
-38
- 9 I
Weltzeit
+47 + 53 - 15 -15.8 + 35 + 2.8 +44
_I4-3
+ 34
-53
+2 7
- 8.1
+48
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bpl
s
- 5-4 -13-4
87 99 -t-12
blr—
+ 9.6 -86 + 1.0
13
+ x3-5 - 2 5 - 6 -50 + 11.o - 56 -26 + 3-7 -- 79 3I - 82 + 10 - 5-4 - 7 . 0 - 72 +40 -12.4 - 32 + 52 -15-3 +- 21.69 2 0 +46 -I3-7 + 5 3 + 66 +29 - 8.4 + 95 + 5 +74 - 1.0
21
6
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3 - 9-7 +4 +6 7 - 3-o + 4-5++76 35 + 10.8
+46
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17
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- 2.8
15
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1
11
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-07
apl
H Y P E R I O N
Oh
3 + 79 5 -13.0 + 6 3 7 - 6-7 + 8 0 +103 +24 9 + i-3 + 77 +100 -- 3 °3
+23
+4 5 + 23 -44 -51 +0 3 - 28 + 12.4 -40 -46 - 0.4
atr—
1958 M ä r z 26 28
+ 12.1
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H Y P E R I O N
h
+ 13.8
6.4 2.5
Saturnstrabanten 1958 HYPERION atr - dpi
btr
+ I3.8
-52 + 10.7 -3-i -60 -25 + 2.Q - 7 . 8 -85 -9.1 I - 7 2 +13 - 6.2 +42 -67 -12.9 -30 + 51 -2.4 +2 o
+ 21
+ 67
341 *
atr ~ cipi
1958 Jan. 1 3 5 7 9
- 4.6 -4.8 - 9-4 -46 -14.0 - 4 2 -18.2 -3-8 -22.0
11 13 15 17 *9
-25-4 -2.8 -28.2 - 2 1 -30.3 -1 5 -31.8 -0.8 -32.6 0.0
21 23 25 27 29
-32.6 +0 6 -32.0 +1 3 -30-7 +2.0 -28.7 + 27 -26.0
3 Febr. 2 4
10 12 14 16 18
-22.8 + 3-8 -19.0 +42 -14.8 -10.2 +4.6 +4.8 - 5-4 + 5 - 0.4 + 4-7 + 5 1 + 9-7 + 5-° 7 + 14.4 +4 +4.4 + 18.8
20 22 24 26 28
+ 22.8 + 34 + 26.2 +2 8 +29.0 +2 o + 31.0 + 1 3 +32.3 +0.4
10 12
+ 32.7 - o 4 + 32-3 - 1 3 + 31.0 - 2 2 +28.8 -30 + 25.8 + 22.2 -3-6
14 16 18 20 22 24
+ 17.9 -4.8 + 13.1 -5 2 + 7-9 -5 4 + 2.5 -5 5 - 3-o -5 5 - 8.5
+46
+5 5 +28 - 7-8 +7 4 +95 + 3 - 0.4 +7 4 +98 -23
+ 7.0
+52
+ 75
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+ 12.2 +29 +0 7 -55 + 12.9 -26 + 8.2 - 4 7 -70 -44 -12 - 0.2 -8.4 -82 -8 3 -58 +24 - 8.5 +45 -5 2 _I3-7 -0.9 +49 -14.6 +36 +40 +3 1 +76 -H-5 +6.0 + 19 - 5-5 +95 +7-4 + 1.9 +90 - 5 +6.8
1
6 8
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+ 8.7 +60 -50 + 12.6 + 3-9 + 10 -53 —1 1 + 1X.5 -43 -33 -6.1 -76 + 5-4 +1 -8.5 - 3-i -75 + 3i -7-3 -10.4 -44 -14.2 -3-8 + 3 +47 +46 -13.8 +0.4 +49 +4 I +82 + 33 - 9-7 + 12 - 3-2 +6.5 +94 -13 + 4-i + 10.1 + 12.5 + 9.7 + 2.6 - 5-7 -11.9 -i4-3 -12.7 - 7-8 - 1.0 + 6.1
+7 3
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, +27 +4
7 +91 +8
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J -22 +69
JAPETUS
Oh Weitzeit
März
s
-3 4
+32
+4.0
-4 3
btr - bpi
Saturnstrabanten 1958
342* JAPETUS air—
a pi
JAPETUS
Oh
ò ir
Weltzeit
bp;
air—
api
& Ir—
bpl
8.5
-13.8 -18.8 -23-4 -27.4
- 5
3
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0
-2 o —i i 3
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- 3 6 - 4 + 1.4 - 3 5 - 0 +2 3 -32-7 + 3 i -29.6 -25-9
+ 3
7
+ 4 4
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+ 4
68 46
+
+23 2 3 + 24 i + 24
+ +
25 4 9 +24
-
+
72
+ 141 + 152 + 159
9
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4
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5-5 0 . 3 + 5.8
+ 11.o + -
7
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5-0 -6.2 1.2 - 6
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6 8
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r
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+
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+36.6
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24
o
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+
o
22
- 3
Sept.
+ 28
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-27
7
+33-5 + 2 o +35-5 + 1 i +36.6 00
-32.3
5
1
+ 5
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4
20
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6 5
+ 11.9
+ 3
+
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-
+
9
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7
18
30
+ 13 + 11 +
-24.0
Juli
+ 162 - 4 + 158 - 9 + 149 -12 + I37 -16 + 121 -18
+ 5
+
+21
16
-38.6 26 28 t - 3 8 . 9
+23
+ 93 + 19 + 112 + 16 + 128
Jun
+22
+ 163 -
-21.5 -16.6
-
4
-2 8
- o
-
+ 20
Weltzeit 1958
1958 -
JAPETUS
Oh
+19
9
-
x
+
1 2
+
37
+25
Dez.
- 4 - 8
-4.6 - 4
3
- 3 - 9
Saturnstrabanten 195 8
343«
ö s t l i c h e E o ln g a t o in e n (n i W e t z ie t ) i M M I A S h h h h h e b r . 15 8 . 1 A 81 2 0 6 . Jan. o p r l i 2 1 2 4 . M a i1 6 5 . J u l i 3 3 6 - F r i 2 2 . 1 6 6 7 . I . O 9 2 . 1 9 I 5 41 3I 2 01 7 8 . 2 0 9 . 6 . 1 7 5 4 4 9 3 7 51 1 8 4 0 . 2 . 2 . 3 61 6 4 . 2 2 2 1 1 3 5 5 8 6 . 9 . 0 9 . 5 0 . 2 . 1 6 6 2 2 1 1 9 2 32 7 1 0 7 . 2 0 1 . 2 81 3 6 . 42 5 2 3 9 5 7 5 2 02 2 . 2 8 4 2 . 9 4 . i 51 3 9 2 4 8 91 0 8 . 8 0 . 8 . 1 01 61 2 1 2 2 5 . 7 . 9 2 2 5 6 1 . 1 1 1 9 6 6 . 2 22 1 0 M 2 6 5 5 7 1 4 81 1 1 0 0 . 0 . 1 2 8 . 1 9 7 . 2 7 4 5 2 2 31 8 3 . 1 1 2 2 6 . 2 8 2 6 . 7 . 3 9 91 2 41 1 3 6 1 0 1 7 0 . 1 . 2 . 2 1 2 2 2 . 5 H 5 3 2 51 2 9 1 i r n 9 8 . 0 . 2 61 5 6 . 3 8 . . i 2 92 1 3 1 1 5 4 1 8 5 . 6 . 1 2 9 4 2 . 2 4 . 1 6 2 3 02 2 71 7 2 81 2 8 . . 2 7 . 1 1 . 1 1 3 8 3 1 5 1 1 7 1 3 i 2 0 . M ä z r 1 1 6 i u n i1 1 1 1 . 4 9 7 . 3 8 5 7 J 1 7 2 1 4 7 0 0 . 8 3 . 1 82 2 4 . 2 1 2 1 6 1 5 5 1 7 1 4 3 l 6 4 1 8 1 2 . 6 . 2 9 . 6 9 . 1 . 1 3 8 31 1 92 2 8 . 7 2 . 2 0 1 9 7 . • 5 1 7 4 1 9 " 41 5 5 1 8 i 8 3 . 2 01 0 . 1 2 1 1 4 . 1 5 9 5 5 51 . 1 6 9 . 6 4 2 1 8 61 2 . 7 2 21 7 . 1 9 0 5 2 7 . 2 2 7 4 5 5 1 92 7 3 i 7 " • 3 2 31 0 . 2 02 8 i 8 9 1 . 3 9 . 4 . 1 2 41 7 2 3 6 2 1 2 0 0 . 4 . 2 4 4 6 . 2 . 7 6 . 9 8 2 51 9 0 J 3 0 . 1 0 7 2 6I 2 2 1 8 6 . 2 . 2 2 5 3 3 92 0 0 . . 8 1 1 5 7 . 2 1 02 1 6 . 2 6 1 2 71 8 2 31 2 41 5 8 . 1 1 2 4 . 1 2 4 2 8 8 6 . 0 2 . 2 7 0 4 7 2 . 2 3 0 . 2 9 1 8 8 . 2 7 1 2 1 3 3 i 2 51 4 5 2 82 1 6 . 2 6i 8 1 4 i 3 i 1 3 1 7 5 7 3 ° 5 6 . 1 0 3 . 2 71 1 . 7 2 92 5 1 4 1 1 5 o 3 3 i 4 2 81 0 3 . 8 9 . 2 9 . Aug. 1 4 7 i 5 2 31 1 5 1 3 01 2 i 2 9 8 9 . 1 6 i 1 62 a i 1 7 3 3 M i 7 5 1 5 6 . 1 2 1 0 2 . 6 . 1 . 9 3 . 1 7 2 3 0 3 0 7 1 7 1 1 8 1 2 . 1 81 8 8 . 2 9 . 0 5 . 32 3 1 6 34 i7 1 6 . F e b r . i 4 8 . . 1 41 1 91 7 4 42 1 9 9 3 3 0 2 . 2 3 2 0 7 2 06 l. 0 1 . 9 52 4 7 51 1 8 8 . 6 1 0 5 . 1 4 6 . 6 2 . 1 2 1 2 1 6 4 . 3 7 . . 1 2 21 3 . 2 2 2 5 o 77 i4 4 0 7 9 6 0 . 8 7 i . 8 81 8 . 6 42 3 3 2 3 3 2 3I 1 4 6 . 2 . 2 6 4 . 1 0 4 . 2 1 9 . 5 9 2 4 9 2 4 3 . 2 1 01 62 0 6 . 9 . 1 0 5 . 1 2 5 0 o 2 5 9 1 . 8 1 1 3 1 1 1 9 2 . 2 6 7 6 7 1 2 52 3 5 7 0 5 . 81 7 8 . 1 2 1 2 62 2 . 1 1 2 2 . 2 2 7 6 3 8 . 6 4 . 0 7 . 2 8 4 . 1 1 3 9 91 2 72 1 3 0 9 1 0 i 2 81 7 7 3 4 5 5 i 9 3 1 3 2 2 9 3 1 1 1 8 0 . 2 0 . . 1 3 0 2 3 1 4 2 1 5 6 3 7 2 91 0 7 . J 7 . 1 6 5 1 2 1 2 . 3 6 6 . u l i 1 0 1 5 2 ° 3 01 1 2 0 9 . 1 6 1 5 2 6 3 1 1 9 3 3 3 1 7 3 1 3 1 J . 2 2 0 . 1 8 2 p r l i 11 7 9 . 22 4 9 5 - A 3 8 1 7 1
Saturnstrabanten 1958
344 •
O s t l i c h e E l o n g a t i o n e n (ín Weltzeit) h 0.8 Aug. 19 23-4 19 20 22.1 20.7 21 22 i9-3 17.9 23 24 16.5 15-1 25 26 i3-7 27 12.3 28 11.0 29 9.6 3 ° I 8.2 6.8 31 ¡ Sept. 1 1 5-5 2 , 4-1 3 ; 2-7 4 i-3 4 23-9 5 1 22.6 6 1 21.2 7 1 19.8 18.4 8 9 i 17.0 10 15.6 1 1 ! 14-3 12 12.9 r "•5 3 H ¡ 10.1 8.8 15 16 7-4 6.0 i7 18 4.6 19 3-3 20 1.9 21 0.5 21 23-1 22 21.8 20.4 23 24 19.0 17.6 25 26 16.2 14.9 27 28 13-5 29 12.1 10.7 30 Okt. 1 9-4 2 8.0 3 1 6.6
MIMAS Okt.
4 5 6 7 7 8 9 10 11 12 13
15 16 17 18 19 20 21 22 23 24 24 25 26 27 28 29 30 3i Nov. 1 2 3 4 5 6 7 8 9 9 10 11 12 13 M 15 16 17 18
h h Nov. 19 9.9 5-2 20 3-9 8-5 21 2.5 7-r 1.1 22 5-8 4-4 23-7 23 22.4 3-o 24 21.0 1.6 25 19.6 26 0-3 18.2 22.9 26 16.8 27 21-5 20.1 28 i5-5 18.8 14.1 29 12.7 30 17-4 "•3 10.0 8.6 7-2 E N C E L A D U S 5-8 h Jan. 0 17.9 4-5 2.8 2 3-1 II.7 i-7 3 20.6 0.3 4 23.0 6 5-5 21.6 14.4 7 20.2 8 23-3 18.8 10 8.2 11 17.1 i7-5 16.1 2.0 13 10.9 14-7 19.8 13-3 15 12.0 17 4-7 10.6 18 13.6 9.2 22.5 19 21 7-9 7-4 16.3 22 6-5 1.2 5-i 24 10.1 3-8 25 2.4 26 19.0 1.0 28 ' 3-9 23.6 12.8 29 22.3 21.7 30 20.9 6.6 Febr. i 2 19-5 15-5 18.1 0.4 4 16.8 9.2 5 18.1 6 15-4 14.0 8 3-o 12.6 11.9 9 20.8 10 "•3
ENCEL h Febr. 12 5-7 14.6 13 23-5 H 16 8.4 17 17-3 2.2 19 20 11.1 21 19.9 4.8 23 24 13-7 22.6 25 27 7-5 28 16.4 Márz 2 i-3 10.2 3 19.1 4 4.0 6 12.9 7 8 21.8 10 6.6 11 i5-5 0.4 13 14 9-3 18.2 15 3-i 17 18 12.0 20.9 19 21 5-7 14.6 22 23 23-5 8.4 25 26 17-3 28 2.2 11.0 29 19.9 3° 4.8 April 1 2 i3-7 22.6 3 5 7-5 6 16.3 8 1.2 10.1 9 19.0 10 12 3-9 12.8 13 21.6 !4 16 6-5 17 15-4 19 °-3
ADUS April 20 21 23 24 25 27 28 29 1 Mai 2 4 5 6 8 9 10 12 13 15 16 17 19 20 21 23 24 25 27 28 30 31 Juni 1 3 4 5 7 8 10 11 12 14 15 16 18 19 21 22 23 25
h 9.1 18.0 2.9 11.8 20.6 5-5 14.4 23-3 8.1 17.0 1.9 10.8 19.6 4-5 i3-4 22.3 7-i 16.0 0.9 9-8 18.6 3-5 12.4 21.2 6.1 15.0 23-9 8.7 17.6 2-5 11.4 20.2 5-i 14.0 22.9 7-7 16.6 i-5 10.4 19.2 4-1 13.0 21.9 6.7 15.6 0-5 9-4 18.3 3-i
Saturnstrabanten 1958
345 •
ö s t l i c h e E l o n g a t i o n e n (in Weltzeit)
Juni 26 27 29 30 Juli 1 3 4 6 7 8 10 11 12 15 17 18 21 22 23 25 26 28 29 30 Aug. 1 2 3 5 6 7 9 10 12 r 3 14 16 !7 18 20 21 23 24 25 27 28 29 3i
h 12.0 2O.9 5-8 14-7 23.6 8.4 17-3 2.2 11.1 19.9 4.8 i3-7 22.6 7-4 16.3 1.2 10.1 18.9 3-8 12.7 21.6 6.5 15-4 0.2 9.1 18.0 2.9 11.8 20.7 5-5 14.4 23-3 8.2 17.1 2.0 10.8 19.7 4.6 13-5 22.4 7-3 16.1 1.0 9.9 18.8 3-7 12.6 21.5 6.4
ENCELADUS h h Nov. 7 19.2 Sept. 1 15-2 0.1 9 4-1 3 10 13.0 9.0 4 11 21.9 5 17.9 2.8 6.8 13 7 8 I I .7 H 15-7 16 0.6 9 20.6 11 5-5 17 9-5 18 18.4 12 14.4 20 3-3 13 23-3 21 12.2 8.2 15 16 17.1 22 21.1 2.0 6.0 18 24 10.9 14.9 25 19 26 23.8 20 19.8 28 8.7 22 4-7 29 17.6 23 13.6 24 22.5 26 7-4 TETHYS 16.3 h 27 1.2 Jan. 1 10.5 29 7.8 30 IO.I 3 Okt. 1 19.0 5-2 5 2.5 3 3-9 7 8 23.8 4 12.7 10 21.2 5 21.6 12 18.5 6-5 7 8 15-4 14 15.8 10 16 13.2 0.3 11 9.2 18 10.5 12 18.1 20 7-8 22 3-o 5-2 14 11.9 2.5 15 24 16 20.8 25 23-9 18 5-7 27 21.2 14.6 29 18.5 19 20 23-5 15-8 31 22 Febr. 2 13.2 8-4 23 i7-3 4 10.5 7.8 2.2 6 25 26 I I . I 8 5-1 27 20.0 10 2-5 11 23.8 29 4-9 30 13.8 13 21.1 18.4 22.7 3i 15 Nov. 2 7.6 15-8 17 I r 3 16.5 3-1 9 10.4 21 5 i-4 6 10.3 7-7 23
Febr.25 27 28 März 2 4 6 8 10 12 14 16 17 19 21 23 25 27 29 31 April 2 3 5 7 9 11 13 i5 17 19 20 22 24 26 28 30 Mai 2 4 6 7 9 11 13 15 17 19 21 23 24 26
TETHYS h 5-o Mai 2.4 23-7 Juni 21.0 18.3 15-6 12.9 10.3 7.6 4-9 2.2 23-5 20.8 18.1 i5-4 12.8 IO.I 7-4 4-7 Juli 2.0 23-3 20.6 17.9 15-2 12.5 9.8 7-i 4-4 i-7 23.0 20.3 17.6 14.9 12.2 9-5 6.8 Aug. 4-i i-4 22.7 20.0 17-3 14-5 11.8 9.1 6.4 3-7 1.0 22.3 19.6
