Berliner
A s tr o n o m is c h e s Jahrbuch
fü r
1 9 1 9
1 4 4 . J a h r g a n g
H erausgegeU en
von dem
K ö n i g l i c h e n A s t r o n o m i s c h e n R e c h e n - I n s t i t u t
ZU
‘B e r l i n
B e r l i n
F e ld . D iim m lers VerESgsliüchhandliing_
(Konimissionsveilttg)
Berliner
A stronom isches J ah rb u ch
f ü r
1 9 1 9
1 4 4 . J a h r g a n g
H e r a u s g e g e b e n
von dem
K ön i g li ch en A s t r o n o m i s c h e n R e c h e n -I n s ti tu t
B e r l i n
B ib lio t e k a J a g ie l lo r t s k a
1001
B e r l i n
F e r d . D ü in m le rs V e r la g s b u c h h a n d lu n g
( K om m issionsverlag)1 9 1 7
B ib i. la g le K . 1
.J12 C E
1001966955
K ö n ig lic h e s A s tro n o m is c h e s R e c h e n - I n s t it u t
B e r lin - D a h le m , A lte n s t e in S tr.40
D ir e k t o r : P r o f . D r . F . C o h n , G e h . R e g ie r u n g s r a t O b s e r v a t o r e n : F . K . G i n z e l , P r o f e s s o r
D r . A . B e r b e r i c h , P r o fe s s o r D r . J . P e t e r s , P r o f e s s o r D r . J . R i e m , P r o f e s s o r D r . A . S t i c h t e n o t h D r . H . C l e m e n s D r . P . V . N e u g e b a u e r H ilfs a r b e it e r : D r . G . S t r a c k e
M ita r b e ite r : D r . P . N e u g e b a u e r , P r o fe s s o r
B ib lio te k a J a g ie llo r is k a
1 0 0 1 9 6 5 6 7 8
1001965678
V o r w o r t
V o m J a h r g a n g 1 9 1 6 a n 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 , a u f d e n a l l e A n g a b e n d e s J a h r b u c h s b e z o g e n s i n d , d e r M e r i d i a n v o n G r e e n w i c h . D ie Z e ita n g a b e n sind in M ittle re r Z e it G r e e n w ic h , die K u lm in a tio n s-P h ä n o m e n e fü r die K u lm in a tio n im M erid ian vo n G re e n w ich ge g e b e n .
D i e G r u n d l a g e n d e s B e r l i n e r A s t r o n o m i s c h e n J a h r b u c h s b i l d e n :
F ü r di e S o n n e und di e g r o ß e n P l a n e t e n :
D ie T a fe ln von N e w c o m b und (fü r J u p ite r und S a tu rn ) von H i l l , en th alten in :
Astronomical Papers o f the Am erican Epliemeris,
V o l. V I , P a r t I — I V :
Tables o f the fo u r inner planets,V o l. V I I , P a r t I — I V :
Tables o f Jupiter, Saturn,Uranus, Neptune.
A ls S o n n e n h a lb m e sse r in der m ittleren E n tfe rn u n g ist n ach A u w e r s a n g e n o m m e n :
R = 15 ' 59".63.F ü r den M o n d :
Tables de la lune von P . A. H a n s e n , u n ter V e rb e s s e ru n g
d er T a fe l 34 fü r das F u n d a m e n ta la rg u m e n t n a ch N e w c o m b . A u ß e rd e m en th alten die M o n d ö rte r d ie em p irisch en K o rre k tio n e n vo n N e w c o m b n a c h : » C o rre ctio u s to H a n se n ’s ta b le s o f th e M0011«
(W a s h in g to n , 18 7 8 ).
M ittle re M o n d p a ra lla x e n ach H a n s e n 5 7 '2 " .2 7 .
D e r g e o ze n trisch e M o n d h a lb m e sse r ist aus der Ä q u a to r ia l- H o riz o n ta lp a ra lla x e g e re c h n e t n ach der F o r m e l
r s = 0 .2 7250 6 -+- i ”.5 o
A ls N e ig u n g des M o n d ä q u a to rs g e g e n die E k lip t ik ist nach
F . H a y n ( A . N . 199, 2 6 3 ) a n g e n o m m e n :
J = i° 3 2 '2 o " .T V
F ü r die F i x s t e r n e :
N e u e r F u n d a m e n ta lk a ta lo g des B e rlin e r A stro n o m isch en J a h rb u ch s n ach den G r u n d la g e n von A . A u w e r s , fü r die E p o c h e n 1 87 5 u n d 1900 b e a rb e ite t von D r . J . P e t e r s (V e rö ffe n tlich u n g N r. 33 des K ö n ig lic h e n A stro n o m isch e n R e ch e n -In s titu ts ).
D ie S te r n s p e k tr a sind d er » R e vise d H a r v a rd P h o to m e try (H a rv a rd A n n a ls , vo l. 5°)« en tn om m en .
A ls W e r t e d er fu n d a m en ta len R e d u k t i o n s g r ö ß e n sin d a n g e n o m m e n :
D ie P r ä z e s s i o n s - G r ö ß e n n ach S . N e w c o m b (v g l. H . A n d o y e r , B u ll. A s tr. 2 8 , 67)
D ie N u t a t i o n s - K o n s t a n t e . . . . 9".21 D ie N u t a t i o n s - G r ö ß e n n ach S . N e w c o m b
(B u ll. A s tr. 15, 2 4 1 )
D ie A b e r r a t i o n s - K o n s t a n t e . . . . 20 ".47 D ie S o n n e n - P a r a l l a x e ... 8”.80 D ie A b p l a t t u n g d e r E r d e . . . 1 : 2 9 7 . 0 F ü r di e S a t e l l i t e n :
D ie A n g a b e n ü b er die 4 ä lteren J u p i t e r s t r a b a n t e n b eru h en a u f den neuen T a fe ln von R . A . S a m p s o n
(Tab/es 0f t/ie fo u r great SateUites 0/ Jupiter.L o n d o n 1 9 1 0 ) , die A n g a b e n über d ie 8 älteren S a t u r n s S a t e l l i t e n a u f den v o n H. S t r u v e e rm itte lten W e rte n (N ä h e re s s. E rlä u te ru n g e n ).
In allen E p h em e rid en der S o n n e , d er P la n e te n u n d d er F i x stern e sin d die k u rz p e rio d is ch e n , von der M o n d län ge a b h ä n g ig e n N u ta tio n s g lie d e r w e g g e la s s e n ; doch b ie tet das J a h rb u c h d ie M ö g lic h k e it , au ch diese w e g g e la sse n e n G lie d e r zu b e rü ck sich tig e n (s. E r-läu teru ngen).
D e r In h a lt des J a h rb u ch s h a t g e g e n das V o rja h r nur g a n z g e r in g fü g ig e Ä n d e r u n g e n erfah ren. B e z ü g lic h d er Z a h le n g r u n d la g e n sei a u f die im B e r lin e r J a h rb u ch fü r 1 9 1 6 g e g e b e n e D a r s te llu n g der
» G ru n d b e g riffe der S p h ä risc h e n A stro n o m ie« h in g e w ie se u , von der S o n d e ra b d rü c k e a u f W u n s c h d urch das A s tro n o m isc h e R e ch e n - In stitu t, B e r lin - D a h le m , zu erh alten sind.
D ie b ish er als A n h a n g des J a h rb u ch s g e g e b e n e n B ah n elem e n te und O p p o s itio n s -E p h e m e rid e n d er K le in e n P la n e te n ersch ein en von je tzt au als b eson d ere V e rö ffe n tlic h u n g des R e c h e n - In s titu ts .
F r i t z C o h n .
I n h a l t
Seite V o r w o r t ...TU Zeit- und F e s t r e c h n u n g ... VI
S o n n en ep h em erid e... 2
Rechtw inklige S o n n e n k o o r d i n a t e n ... 20
M on dph asen ... 39
Mondephpmeride . 40 M ondbewegung und Lage des M o n d ä q u a t o r s ...