h 28 16.8 30 14.1 1 II.4 3 " 8.7 6.0 5 7 3-3 0.6 9 10 21.9 12 19.2 14 16.4 16 13-7 18 11.0 20 8-3 22 5-6 2.9 24 26 0.2 27 21.5 29 18.7 16.0 1 3 13-3 5 10.6 7-9 7 5-2 9 11 2-5 12 23.8 J 4 21.1 16 18.3 18 15.6 20 12.9 22 10.2 24 7-5 26 4.8 28 2.1 29 23-4 20.7 3i 2 18.0 4 15-3 6 12.6 8 9.9 10 7.2 12 4-5 r 1.8 4 15 23.1 17 20.5 19 17.8 21 i5-i 23 12.4 9-7 25 7.0 27
Saturnstrabanten 1958 ö s t l i c h e E l o n g a t i o n en
(n i W e t l z e t i )
T E T H Y S D O IN E R H E A h h h h h Aug. 29 a n . il 8 6 . p r l i 20 1 i . 6 Mai 18 Okt. 2 7 6 . 4 3 - J 4 3 - A . 6 2 1 2 2 0 . 0 . 3 1 1 4 5 3 3 42 2 5 6 S e p t . i2 3 0 . 62 3 . 1 5 8 . 8 3 . 9 9 . 2 9 1 2 3 1 7 1 0 3 . 1 0 9 6 8 . 2 61 3 6 . a i 46 7 . ' 3 2 91 5 - M 7 6 . 81 9 0 . 1 2 1 0 6 . 2 9 7 . 2 2 5 1 1 3 3 4 9 . 9 . 0 9 . u n i i 0 7 1 1 5 2 ! 3 7 4 1 5 4 3 - J 2 . 2 2 0 . 8 5 . 1 8 1 9 7 . 91 1 7 2 3 1 4 7 1 7 1 1 1 9 2 01 4 0 . 61 2 . 2 2 1 8 2 2 8 5 8 5 9 . 0 3 . . 2 2 62 8 1 3 6 2 3 9 5 2 4 2 9 5 2 . 2 6 3 1 1 2 2 61 9 9 . 8 6 . 1 5 4 3 3 5 3 1 2 82 1 . 0 0 9 . 2 91 3 6 . J u n i 4 2 7 .i 1 7 1 4 1 1 8 2 2 8 . 0 8 . Nov. i 2 . 3 1 I4-7 1 7 1 7 3 9 9 2 02 0 . 1 F 4 . e b r . 3 8 2 0 4 1 . 6 . 1 4 4 1 1 3 2 2 2 x 6 2 . 1 2 0 . 61 2 2 2 8 8 . 1 8 9 9 . 7 5 2 4 1 4 8 . 81 9 9 . 2 6 . 2 2 2 2 2 . 2 5 1 5 7 91 2 61 2 . 1 1 1 1 3 6 . 2 8 9 1 2 6 0 5 . 3 3 2 7 1 2 8 9 0 . J 2 8 . u l i I 2 u l i I 3 o 4 1 4 7 3 J 1 5 0 8 . . 0 0 6 . 7 8 . 61 1 . i 3 0 6 1 7 1 3 2 1 7 1 1 Okt. 2 8 7 . 2 0 1 0 61 4 1 9 1 4 3 2 3 5 2 2 1 2 . 4 1 . 8 4 M 9 9 7 2 3 5 3 1 5 1 2 7 . 2 . . 6 3 0 . 2 0 0 2 . 1 2 1 5 2 2 5 6 2 5 2 0 . 1 2 7 2 2 8 1 9 2 . 1 6 8 . 2 4 7 2 3 9 1 2 . 5 1 4 ä r z 21 7 6 . 2 . 9 9 . 91 7 4 M 1 7 1 2 9 0 1 1 r 2 0 6 Aug. 2 1 3 . 2 4 7 5 " 5 • 3 K H E A 2 . 0 8 5 . 6 2 . o ! 3 1 2 3 0 7 1 O I 2 2 8 . 7 9 . 4 0 . h 9 4 1 1 1 2 5 1 7 . 6 5 . 1 . 6 Jan. 2 81 2 1 6 2 5 6 1 7 6 1 3 1 4 4 0 . 1 6 1 0 2 . 61 8 3 . 2 01 4 8 . 2 3 1 5 2 1 M 2 2 9 . 1 1 6 9 . Aug. 2 2 ! 9 3 9 2 5 3 2 2 2 2 7 . 2 1 2 1 . 6 2 91 6 5 . 1 5 1 9 5 5 7 5 1 2 42 0 . 1 0 2 . 2 0 8 0 . S 81 e p t . 3 4 2 . 2 4 x 5 3 2 6z 9 . 2 7 8 1 1 3 0 6 . 6 6 . 7 4 9 2 42 7 1 2 8M 6 . 1 . 6 2 9 9 1 2 5 . 1 3 0 2 7 1 3 2 i 2 . i A p r l i i2 0 3 . 1 6 1 2 1 . 6 1 7 6 . F e b r . 2 1 6 3 01 5 3 Nov. i 4 0 . 9 . 0 . i 0 . 2 1 6 9 4 41 7 1 1 9 8 7 . 6 . 1 1 2 2 2 2 2 7 . 8 5 . 3 6 7 7 7 2 5 1 1 1 0 M 0 3 . 1 6 1 0 . 2 42 1 . 2 5 4 3 0 7 1 2 1 9 0 . 4 0 . 2 02 2 7 1 4 7 M 3 7 - Okt. 1 9 5 82 2 7 . 2 . 7 2 . 3 0 . 1 5 1 7 2 5 1 3 0 7 9 8 1 0 2 0 . 1 1 8 6 0 8 . S e p t . 2 i M ä r z 2 4 . 2 0 5 . 4 1 3 I 1 2 7 2 1 0 . 1 9 .i 1 8 9 . 1 4 41 3 3 6r 4 7 . 7 8 . 2 8 . 1 1 1 . 8 1 . 6 2 2 2 1 4 1 2 3 1 7 1 1 6 1 2 . i 2 61 1 . 4 1 0 6 4 . 2 2 7 1 0 . 2 5 . 1 5 1 1 8 9 2 . 2 0 2 2 8 . 4 2 9 5 i 1 3 0 7 3 1 2 2 0 6 7 . M a i i2 2 7 . 2 4 I5-1 Nov. 7 9 . 5 1 1 . 4 1 5 1 2 2 4 1 6 4 . 1 8 1 1 . 6 i 4 2 9 3 6 3 9 92 2 4 M 0 0 . 2 1 5 A p r l i 2 1 6 0 . 2 . 5 7 1 4 1 4 1 2 8 . 1 0 3 3 . 1 . 1 2 5 2 7 2 3 2 7 4 4 1 9 1 2 7 2 0 . 1 1 2 2 1 . 3 1 1 1 2 61 6 8 . 6 8 . 3 7 2 3 1 2 91 5 0 . 0 5 . 2 91 1 6 5 2 8 2 7 4 2 1 5 1 3
Saturnstrabanten 1958 Elongationen
und K o n j u n k t i o n e n
TITAN Jan.
3 7 11
I
h
14.7 WE 15.4 OK 10.7 ÖE 10.3 UK 15.6 WE 16.0 OK 11.2ÖE 10.9 UK 16.0 WE 16.3 OK 11.4 OE 11.2UK 16.2 WE 16.3 OK 11.3ÖE 11.0UK 16.0 WE 15.8 OK 10.7 ÖE 10.4 UK 15.3 WE 14.9 OK 9.7 ÖE 9.3 UK 14.0 WE 13.6 OK 8.3 ÖE 7.7 UK 12.3 WE 11.8 OK 6.4 ÖE 5.6 UK 10.1 WE 9-5 OK 4.1 ÖE 3-2 UK 7.6 WE 7.0 OK 1.5 ÖE 0.5 UK 4.8 WE 4.4 OK 22.9 ÖE 21.7 UK
Juli
Aug.
Sept.
Okt.
Nov.
28 2 5 9 13 17 21 25 29 2 6 10 14 18 22 26 30 3 7 11 15 19 23 27 1 5 9 13 17 21 25 29 2 6 10 14 18 22 26 30
h 2.1 WE 1.8 OK 20.3 ÖE 19.1 UK 23.5 WE 23-4 OK 18.0 ÖE 16.8 UK 21.3 WE 21.3 OK 16.0 ÖE 14.9 UK 19.5 WE 19.7 OK 14.5 ÖE 13.4 UK 18.1 WE 18.5 OK 13.4 ÖE 12.5 UK 17.3 WE 17.8 OK 12.8 ÖE 12.0 UK 17.0 WE 17-5 OK 12.6 ÖE 12.0 UK 17.2 WE 17.6 OK 12.8 ÖE 12.4 UK 17.6 WE 18.0 OK 13.2 ÖE 13.1 UK 18.4 WE 18.6 OK 13.9 ÖE 14.0 UK
ÖE = östliche Elongation WE = Westliche Elongation
1 6 12 18 23 28
Jan.
Febr.
3 9 13 18 25 März 2 6 12 18 23 28 April 2 8 M 18 23 30 Mai 5 10 15 21 26 31 Juni 5 11 17 21 26 Juli 3 8 12 18 24 29 Aug. 3 8 14
347* (in Weltzeit)
HYPERION h h 2.1 ÖE 15.4 UK Aug. 20 16.0 WE 24 12.0 UK 23.5 OK 29 15.4 WE 14.4 ÖE Sept. 4 23.6 OK 2.4 UK 10 9.4 ÖE 4.1 WE 14 19.5 UK 12.4 OK 19 23.6 WE 1.8 ÖE 8.2 OK 26 13-3 UK 17.2 ÖE 1 Okt. 16.0 WE 6 3-3 UK 0.7 OK 8.4 WE 11 12.8 ÖE 17 17.2 OK 1.3 ÖE 23.8 UK 23 3.2 WE 27 1 1 . 4 U K 11.9OK Nov. 1 17.9 WE 23.0 ÖE 2.7 OK 8 9-5 UK 9.4 ÖE 13 13.3 WE 17 19.5 UK 3.5 WE 22.0 OK 23 8.1 ÖE 29 12.2 OK 18.3 UK 22.1 WE 6.6 OK 16.3 ÖE JAPETUS 2.3 UK h 5.8 WE Jan. 20 18.7 WE 14.0 OK Febr. 10 21.4 OK 23.6 ÖE 9.4 UK 9.8 ÖE März 2 21 14.3 UK 12.6 WE 1.6 WE April 11 20.6 OK 6.3 ÖE 1 13.9 OK Mai 16.0 UK 20 14.2 ÖE 18.8 WE Juni 8 7.8 UK 2.7 OK 9.1 WE 28 12.7 ÖE Juli 18 18.7 OK 22.4 UK 21.9 ÖE 1.1 WE Aug. 6 20.1 UK 25 9.0 OK 6.7 WE Sept. 15 19.2 ÖE 5-5 OK 6 Okt. 5.0 UK 25 20.2 ÖE > 7.9 WE 6.3 UK Nov. 14 15.9 OK
OK = Obere Konjunktion UK = Untere Konjunktion
Konstellationen 1958
348»
Weltzeit
Weltzeit 1958 Jan. 3
h 14
5 6
9 8
7 13 13 16 16 16 17 20 21
m
Erde i. kleinst. Abst. v. O
1958 April
Q stationär in A R .
5
9
stationär in A R .
6
15
6 ^
d d
8
23 2 10
13 17
V $
cf ( gr. westl.Elong. 23 0 53'
4 15 6 22 47 21 50
i i
cf c f
9 '3 15
(
l i d i
?(/(
19
P
untere cf
7
cf
i
19 24
—
23
O h
25 28
5 20
V $
• O untere cf
27 28
2 55 10
30 30
0 8
Ó c P O 9 im Perihel
i 33 2
ò d i $ im Aphel
2
^
stationär in A R .
7
7
9
cf
9 13 14 16 16 17 17 20
13 45 19 11 8 59 11 49 i 6 17 18 21
5
5
21- Cf
9 ; 9
3 4 6
9° 36' südl.
«
3 4 8 9 12 15 16
21 29 3°
4
7 19 31 21
9
10 22
12
14 58
14 15 I6
14 0 25 14 16
22
13
i
im Aphel
h cf ( cf cf i $ gr. westl. Elong. 26° 1 '
9 38
^
d
i
9
cf
C
30
y
d
i
P cf
O 17 35 16 8
ti d i d d i
23 2 31
ti
cP
9 p
cf « im Perihel
^
3 6 21 58
Cf
14 25 6 38
21
2
—
2
^
W d i Partielle Mondfinsternis
29
in g r ö ß t . Helligkeit
21
—
• O stationär in A R .
24
9
12
9 21 22 14
ò 9
cf i stationär in A R .
10
16 21
3
V cP O ò d i
9 9
ò d i 5 obere cf
17 44 11 20 11 0
2
9 cf i Ringf. Sonnenfinsternis
tf ( cf c cf ( stationär in A R .
10 47 20 4 2 50
- -
2 IO
O
13 14
d
i
17
I
V tf H i cf cf
(
17 l8
3 40
{
9
d
i
h $
• O im Perihel
O
tritt inY.Frühlingsanf.
i
J7, s t a t i o n ä r in A R .
Juli
cf
9 9
cf i im Aphel
i
ò d i
O
19
9 d i 9 obere cf O 2|_ stationär in A R .
20 21
17 ' 4 21 57
6 O
25 26
59 12 57 23 10
^
Cf
i
V h
d d
i i
Erde 1. größt. A b s t . v.
29
CT
9
17 16
? g r . östl. Elong. 18 0 52' 6
0
O
V h CT 2|_
Juni 3
2
cP
' 9 10
29
21
i i
d i stationär in A R .
$
5
gr. westl. Elong. 46° 23'
ti cf cf cf 9 §
2|- • Cf Cf
4
9
12
5 10
O
4- cf ( V cf C ^ stationär in A R .
15 16
23 52
9
April
12 53 O 26
17 18
5
März
h m 3 39 12 23
17 33 5 12
Mai Febr.
5
19
5
20
9
15
9
19
0
cf i tritt in O, Sommersanf.
Cf Cf ( cf im Perihel
O
Konstellationen 1958 Weltzeit
Weltzeit 1958 Juli II 14
'4 15 18 18 23 23 25 26 27 27 3'
1 3
8
m 9
6 21 23 20
cf
Ó;
9
o°44'nördl.
Okt.
? ( i i ^ s t a t i o n ä r in A R .
qno
2 55 20 55
ò d i
3 43 18 11 12 21
^ ^
3 23 7 1 22 9 45 2 3 11 2 14 47 2 16 •5
349*
0 22 7 47 15 5 18 23 13 20 56 2 9 3 48 21
cf { er —J
788
1885 1886 1887 1888 1889
1894
537
835
3
757
2408 081 446 811 2409 176
1893
470
0
729
1880 l88l 1882 1883 1884
1890 1891 1892
441 807 172
April 0
Januar 0
März 0
Jahr n. Chr.
Febr. 0
II. Anzahl der am o. eines jeden Monats, I2 h Weltzeit, seit Beginn der Periode verflossenen Tage
684 7 1 5 745 *049 *o8o * I I 0 414
445 475 779 810 840 * i 4 5 *i76 *206 510 875
541
571
906 936 *240 *27I *30i 606 6 37 667 971 *002 *032 336 701
367 397 732 762 *O67 ""098 * 128 432 463 493 797 828 858 *IÖ2 * i 9 3 *223 528
589 954 *2 5 8 *28g * 3 I 9 623 654 684 893
559 924
989 *020 *050 385 415 750 780 *o84 * H 5 * I 4 5 450 481 5 " 354
719
785 150 515
881 246
815 846 876 *i8o * 2 I I *24I 545 576 606 911 942 972 276 307 337
549 580 914 945 280 3 i t 645 676
611 976
641 672 702 *oo6 *037 *o67
406
437
453
819 184
484
850
:
342
707
* o i o * 0 4 i *072 375
741
772
803
502 867
898
*io6 *i37 *i68 471
836
533
372 737
403
433
467
498 864
528
798 *I02 * i 3 3 * I 6 3 833
768
894
*ig8 *229 *259 563 594 624 928 959 989
Julianische Periode
403*
877 9°5 242 270 607 635 972 *00I 338 366
1910 19H 1912 I9I3 1914
672 2419 037 402 768 2420 133
703 068 433 799 164
I9I5
1916 1917 1918 1919
498 863 2421 229 594 959
529 557 894 9 2 3 260 288 625 653 990 *oi8
1920 1921 1922 1923 1924
2422 324 690 2423 055 420 785
355 721 086 451 816
384 749 114 479 845
415 780 145 510 876
i9 2 5 1926 1927 1928 1929
2424 151 5x6 881 2425 246 612
182 547 912 277 643
210 575 940 306 671
1930 1931 1932 1933 1934
977 *oo8 *03Ö 2426 342 373 401 707 738 767 2427 073 104 132 438 469 497
1935 1936 1937 1938 1939
803 2428 168 534 899 2429 264
834 199 565 930 295
731 096 462 827 192
862 228 593 958 323
293 324 354 658 689 719 *023 *54 *O84 388 419 449 754 785 815
*027 «058 *O89 392 423 454 757 788 819 *I23 *i54 *I85 488 519 550
* i i 9 * i 5 o *i8o 484 515 545 849 880 910 *2I5 *24Ö •276 580 611 641
884 915 249 280 615 646 980 * 0 I I 345 370
945 976 *oo6 310 341 371 676 707 737 * 0 4 i *072 *I02 406 437 467
679 710 >41 *o 4 5 '"076 *i07 410 441 472 775 806 837 H 140 •"171 *202
771 802 832 * I 3 7 *i68 *I98 502 533 563 867 898 928 *232 •263 *293
171 536 901 266 632
201 566 931 296 662
936 966 301 331 666 696 +032 *0Ö2 397 427
997 362 727 093 458
762 127 493 858 223
792 157 523 888 253
823 188 554 919 284
588 618 649 954 984 ""015 319 349 380 684 714 745 *049 *079 * I I O
537 568 902 933 267 298 632 663 998 *029
598 629 659 9 6 3 994 *024 328 359 389 693 724 754 *059 *090 *I20
241 271 302 606 636 667 971 *00I *032 337 367 398 702 732 7 6 3
332 363 394 697 728 759 *0Ö2 '"093 *I24 428 459 490 793 824 855
424 455 485 789 820 850 * i 5 4 *I85 *2I5 520 551 581 885 916 946
•067 *097 *i28 432 462 493 798 828 859 163 193 224 528 558 589
*i58 *i8g *220 523 554 585 889 920 951 254 285 316 619 650 681
*250 *28I * 3 i i 615 646 676 981 * 0 I 2 *042 346 377 407 711 742 772
893 923 954 259 289 320 624 654 685 989 *oi9 *050 354 384 415
984 ••015 ""046 350 38X 412 715 746 777 *o8o * I I I * I 4 2 445 476 507
•076 * i 0 7 * I 37 442 473 503 807 838 868 *I72 *203 *233 537 568 598 AA
445 810 175 540 906
476 841 206
853 218 584 949 314
571 937
506 871 236 601 967
Dez. 0
846 2417 211 576 941 2418 307
263 628 993 358 724
140 505 870 235 601
IIO 475 840 205 571
Nov 0
1905 1906 1907 1908 1909
232 597 962 327 693
1—1
Okt. 0
079 444 809 174 540
Sept. 0
051 416 781 146 511
Aug. 0
2415 020 385 750 2416 " 5 480
0
Juni 0
März 0
19OO 1901 1902 1903 1904
0
Januar 0
Mai
Jahr n. Chr.