5
^Ephemeride des Mondkraters Mösting A ...
59
Geozentrische Orter der großen P l a n e t e n ... 64
Heliozentrische Orter der großen Planeten ...109
Mittlere Örter von 925 F i x s t e r n e n ... 1 1 4 Scheinbare Örter von 555 Z e i t s t e r n e n ... 138
Scheinbare Örter von 9 nördlichen P o ls t e r n e n ...278
Scheinbare Örter von 9 südlichen P o l s t e r n e n ... 308
Form eln für die Reduktion auf den scheinbaren O r t ... 338
Hilfsgrößen zur B erechnung der Präzession und der Reduktion auf den scheinbaren O r t ...
339
F in s te r n is s e ...
37
6 S te r n b e d e c k u n g e n ...3^2
Verfinsterungen der J u p it e r s t r a b a n t e n ... 386Saturn und S a t u r n s r i n g ...388
Erscheinungen der S a t u r n s t r a b a n t e n ... 392
K o n ste lla tio n e n ...4 17 H i l f s t a f e l n ...418
Koordinaten der S te r n w a r te n ...436
Normalzeiten der w ichtigeren L ä n d e r ... 444
Erläuterungen zu den Angaben und zum Gebrauch des Jahrbuchs . . . 445
B e r ic h t ig u n g e n ... 459
Alphabetisches S a c h r e g i s t e r ...460
V I
Z e i t - u n d F e s t r e c h n u n g 1 9 1 9
Das Jahr 19 19 entspricht dem
Jahr 6632 der Julianischen Periode und dem Jahr 7427 — 7428 der Byzantinischen A ra
G r e g o ria n is c h e r od er J u lia n isch e r od er A lt e r K a le n d e r N e u e r K a le n d e r
T a g im Julianischen K alender
Tag im Greogoria nischen K alender Septuagesima 16. Febr. Septuagesim a 3. Febr. 16. Febr.
Aschermittwoch 5. März Ascherwittwoch 20. Febr. 5. März I. Quatember 12. März I. Quatember 27. F'ebr. 12. März Ostersonntag 20. April Ostersonntag 7. A pril 20. April
Himmelfahrt 29. Mai Himmelfahrt 16. Mai 29. Mai •
Pfingstsonntag 8. Juni Pfingstsonntag 26. Mai 8. Juni II. Quatember 11. Juni II. Quatember 29. Mai 1 1 . Juni III. Quatember 17. Sept. III. Quatember 18. Sept. 1. Okt.
I. Advent 30. Nov. I. Advent 1. Dez. 14. Dez.
IV. Quatember 17 . Dez. IV . Quatember 18. Dez. 31. Dez.
K a l e n d e r d e r M o h a m m e d a n e r 1337
(Gemeinjahr)ß e b i-e l-a c c h e r 1 ... 1919 Jan. 4 D sch em äd i-el-aw w el I ...» Febr. 2 D sch em äd i-el-acch cr 1 ... » März 4 ltedscheb I ... » April 2 Schabän
I
... » Mai 2 ltam adäuI
... » Mai 31 Schewwäl I ... » Juni 30 Dsü ’l-k a d e I ... » Juli 29 Dsii ’l-hedsche 1 ... » A u g . 281338 (Schaltjahr)
Moharrem
I
... 1919 Sept. 26 Safar I ... » Okt. 26 Rebi - el - awwel x ... » Nov. 24R e b i-el-acch er 1 » Dez. 24
K a l e n d e r d e r J u d e n
5 6 7 9 (A b g e k ü rz te s S ch altjah r)
Schebat 1 ...
2
Adar I » Febr 1
14
K lein P u r i m ...14
Yeadar 1
3
XI F a s t e n - E s t h e r ... » 13 14 P u r im ... 16
iS Schuschan - Purim . . . .
17
Nisan 1 1
15 P a s s a h - A n fa n g * ... » iS 16 Zweites F e s t * ... 16
21 Siebentes F est* • . . . . 21
22 Achtes Fest* ... 22
Tjar 1 I
18 L a g - B ’o m e r ... 18
Sivau 1 30
6 W o c h e n fe s t * ...
4 7
Zweites F e s t * ...3
Tham uz 1 29
17 Fasten. Tem peleroberung . » Juli 15
Ab 1 28
9
Fasten. Tem pelverbrennung . » Aug.5
Elul 1 27
5680 (O rd en tlich es G em einjahr)
Tischri 1 N e u j a h r s f e s t * ... 19 19 Sept. 25 2 Zweites Fest * ... » 26
4
F a s te n -G e d a lja h ... » 28 10 Y ersöhnungsfest * ... » Okt.4 15
Laubhüttenfest * ... »9
16 Zweites Fest * ... » 10 21 P a l m e n f e s t ... » iS 22 Versam m lung oder Laubhüttenende* . » 16 23 Gesetzesfreude * ... »17
Marcheschwan 1 » 2S
K islev 1 » Nov.
23
25
T e m p e lw e ih e ... » Dez.17
Tebet 1 » 23
Die m it v b ezeich n eten F e s tta g e w e r d e n s tr e n g g e le ie r t
vni
Astronomische Zeichen und Abkürzungen
B ezeichnung A dspekten
der
d K o n ju n k tio nW ochentage □ Q u a d ra tu r
O S o n n ta g ■ f* O p p o sitio n d M o n ta g
c? D ie n s ta g Mondphasen
5 M ittw o c h • N eu m on d
4 D o n n e rs ta g © E rste s V ie r te l
? F r e ita g O V o llm o n d h S o n n a b e n d 3 L e tz te s V ie rte l
Q> A u fs te ig e n d e r
? K n n fp n
13 N ie d e rste ig e n d e r
1 iiUULCUZ e i c h e n
des Tierkreises und der Himmelskörper
V W id d e r . . .
oG ra d
'ö' S t i e r ... 30 » 0 S o n n e XE Z w illin g e . . 60 » d M o n d K r e b s . . . . 90 » $ M e rk u r O L ö w e . . . . 120 » ? V e n u s 'V J u n g fra u . . 150 » S E r d e
W a g e . . . . 180 »
d M ars1Tl S k o rp io n . . 210 » J u p ite r
-jt S c h ü tz e . . . 240 » t? S a tu rn
& S te in b o c k . . 270
»
§ U ra n u siC W a sse rm a n n 300 » V N e p tu n
K F is c h e . . . 330 »
Sonne, Mond, Große Planeten
1919
2
Sonne 1919
Mittlere Zeit Greenwich
Zeitgleicliung M ittle re Z e it minus
W a h re Z eit
Scheinbare Rektaszension
Scheinbare Deklination
Halbe Durch
gangs- : Dauer \ S t.-Z t.
Ilalb-
i g i g
J a n . o.o
1.0 2.0 3.0 4.0 5.0 6.0 7.0 8.0 9.0 10.0 11.0 12.0 13.0 14.0 15.0 16.0 17.0 18.0 19.0 20.0 21.0 22.0 23.0 24.0 25.0 26.0 27.0 28.0 29.0 30.0