Febr 0
April 0
II. Anzahl der am o. eines jeden Monats, i 2 h Weltzeit, seit Beginn der Periode verflossenen Tage
404*
Julianische Periode
1943
725
1944
2431 090
1945
456
756
121
784
750
781
450
480
815
845
150
181
515
546
211
5"
876 242
1946 1947 1948 1949
821 2432 186
487 852 217
551
582
1950
2433 282
I95I
647
1952
2434 012
1953
378
409
1954
743
774
1955
2435 108
139
167
198
228
1956
473
504
533
564
594
929
959
659
689
720
*025 *055
"086
917
948 313
880
306
337
367
672
703
733
*oo7
*o37
341
372
402
737
767
798
245
706
043
072 437
802
839
870
2436 204
1959
569
600
898 263 628
934
965
994
i960 1961 1962 1963 1964
2437 300 665 2438 030
1965
X966 1967 1968 1969 1970 1971 1972
2439
529
559
833
863
894
294
820
851
185
216
550
581
916 281
947
253
587
618
646
952
983 * 011
1975
413
377
742 107
312
6 77 *042 51
408 773 138
444
472
503
869
175
838 203 |
540
568
599
2443 8 7 4 9°5
933
778 2443 144
809
509
234
964
603 968
303
334
668
699
572
924
289 655
398
429
764
795
*i29
494
* 160
525
955
890 256 621 986
320 686
717
859
225
59°
351
""020 *05I *O82
385 750
416 781
447
812
*II6 *i47 * 178
150 5x6
547
577
877 242 608
942
973 * 004
307
338
672
369
703
734
785
157
355
937
816 181
390 755
792
259
625 990
451
881 912 246 2 77 611 642 977 *oo8 342
373
707 738 072 *103 438 469 803 834 168 199 533
899 264 629
994
564 930 295
660 * 025
512
434
530
561
895
926 291
594
625 656 991 * 022
325
690
*055
356
387
721 752 *o86 * 117
0 Dez.
0
Nov. 0
425
760
790
*094 *I25 *I55 459
825
*igo 555
490 856
520 886
*22I *25I
586
920 286
951
651
682
317
616 981 347
712
*oi6 *047 *077 381
412
442
808 778 747 *II2 *i43 *I73 477
842
508
538
873
903
*208 *239 *2Ö9
334
465
694
395
303
864 229 960
664
273
639
964
*029 *059
604 969
95
260
729
934
*299 *329
938
543
768 799 830 *I33 *IÖ4 * x 499
903
*2Ö8 633 998 364
908
*038 ^069 * 100 403
Okt.
873
481 846 211
359
761
348
324
724
I2&
1974 1976 1977 1978 1979
498
455
714 079
463
164
395
522 887
433
*og8
133
120 486
491 856 2440 222
*o68
842
*207 *238
*002 *033 * 064
103 468
420
089
972
828 194
696 061 426
2441 317 683 2442 048
1973
331
637
6ll 976
678
235
607
541
906 272
911 276 642
1958
1957
576 941
8ll *IJ6
0
Juni 0
0 Mai
720
*O85 *II5 *I46
*3 1 — 1
Sept. 0
2429 629
0
Aug.
660 689 *02Ö ""054 995 2430 360 391 419
1940 1941 1942
April 0
n. Chr.
Januar 0
März 0
Jahr
Febr. 0
II. Anzahl der am o. eines jeden Monats, I2h Weltzeit, seit Beginn der Periode verflossenen Tage
573
669
700
634 999 364 730
*034 *O65 ^95
795
460 825
*i30 *i6i
*igi
495
526
556
860
891
399
764
430
591
921 *286 622 652
956
987
321
352
*225 •256
*oi7
382
686 717 747 *052 "083 * i i 3 417 448 478 782 813 843 !208 *I47 •178
Hillsgrößen zur
405*
Berechnung der g e o z e n t r i s c h e n p sin cp' = S sin q>; log c
logs ± 0 I 2 3 4
9.9970705 .9970709 •9970723 •9970745 31 .9970776
5 6 7 8 9
9.9970816 .9970865 .9970922 .9970988 .9971062 74
10 11 12 13 14
9.9971145 .9971237 •9971336 .9971444 .9971560
15 16 17 18 !9
9.9971683 .9971814 •9971953 .9972099 •9972253
20 21 22 23 24
9.9972413 •9972581 •9972755 •9972935 .9973122
25 26 27 28 29
9-9973314 •9973512 .9973716 •9973925 •9974139
30 31 32 33 34
9.9974358 •9974581 .9974808 .9975040 •9975275
35 36 37 38 39
9-9975513 •9975754 •9975999 .9976245 .9976494
40
9.9976745
p cos • • • • Leipzig8 119 L e m b a n g (BoBscha st.) . . 1 3 0 0 L e m b e r g (Univ.-Stemwarte)
+ 35
2
-20.04
2343
....
1 42.0 9-999839 4 9.999836
2
- 3 15 15-74
5-51 -32.28
- 4 27 3 i - 7 -5 9 52.0
K y o t o (Astron. Inst.)
+ 47 4 32.8 9-999254 9.999999 + i 26 54 + 4 0 4 9 16 9-999377 + 50 44 14.3 9 - 9 9 9 I 3 I
+ 4 8 49 57-5 9.999177 + 5 5 36 36.6 9.999007 + 55 39 33-2 9 . 9 9 9 0 0 7
16 2 9 . 0 3
—2
384 1940
5.8 9-999793 + 17 19 17.7 9 . 9 9 9 9 0 7
-3
+ 50 27 11.8
221
-+ 2 2 1 0
+ 5 5 47 24-3 + 55 50 20.5
1.7 + 39 8 + 10 13 50
(Mer.-Kr.)
+ 59 59 40.8 9.998903 + 29 41 31-4 9.999648 9.999231 + 4 7 4 8 23
- 7 36 41-25 - 5 13 4 8 . 9 8 - 0 45 3I-42
K a s a n (Univers.)
Kunming
15.I 9.999340
+ 17 25 54-3 + 47 16 6.5 + 1 27 29
102
Kremsmünster
/ //
+ 4 44 31-05
33
—
K r a k a u (Mer.-Kr.)
0
Log. p incl. Seehöhe
554 605
Kalocsa2
Kodaikanal
Geoz. B r e i t e
-75.02
Kairo
K i e l (Alter Mer.-Kr.)
+ 47 59 55
Korr. der
+ 22 18 13.2
Hongkong Hyderabad-Deccan1
0 40.1
L ä n g e von Greenwich -f- westlich — östlich
—
-2 -2 + 8
17 5 6 . 1 5
1 13-35 1 11.3 634.86
2.94 8.14
-70.71
-19.91 +79-94 + 6.04
-
6 46 45-5 0 . 0 0 0 0 6 8
+ 59 4 6 27.8 9.998906 + 37 9 I 4 - 9 9 - 9 9 9 5 5 2 + 38 31 12.0 9-999437
+ 3 8 30 59-2 9-999431 + 5 3 12 58.2 9 . 9 9 9 0 6 3
82 + 5 1 36 46.3 + 0 0 5 7 . 7 7 + 0.16 + 5 1 25 28.6 9.999109 1 Nizamiah Observatory. — 2 Erzbischöfl. Haynaldsche Sternwarte. — 3 Seit 1861 Nov. 11. Alte Sternwarte 20"3 südlich, 0*03 westlich. — ' Seit 1860. Alte Sternwarte 8?0 nördlich, 0?42 östlich. — 5 Seit 1861. Alte Sternwarte 1472 nördlich, 4?00 westlich. — 6 Alte Sternwarte 4470 nördlich, 17?1 östlich.
Koordinaten der Sternwarten See-
Name
höhe
r A 1 (Morse Mem. Obs. L o s A n g e l e s of Occid. College)
Louren9o Marques Lübeck (Navig.-Sch.) Lund (Zentr. d. Sternw.) Lüttich Ougrée Lyon
/t c m 205 +34 7 42 6o - 2 5 5 8 5 - 5
...
19
+ 53 51 3 1 - 1
..
34
•^55 4 1 5 1 - 6 + 50 37 6 + 4 5 4 1 40.8
M a d i s o n (Washburn Obs.).
Madras Madrid (Zentr. d. Mailand, Brera Manila Marburg
Geogr. B r e i t e
Sternw.) .
128 299
L ä n g e von Greenwich + westlich — östlich h
m
— 7.02 - 8.66 -
3.65
—0 1 9
-
3-14
+ 43
4
+ 58.75
7
+ 13
4
-52.73
36.8 + 5 5 7 3 7 - 9 0 8.0 - 5 20 5 9 - 6 5 656 + 40 24 30.1 + 0 1 4 4 5 - 0 9 120 + 4 5 27 5 9 - 2 —0 3 6 4 5 - 8 9 — 8 3 + 14 3 5 25 3 50 248 1-50 4 8 46.9 —0 3 5 4 - 9
296 + 42
li
380 + 4 5 41 5 4 - i 162 +48 4 8 18
Merate
Meudon
Brera)
—21.42
—0 4 2 4 5 - 6 —0 5 2 4 4 - 9 7 —0 22 12 8-5
39 47-7
70 + 41 3 3 18 61 + 3 9 8 3 - 4 63 + 4 4 3 8 52.8 5 7 + 4 5 3 0 20
+ 5 33
5-63 34-56
+ 2.43 — 6.04 -79.48 -
5-76
+ 80.35 -
3-54
+ 4 5 3 0 18.6 +48 3 6 4 8
25-3
Mt. L o c k e (Me. Donald Obs.) 2081 + 30 40 17.0
+ 6 56
5-36
München ( West-Kuppen..
529
Münster
75
Nashville (Vanderbilt Obs.) Neapel (Capo di Monte). . . Neuchätel (Refraktor) . . . New Haven (Neue stw.)2 New York (Coiumb. Obs.). Nikolajew (Mer.-Kr.)
174 154 488 40
N i z z a (Kl. Mer.-Kr.) Northfield (Goodsell Obs.)
378
Oakland, Californ. 3 Oak Ridge Harrard Obs.) • Odessaf Univ.-stw.Mer.-Kr.) O d e s s a (Filiale v Fulkowa)
Ondrejow Akad^d. Wiss.) Oslo (Mer.-Kr.) Ottawa (Mer.-Kr.)
+ 33 + 34
21 22.4 12 5 9 - 5
+ 55 4 5 19-5
+48 8 4 5 - 5 + 51 5 7 4 5 - 8 + 36 8 58.2 +40 5 1 4 5 - 7 + 46 5 9 4 9 - 5 + 4 1 1 9 22.3 +40 4 8 3 4 - 6 +46 5 8 1 9 - 3
42.8
+ 7 4 7 27.36 + 7 52 14-33 —2 3 0 1 7 - 0 3 —0 46 26.02 —0 3 0
29.66 12.81 1.40
+ 5 47 —0 5 7 —0 27 4 9 - 7 7
+ 47-74
+77.69
3 5I.I
+ 79.94
+ 37
9
14.9
+ 68.35 + 76.79
+ 30
30
7-5
+ 77-57
+ 34
-
+ 55 34 3i-5 + 4 7 5 7 13-8
—24.69 -
7-63
5-oi
+ 57-04 -
9-37
25 85
—0
+ 4 9 5 4 38.1 + 5 9 5 4 43-7
—0
23
+ 5
+ 45
39-1
5 9 8 08 42 5 3 - 5 1 2 51.98
+ 35 57 +40 4 0
56.1 17.6
42.0
-
+ 49 43
16.9 —0 29 12.15 +6 12 3 5 - 8 4 27 41.4 + 44 + 8 8 48 99 +37 47 183 + 42 3 0 1 3 + 4 46 14.2 5 5 + 46 28 36.2 —2 3 2.05 +46 28 36.0 —2 3 2.19 —
527
30.0
+ 43 31
—21.01
+43 43
46
+ 51
- 4.79 +61.21 +80.30 +47.02 —20.21 —20.21
+48.60
290
10 4 4 - 3 2 13-3
6-7 45-1
+ 4 55 50 —2 7 53-98
55
+ 33
+ 46 4 8 +41 7 +40 3 7 +46 46
4-57 +47-92
25
+ 41 21 47.6 + 3 8 5 6 42.7 + 4 4 27 17.2 + 4 5 18 4 4 - 4 +34
51 40.58
+ 4
+ 43
— 6.20 — 1.46
- 0 37 42.85 8 55-5
34-86
1706 1742 142
40.8 6 44.8
+ 37 5 4
14-5
+8 6
Mt. Palomar, Calif. . . . Mt. Wilson, Calif Moskau (Mer.-Kr.)
3-7
16 23.6 + 14 29 4 7 + 5 0 3 7 25.0
+ 45
+42 28
+ 48.35
+ 37
2.9 2.5
+ 54-71
+ 4 5 4 18.63 +7 52 54
20
53 59 13
3-3
-9 —0 4 3
1283
+42 + 12 + 40
7-5
-92.74 - 7.18
Mt. Hamilton ^Mer.^Kr.'! .
27.8
30
31-46
+ 3 4 14 37-5
+ 53 40
+ 55 31 3.1 + 50 25 4 3 + 4 5 30 5-3
+ 30
38.2
879
//
+ 68.35
—0
24
>
+ 33 56 57 - 2 5 48 58.9
5.36
+ 4 50
Middletown, Conn Mizusawa Modena Montreal Montrose (LaCrescentaObs.)
Geoz. B r e i t e
s +77 67
292
McMath-Hulbert Obs...
(Lake Angelus) „ . (Filiale von Mailand,
Sternzeit
s
+7 52 50 —2 1 0 22.63
18 + 3 8 5 5 5 - 8 + 8 9 Mare Island Calif Marseille (N(MCT^kt!7 ' 1 •• 7 5 + 4 3 18 19.1 - 0 21 McDonald Observatory. 2081 + 30 40 17.0 +6 5 6 (Mt. Locke Fort Davis)
K o r r der
415»
9.71 7.04
+49-75
i Seit 1866. Alte Sternwarte 30'.'1 südlich, 6?2 westlich; Seehöhe 29 m. Sternwarte 45"8 südlich, l f 5 8 westlich. — 3 Chabot Observatory.
15-4 52-7
16
+44 5-9 + 37 35 47
+42 18 4 0 + 46 i-3 + 46 17 1.1 12.3
+ 59 4 4 39-2 + 4 5 12 3 - 5 2 Yale University.
Alte
Koordinaten der Sternwarten
416*
Name
Seehöhe
Geogr. B r e i t e
Länge von Greenwich
+ westlich — östlich h m
Oxford (Univers.) Oxford, Mississippi . . . Padua Palermo P a r i s (Obs.nat.) Mer.Cassini
Paris (MontsourisJwestl.Mer.
Peking
270 Philadelphia1 74 Pic du Midi Toulouse) • • 2850 Pola 32 Porto Alegre2 (Mer.-Kr.i . Perkins Obs. (Delaware) .
Posen (Poznan) Potsdam (Astrophys. Obs.) P o t s d a m (Geod.Inst.) Turm P o t s d a m (Geod. Inst.) . . . (östl. Meridiani.)
s
64 + 51 45 34-2 + 0 5 0.4 140 + 34 22 12.6 + 5 58 7.18 38 -45 4 1-3 - 0 47 29.15 72 -38 6 44.0 - 0 53 25.87 59 + 48 50 I i . 2 - 0 9 20.93 + 48 49 18.0 —0 9 20.6
85 107 109 91
+ 39 54 23-0 + 40 15 4 + 39 58 2.1 +42 56 31.5 + 44 51 48.6 -30 151 + 52 2348.6 -1-52 22 56.0 + 52 22 54.8 + 52 22 54
- 7 45 52.87 + 5 32 13-33 + 5 1 6.88 - 0 034.29 - 0 55 23.07 + 3 24 53-2 —i 7 30.60 - 0 52 15.86 - 0 52 16.Ii - 0 52 16.058
61 + 41 41 18 + 4 55 35-2 267 f 50 4 3Ò.0 - 0 57 34.88
Korr. der Sternzeit
Geoz. B r e i t e
+ 0.82 + 58.83 - 7.80 - 8.78 - 1-53 - 1-53
+ 51 34 17-3 + 34 I i 25.1 + 45 12 26.3 + 37 55 28.9 + 48 3841-5 + 48 37 48.2
-76-53 + 54-58 + 49-47 - 0.09 - 9.10 + 33-66 —11.09 - 8.59 - 8.59
+ 39 42 58.7 + 40 3 38 + 39 46 37-5 + 4 2 44 57-8 -1-44 40 12.9 - 2 9 51 49 + 52 12 35.4 + 52 I i 42.7 + 52 I i 41.5 + 52 I i 41
- 8.586 + 48.56 - 9-46
+ 41 2947 + 49 53 10.8
33 59 65 152 119
- 0 57 40.92 + 4 58 39-44 + 4 45 35-95 —2 i 18.57 +44452.71 + 5 13 58.20 + 56 57 7 —i 36 28.11 - 2 2 53 42.1 + 2 52 53.6 +41 53 53-6 - o 49 55-36 + 41 53 33.2 - 0 49 56.34 + 41 55 19.2 - 0 49 48.55 + 52 22 30 + 0 5 2.0
- 9-48 + 49.06 +46.92 -19-93 +46.80 + 51.58 -15.84 + 28.40 - 8.19 - 8.20 - 8.19 + 0.83
+49 53 15-0 + 40 929.7 + 41 3844-4 + 59 36 12.3 + 46 36 24.8 - 0 13 54 + 56 4630 - 2 2 4 5 24.7 +41 42 22.3 + 41 42 1.9 +41 43 47.8 + 52 I i 16.7
55 30 580 220
+ 3838 3-6 + 59 16 18 + 36 27 42.0 - 3 3 33 44-2 +42 52 31.8
+ 6 049.15 - i 13 14 + 0 24 49.30 + 4 42 46.0 -l-o 34 14.26
+ 59-28 -12.03 + 4.08 + 46.44 + 5-62
36 + 38 15 14-9 Sendai (Durchg.-Instr.) . . 1120 -1-36 I i 10 Sétif 360 +44 24 11.6 Simeis Skalnaté Pleso 1783 +49 I i 20.0 1 S o f i a (Mil. Geogr. Inst.) . . 555 +42 4 51 Sofia(Universittttssternwarte) 572 + 42 41 1.7 Sonneberg (Erbisbühi).... 640 + 50 22 41.4 76 +42 15 18.2 South Hadley Sproul Observatory . . . 63 +39 54 16.2 S t a l i n a b a d (Tadjik Observ.) +38 33 30 144 +48 35 0.4 S t r a ß b u r g ( N . s t . M.-Kr.)®
- 9 23 29.49 —0 21 38.6 - 2 15 59.38 —I 20 58.77 - I 33 19.87 - I 33 23-3 —0 44 46.19
-92.57 - 3-55
Poughkeepsie3
P r a g (Univ. Sternw.)
238 75 69 P r o v i d e n c e (Ladd. Observ.) P u l k o w a (Zentr. d. S t w . ) . . 75 90 Quebec, Canada 2846 Quito P r a g l Sternw. d.Tech. Hochsch. )
Princeton N . J . (N.stw.) 4
R i g a (Polytechnikum) Turm
Rio de Janeiro (N. stw.) Rom Rom ., .tVOm
(Coli. R o m . Mer .-Kr.) (Capitol Mer.-Kr.) . . (Monte Mario Durchg.-Instr )
Rugby St. Louis, Missouri . . . . o Ii. ---u j
(Stockholms
baltsjobaden observator.) • San Fernando Santiago de Chile (N.St.) Santiago de Compostela (Univ -Sternw.)
¡-50 440.2 20 55.8 + 41 50 15.6 + 59 46 18.5 + 46 47 59-2 — 0 14 0 4-40
+4 50 19 + 5 125.62 - 4 35 6.2 - 0 31 4-53
- 2 2 . 3 4
-13-30 -15-33 -15-34 - 7-36 +47.69 +49-52 -45-19 - 5-10
+ 38 26 45.5
+ 59 6 6
+ 36 16 37-7 - 3 3 23 4-1 +42 40 58.2 + 38 3 59-0 + 36 0 7.7 + 44 12 36.1 + 48 59 51.4 + 42 30 18 + 42 29 28.5 + 50 i l 17-5 + 42 3 45-9 +39 42 51-9 + 38 22 12 +48 23 29.9
' Flowcr Obs. (Univ. ol Pennsylvania). — 2 Observatorio Regional do Rio Grande do Sul. — 3 Vassar College. — ' Alte Sternwarte 2'.'0 nördlich 18.94 östlich ; 6 5 m . — 5 Seit Anfang 1881.
Koordinaten der Sternwarten Seehöhe
Name
m
Länge v o n Greenwich + westlich — östlich
Geogr. Breite
0
/
Ii m
ff
417*
Korr. der Sternzeit
s
Geoz. B r e i t e
0
s
/
Log. p incl. Seehöhe
//
0 36 47.39 6.04 + 48 35 30.8 9.999198 Stuttgart (Schwäb.Sternw.) 3 4 4 + 4 8 4 7 0.7 .i (Sproul Obs.) o öw&rtnmore Refraktor • 6 3 + 39 54 16.2 + 5 i 25.62 + 4 9 - 5 2 + 3 9 4 2 5 1 - 9 9 . 9 9 9 4 0 5 10 449.54 Sydney 9 9 - 3 6 - 3 3 4 0 58.2 9 - 9 9 9 5 5 1 44 - 3 3 51 4 1 - ! 42 - 3 3 4 9 4 5 - 7 10 4 37-99 Sydney (Riverview Coli.Obs.) 99-33 - 3 3 39 3-i 9-999552 2311 + 19 24 17.9 + 6 36 46.71 +- 65.18 + 19 1 7 3 - 0 9.999997 Tacubaya1 Tanakami 89.36 + 3 4 4 7 2 5 1 6 5 + 3 4 5 8 18 9-999533 9 3 57-4 —
m - r f , , (Dorpat, Jurjew) iartU (Mer.-Kr.) Taschkent (Mer.-Kr.) Teramo (Ceruiii) Tokio (Mer.-Kr.)
Tonanzintla Toronto (Univ.
67 + 58 22 47.2 +41 19 31.6
475 398
+ 42 39 27
57
+ 35 4 0 19
2150 Obs.)
...
Tortosa (Ebro-Stw. M.-Kr.) Toulouse (Mer.-Kr.) Triest (Oss. Astr.) Tsingtau m a • (Steward lucson, Arizona obB.) • Turin (Mer.-Kr.)
110 54 195
68
—
757
276
Turin (Pino Torinese).. Turku (Spiegelteleskop). . . Upsala (N.Stw. Pass.-Instr.) Urbana, III Utrecht Valkenburg (ignatiusCoii.)
618 28 21 236 12 100
Venedig Victoria B.C.(Domin.Obs.) Warschau2 Zentr d. Stw. . Warschau (Techn. Hochsch.) Washington (Neue Stw.) . Washington (Kath. Univ.)
229 121 144 82
Wellington (Transitlnstr.) 3 Wendelstein (Observat. d
Sternwarte München) West Point N.Y. ( N . s t . ) 4 Wien (Neue Sternw. Zentr.) Wien (Mil. Geogr. Inst.) . . Wien (Techn. Hocbschule) .
Williams-Bay, Wise.6 . . Williamstown, Mass Wilna (Pass.-Instr.) Wroclaw Würzburg s t ^ w "zentr.) Yale Observatory Yerkes Observatory .. Z6-s£, China Zürich (Meridian-Kreis) . .
—
—
i 46 53-19
4 37 10.88
—
—
0 5 4 55-8
—
9 18
—
9.90
+ +-
0
158
—
+ 43 3644-0 + 4 5 38 35-5 + 36 4 " - 3
0
551-01
—
—
0 55
4-92
—
—
8
1 16.21
+ 3 2 13 5 9 - 4 + 7 23 4 7 - 6 8 + 45 4 7-9 — 0 3 ° 4 7 - r 5
+ 45 2 16.3 + 60 27 8.7 + 5 9 5 1 29.4
— —
6.52 i 28 55.03 1 10 30.13
031
+ 40 6 20.2 + 5 5 2 5 3 - 9 0 +52 5 9 - 5 — 0 20 31.6 +50 52 29.3 — 0 23 19.91 0 49 22.12
—
+ —
— —
+— —
I7-56
+ 5 8 12 25.1 9.998946
+ 41 8 9.02 +42 2 7 91.69 + 3 5 29 64.60 + 18 5 4 5 2 . 1 7 + 4 3 28 45-53
-
+ 8 13 40.17 + 81.18 +48
13 4.6 13 21.0 55 14.0 5 6 14-8
— —
+ +
3.8 —
1 24 1 24
7.25 2.4 5 815.78 5 8 0.0 11 39 0 48
4.27 4
23 22.1 + 4 5 5 5 0 . 6 1 3 5 5 - 4 — i 5 21.35 12 40.5 - 1 5 26.24 1 1 58.3 — i 5 29.76
+42 34 12.6 +42 42 49
+-
+ —
4 1
—
1
207 + 4 9 4 7 ! 9 - o 40 +41 19 22.3
-
+
0
+42 34 12.6
+
100 + 3 1 5 4 7 - 6 468 +47 2 2 38.3
— —
4
+ +-
8.11
— — —
9-999509 5 0 . 1 9.999992 11.2 9 - 9 9 9 3 1 3
13.82 13.81 50.64 50.60
+ 4 5 14-34-9
9.999382 9.999329 9.999259 9.999496 9.999638 9.999288
9.999261
1 9 4 5 - 0 9.999197 1 +52 5 0 . 3 9.999097 + 5 2 2 6.8 9.999098 + 38 43 54-4 9-999431 + 3 8 44 55-i 9-999425
c 14.84 - 4 1 —
9-999358
5 34-3 9-999375
7.90 + 4 7 3040
9.999328
48.60 + 4 1 1 1 5 2 . 3 10.73 +48 2 23.9 10.75 +48 1 8.9 10.76 +48 0 26.7
9-999375
9.999205 9.999203 9.999204
+
5 8 . 1 9 +-42 22 39.6 9 - 9 9 9 3 5 6 48.12 +42 31 16 + 52 53-5 9-999344 41 8.76 — 16.61 + 5 4 3 0 2 . 1 9.999036 8 21.22 — 11.23 + 5 0 5 5 21.7 9.999130 39 44-71 6 - 5 3 + 4 9 3 5 5 2 . 7 9.999163 5 1 4 0 . 5 8 + 47.92 ^ 4 1 7 5 2 . 7 9.999368
5 54 13.24
213 122 + 5 4 4 0 5 9 - 1 117 +51 642.1
-
54
21
5 - I I + 4 4 50 40.6 9.999312 14.61 +60 17 10.7 9.998896 11.58 + 5 9 41 24.2 9.998909 5 7 - 9 7 + 3 9 5 4 5 5 - 1 9.999412 3 - 3 7 + 5 1 5 3 5 4 - 4 9.999093 3 - 8 3 + 5 0 41 7.8 9.999129
26 10.5
-
2.0 9 - 9 9 9 3 9 7
0.32 +40 3 7 4 6 0.96 + 4 3 25 9 - 3 9 - 0 5 + 4 5 27 0.0 79.06 + 3 5 5 3 9 - 8 72.90 + 32 3 3 2 . 6 5.06 + 4 4 52 32.2
3 1 15-7
+ 4 7 4 2 13
+41 +48 211 +48 198 +-48
334
—
—
—
- 4 1 17
334
—
-
12 7 170 240
—
—
+ 4 0 4 9 14
—
1838
—
—
+ 19 1 5 7 - 9 • 6 33 1 5 3 2 + 4 3 3 9 4 6 . 0 + 5 17 3 4 - 7 °
+ 45 + 48 + 52 + 52 + 38 + 38
15
-
5 54 13-24 8 4 44-75 0 3 4 12.3
+ 58.19 + 42 22 39.6 — —
9-999356
+30 5 5 3 3 - 2 9.999619 5.62 + 4 7 1 1 4.8 9.999242
79-63
< Seit M§rz 1883, früher In Chapultepec. — * Universitäts-Sternwarte. — > Dominion Observatory. — Seit 1883. Alte Sternwarte 9V nördlich, 1?2 östlicli. — 5 Yerkes Observatory. BS
418*
Normalzeiten der wichtigeren Länder
Normalzeit = Mittl. Ortszeit des Meridians
Bezeichnung
östl Gr. h m 12 o
—
0
Ostaustralische Zeit
9 30 9 o
Südaustralische Zeit
10
8
Mittlere Japan-Zeit
0
Chinesische Küsten-Zeit
7 30 7 0 6 30
—
Südchinesische Küsten-Zeit —
5 30 4 30 4 0 3 30 3 0
— — — —
2
0
Osteuropäische Zeit
I
0
Mitteleuropäische Zeit (M. E . Z.)
o
h
o
m
westl. Gr. h m i 0 2 0 3
0
Westeuropäische Zeit (Greenwich-Zeit)
— — —
3 30 4 0
Intercolonial S t . Time
4 30 5 0
Eastern S t . Time
6
0
Central St. Time
7
0
Mountain St. Time
8
0
Pacific S t . Time
9 IO
0
—
0
—
Ii
0
—
—
—
Staaten
Neuseeland, K a m t s c h a t k a Viktoria, Neusüdwales, Queensland, Tasmanien, Britisch-Neuguinea, Sacchalin nördlich von + 5 0 ° B r . Südaustralien, Niederländ. Neuguinea J a p a n , Mandschukuo, Korea, Sacchalin südlich von + 5 0 ° Br. Ostküste von China, Indochina, Philippinen, T a i w a n , Celebes, Westaustralien, Britisch Nord-Borneo, Timor Malaiische Staaten, Singapur, Indones. Borneo, Bali, J a v a , Lombok Südküste von China, Thailand, Süd-Sumatra Birma, Nord-Sumatra Indien, Ceylon Afghanistan, Sowjetunion*) von 40° bis 5 2 0 30' östlicher Länge Iran Sowjetunion*) westlich von 40 0 östlicher Länge, I r a k , Abessinien, Britisch Somaliland, Kenya, Tanganjika, Uganda, Madagaskar Finnland, Bulgarien, Rumänien, Griechenland, Türkei, Cypern, Palästina, Ägypten, Cyrenaica, Belgisch Kongo, östlicher Teil, Südafrika Norwegen, Schweden, Dänemark, Niederlande, Belgien, Frankreich, Deutschland, Österreich, Polen, Ungarn, Schweiz, Italien, Tschechoslowakei, Jugoslawien, Tripolis, Belgisch Kongo, westlicher Teil
Großbritannien und Irland, Luxemburg, Spanien, Gibraltar, Marokko, Algerien
Portugal,
Island, Madeira, Kanarische Inseln Azoren, Kapverdische Inseln, Grönland -Scoresbysund Ostbrasilien, Grönland-Westküste und Angmagsalik, Argentinien, Uruguay Niederl. Guayana, Labrador Mittelbrasilien, Kanada (Küste Quebec östl. v. 68° westl. L.) Paraguay, Bolivien, Chile Venezuela Kanada (Quebec westl. v. 68° westl. L., Ontarioöstl. v. 9 0 ° westl. L.), Vereinigte S t a a t e n (Ostzone), Panama, Peru, Ekuador, Westbrasilien, Kolumbien Zentralzone von Kanada und von den Vereinigten Staaten, Mexiko, mit Ausnahme des nördl. Teiles Gebirgszone von Kanada und von den Vereinigten Staaten, nördliches Mexiko Vereinigte Staaten (pazifische Küste), Britisch-Kolumbien, Alaska südlich von Cross-Sund Alaska nördl. v. Cross-Sund bis Prinz-Williams-Sund Alaska westlich Prinz-Williams-Sund bis 1 6 2 ° westlicher Länge, Hawai (Sandwichinseln) Alaska westlich von 1 6 2 ° westl. Länge, Aleuten, Samoa
*) Im Gebiet der Sowjetrepubliken sind alle Uhren 1 Stunde vorgestellt.
Interpolation A r g .
F u n k t i o n
D I .
o°
f° .11
/ (o
0
+
») = 0
/
+
n • J i
+
» (» — I )
=
t
l
.
.
„IV m
' +
c
d
0.00
n
z
e
n
I I I .
I V .
JIV O
Alll _
^
+ 2
•¿I111
6
_
4
+
— 0 . 0 0 0 0 —
(»+•)«(*-!)(»-*) . J i v
2 j
+0.0000—
+ 0.000 +
n
6
1 . 0 0
0.25
-0.0938-
26
0962
00 77
018
7 4
0986
OO76
018
7 3
1008
OO74
018
1030
72
OO72
019
7 i
n
0050
0008
001
0.99
02
0098
0016
002
98
03
0146
2 7
0023
002
0192
0029
9 7
28
003
96
29
+ 0.0036—
V
(« + l ) w (« — i ) ( n — 2 )
01
— 0 . 0 2 3 8 —
e
24
b
0.05
r
6
n
04
e
Ao
»(« —I)(»—
6
f
n
2
2
2
e
f
I I .