31-0 F e b r. i.o
2.0 3.0 4.0 5.0 6.0 7.0 8.0 9.0 10.0
Di Mi Do F r Sa St Mo Di Mi Do F r Sa St Mo Di Mi Do F r Sa St Mo Di Mi Do F r Sa St Mo Di Mi Do F r Sa St
Mo
Di Mi Do Fr Sa St Mo+ 2
5°-27
28:823
l9-°9 2S, 53 347-62 28_2o
4 15.82 4 43-65 5 n .0 95 38-°9
27.8 3
2 7.4 4
2J.00
6 4 .62 t 53 6 30.66 26’°4 6
56
-x7 : 55 7 2 1.1324-39 7 4 5-52 2 3 .8o
® 9-32 g
8 32.50
O 2 2 .5 4
3 5 - ° 4 2 l g
9 i 6 -93 9 38.16
o 20*55 9
5 8 - 7 119.86
+ 1 0 1 8 . 5 7 10 37.72 10 56.16 1 1 1 3 .8 7
19.15 18.44
I7-7I 16 .98
1 1
3°-85 l6, 2
1 1 47.07 + 1 2 2.54 12 17.24 12 3 1.16 12 44.29 12 56.64 13 8.18 + 1 3 18.92
13 28.85
I 3 37-95
13 46.24 13 53.70 14 0.32 + 1 4 6.1214 11.08 14 15.21 14 18.52 14 21.02 14 22.70
15-47
14 .7 0 13 .9 2 1 3 .1 3
12-35
1 1 .5 4 10 .7 4
9-93 9 .10 . 8.29 7 .4 6
6.62 5.80
4.9 6 4 .1 3
3-31 2 .5 0 1 .6 8
18 39 14.78 18 43 40.17 18 48 5.26 18 52 30.01 18 56 54.40 19 I 18.39 19 5 41.95 19 10 5.04 19 14 27.64 19 18 49.71 19 23 11.23 19 27 32.17 19 31 52.53 19 36 12.26 19 40 31.36 19 44 49.81 19 49 7.60 19 53 24.70 19 57 4 1.12 20 1 56.83 20 6 11.83 20 10 26.10 20 14 39.63 20 18 52.41 20 23 4.43 20 27 15.68 20 31 26.16 20
35 35-85
20 39 44.75 20 43 52.85 20 48 0.15 20 52 6.63 20 56 12.29 21 o 17 .13 2 1 4 2 1.15 21 8 24.33 2 1 12 26.68 2 1 16 28.20 21 20 28.89 21 24 28.75 21 28 27.80 21 32 26.034 25-39 4 25-09 4 24-75 4 24-39 4 23-99 4 23-56 4 23-09 4 12 .6 0 4 22 .07 4 2 1 .5 2
4 20.94 4 20.36
4 !9-73 4 1 9 .1 0
4 18 .45
4 17-79 4 1 7 .1 0
4 16 .4 2
4 I5-7I 4 15 .0 0
4 14-27 4 13-53 4 1 2 .7 8 4 12 .0 2
4 11-2 5 4 10.48
4 9-69 4 8-9° 4 8 .10
4 7-3° 6.48
5 .6 6 4.84 4.02 3 .1 8
2-35 4 1-5 2 4 0 .69
359-86 3 59-05 3 58-23
-2 3 8 32.I 23 4 9.2 22 59 18.6 22 54 0.5 22 48 15.O 22 42 2.4 -2 2 35 22.9
22 28 16.6 22 20 43.7 22 12 44.6 22 4 19.4 21 55 28.3 - 2 1 46 I I .7
21 36 29.8 21 26 22-9 21 15 51.2 21 4 55-0 20 53 34.6 -2 0 4 1 50.4 20 29 42.5 20 17 II.4 20 4 17.3 19 51 0.7 19 37 21.8 - 1 9 23 21.0
19 8 58.7 18 54 15.2 18 39 11.0 18 23 46.4 18 8 1.8 - 1 7 51 57.7
17 35 34.4 17 18 52.4 17 1 52.0 16 44 33.8 16 26 58.2 - 1 6 9 5.5 15 50 56.2 15 32 30.7
*5
1349-5
14 54 52.9 14 35 41.44 2 1-9 4 50-6 5 1 8 .1