AI
_
m
i
419*
+0.004 +
0 - 9 5
0.30
— 0 . 1 0 5 0 —
d
c
4 O.OO78—
+ O.OO7O—
j
0.017
n h
+ 0 . 0 1 9 +
o . 7 5
0.70
06
0282
0041
005
9 4
3 1
1070
0068
020
69
07
0326
0047
006
9 3
3 2
1088
0 0 6 5
020
68
08
0368
0052
006
92
0 0 6 3
020
67
09
0410
0056
3 3
1106
007
9
3 4
1122
OOÖO
021
6 6
O.IO
-0.0450-
+0.0060—
+ 0.008 +
1 1
0490
0064
009
12
0528
0067
009
1 3
0566
0070
010
0602
0072
011
T
4
0.15
—0.0638—
+0.0074—
+0.011 +
1
0.90
0 - 3 5
021
64
88
3 7
1166
OO5I
022
6 3
8 7
3 8
1178
OO47
022
62
86
3 9
1190
OO44
022
61
0.85
0.40
012
84
1 7
0706
0078
013
8 3
18
0738
0079
013
82
0770
0080
014
81
4 4
0.80
0 - 4 5
—0.0800—
+0.0080—
+0.014+
21
0830
0080
22
0858
015
0080
2 3
0886
24
0912
0.25
-0.0938-
0.65
OO54
0076
0.20
0.0211-
1152
0672
9
+ O.OO57—
3 6
16
J
- 0 . 1 1 3 8 -
8 9
4 1
42 4 3
— 0 . 1 2 0 0 —
+ O.OO4O—
+ 0.022 +
0.60
1210
OO36
023
5 9
1218
OO32
023
5 8
1226
0029
023
5 7
1232
0025
023
5 6
— 0 . 1 2 3 8 —
+ 0.0021—
+ 0.023
o - 5 5
7 9
46
1242
OOI7
0 2 3
5 4
016
7 8
4 7
1246
0012
0 2 3
5 3
0080
016
7 7
4 8
1248
0008
0 2 3
5 2
0079
017
76
4 9
1250
OOO4
023
5 i
+ 0 . 0 0 7 8 —
+0.017 +
0 - 7 5
0.50
— 0 . 1 2 5 0 —
+
0 . 0 0 0 0 —
+ O.O23 + BB»
0.50
420*
Interpolation mit
Berücksichtigung zweiter Differenzen / (a0 -+- n) = f0 + n {Al + Tafelwert)
Die Tafelwerte sind negativ für positive zweite Differenz, sie sind positiv für negative zweite Differenz
n o.oo Ol 02
03 04 0.05 06 07
08 09 O.IO
11 12
13 14 O.I5 16 17 18
19
24
O.25
26 27 28 29 O.3O
o.35 36 37 38 39
12
15
18
21
1-5 3-o 4-5 6 . 0 7-5 9 . 0 1 0 . 5 i-5 3-o 4-5 5-9 7-4 8 . 9 1 0 . 4 1-5 2 . 9 4-4 5-9 7-4 8 . 8 1 0 . 3 i-5 2 . 9 4-4 5-8 7-3 8.7 1 0 . 2 1-4 2 . 9 4-3 5-8 7 . 2 8 . 6 10.1 1-4 1-4 1-4 1-4 1-4
2.9 2.8 2.8 2.8 2.7
1.4 2 . 7
'•3 1-3 i-3 1-3 i-3 1-3
1.2 1.2 1.2 1.2 1.2
2.7 2.6 2.6 2.6 2.6 2.5 2.5 2.5 2.4 2.4 2.4
24
12.0
11.9 11.8 II.6
"•5
27
30
13-5 15-0 13-4 1 4 . 9 '3-2 14-7 I3-I 1 4 . 6 13.0
14.4
39
42
45
48
16.5 16.3
18.0
19-5
21.0
22.5
24.0
17.8
19.3
20.8
22.3
23.8
25.2
26.7
16.2
17.6
19.1
20.6
22.1
17-5 15-8 17-3
18.9
21.8
25.0 24.7
18.7
20.4 20.2
23-5 23-3
24.5
18.5
20.0
16.0
4-3 5-7 7-1 8 . 6 10.0 11.4 1 2 . 8 '4-3 15.7 17.1 4 . 2 5-6 7-1 8.5 9-9 " • 3 1 2 . 7 1 4 . 1 15.5 1 6 . 9 4 . 2 5-6 7 . 0 8 . 4 9-8 11.2 12.6 1 4 . 0 15-3 1 6 . 7 4-1 5-5 6.9 8.3 9-7 11.0 1 2 . 4 13-8 15-2 1 6 . 6 4-1 5-5 6 . 8 8 . 2 9-6 1 0 . 9 1 2 . 3 '3-7 15.0 1 6 . 4 4-1 5-4 6 . 8 8.1 4 . 0 5-3 6 . 7 8 . 0 4 . 0 5-3 6 . 6 7-9 3-9 5-2 6.5 7-8 3-9 5-2 6-5 7-7
9.2
10.6
9-1
10.4
9.0
10.3
3-8 3-8 3-7 3-7 3-6
5-i 6 . 4 7-7 5.o 6-3 7 . 6 5-0 6 . 2 7-5 4-9 6 . 2 7-4 4-9 6.1 7-3
9-5 9-3
10.8
13-5 1 4 . 9 1 6 . 2 12.0 13-4 14-7 1 6 . 0 11.9 13-2 14-5 15.8 11.7 i3-i 1 4 . 4 15-7 11.6 1 2 . 9 1 4 . 2 '5-5 12.2
0.40
0.9
1.8
2.7
41 42 43 44
0.9
1.8
2.7
0.9
1-7 i-7 i-7
2.6
0.9 0.8
o.45
0.8
46
0.8
47
0.8
1-7
2.6 2.5
3-6 3-5 3-5 3-4 3-4
4-5 4-4 4-4 4-3
8.1
7.6
7-5
0.8
1-5
4.0
4.8
20.3
17.9
12.8
10.2
9.6
10.8
12.0
9-5 9-4
10.7
11.9
14.0
13.2
13.0
12.5
8.4
15-6 15-4 1 4 . 0 15-2 13-9 15-0 13-7 1 4 . 8
14.4 14.2
10.1
9-5 9-3
10.5
16.8
11.6 11.4 11.2
12.2
12.6
12.4
24-3
25.7
24.0
25.1
26.4
9-8 9.6 9-5 9-3
10.7
11.7 ".5 Ii.3
12.5 12.3
6.6
7-4 7-3 7-2
24
18.0
19.1
20.3
22.5
O.25
16.7
21.4 21.1
22.2 17.8 1 8 . 9 2 0 . 0 17.5 1 8 . 6 19-7 2 0 . 8 2 1 . 9 17-3 18.4 1 9 . 4 20.5 2 1 . 6
26
12.1
17.0
18.1
13.2
13-0 12.8
21.0
0.30
31 32 33 34
15-6 1 6 . 6 1 7 . 6 18.5 19-5 15-4 1 6 . 3 17-3 18.2 1 9 . 2 i5-i 16.1 1 7 . 0 I 8 . 0 1 8 . 9 1 4 . 0 1 4 . 9 15-8 1 6 . 7 17.7 1 8 . 6 13-7 1 4 . 6 1 5 - 6 1 6 . 5 17-4 1 8 . 3
o.35 36 37 38 39 0.40
14.6
14.4 14.2
13.5 1 4 . 4 15-3 1 6 . 2 17.1 1 8 . 0 13-3 1 4 . 2 1 5 . 0 15.9 1 6 . 8 1 7 . 7 11-3 1 2 . 2 1 3- 1 13-9 1 4 . 8 15-7 1 6 . 5 17-4 12.0 1 2 . 8 13-7 14-5 15-4 1 6 . 2 1 7 . x 11.1 1 0 . 9 1 1 . 8 1 2 . 6 13-4 14.3 15.1 16.0 1 6 . 8
9.6
10.4
9-4
10.3
9.2
12.6
12.4
8.1
8.9
8.0
9-9 1 0 . 7 1 1 . 6 1 2 . 4 9-7 1 0 . 5 11-3 1 2 . 2 9-5 1 0 . 3 11.1 1 1 . 9 9-4 10.1 1 0 . 9 11.7 9.2 9-9 1 0 . 7 " • 5 9.0
8-3
9-i
10.1
11.7
1 1-5
6.4 6.2
7.0
6.1
6.9
7-8 7-7
8-7 8.6 8.4
6.0
6.8
7-5
8-3
9-8
10.5
27 28
19.7 20.7 19.4 2 0 . 4 19. I 20.1 18.8 1 9 . 8
10.8
8.7 8.6 8-4
6-5
22.8
16.9
10.6
7-8 7-7 7.6
23.1
21.7
9-9 9-7
9.0 8.9
6.7
21.9
20.5
11.9
8.1
6.8
20.8
19.4
16.0
11.0
8.0
5-9
19.6
17.1
18.5 18.2
10.1
7.2
6.0
17-3
9.2
7-i 7.0
18.7
16.2
13-7 13-4
8.8 8.6
6.1
19.0
17.6
12.7
7-8 7-7
6-3
17.8
16.4
20.0
6.8
6.2
16.6
19 0.20 21 22 23
14-7 15.8 1 6 . 8 17.9 1 8 . 9 14.5 15-5 1 6 . 6 1 7 . 6 1 8 . 6 14-3 15.3 1 6 . 3 17-3 18.4 1 4 . 1 15.1 16.1 17.1 18.1 13-9 1 4 . 9 15.8 1 6 . 8
12.9
8.2
19.2
17
18
13-7 13-5 13-3 I3-I
12.1
6.4
18.0
16
29
11.9
11.2
16.8
22.7
21.3
10.9
10.2
25.5
23-9 2 5 . 2 2 1 . 2 2 2 . 4 23-7 2 4 . 9 2 0 . 9 2 2 . 1 23-4 2 4 . 6 2 0 . 7 2 1 . 9 23-1 24-3 24.0 2 0 . 4 21.6 20.1 2 1 . 3 22.5 23-7 1 9 . 9 2 1 . 1 22.2 23-4 21.4
20.2
11.1
10.4
24.2
ig.2
9-9
8-5 8.4
25.8
23.0
16.0
10.1
7-4 7-3
26.1
24-5
14.9
8.9
7.6
24.8
23.2
13.8
9.0
('-5
26.7
09
0.10 11 12 13 14 0.15
14.0
7-9
6.6
20.4
25.4
27.0
ob 07 08
16.4 16.2
14.4 14.2
8.0
10.6
21.6
04 0.05
15.8 15-5 15.3 15.1
14.6
7.0
6.7
18.1
16.6
" • 3 12.4 13-5 8.9 10.0 11.1 1 2 . 2 13-3 8.8 9-9 11.0 1 2 . 0 13-1 8.6 9-7 1 0 . 8 11.9 1 3 . 0 8.5 9 . 6 1 0 . 7 11.7 1 2 . 8
8-3
17.4
6.9
5-3
0.50
2.3
8.2
3-° 3-8 4-5
0.8
0.8
4-1 5-0 4-1 4-9
18.9
18.1
24.2
17.9 19 .1 11-5 15.3 8.8 10.1 " • 3 1 2 . 6 13-9 1 6 . 4 1 7 . 6 1 8 . 9 20.2 8.7 10.0 11.2 1 2 . 5 13-7 1 4 . 9 1 6 . 2 17.4 1 8 . 7 1 9 . 9 8.6 9 . 8 11.1 12-3 13.5 1 4 . 8 1 6 . 0 1 7 . 2 1 8 . 5 1 9 . 7 8.5 9-7 1 0 . 9 1 2 . 2 •3-4 1 4 . 6 15.8 1 7 . 0 1 8 . 2 1 9 . 4 8.9
3-9 4-7 3-8 4 . 6
48
49
2.5 2.4
4.2
5-4 5-3 5-2 5-1 5-o
17.6
18.3
22.8
21.7
5-8 5-7 5-6 5-5 5-4
3-3 3-2 1 . 6 2 . 4 3-2 1.6 2-3 3-' 1-5 2 . 3 3-i 1.6
4.6
17.7
25-7 27.1 2 8 . 5 1 9 . 7 2 1 . 2 2 2 . 6 2 4 . 0 25-4 2 6 . 8 2 8 . 2 19-5 2 0 . 9 2 2 . 3 23-7 25-1 2 6 . 5 2 7 . 9 19-3 2 0 . 7 2 2 . 1 23-5 24.8 2 6 . 2 2 7 . 6 19 .1 20.5 2 1 . 8 2 3 . 2 2 4 . 6 25-9 27-3 21.4
23-5
9.2
2.7
°3
21.9
8.2
1.8
28.8
22.2
10.4 10.2
0.9
27.4
20.6
7-4 7-2 7-i
2.8
25-9
20.9
1.1 2.1 3-2 4 . 2 5-3 6-3 1.0 2.1 3-1 4-' 5-2 6 . 2 1.0 2 . 0 3-i 4-1 5-i 6.1 1.0 2 . 0 3-0 4 . 0 5.o 6 . 0 1.0 2 . 0 3-0 4 . 0 5-0 5-9
2.8
29.1
19.4
9.0
5-9 5-8 5-7 5-6 5-5
02
27.6
19.6
7-9 7-8 7-7
4-9 4-8 4-7 4-7
29.4
18.3
5-6 6 . 8 5-6 6 . 7 5-5 6 . 6 5-4 6.5 5-3 6 . 4
3-9 3-8 3-8 3-7 3-7
27.9
17.0
10.3
2.9
Ol
26.5 26.2
23.8
9.1
2.9
0.00
29.7
22.4
8.0
1.0 2 . 0 1.0 i.9 0 . 9 i-9 0 . 9 i-9
30.0
21.4
8.4 8-3
4-5 4-4 4-4 4-3 4-3
28.5 28.2
21.1
3-6 4-8 6 . 0 7-2 3-6 4-7 5-9 7-i 3-5 4-7 5-9 7 . 0 3-5 4 . 6 5-8 6 . 9 3-4 4 . 6 5-7 6 . 8 3-4 3-3 3-3 3-2 3-2
27.0
19.8
12.7
1.1 2 . 3 1.1 2 . 2 1.1 2 . 2 1.1 2 . 2 1.1 2.1
25-5
20.0
11.6 11.4
2.3
60
18.7
10.4
1.1
57
18.5
9.2
2.3
23.0
54
17.2
10.7
11.7
1.2
21.6
n
5i
23.0 22.7
12.9
2.3
renz = 36
10.5
1.2
e
33
00
31 32 33 34
9
00
21 22 23
6
N
0.20
Zweite Di ff 3
13-2 13.0 12.7 12.5 12.2
11-3 12.0
41
42
43 44
1 4 . 0 1 4 . 9 15-7 1 6 . 5 13-8 1 4 . 6 15-4 1 6 . 2 13-5 14-3 1 5- 1 15-9 13-3 1 4 . 0 1 4 . 8 15-6 1 3 . 0 13-8 14-5 15-3
o.45
13-5 14-3
0.50
12.8
15.0
46
47 48
49
Interpolation mit
B e r ü c k s i c h t i g u n g
421 *
z w e i t e r
D i f f e r e n z e n
/ (ao + n) = /o + n (¿J1 + T a f e l w e r t ) Die Tafelwerte sind negativ für positive zweite Differenz, sie sind positiv für negative zweite Differenz
n
Zweite Differenz = 24 27 30 33 36 39
Au " m
3
6
9
12
15
18
21
0.50 51 52 53 54
0.8 0.7 0.7 0.7 0.7
1-5 i-5 1-4 1-4 1-4
2-3 2.2 2.2 2.1 2.1
3-0 2.9 2.9 2.8 2.8
3.8 3-7 3-6 3-5 3-5
4.5 4-4 4-3 4-2 4-1
5-3 5-i 5.0 4-9 4-8
6.0 5-9 5-8 5-6 5-5
6.8 6.6 6-5 6.3 6.2
7-5 7-4 7.2 7-1 6.9
8-3 8.1 7-9 7-8 7.6
9.0 8.8 8.6 8.5 8-3
9.8 9.6 9-4 9.2 9.0
10.5 10.3 10.1 9-9 9-7
o.55 56 57 58 59,
0.7 °7 0.6 0.6 0.6
4-1 4.0 3-9 3-8 3-7
4-7 4.6 4-5 4-4 4-3
5-4 5-3 5-2 5-o 4-9
6.1 5-9 5-8 5-7 5-5
6.8 6.6 6.5 6.3 6.2
7-4 7-3 7-1 6.9 6.8
8.1 7-9 7-7 7.6 7-4
8.8 8.6 8.4 8.2 8.0
0.60 61 62 63 64
0.6 0.6 0.6 0.6 0.5
3-6 3-5 3-4 3-3 3-2
4.2 4.1 4.0 3-9 3-8
4-8 4-7 4.6 4-4 4-3
5-4 5-3 5-i 5-0 4-9
6.0 5-9 5-7 5-6 5-4
6.6 6.4 6-3 6.1 5-9
7.2
7-8
0.65 66 67 68 69
o-5 0.5 0.5 0.5 0.5
1-4 2.0 2.7 3-4 1-3 2.0 2.6 3-3 '•3 i-9 2.6 3-2 i-3 i-9 2-5 3-2 1.2 1.8 2.5 3-i 1.2 1.8 2.4 3-° 1.2 1.8 2.3 2.9 1.1 1-7 2.3 2.9 1.1 i-7 2.2 2.8 1.1 1.6 2.2 2-7 1.1 1.6 2.1 2.6 1.0 i-5 2.0 2.6 1.0 i-5 2.0 2-5 1.0 i-4 1-9 2.4 0.9 i-4 i-9 2-3
3-2 3-1 30 2.9 2.8
3-7 3-6 3-5 3-4 3-3
4.2 4-1 4.0 3-8 3-7
4-7 4.6 4-5 4-3 4.2
0.70 71 72 73 74
0.5 0.4 0.4 0.4 0.4
0.9 0.9 0.8 0.8 0.8
1.8 2-3 i-7 2.2 i-7 2.1 1.6 2.0 1.6 2.0
2.7 2.6 2-5 2.4 2-3
3-2 3-0 2.9 2.8 2-7
3-6 3-5 3-4 3-2 3-i
4-i 3-9 3-8 3-6 3-5
o.75 76 77 78 79
0.4 0.4 0.3 0.3 0.3
0.8 1.1 0.7 1.1 0.7 1.0 0.7 1.0 0.6 0.9
i-5 1-4 i-4 1-3 1-3
1-9 1.8 1.7 i-7 1.6
2-3 2.2 2.1 2.0 1-9
2.6 2.5 2.4 2-3 2.2
0.80 81 82 83 84
0.3 0.3 0.3 °-3 0.2
0.6 0.6 0.5 o-5 0.5
0.9 0.9 0.8 0.8 0.7
1.2 1.1 1.1 1.0 1.0
i-5 1.4 i-4 i-3 1.2
1.8 '•7 1.6 i-5 1.4
0.85 86 87 88 89
0.2 0.2 0.2 0.2 0.2
0.5 0.4 0.4 0.4 0.3
0.7 0.6 0.6 0.5 0.5
0.9 1.1 i-4 0.8 1.1 '•3 0.8 1.0 1.2 0.7 0.9 1.1 0.7 0.8 1.0
0.90 91 92 93 94
0.2 0.1 O.I 0.1 O.I
0.3 0.3 0.2 0.2 0.2
0.5 0.4 0.4 0.3 0.3
0.95 96 97 98 0.99
O.I O.I 0.0 0.0 0.0
0.2 O.I O.I O.I 0.0
0.2 0.2 O.I O.I 0.0
1.00
48
n
5i
54
57
60
12.0 " 3 11.0 .11.8 10.8 " • 5 10.6 H-3 10.4 11.0
12.8 12.5 12.2 12.0 11.7
13-5 13-2 13.0 12.7 12.4
14-3 14.0 13-7 13-4 I3-I
150 14-7 14.4 14.1 13-8
0.50 51 52 53 54
9-5 9.2 9.0 8.8 8.6
10.1 9-9 9-7 9-5 9-2
10.8 10.6 10.3 10.1 9.8
11.5 11.2 11.0 10.7 10.5
12.2 11.9 11.6 1 1-3 11.1
12.8 12.5 12.3 12.0 11.7
13-5 13.2 12.9 12.6 12.3
o.55 56 57 58 59
6.8 7-4 6.7 7-2 6.5 7.0
8.4 8.2 8.0 7-8 7.6
9.0 8.8 8.6 8-3 8.1
9.6 9-4 9-1 8.9 8.6
10.2 9-9 9-7 9-4 9.2
10.8 10.5 10.3 10.0 9-7
11.4 11.1 10.8 10.5 10.3
12.0 11.7 11.4 11.1 10.8
0.60 61 62 63 64
5-3 5-8 6-3 5-1 5-6 6.1 5.o 5-4 5-9 4-8 5-3 5-8 4-7 5-i 5-6
6.8 6.6 6.4 6.2 6.0
7-4 7-1 6.9 6.7 6.5
7-9 7-7 7-4 7-2 7.0
8.4 8.2 7-9 7-7 7-4
8.9 8.7 8.4 8.2 7-9
9-5 9.2 8.9 8.6 8.4
10.0 9-7 9-4 9-i 8.8
10.5 10.2 9-9 9.6 9-3
0.65 66 67 68 69
4-5 4-4 4.2 4-1 3-9
5-0 4.8 4.6 4-5 4-3
5-4 5-2 5-o 4-9 4-7
5-9 5-7 5-5 5-3 5-1
6-3 6.1 5-9 5-7 5-5
6.8 6.5 6.3 6.1 5-9
7-2 7.0 6.7 6.5 6.2
7-7 7-4 7-i 6.9 6.6
8.1 7-8 7.6 7-3 7.0
8.6 8-3 8.0 7-7 7-4
9.0 8.7 8.4 8.1 7-8
0.70 71 72 73 74
3 0 3-4 3-8 2.9 3-2 3-6 2.8 3-1 3-5 2.6 3-0 3-3 2.5 2.8 3-2 2.1 2.4 2-7 3-0 2.0 2-3 2.6 2.9 i.9 2.2 2.4 2-7 1.8 2.0 2-3 2.6 1-7 1-9 2.2 2.4
4-1 4.0 3-8 3-6 3-5
4-5 4-3 4-1 4.0 3-8
4-9 4-7 4-5 4-3 4.1
5-3 5-o 4.8 4.6 4-4
5-6 5-4 5-2 5-0 4-7
6.4 6.1 5-9 5-6 5-4
6.8 6.5 6.2 5-9 5-7
7-i 6.8 6.6 6.3 6.0
7-5 7.2 6.9 6.6 6-3
o.75 76 77 78 79
3-3 3-1 3-0 2.8 2.6
3-6 3-4 3-2 3-i 2.9
4-2 4.0 3-8 3-6 3-4
4-5 4-3 4-i 3-8 3-6
5-1 4-8 4.6 4-3 4-1
5-4 5-1 4-9 4.6 4-3
5-7 5-4 5-1 4.8 4.6
6.0 5-7 5-4 5-i 4.8
0.80 81 82 83 84
2.5 2-3 2.1 2.0 1.8
2.7 2.5 2-3 2.2 2.0
3-6 3-4 3-1 2.9 2.6
3-8 3-6 3-3 3-i 2.8
4-1 3.8 3-5 3-2 3-0
4-3 4.0 3-7 3-4 3-i
4-5 4.2 3-9 3-6 3-3
0.85 86 87 88 89
i-7 i-5 i-3 1.2 1.0
1.8 2.0 1.6 1.8 i-4 1.6 '•3 i-4 1.1 1.2
3-2 2.9 2.7 2-5 2-3 2.1 i-9 1-7 i-5 i-3
3-4 3-2 2.9 2-7 2-5
0.6 0.5 0.5 0.4 0.4
1.8 2.0 2-3 i-7 1-9 2.1 1.6 1.8 2.0 i-4 1.6 1.8 i-3 i-5 i-7 0.8 0.9 1.1 1.2 1-4 1-5 0.7 0.8 0.9 1.1 1.2 i-4 0.6 0.7 0.8 1.0 1.1 1.2 0.5 0.6 0.7 0.8 0.9 1.1 0.5 °-5 0.6 0.7 0.8 0.9
3-9 3-7 3-5 3-3 3-1 2.9 2.7 2.5 2-3 2.1
6.0 5-8 5-5 5-3 5-o 4.8 4.6 4-3 4-i 3-8
2-3 2.0 1.8 1.6 1-4
2.4 2.2 1-9 1-7 1-4
2.6 2.3 2.0 1.8 i-5
2.7 2.4 2.2 1-9 1.6
2.9 2.6 2-3 2.0 i-7
3-o 2.7 2.4 2.1 1.8
0.90 91 92 93 94
0.3 0.2 0.2 O.I 0.1
0.4 0.3 0.2 0.2 O.I
0.8 0.7 0.5 0.3 0.2
0.9 0.7 0.5 0.4 0.2
1.0 0.8 0.6 0.4 0.2
1.1 0.8 0.6 0.4 0.2
1.1 0.9 0.7 0.5 0.2
1.2 1.0 0.7 0.5 0.2
i-3 1.0 0.8 0.5 0.3
1-4 1.1 0.8 °-5 °-3
1.4 1.1 0.9 0.6 0.3
1-5 1.2 0.9 0.6 °-3
o.95 96 97 98 0.99
0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0 0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
1.00
i-4 i-3 i-3 1.2 1.2
o-5 0.4 0.3 0.2 0.1
1.6 i-5 1.4 i-3 1.2
0.5 0.4 0-3 0.2 0.1
0.6 0.5 0.4 0.2 O.I
0.7 0.5 0.4 0-3 0.1
0.8 0.6 0-5 0.3 0.2
7.0 7.6
42
45
422*
Interpolation m i t
B e r ü c k s i c h t i g u n g f(a0
+
n)
=
t0
+ n
z w e i t e r Cd1 +
D i f f e r e n z e n
Tafelwert)
Die Tafelwerte sind negativ für positive zweite Differenz, sie sind positiv für negative zweite Differenz n
o.oo Ol 02 03 04
Z w e i t e 63
66
31.5 33-o 32-7 3 0 . 9 32.3 30.6 32.0 30.2 3 i - 7
69
72
34-5 36.0 37-5 34-2 35-6 37-i 33-8 35-3 36.8 33.5 34-9 36.4 33-1 34-6 36.0
0.05 06 07 08 09
29.9 3 1 . 4 32.8 34-2 29.6 31.0 32.4 33-8 29-3 30.7 32.1 33-5 29.0 3 ° - 4 31.7 33-1 28.7 30.0 31-4 32.8
0.10 11 12
28.4 28.0 27.7 27.4 27.1
13 14 0.15 16 17 18 19 0.20 21 22 23 24
37 38 39 0.40 41 42 43 44
43-5 43-i 42.6 42.2 37-4 38.9 40.3 41.8
90
93
96
m 99
45-o 46.5 48.0 49.5 44.6 46.0 47.5 49.0 44.1 45.6 47.0 48.5 43-7 45-1 46.6 48.0 43-2 44.6 46.1 47-5
102
105
51.0 52.5 5 ° - 5 52.0 50.0 51.5 49-5 50.9 49.0 50.4
108
111
54-o 55-5 53-5 54-9 52.9 54-4 52.4 53-8 51.8 53-3
114
117
60.0
42.8 44-2 45.6 47.0 48.5 42.3 43-7 45-1 46.5 47-9 4 1 . 9 43-2 44.6 46.0 47-4 41.4 42.8 44.2 45-5 46.9 41.0 42.3 43-7 45.o 46.4
49-9 5 1 . 3 52.7 54-2 55-6 49-4 50.8 52.2 53-6 55-o 48.8 50.2 5 1 . 6 53-0 54-4 48.3 49-7 5 1 . 1 52.4 53-8 47-8 49.1 50.5 51.9 53-2
57-0
36.5 37-8 39-2 36.0 37-4 38.7 35-6 37-0 38.3 35-2 36.5 37-8 34-8 36.1 37-4
40.5 4 1 . 9 43-2 44.6 45-9 40.1 4 1 . 4 42.7 44.1 45-4 39-6 40.9 42.2 43-6 44-9 39-2 40.5 41.8 43-1 44-4 38.7 40.0 41-3 42.6 43-9
47-3 48.6 50.0 51-3 46.7 48.1 49-4 50.7 46.2 47-5 48.8 50.2 45-7 47.0 48.3 49.6 45-2 46.4 47-7 49.0
54.o
25.2 26.4 27.6 28.8 30.0 24.9 26.1 27.3 28.4 29.6 24.6 25-7 26.9 28.1 29.3 24-3 25-4 26.6 27.7 28.9 23-9 25.1 26.2 27.4 28.5
31.2 32.4 33-6 30.8 32.0 33-2 30.4 31.6 32.8 30.0 31.2 32.3 29.6 30.8 31.9
34-8 36.0 37-2 38.4 39.6 40.8 42.0 34-4 35-6 36.7 37-9 39-1 40.3 4 ' - 5 33-9 35-1 36.3 37-4 38.6 39.8 41.0 33-5 34-7 35-8 37-0 38.1 39-3 40.4 33-1 34-2 35-3 36.5 37-6 38.8 39-9
43-2 42.7 42.1 41.6 41.0
23.6 24.8 25-9 27.0 28.1 24.4 25-5 26.6 27.8 24.1 25.2 26.3 27.4 23-8 24.8 25-9 27.0 23-4 24.5 25.6 26.6
29.3 28.9 28.5 28.1
32.6 33-8 34-9 36.0 32.2 33-3 34-4 35-5 31.8 32.9 33-9 3 5 ° 31.3 32.4 33-5 34-6 3°-9 32.0 33-0 34-1
40.5 4 1 . 6 42.8 43-9 40.0 4 1 . 1 42.2 43-3 39-4 40.5 4 1 . 6 42.7 38.9 40.0 41.0 42.1 38.3 39-4 40-5 41-5
30.4 30.0 29.6 29.2 27.7 28.8
24.2 25.2 26.3 27-3 23.8 24.8 25-9 26.9 23-5 24.5 25-5 26.5 23.1 24.1 25-1 26.1 22.8 23.8 24.8 25-7
3'-5 3i.1 3°-7 30.2 29.8
28.4 29.4 30.5 27.9 29.0 30.0 27.5 28.6 29.6 27.1 28.1 29.1 26.7 27.7 28.7
20.5 21.5 22.4 23-4 20.2 2 1 . 1 22.1 23.0 19.8 20.8 21.7 22.7 19-5 20.5 21.4 22.3 19.2 20.1 21.0 22.0
24.4 25-4 26.3 27.3 24.0 25.0 25-9 26.9 23.6 24.6 25.5 26.5 23-3 24.2 25.1 26.0 22.9 23.8 24.7 25.6
18.9 19.8 20.7 18.6 19-5 20.4 18.3 19.1 20.0 18.0 18.8 19.7 17.6 18.5 19.3
22.5 22.1 21.8 21.4 21.0
49 0.50
'5-8
16.5
57-6
38.5 39-9 4 1 . 3 38.1 39-5 40.9 37-7 39-i 40-5 37-3 38.6 40.0 36.9 38.2 39-6
37-0 38.3 39-5 40.8 36.5 37-8 39-1 4 ° - 3 36.1 37-4 38.6 39-8 35-7 36-9 38.1 39-4 35-2 36.5 37-7 38.9
21.6 21.2 20.9 20.5 20.2
59-4 58.8 58.2
35-6 37-1 35-3 36.7 34-9 36.3 34-5 35-9 34-i 35-5
33-2 34-4 35-7 32.8 34-0 35-3 32.4 33-6 34-9 32.0 33-2 34-4 31.6 32.8 3 4 - °
23.1 21.7 22.8 21.4 22.4 21.1 22.1 20.8 21.8
120
57-0 58.5 56.4 57-9 55-9 57-3 55-3 56.7 54-7 56.2
30.6 3 ' - 9 30.2 31-5 29.9 3 1 1 29-5 30.8 29.2 30.4
18.2 17.8
47 48
39-0 40.5 42.0 38.6 40.1 4 1 . 6 38.2 39-7 41.2 37-8 39-3 40.7
D i f f e r e n z
29.3 29.0 28.6 28.3 27.9
17.3 17.0 16.7 16.4 16.1
0-45 46
87
28.1 27.7 27.4 27.1 25-5 26.7
26.8 26.5 26.1 25.8
22.1
o.35 36
84
32.4 33-8 35-i 32.0 33-4 34-7 31.7 33-o 34-3 31-3 32.6 33-9 31.0 32.3 33-5
0.30
33 34
81
3ii 30.7 30.4 30.0 29.7
23-3 23.0 22.7 22.4
32
78
29.7 29.4 29.0 28.7 28.4
0.25 26 27 28 29
31
75
3i-5 311 30.6 30.2 29.7
42.1 41.6 41.1 40.6 40.1
48.5 47-9 47-3 46.7 41.3 42.5 43-7 45-0 46.2
37-1 38.3 39-4 36.6 37-7 38.9 36.1 37-2 38.3 35-6 36.7 37-8 35-i 36.2 37-3
32.6 33-6 34-7 32.1 33-i 34-2 31.6 32.6 33-7 31.2 32.2 33-2 30.7 3 i - 7
43-4 44.6 45-9 47.2 42.8 44.1 45-4 46.6 42.3 43-6 44-8 46.1 41.8 43-1 44-3 45-5
53-4 5 i - 5 52.8 50.9 52.2 50.3 51.6
49-7 49.1 48.6 48.0
51.0
5°-4 49-8 49.2 47-4 48.6
44.4 45-6 46.8 48.0 43-8 45-0 46.2 47-4 43-3 44-5 45-6 46.8 42.7 43-9 45-o 46.2 42.2 43-3 44-5 45-6 45-0 44-4 43-8 43-2 42.6
0.00 01 02 03 04 0.05 06 07 08 09 0.10 11 12 13 14 0.15 16 17 18 19 0.20 21 22 23 24 0.25 26 27 28 29
35-7 36.8 37-8 35-2 36.2 37-3 34-7 35-7 36.7 34-2 35-2 36.2
41.0 42.0 40.4 4 1 . 4 39-8 40.8 39-2 40.2 37-6 38.6 39-6
0.30
37-r 36.5 35-9 35-3 34-8
38.0 39.o
o.35 36 37 38
38.9 38.3 37-7 37-2 32.7 33.7 34-7 35-6 36.6
28.3 27.8 27.4 27.0 26.5
29.3 28.8 28.4 27.9
30.2 31.2 32.2 29.8 3°-7 31-7 29.3 30.2 31.2 28.8 29.8 30.7 27.5 28.4 29.3 30.2
33.2 34-1 35-1 36.1 32.6 33-6 34-6 35-5 32.1 33-i 34-0 35-0 31.6 32.6 33-5 34-4 3 1 1 32.0 32.9 33-9
23-4 24.3 25.2 26.1 23.0 23.9 24.8 25-7 22.6 23.5 24.4 25.2 22.2 23.1 23.9 24.8 21.8 22.7 23-5 24.4
27.0 27.9 28.8 29.7 26.6 27.4 28.3 29.2 26.1 27.0 27.8 28.7 2 5-7 26.5 27.4 28.2 25.2 26.0 26.9 27.7
30.6 30.1 29.6 29.1 28.6
24.8 25.6 26.4 27.2 25-i 25-9 26.7 24.6 25-4 26.2 24.2 25.0 25.7 23-7 24-5 25.2
28.1
19.0 19.8 20.6 21.5 22.3 23.1 18.6 19.4 20.3 2 1 . 1 21.9 22.7 17-5 18.3 19.1 19.9 20.7 21.5 22.3 17.2 17.9 18.7 19.5 20.3 21.1 21.8 16.8 17.6 18.4 19.1 19.9 20.7 21.4
52.7 52.1
56.4 55-8 55-2 54.6
n
3i-5 31.0 30-5 29.9 29.4
39-9 39-3 38.8 38.2
31 32 33 34
37-4 36-9 36.3 35-7
38.4 37-8 37-2 36.6
32.4 33-3 34-2 35-1 31-9 32.7 33-6 34-5 3 ' - 3 32.2 33-1 33-9 30.8 31.6 32.5 33-3 30.2 3 I - I 3 i - 9 32.8
36.0
0.40
35-4 34-8 34-2
41 42
28.9 29.7 30.5 3 ' - 4 28.4 29.2 30.0 30.8 27.8 28.6 29.4 30.2 27-3 28.1 28.9 29.6 26.8 27-5 28.3 29.1
33-6
39
43 44
32.2 33-0 31.6 32.4 31.0 31.8 30-4 31.2 29.8 30.6
0.45 46
17.3 18.0 18.8 19.5 20.3 21.0 21.8 22.5 23-3 24.0 24.8 25-5 26.3 27.0 27.8 28.5 29-3 30.0
0.50
23-9 23-5 23.1 22.6 22.2
24-3 23.9 23-4 23.0
27-5 27.0 26.5 26.0
47 48 49
Interpolation mit
B e r ü c k s i c h t i g u n g / (a0 + rt) =
fo
423 •
zweiter
+- n (Al
D i f f e r e n z e n
+ Tafelwert)
Die Tafelwerte sind negativ für positive zweite Differenz, sie sind positiv für negative zweite Differenz n
Zweite Differenz = 84 87 90 93 96 99
63
66
69
72
75
78
81
0.50 51 52 53 54
15.8 15-4 15.1 14.8 14-5
16.5 16.2 15.8 15-5 15-2
17.3 16.9 16.6 16.2 15-9
18.0 17.6 17-3 16.9 16.6
18.8 18.4 18.0 17.6 17-3
19.5 19.1 18.7 18.3 17.9
20.3 19.8 19.4 19.0 18.6
21.0 20.6 20.2 19.7 19-3
21.8 21.3 20.9 20.4 20.0
22.5 22.1 21.6 21.2 20.7
23.3 22.8 22.3 21.9 21.4
24.0 23.5 23.0 22.6 22.1
o.55 56 57 58 59
14.2 13-9 13-5 13-2 12.9
14.9 14-5 14.2 13.9 13-5
15-5 15.2 14.8 14-5 14.1
16.2 15.8 15-5 I 5-1 14.8
16.9 16.5 16.1 15.8 15.4
17.6 17.2 16.8 16.4 16.0
18.2 17.8 17-4 17.0 16.6
18.9 18.5 18.1 17.6 17.2
19.6 19.1 18.7 18.3 17.8
20.3 19.8 19.4 18.9 18.5
20.9 20.5 20.0 19-5 19.1
0.60 61 62 63 64
12.6 12.3 12.0 IJ.7 U-3
13.2 12.9 12.5 12.2 11.9
13-8 13-5 13.1 12.8 12.4
14.4 14.0 13-7 13-3 13.0
15-0 14.6 14-3 13-9 13-5
15-6 15-2 14.8 14.4 14.0
16.2 15-8 15-4 15.0 14.6
16.8 16.4 16.0 15-5 15.1
17-4 17.0 16.5 16.1 '5-7