5 45-5 6 1 2 .6 6 3 9 .5
7 6 .3
7 34-9 7 59- i 8 2 5 .2 8 5 1 . 1 9 1 6 .6
9 4i-9 o 6 .9 0 3 1 .7 0 5 6 .2 1 20.4 1 44 .2
2 7 .9 2 3 1 .1 2 5 4 .1 3 1 6 .6
338-9 4 0.8
4 2 2.3
4 43-5 5 4-2 5 14-6 54 4-6 6 4 .1
6 2 3.3 6 42 .0
7 0-4 7 18 .2
735-6 752 -7 8 9-3 8 2 5 .5 8 4 1 .2 8 5 6 .6
9 ” -5 70.98 70.94 70 .0 0 ' 70.85 70.80:
7°-74
70.68 70.627
o-55
70.48 70.417°-33
70.25 70 .17 70.08 69.99 69.90 69.81 69.71 69.61 69 .5!69.41 69.31 69.20 69.09 .68.98 68.87 I 68.76 ! 68.65 j 68.54 68.42 68.31 68.19 68.08 67.96 67.85 67.73 67.62 67.51 67.39 67.28 67.1:7
15.91 1:5.92 15.92 15.92 15.92 J
5
-92
6 15.91 6 15.89 6 15.87 6 15.85 6 15.82 6 15.78 6 15.74 6 15.70 6 15.64 6 15.59 6 15.52 6 15.45 6 15.38 6 15.29 6 15.20 6 1 5 .1 1 6 15.01 6 14.90 6 14.79 6 14.68 6 14.566 14-43
6 14.30 6 14.18 6 14.05 6 13.91 6 13.77 6 13.62 6 13.48 6 13.33 6 13.18 6 13.02 6 12.87 6 12.71 6 12.53 6 12.37«CD O 1' m i t t l e r e Z e i t G r e e n w i c h Unter
gang . +
5
° m o ‘A u f
gang Breite Länge
T ag C
*“2
Steinzeit Mittleres Äquinoktium Länge
I9I9.O
Breite log Ii 1919
J a n . 0 242
J959
l8h m s
36 24.52 279 0 58.8 61 10.7 61 10.7 61 10.8
— 0.04 9.992 6957
39
*3
6h
4
m
7
h m
!9 59
1 i960 l8 40 21.08 280 2 9.5 4-0.09 9.992 6918
4
8 1959
2 1961 18
44
*7-63
281 3 20.24
-0.22
9.992 68954 9
1959 3
1962 18 48 14 .19 282 4 31.061 10.7 61 10.5 61 10.2
+ 0 .3 3 9.992 6889 I I
4
10 19 584
1963 l8 52 10.75 283 5 4 1.7 + 0 .4 1 9.992 6900 284
1 1 19 585
1964 185
67
-3
1 284 6 52.2 + 0 .4 8 9.992 692845 4
12 19 58 6 1965!9
0 3.86 285 8 2.4 61 9.8 + 0 .5 0 9.992 697364
4 13
19 587
1966 l 9 4 0.42 286 9 12.2 61 9.361 8.9
+ 0 .4 9 9.992 7037
84
4 15
1957
8 1967 197
56-98 287 10 21.5 + 0 .4 5 9.992 712 1106
4
16 1957 9
1968!9
n53-54
288 11 30.461 8.3 + 0 .3 9 9.992 7227
127
4 17
1957
10 1969 19 15 50.09 289 12 38.761 7.7 61 7.2
H-0.30 9.992 7354 x
5
2 1774
18 19 56 11 1970!9
19 46.65 290 13 46.4 -l-o. 18 9.992 75064
20 19 56 12 19 71J9
23 43.21 291 14 53.661 6.4 + 0 .0 4 9.992 7683
204
4
21 1955 J 3
1972J9
27 39.77 292 16 0.0 61 5.961
5-3
6l 4.8— 0.10 9.992 7887 231 259 287
4
22 1954
14 ! 97
3 29 31 36.32293
1 75-9
— 0.24 9.992 81184
24 1954
15 1974J 9
35 32.88 294 18 11.2 - 0 . 3 5 9.992 8377.4 25
1953
16I 975 J9
39 29.44 295 19 16.061 4.3 61 3.9
— 0.46 9.992 8664 / 316 343
4
27 1952
*7
1976 19 43 26.00 296 20 20.3 - 0 . 5 4 9.992 89804
28 19 51 18 1977!9 47 22-55
297 21 24.261 3.3 6l 2.9 6l 2.5
— 0.60 9.992 9323 371 397
4
30 19 50!9
1978*9
51 19 .11 298 22 27.5 — 0.63 9.992 96944 3
i 19 49 20I 979 !9 55
15-67 299 23 30.4 — 0.63 9.993 0091422
4 33
194
8 21 1980 19 59 12.22 300 24 32.96l 2.0 — 0.61 9 .9 9 3 0 513
445
4694 34
19 47 22 1981 20 3 8.783
° i 2534-9
61 1.6 — 0.56 9.993 09584
36 1946
23 1982 207 5-34
302 26 36.561 1.0 - 0 . 4 9 9.993 1427 * 7
490
4
38 1945
24 1983 20 11 1.893°3
2737-5
61 0.6 - 0 . 3 9 9.993 19 1 7511 530 348
4 39
19 4425
1984 20 14 58.45 304 28 38.160 59.9 60 59.4 60 58.6
— 0.28 9.993 2428
4 4
i 19 43 26 1985 20 18 55.003°5
293
8-0 — 0.16 9.993 29584 42
19 42 27 1986 20 22 51.56 306 30 37.4 - 0 .0 3 9.993 3506566
4 44
19 41 28 i9 87
20 26 48.12 307 31 36.060 ^7.Q + 0 .1 0 9.993 4072
582
4
46 1939
29 1988 20 30 44.67 308 32 33-9 j / 760 57.I + 0 .2 2 9.993 4654
596
4 47
19 38 30 1989 2034
41-233°9 33 3
1 -0 60 56.2 + 0 .3 3 9.993 5250610
4 49
19 37 31 I99
° 20 38 37.78 310 34 27.260 + 0 .4 2 9.993 5860 623 637
4 5
ir9 35 F e b r. i
1991 2042 34-34
3 11 35 22.3 J J60 54.I + 0 .4 8 9.993 6483
4 53
19 34 2 1992 20 46 30.90 3 12 36 16.460 52.9 + 0 .5 2 9.993 7120
649
4 54
19 323 ! 993
20 50 27.453
i3 37 9-3
60 5I.5 + 0 .5 2 9.993 7769663
4 56 29 32 4 I994
20 54 24.01 3 14 38 0.860 50.I +
0-49
9.993 8432677
4 5
8 19 295
6
1995
199620 21
58 20.56 2 17 .12
315 38 50.9
3 j 6 39 39-6
60 48.7 60 47.I
- H M
3
+ 0 .3 59.993 9109
9-993 9
8° i692 708
4 5
59
119 28 19 26
7
1997 21 6 13.67 317 40 26.760 45.6 -i-0.24 9.9940509
726
5 3
29 25 8 1998 21 10 10.23 318 4 1 12.360
44.0
+ 0 .1 1 9.994 1235745
765
5 4
29 239
1999 21 14 6.78 3 19 41 56.360 42.3 — 0.02 9.994 1980
5
6 19 21 10 2000 21 18 3.34 320 42 38.6 - 0 . 1 5 9.994 27455
81*
19 20
4 Sonne 1919
Mittlere Zeit Greenwich
Zeitgleichung M ittlere Z e it minus
W a h re Z eit
Scheinbare Rektaszension
Scheinbare Deklination
Halbe Durch-1 gangs-
Dauer S t.-Z t.