18.0 17.6 17.1 16.7 16.2
0.65 66 67 68 69
11.0 10.7 10.4 10.1 9.8
11.6 11.2 10.9 10.6 10.2
12.1 11.7 11.4 11.0 10.7
12.6 12.2 11.9 11.5 11.2
I3-I 12.8 12.4 12.0 11.6
13-7 13-3 12.9 12.5 12.1
14.2 13-8 13-4 13.0 12.6
14-7 14.3 13-9 13-4 13.0
15-2 14.8 14.4 13-9 13-5
0.70 71 72 73 74
9-5 9-i 8.8 8.5 8.2
9-9 10.4 10.8 " • 3 1 1 . 7 12.2 9.6 10.0 10.4 10.9 » • 3 1 1 . 7 9.2 9-7 10.1 10.5 10.9 " • 3 8.9 9-3 9-7 10.1 10.5 10.9 8.6 9.0 9-4 9-8 10.1 10.5
12.6 12.2 11.8 11-3 10.9
131 12.6 12.2 11.7 "•3
o.75 76 77 78 79
7-9 7.6 7-2 6.9 6.6
8-3 7-9 7.6 7-3 6.9
8.6 8-3 7-9 7.6 7.2
9.0 8.6 8-3 7-9 7.6
0.80 81 82 83 84
6-3 6.0 5-7 5-4 5.o
6.6 6-3 5-9 5-6 5-3
6.9 6.6 6.2 5-9 5-5
0.85 86 87 88 89
4-7 4-4 4-1 3-8 3-5
5-0 4.6 4-3 4.0 3-6
0.90 91 92 93 94 o.95 96 97 98 0.99
3-2 2.8 2.5 2.2 1-9 1.6 i-3 0.9 0.6 o-3
1.00
0.0
n
102
i°5
108
111
114
"7
120
24.8 24.3 23.8 23-3 22.8
25.5 25.0 24.5 24.0 23-5
26.3 25.7 25.2 24.7 24.2
27.0 26.5 25-9 25-4 24.8
27.8 27.2 26.6 26.1 25-5
28.5 27.9 27.4 26.8 26.2
29-3 28.7 28.1 27-5 26.9
30.0 29.4 28.8 28.2 27.6
0.50 51 52 53 54
21.6 21.1 20.6 20.2 19.7
22.3 21.8 21.3 20.8 20.3
23.0 22.4 21.9 21.4 20.9
23.6 23.1 22.6 22.1 21.5
24-3 23.8 23.2 22.7 22.1
25.0 24.4 23-9 23-3 22.8
25.7 25.1 24-5 23-9 23-4
26.3 25-7 25.2 24.6 24.0
27.0 26.4 25.8 25.2 24.6
°-55 56 57 58 59
18.6 18.1 17.7 17.2 16.7
19.2 18.7 18.2 17.8 17-3
19.8 19-3 18.8 18.3 17.8
20.4 19.9 19.4 18.9 18.4
21.0 20.5 20.0 19.4 18.9
21.6 21.1 20.5 20.0 19.4
22.2 21.6 21.1 20.5 20.0
22.8 22.2 21.7 21.1 20.5
23-4 22.8 22.2 21.6 21.1
24.0 23-4 22.8 22.2 21.6
0.60 61 62 63 64
15.8 15-3 14.9 14.4 14.0
16.3 15.8 15-3 14.9 14.4
16.8 16.3 15.8 15-4 14.9
17-3 16.8 16.3 15.8 15-3
17.9 17-3 16.8 16.3 15-8
18.4 17.9 17-3 16.8 16.3
18.9 18.4 17.8 17-3 16.7
19.4 18.9 18.3 17.8 17.2
20.0 19.4 18.8 18.2 17.7
20.5 19.9 19.3 18.7 18.1
21.0 20.4 19.8 19.2 18.6
0.65 66 67 68 69
'3-5 I 3-1 12.6 122 11 7
14.0 13-5 13.0 12.6 12.1
14.4 13-9 13-4 13.0 12.5
14.9 14.4 13-9 13.4 12.9
15-3 14.8 •4-3 13.8 13-3
15.8 15.2 14-7 14.2 13-7
16.2 15-7 i5-i 14.6 14.0
16.7 16.1 15-5 15.0 14.4
17.1 16.5 16.0 15-4 14.8
17.6 17.0 16.4 15-8 15-2
18.0 17-4 16.8 16.2 15.6
0.70 71 72 73 74
9-4 9.0 8.6 8-3 7-9
9.8 10.1 10.5 10.9 ' i 3 9-4 9-7 10.1 10.4 10 8 9.0 9-3 9-7 10.0 10 4 8.6 8.9 9.2 9.6 9-9 8.2 8.5 8.8 9-1 9-5
11.6 11.2 10.7 10.2 9.8
12.0 11.5 11.0 10.6 10.1
12.4 11.9 11.4 10.9 10.4
12.8 12.2 11.7 11.2 10.7
I3.I 12.6 12.1 11.6 11.0
•3-9 13-3 12.8 12.2 11.7
14-3 13-7 i3-i 12.5 12.0
14.6 14.0 13-5 12.9 12.3
15.0 14.4 13-8 13-2 12.6
o.75 76 77 78 79
7.2 6.8 6-5 6.1 5-8
7-5 7-1 6.8 6.4 6.0
7-8 7-4 7.0 6.6 6.2
8.1 7-7 7-3 6.9 6.5
8.4 8.0 7.6 7-i 6.7
8-7 8-3 7.8 7-4 7.0
9.0 8.6 8.1 7-7 7-2
9-3 8.8 8.4 7-9 7-4
9.6 9.1 8.6 8.2 7-7
9-9 10.2 IO-5 9-4 9-7 10.0 8.9 9.2 9-5 8.4 8-7 8.9 7-9 8.2 8.4
13-5 13.0 12.4 11.9 n-3 10.8 10.3 9-7 9.2 8.6
11.1 11.4 11.7 10.5 10.8 1 1 . 1 10.0 10.3 10.5 9-4 9-7 9-9 8.9 9-1 9-4
12.0 11.4 10.8 10.2 9.6
0.80 81 82 83 84
5-2 4-8 4-5 4-i 3-8
5-4 5-0 4-7 4-3 4.0
5-6 5-3 4-9 4-5 4.1
5-9 5-5 5-i 4-7 4-3
6.1 5-7 5-3 4-9 4-5
6.3 5-9 5-5 5-o 4.6
6.5 6.1 5-7 5-2 4-8
6.8 6.3 5-9 5-4 5-0
7.0 6.5 6.0 5-6 5-1
7.2 6.7 6.2 5-8 5-3
7-4 6.9 6.4 5-9 5-4
7-7 7-i 6.6 6.1 5-6
7-9 7-4 6.8 6-3 5-8
8.1 7.6 7.0 6-5 5-9
8.3 7-8 7.2 6.7 6.1
8.6 8.0 7-4 6.8 6-3
8.8 8.2 7.6 7.0 6.4
9.0 8.4 7-8 7.2 6.6
0.85 86 87 88 89
3-3 3° 2.6 2.3 2.0
3-5 3-i 2.8 2.4 2.1
3-6 3-2 2.9 2-5 2.2
3-8 3-4 3'° 2.6 2.3
3-9 3-5 3-i 2.7 2-3
4-i 3-6 3-2 2.8 2.4
4.2 3-8 3-4 2.9 2.5
4-4 3-9 3-5 30 2.6
4-5 4-1 3-6 3-2 2.7
4-7 4.2 3-7 3-3 2.8
4-8 4-3 3-8 3-4 2.9
5.o 4-5 4.0 3-5 3°
5-i 4.6 4-1 3-6 3-1
5-3 4-7 4.2 3-7 3-2
5.4 4-9 4-3 3-8 3-2
5-7 5-1 4.6 4.0 3-4
5-9 5-3 4-7 4-1 3-5
6.0 5-4 4.8 4.2 3-6
0.90 91 92 93 94
i-7 i-3 1.0 0.7 0.3
1-7 i-4 1.0 0.7 0.3
1.8 1.4 1.1 0.7 0.4
i-9 1-5 1.1 0.8 0.4
2.0 1.6 1.2 0.8 0.4
2.0 1.6 1.2 0.8 0.4
2.1 i-7 i-3 0.8 0.4
2.2 i-7 i-3 0.9 0.4
2.3 1.8 1.4 0.9 0.5
2.3 i-9 1.4 0.9 0.5
2.4 i.9 1-4 1.0 0.5
2.5 2.0 i.5 1.0 °-5
2.6 2.0 i-5 1.0 0.5
2.6 2.1 1.6 1.1 0.5
2.7 2.2 1.6 1.1 0.5
5-6 5-0 4-4 3-9 3-3 2.8 2.2 i-7 1.1 0.6
2.9 2-3 i-7 1.1 0.6
2.9 2-3 1.8 1.2 0.6
3-0 2.4 1.8 1.2 0.6
o.95 96 97 98 0.99
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
0.0
1.00
424*
Refraktionstafel Mittlere
Refraktion
Ra
als Funktion der scheinbaren Zenitdistanz z R,
R,
0.00 52 0.52 1.05 53 52
i-57
53
2.10 52 2.62 53
3-i5 52 3-67 53 4.20 52 4.72
18.O
19-53
R,
58
36.0
18.5 19.O
20.11 58 20.69
36.5
19-5 20.0 20.5
21.28 59 21.87 60 22.47 60
21.0
23.07 60 23.67 6t 24.28 61
2i-5
22.0
59
37-o
43-64 44-45 45.26
37-5
46.08
38.0 38.5
46.92
39-o 39-5
48.64
40.0
47-77 49-5i
50.40
4°-5
5i-30
23-5
62 62 26.13 62
41-5
53-13
6.31 53 6.84 54 7-38
24.0
26.75
42.0
7.91
25-5
5-25 5-78
53 53 53
53
8-45 8.98
54 53 54
9 52
"
M
10.06 IO.ÖO XI.14 11.68 12.22
54
12.77
I3-32 I3-87
54 54 54 54 55 55 55 55
14.42 56 14.98 56 15-54 56 16.10 56 16.66
17-23 17.80
18.37
57 57
57
58 18.95 58
19-53
22.5 23.0
24-5 25.0 26.0 26.5 27.0
27-5 28.0
28.5 29.0
29-5
30.0
3°-5
31.0 31-5 32.0
32-5
33-0 33-5 34-o 34-5 35-o 35-5 36.0
24.89
25-5i
27.38 63 64 28.02 64 28.66 29.31 65 29.96 65
66
41.0
42-5 43-o
46.5 47.0
34-69 35-39
69 70
36.10 71 72 36.82 72
37-54 38.27
39.01
39-76 40.52
73 74 75
76 77
91 92
4 6
98
63.26
48.0
66.67
in 114 116
49.0
117 67.84 120 69.04
49-5
70.27
50.0
7i-5i
50.5
72.79
51.0 51-5 52.0
74.10
75-43 76.79
82.55 R0
4
Si-35
6
83-77 84-39
4
55-o
85-64
4 6 8 56.0 2
4 6 8
57-o 2
4 6 8
58.0 2
4 6 8
4 6 8
54-o
61.0 2
4 6 8
59-o
43-64
79.60 80.18 80.76
62.0 2
133 136 139
78.18 142 79.60 146 81.06 149
8
82.55 83.16
2
131
52-5 53-o 53-5
4 6
78.46 79-03
54-0
123
124 128
2
77.90
8
2
60.04 105 61.09 108 62.17 109
60.0
76.79 77-34
81.95
57-98
47-5
Refraktion R =
2
95
41.29 78 42.07 42.85 78 79
53-o
94
56.00
64-37 65-51
48.5
4 6 8
87 89 90
59.00 104
32.63 34.00
85 87
44-5
46.0
52.0 2
84
56.98
44.0
45-o 45-5
68 69
54-07 55-02
81 81 82
43-5
30.62 66 31.28 67 31-95 68
33-31
52.21
R,
2
60.0
(1 + Äx +
6
8
85.01
64
86.28 64 86.92 65 87-57 66 88.23 88.89 89.56 90.23 90.92 91.61
66 67 67 69 69 70
92.31 1 93.02 7 71 93-73 72
94-45
95.18 73
95-92
74 75
96.67 75 97.42 76 98.18
98.95
99-73
77
78 79
100.52 79 101.31 81 102.12 81 102.93 83 103.76
63.0 2
4 6
64.0 2
4 6 8 65.0 2
4 6 8 66.0 2
4 6 8 67.0 2
4 6 8 68.0
B)
H = ffj [1—0.00264 cos 2 9 — 0 . 0 0 0 1 6 3 (5-7
13.0
32-5 31-7 40.6 34-i 34-o 39-7 34-7 35-2 37-9 3 6 . 1 34-3 35-5 35-0 33-8 3 2 . 7 34-6 3'-2 3 0 . 6 30.1 32.7
43'4 43-0 41-5 38.9 35.5 3r-r
5-i
15.7
36.3 36-1
25-4 15-7
6-3 4-6
10.6
m
0m
9.0
20.5
32.6
35-2
36.6
37-3 36.9 35-4
27-5 31-4 34-6 37-0 38.1 38.4 37-7 35-7
32.8
25.0
29.0
20.1
24-5
13-4
1 16
Febr. März • April Mai
9.0
32.7 29.2
15-1
Jan.
10.9
0.0
6.0
36.2
9.0
0.1
14.6
37.3
13-7
M
2.1
19.6
40.5
II.6
60
3-7 1.1
8-3 11.0
33.4
30 m
7.2
1958
17"
0m
2.4 0.4
0.0
15.6
12.4
16.2
33-4 3 O . 6 2 7 . 6 2 4 . 0 19.9 38-1 35-4 32.3 2 0 . 6 2 4 . 2 42.6 40.1 37-° 33-3 2 9 . 0 4 M 4 4 . 1 4 1 . 4 37-9 33-7 48.9 47-4 45-0 4 1 . 9 3 8 . 0 5°-5 49-4 4 7 . 6 45-0 41-5 50.2 4 9 . 0 4 6 . 9 44-1 50.6 49.6 49-8 4 9 . 2 4 7 . 8 45-5 47-3 4 8 . 0 48.1 47-3 45-7 43-7 45-1 45-7 45-6 4 4 . 6 39-5 41-3 4 2 . 4 4 2 . 9 4 2 . 6 34-5 3 6 . 7 3 8 . 2 39-2 39-4 29.2 31-5 33-4 34-7 35-4 23-5 2 5 . 9 2 8 . 0 2 9 . 6 3 0 . 6 22.4 24.2 20.3 17.9 25.4 12.2 14.4 1 6 . 4 1 8 . 2 19-5 7.6 9-4 1 1 . 2 1 2 . 7 1 4 . 0 3-8 5 - 2 6-5 7-9 8 . 9 1.2 2.0 2.8 3-7 4-3 0.0
10.8
15" 3° m
3i 15 2 17 1 16
1
16
3i Juni 15 30 Juli 15 30 Aug. 1 4 29
Sept. 13 28
Okt. Nov. Dez.
19.6
13 28 12
27 12 27
32
17.9
Sternzeit
1958 Jan.
!
16
31 Febr. 15 März 2 17 April I Mai
16
I L6
31 Juni 15 3° Juh 15 3° Aug. 14 29 Sept. 13 28
Okt. 13 Nov.
28
12 27
Dez. 12 27
32
0m
i8" 30 m
15.7
10.9 6.7
3-2
17.7 13.0
8.5
4.6
h
0m
I9
20.1
15-3 10.5 6.4
3°
m
21% 17.2 12.5 8.0
0.9
1.8
0.0
0.2
0.9
0.4
0.0
0.0
4-3 i-5 0.1
2.1
1.2
5-i
0.6
0.0
3-6 7-i
9.0
13-5 18.3 22.9
27-5 31-4 34-6 37-° 38-r 38.4 37-7 35-7
11.4 16.1
3-o
2.5
5-5 9-5
i-3 3-9 7-5
0m
20
23-9
H
30
m
25.6
0m 27.4
2.7
1.6
3-o 6-3
18.9
16.5
12.3
10.3
23-9
21.6
19.6
17.4
15-2
26.6
24.7
22.6
20.4
30.0
28.6
4-3 7-9
0.9
20.9
33-7 36-7
2 8 "7
0m
22H
30.0
21.5 16.8
25-7
11.8
30
m
23-5 25-3 27.1 14.6 19.0 2 l.O 23.0 10.0 1 2 . 0 14-3 1 6 . 3 1 8 . 5 1 1 . 6 13-7 9.6 5-9 7 . 6 2.6 9.0 3-9 5-6 7 . 2 0.6 i-3 2 . 4 3-6 5.1 2.2 0.0 0.0 0.6 1.1 0.7 0.0 0.0 0.4 0.1 19.4
5-9 9-9 14-5
14.1
2IH
32-7 31.2 2 9 . 6 2 7 . 6 35-2 34-2 3 2 . 7 36.4 38.9 38.4 37-9 36.8
25-7 30.9
0.2 1.8
4-5 8-3
r
29.8
3°
m
60
M
3 -7
32-2
28.5 24.9
26.6
30.9 28.2
20.6
22.6
24.6
26.3
17.9
20.1
22.0
8.5 4-7
10.5
12.5 8.0
31.0
15-8 11.0 6.7
3-3 1.0
13.0
15-2 6.4
3-o
32.3 31-7 29.5
17.2
0.0
0.0
0.2
0.9
1.0
0.4
0.0
0.0
4-3 i-7 0.1
2.0
1.0
0.4
0.0
3-2
1.8
6.4
4.8
3-3
2.1
1.0
12.9
10.8
8.8
5-o
18.0
3-3
15.8
13-5
6.7
18.6
16.0
13-6
24.2
21.5
19.0
23-3 21.1
28.8
26.6
35-6 33-7 31.8 39-7 4 0 . 7 4 0 . 9 4 1 . 0 4 0 . 5 39-7 3 8 . 4 3 6 . 8 39-6 41-3 4 2 . 3 43-1 43-3 43-2 4 2 . 4 41.3 44.2 42.6 40.9 38.4 45-1 45-7 45-6 45-3 36.1 39-3 41.7 4 4 . 0 45-7 4 6 . 9 4 7 . 6 47-8 32.8 29.0 32.9 3 6 . 6 39-7 4 2 . 6 45-0 4 7 . 0 4 8 . 3 49.2 24-5 2 8 . 8 3 2 . 9 36.5 40.1 43-0 45-6 47-7 49-3 19.6 24.0 28.5 32.4 36.4 39-9 43-1 45-6 47-8 22.3 26.8 30.8 17.9 34-9 38.4 4 1 . 7 44-5 4 6 . 8 38.6
3°
1958
23"
11.1
9.0
6.9
11.1 16.1
29-5 2 7 . 0 2 4 . 4 2 1 . 4 34-9 3 2 . 5 30.1 27.1 39-8 37-8 35-4 3 2 . 7
44.2
42.6
47-4 49-4
49.0
40.8
38.4
45-o 43-0 48.3 4 6 . 8 50.2 50.5 50.3 49-4 49-4 5°-4 5 0 . 8 5 0 . 6 49-8 5 0 . 6 5 0 . 6 48.7 46.4
Jan.
1 16
31 Febr. 15 März 2 17 April 1 Mai
16
1
16
31 Juni 15 30 Juli 15 30 Aug. 1 4 29
Sept. 13 28
Okt. Nov. Dez.
13
28 12
27 12 27
32
432»
Polaris 1958 Tafel
S t e r n z e i t
Wahre Zenit-
0" u 12" 0 m 3°m
distanz o IO 12 14 16 18
+ 24'. 6 18.6 14.2 11.0 8.4
20 22 24 26 28 30 32 34 36 38 40 45 50
I-
6.3 4.6 3-2 2.0
+ -
75 80 85
5-9 4-5 3-4 2.6 2.0
4-7 3-6 2.6 1.8 1.1
0.9
o.5 0.0
3-4
i-9
°-5 0.9 1.2 1.6
'•5 1.1 0.8 0.5 0.2 0.0 0.2 0.4 0.5 0.7 '0.8
0.5 Q-4
O. I O. I O. I O. I O.O
0.3 0.2 0.2 0.1 0.0
0.0 O.O O.O O.O 0.0
0.7
0.0 0.0 0.1 0.1 0.1 0.2
O.O O.O O.O O.O O.O 0.0
0.0 0.1 0.2 0.2
O.O O.O O.O O.O O.O
o.5 0.6 0.7 0.7 0.8
0.0 O.O O.O O.O
0.9 0.9 1.0 1.1
4.6
2.6
1.1
0.2
3-1 3-6 4.0
7-9
4-5
i-3 i-5 i-7 i-9
°-3 °-3 0.3 0.4
8.6 9.2
4.8
2.1 2.2
0.4 0.4
2-3 2-5
0.5 0.5
9-8 — 10.3
5-1 5-5 5-8
2 b U. I 4 b | g0m 0 m
1.2 0.9 0.7
5-6 6.4 7-2 -
70
ih u. 1311 j0m | 0m
13-9 10.5 8.0 6.2
O.O 0.8 1.6 2.2 2.8
-
55 60 65
Zenit-
6
distanz
10 12
o
24 26 28 3° 32 34 36 38 40 45 50 55 60 65 70 75 80 85
h
u. 18»
m
3°
7 m
o
b m
h
u I9 30 m
i-9 i-5 1.1 0.9 °-5 0.3 0.2 0.1
°-3 0.4
u
3 Qm
I
Wahre
- 5 | 30111
1.6 1-9 2.2 2-5 2.8 3-° 3-2 3-4 3-6
o
m
7-9 6.0
14-5
25.1 19-3
4.6
7.6
3-3 2.2
5.5
11.0 8.0
14-5 10.6
3-8
5-6
1.4 0.7
2.3 1.1
3-4 1.6
0.0 0.6 1.1 1.6 2.0
0.0 1.0 1.8 2.6
2.2 1.6 1.1 0.7
0.3 0.5 0.8 1.0 1.2
| 3Q
5 m
42.5 32.1 24.6 19.0
17.7
0.3
o
m
29.2 22.0 16.9 13.0 10.0
8.5 6-5 5-0 3-8 2.9
0.0
4h u. 16"
h
13-4 10.3
2.4
3-3 4.0
3-3 4.0 4.6
5-4 6.6 7.6
5-2
8-5 9-4
5-7 6.2 6.6 7.0 7-4
10.1 10.8 1
'-5 12.2
56."3 42.5 32.6
h
Zenit-
u.17"
| 30m 70.1 52.9 40.6 31.2
60m
|
82.'8+ 62.5
10 12
47-9
14 16 18
36.9
23-9
28.3
18.1
21.4+-
7-3 4-5 2. i
13-2 9-1 5-7 2.6
15-6 10.8
0.0
0.0
0.0
1-4 2-7 3-8 4-9 5-8
1-9 3-5 5-i 6.4
2-3 4.4
7-9 9.6 11.1 12.4
10.4 12.7 14.7
13-7 14.8 15-8 16.8 17.8
6-3 8.0 9.6
7-7
13.0
6.7 3-i + 0.0 2.85-2 7-5 9-5 n-3 15.4— 18.8 21.7
15-9 18.3 20.5 22.5
24-3 26.6—
19.6 20.9 22.2
24.4 26.1
28.8 30.8
2 7-7
23-5
29-3
32.7 34-6—
h
b
16.5 18.1
8" u 20 m 3°
Q
h m
9 o
h m
u 2I 3°
distanz
93-6 70.6
101.3 76.6
24 26 28 30 32 34 36 38 40 45 50 55 60 65 70 75 80 85
Wahre h m
h
IO U. 2 2 o
m
b
[ 30m
47-9 36.9 28.3
54-1 41-7 32.0
58.7 45-3 34-7
21.4
24.1 17.7 12.2 7.6
26.2 19.2
+
15-6 10.8
98.9 74.6
89.7 67.7
78.2 59.0
65.0 49.0
47.8
104.9 79.1 60.7 46.7
57-2 44.1
51-9 40.0
36.7
35-8
33-8
30.7
45.3 34-9 26.7
37-6 29.0 22.2
27.7 20.3 14.0 8.7
27.0 19.8
25-5 18.6 12.9 8.0
23.1 16.9
20.2 14.8 10.2
16.8 12.3
106.3 107.3 80.2 81.0 62.1 61.5 47-4 36-3 27.4 20.1
0
m
I I U. 2 3 | jqIII | 6 0 m
Zenitdistanz
51-1 38.5 29-5 22.7 17.4
37-3 28.1 21.6 16.6 12.7
24.6+ 18.6 14.2 11.0 8.4
18
13.2
9.6 7.0
6-3+ 4.6
20 22
4-9 3-o
3-2 2.0 0.9+
24 26 28
0.0 0.8— 1.6 2.2 2.8
30 32
9-7 6.7
3-i
3-5
3-8
13.8 8.6 4.0
4-1
13-7 8-5 4.0
3-7
11-7 7-3 3-4
0.0 — 2.8
0.0
0.0
0.0
0.0
0.0
0.0
0.0
3-i 5-9 8-5 10.8 12.9
3-4 6.4 9.2
3-6 6.7 9.6 12.2 14.6
3-6 6.8
3-5 6.6
3-3 6.2
3-o
0.0 2.6 5-o
9-7 12.3
9-5 12.0 14.4
8.9 "•3 13.6
5-7 8.1 10.3 12.3
0.0 2.2 4.1
7-i 9.0 10.7
5-9 7-5 8-9
19-5 23.8
18.4 22.4
16.7 20.4
25-9 29.0 31.8
23-5 26.3 28.8
25-1
12.1 14.7 17.0 19.1 20.9
9-5 11.6
27.5 30.7 33-7
14.6 17.8 20.5 22.9
36.4 39-o 41.4
34-3 36.8
31.2
27.2 29.1
22.6 24.2
3°-9 32.7
25-7 27.1
17.7 19.0 20.2 21.3
6.7 +
5-2 7-5 9-5 11-3 —15-4 18.8 21.7
17.4 21.3
24-3 —26.6
24-5 27.4 30.1
28.8 30.8
32.5 34-8
32.7 —34-6
37-0 39-i
13-3 8.2
11.7 13-9 18.9 23.0 26.6 29.8 32.6 35-8 37-7 40.1 42.4
19.8 24.1 27.8 31.2
14.7 20.0 24.4 28.1
34-2
3i-5 34-5
36.9 39-5 42.0 44.4
37-3 39-9 42.4 44.8
43-8
39-1 41.3
0
20 22
n
+ 82'.8 62.5
14 16 18 20 22
2.6
h
S t e r n z e i t
Wahre
0
3
33-4 35-4 37-5
6-3 2-9
8-5 5-2 2.4
4-1 1-9
i-4
0.0
0.0
i-7 3-2 4.6
i-3 2.4
5-9 7.0
13-4 15.0 16.4
3-4 4-3 5-i
3-4
10 12 14
16
34 36 38 40
6.9 8-5 9-8 10.9 12.0
4.6-
7-9—
65
13.0
8.6 9.2
70
13-9 14-7 15-6
5-6 6.4 7.2
9-8 10.3-
45 50 55 60
75 80 85
0
Erläuterungen
433*
Besondere Erläuterungen zu den Angaben und zum Gebrauch des Jahrbuches Das Jahrbuch gibt die örter der Planeten in geozentrischen und in heliozentrischen Koordinaten. Die Zeitpunkte, für die sie gelten, sind in Weltzeit ausgedrückt, wenn nicht ausdrücklich eine andere Zeit angegeben wird. — Weltzeit ist identisch mit Bürgerlicher Zeit Greenwich. Der bürgerliche Tag beginnt um Mitternacht, die Weltzeit-Stunden sind von o" bis 24" durchgezählt. Die Beziehung zu der bis zum Jahrgang 1924 (einschließlich) im Jahrbuch verwendeten Mittleren Zeit Greenwich besteht darin, daß der astronomische mittlere Tag erst am Mittag des bürgerlichen Tages, also i2 h nach dessen Anfang beginnt. Somif ist 1925 Jan. 1, o" Weltzeit gleich 1924 Dez. 31, 12" Mittlere Zeit Greenwich. Die örter der Fixsterne sind gegeben als »Mittlere Stetnörter«, bezogen auf das mittlere Äquinoktium des Jahresanfangs, und in Ephemeridenform als »Scheinbare Sternörter«, bezogen auf das jedesmalige wahre Äquinoktium. Zur Erläuterung ist im einzelnen folgendes zu bemerken: Sonnenephemeride (S. 2—29 und 1x6—124). Der erste Teil der Sonnenephemeride (S. 2—19) gibt auf den l i n k e n Seiten für oh Weltzeit an jedem Tage : 1) Die Zeitgleichung = Wahre Zeit minus Mittlere Zeit. 2) Die geozentrischen, äquatorialen Koordinaten a, 0 des scheinbaren Sonnenorts, bezogen auf das jedesmalige wahre Äquinoktium, zugleich mit der ersten Differenzenreihe. Diese Angaben sind direkt mit den Beobachtungen vergleichbar. Die Nutationsglieder kurzer Periode sind, wie im Vorwort erwähnt, in den Koordinaten nicht enthalten. 3) Die halbe Durchgangsdauer (in Sternzeit) der Sonnenscheibe durch den Meridian. 4) Den geozentrischen Halbmesser der Sonnenscheibe, d. i. der Winkel, unter dem der Sonnenhalbmesser vom Erdmittelpunkt aus erscheint. Die r e c h t e n Seiten geben: x) Die Julianische Zeit, d. i. die Anzahl der seit Beginn der Julianischen Periode verflossenen mittleren Sonnentage. 2) Die Sternzeit für oh Weltzeit. In ihr sind, wie im Vorwort erwähnt, nur die langperiodischen Glieder der Nutation enthalten. Um für einen Erdort der westlichen Längendifferenz A X (in Stunden) gegen Greenwich die Sternzeit in seiner mittleren Mitternacht zu erhalten, ist zu diesen Angaben hinzuzulegen: 9^8565 A Diese Werte findet man unter der Überschrift: »Korr. der Sternzeit« im Verzeichnis der Sternwarten. cc
434*
Erläuterungen 3) Die Nutation in Rektaszension getrennt nach langperiodischen und kurzperiodischen Gliedern. 4) Die geozentrischen ekliptikalen Koordinaten X, ß der Sonne, bezogen auf das mittlere Äquinoktium des Jahresanfangs, sowie die Entfernung Ä der Erde von der Sonne. Diese Angaben finden bei Bahnberechnungen u. dergl. Verwendung. 5) Die bürgerlichen Ortszeiten des Aufgangs und Untergangs der Sonne für einen Ort des Nullmeridians in + 50 0 Breite; sie sind mit der Horizontairefraktion 34' berechnet und gelten für den oberen Band der Sonne. Auf S. 20—28 folgen, bezogen auf das mittlere Äquinoktium des Jahresanfangs, die r e c h t w i n k l i g e n , geozentrischen, äquatorialen Sonnenkoordinaten für oh Weltzeit mit ihren ersten und zweiten Differenzen. Die gleichen Koordinaten, jedoch bezogen auf das Normaläquinoktium 1950.0, werden auf S. 116—124 gegeben. Die Werte von X, Y, Z sind auf 6 Dezimalen gegeben. Die Ephemeriden bieten jedoch die Möglichkeit, die Sonnenkoordinaten auch auf 7 Dezimalen zu entnehmen. Zu diesem Zwecke füge man an die sechsstelligen Werte eine Null an und vereinige sie a l g e b r a i s c h mit den Werten von A X, A Y, AZ. Ein ausführliches Beispiel hierfür ist im Jahrgang 1933, S. 362* gegeben. Die gleichen Vorschriften gelten für die auf das Normaläquinoktium 1950.0 bezogenen Sonnenkoordinaten auf S. 116—124. A m Fuß der Seite 28 findet man die Zeiten für die Anfänge der Jahreszeiten und für die Erdnähe und Erdferne der Sonne. Die Seite 29 enthält die Aberration, Parallaxe, mittlere Länge LQ und mittlere Anomalie MQ der Sonne im Intervall von je 10 Tagen. Mondephemeride (S. 30—48). Die Mondephemeride (S. 30—47) gibt auf den l i n k e n Seiten für o" Weltzeit: 1) Die scheinbare Rektaszension und Deklination des Mondmittelpunktes mit den ersten Differenzen. 2) Die Äquatorial-Horizontalparallaxe p' = Kurzperiodische Glieder der Nutation in Länge. s = Mittlere Schiefe der Ekliptik. J s = Langperiodische Glieder der Nutation in Schiefe. A s' = Kurzperiodische Glieder der Nutation in Schiefe. Die Koeffizienten j und k der Formeln auf S. 282*. Die wahre Schiefe erhält man durch Addition der Gesamtnutation (As. + As') zu der mittleren Schiefe. Auf S. 280* findet sich eine Tafel der Hilfsgrößen zur Berechnung der Präzession von verschiedenen mittleren Äquinoktien bis 1958.0. S. 281* enthält eine Tafel der Hilfsgrößen zur Übertragung der Polsternörter von verschiedenen mittleren Äquinoktien auf das mittlere Äquinoktium 1958.0.
Erläuterungen
439*
Auf S. 282* sind die Formeln zusammengestellt, mit welchen bei Anschlußbeobachtungen die gemessenen Koordinatendifferenzen der scheinbaren örter in solche der mittleren ö r t e r für den Jahresanfang übergeführt werden. Die in diesen Formeln auftretenden Koeffizienten j und k sind auf den Seiten 253*—269* enthalten und haben die Bedeutimg j = 15 g arc i" Je = 15 h arc 1', wobei g und h die auf den Seiten 252*—268* gegebenen Reduktionsgrößen sind. S. 283* enthält eine Zusammenstellung der von der abhängenden F a k t o r e n der Formeln auf S. 282*.
Deklination
S. 284* enthält eine T a f e l der numerischen Werte der Funktionen Sinus und Cosinus für in Zeit ausgedrückte Winkel. Ihre Benutzung erleichtert die Berechnung der Formeln auf S. 282*. Die Seite 285* enthält eine Tafel zur Übertragung von Rektaszensions- und Deklinationsdifferenzen vom mittleren Äquinoktium 1958.0 auf das Normaläquinoktium 1950.0. Man findet die auf das Normaläquinoktium 1950.0 bezogene Koordinatendifferenz, indem man an der auf das mittlere Äquinoktium 1958.0 bezogene Rektasz^ffsionsdifferenz die différentielle Präzession A und an der Deklinationsdifferenz die différentielle Präzession A pg anbringt: Afa
= «! tg d• Axm
Apâ" = di-
+
rs aec"'d
" Ad',
Aocm.
Die Koeffizienten alt a2 und di sind in der T a f e l auf S. 285* enthalten und haben die Bedeutung : a,i = (n) arc 1 ' cos oc a 2 - (n) arc 1 ' sin a dj = — 1 5 (w) arc 1 ' sin a. Axm und Ad' sind die auf das mittlere Äquinoktium 1958.0 bezogenen Rektaszensions- und Deklinationsdifferenzen in Zeit- bez. Bogenm inuten. Nach den angegebenen Formeln findet man die différentielle Präzession für Rektaszension in Zeitsekunden, diejenige für Deklination in Bogensekunden. Die auf Seite 286* gegebenen Größen /, log g und G dienen zur Übertragung der ö r t e r von dem mittleren Normaläquinoktium 1950.0 auf das wahre Äquinoktium der Epoche. Die Berücksichtigung des Einflusses der Variatio saecularis bei dieser Übertragung ist durch die Tafeln auf S. 287* gegeben. Eine Tafel zur Übertragung von Sternörtern v o m mittleren Äquinoktium 1958.0 auf das Normaläquinoktium 1950.0 befindet sich auf den Seiten 288*—290*. Die hier tabulierten Größen sind gerechnet nach den Formeln : A - - («•) sin a D = («") cos a B = (m*) — 0.00001818 (n s ) 2 sin 2 a AC = arc tg C—C; C = A tg (i 19S g. 0 + D) P = — 15 tg •&• ; tg ^ = sin («) sin o tg {dI9sS.0+ D) a
= «1958.0 + 9 0 ° —
W
Erläuterungen Wegen der Größen (m), (n), (N) vgl. S. [5] der ,, Grund begriffe der Sphärischen Astronomie" im Jahrbuch für 1916. Falls die auf S. 290* gegebene Tafel für AC und P nicht ausreicht, berechne man die Größen nacl den vorstehend gegebenen Formeln oder benutze die weiterreichende Tafel in Veröff. d. Astronom. Rechen-Instituts Nr. 49. Sonnen- und Mondfinsternisse (S. 292*—299*). Bei der Berechnung der Finsternisse des Jahres 1958 sind die örter von Sonne und Mond um folgende Beträge verbessert worden: Mond
Sonne 1958 April 19 Mai 3 Okt. 12
AI
Ax
+ *-39 + 1.38 + 1 41
+ 1.32 + 1.36 + 1.31
AB
A\
—2.70 -3-39 - 3 46
+ 0.50
+ 0.42 -o-53
A$ tt
—0.20 -0.26 -0.80 -0.81
Act. "
—2 40 48 -359 - 3 54
AS
—1.20 +027 +0.57
Die bei den Sonnenfinsternissen gegebenen B e s s e i s c h e n E l e m e n t e dienen in der folgenden Weise zur Vorausberechnung der Phasenzeiten und der Positionswinkel der Kontakte: Mit einer Ausgangszeit T (siehe weiter unten) entnimmt man der Elemententabelle die Werte: x, y, log sin d, log cos d, fi, l für äußere, l(i) für innere Berührung), log tang / für äußere, /(i) für innere Berührung), x' und y'. Mit ihnen rechnet man das folgende Formelsystem durch: S = c cos cp sin (¡a — X) 7] = s sin cp cos d —c cos cp sin d cos (¡1 — X) (1) C = « sin cp sin d + c cos cp cos d cos (;j. — X) X = [7.6398—10] c cos cp cos (¡1 — X) V = [7-6398—10] 1 sin d, worin cp die geographische Breite, X die westliche Länge (von Greenwich) des Beobachtungsortes bezeichnen, s und c aus der Tafel auf S. 405* zu entnehmen sind. Alsdann: (2)
m sin M =
x — ;
m cos M =
y — ^
n sin
N =
n cos N =
m > o
x' — X' \ y' — rt')
> o
M
Nun berechnet man aus: ( ) L = l - C tang / mit ¿ und /> - 0 . 5 4 5 9 worin L ( a ) und m die zur Zeit T ^ gehörigen Werte bedeuten.
Sternbedeckungen (S. 297*—306*). Die Seiten 297* bis 300* enthalten die Elemente von Stern- und Planetenbedeckungen durch den Mond, welche in dem Gebiet zwischen den Meridianen oh und 2h östlicher Länge von Greenwich und den Breitenkreisen + 4 5 0 und + 5 5 ° sichtbar sind. Mit den in der Zusammenstellung der Elemente gegebenen Werten geschieht die Berechnung der Berührungszeiten eines Sternes mit dem
441*
442 •
Erläuterungen Mondrand für einen Ort mit den geographischen Koordinaten 9 und X (X positiv, wenn der Beobachtungsort westlich von Greenwich liegt) auf folgende Weise: Alis der auf den Seiten 297* bis 300* enthaltenen Weltzeit T der geozentrischen Konjunktion von Mond und Stern findet man einen ausreichenden Näherungswert T + t der Weltzeit der topozentriachen Konjunktion durch Berechnung der Größen: h0=H-X 50 = c cos 9 sin ha (c und später s aus der Tafel auf Seite 405*) —-• [9.4192 — 10] c cos 9 cos - h0 5
< =•
x'-i' t ergibt sich in Stunden mittlerer Zeit. Das Vorzeichen entspricht dem von ÄQ. Für die Zeit T + t berechne man die folgenden Größen, in denen