Halb-
191g
F e b r . io.o
11.0 12.0 13.0 14.0 15.0 IÖ.O 17.0 18.0 19.0 20.0 2 1 .0 22.0 23.0 24.0 25.0 26.0 27.0 28.0 M ä r z 1.0
2.0 3.0 4.0 5.0
„ : 6.0
• 7-o
8.0 9.0 10.0 11.0 12.0 . 13.014.0 i
5
-o . 16.0 17.0 18.0 19.0 20.0 21.0 . . 22.023.0 Mo Di Mi Do Fr Sa St Mo Di
Mi
Do F r Sa St Mo Di Mi Do F r Sa St Mo Di Mi Do Fr Sa St MoDi
Mi Do Fr Sa St Mo Di Mi Do Fr Sa St4 -1 4 22.70 14 23.58 14 23.67 14 22.99 14 21.54 14 19.35 + 1 4 16.42
14 12.78 14 8.43 14 3.40 13 57.70 13 51.34 + 1 3
44-34
13 36.71 13 28.48 13 19.66 13 10.26 13 0.30 + 1 2 49.80
12 38.76
0.88 0.09 o768 i-45 2 .1 9
2.93
3-64 4-35
5-03
5 .7 0 6 .3 6 7.0 0
7-63 8 .23 8.82 9.40 9 .9 6
IO.5O
II.O 4
“ •55
12 27
-a i xz.06 12 15 .15 12 2.6oI I 49.57 36.08
12 .5 5 13 .0 3
x3-49
+ 11
I I 22.15 I I 7.79 10 53.02 10 37.85 10 22.32 + 1 0 6.45
9 5°-25 9 33-74
9 16.96 8 59.92 8 42.6513 .9 3 1 4 .3 6
+ 7 7 I
5-I7
I5-53
1 5 .8 7
16 .20
1 6 .5 1 1 6 .7 8 17 .0 4 1 7 .2 7
•7-47 + 8 25‘ 1 8 1 7 .6 6 8
7-52
j 7.g27 49
-7
° I7.957
V ' l l 18.077 *3-68 l8.l6
6 55.5221 32 26.03 21 36 23.47 21 40 20.12 21 44 15.99 21 48 11 .1 0 21 52 5.46 2 1 55 59.08 21 59 51.99 22 3 44.20 22 7 35.72 22 1 1 26.57 22 15 16 .77 22 19 6.32 22 22 55.25 22 26 43.57 22 30 31.30 22 34 18.46 22 38 5.05 22 41 51.10 22 45 36.62 22 49 21.62 22 53 6 .11 22 56 50.11 23 o 33.64 23 4 16.70 23 7 59.32 23 11 4 1.5 1 23 15 23.30 23 19 4.69 23 22 45.71 23 26 26.38 23 30 6.73 23 33 46.78 23 37 26.55 23 4 1 6.07
23 44 45-35
23 48 24.43 235
23-33 23 55
42.o6 23 59 20.66 o 2 59.14 o 6 37.533 57-44 3 56-65 3 55-87 3 55-”
3 54-36 3 53-62 3 52+ 3 52-21 3 5I-52 3 5°-85 3 5°-2o 3 49-55 3 48.93 3 48-32 3 47-73 3 47-16 3 46-59 3 46-05 3 45-52 3 45-°°
3 44 49 3 44-00 3 43-53 3 43-06
3 42.62
3 42.19 3 41-79 3 41.39
3 4 1.0 2
3 40-67 3 40-35 3 40-05 3 39-77 3 39-52 3 39-28 3 39-o8 3 38-9° 3 38-73 3 38-60 3 38-48 3 38-39
-14 35 41.4 14 16 15.3 13 56 35.1 13 36 4 1.1 13 16 33.8 12 56 13.5 - 1 2 35 40.6 12 14 55.6 I I 53 58.7 I I 32 50.5 I I I I 31.4 10 50 1.6 -1 0 28 2 1.7
10 6 32.1
9 44 33
-1 9 22 25.1 9 o 8.7 8 37 44.2 - 8 15 11.97 5
232-4
7 29 46.0 7 6 53.3 6 43 54.6 6 20 50.3 -5 57 40-8
5 34 26.6 5 1 1 8.0
4 47 45-4
4 24 19.2 4 o 49.837 17-5
13 42.7 50 5.8 26 27.0 2 46.839 5-5
15 23.4 51 40.927 58 -3
4 16.0 19 25.643
6.21 9 2 6 .1 1 9 40.2
19 5 4 .0
20 7 .3 20 20.3 20 3 2 .9
20 4 5 .0 20 5 6 .9 2 1 8.2
2 1 1 9 .1 2 1 29.8 2 1 39 .9
2 1 4 9 .6
2 1 59.0 22 8.0 22 1 6 .4
22 24.5 22 32 .3
22 39 .5 22 46 .4
22 5 2 .7 22 5 8 .7
23 4-3 23 9 .5
23 14 .2 23 18 .6
23 2 2 .6 23 2 6.2 23 2 9.4 23 32.3
*334-8 23 36 .9 23 38.8 23 40.2
2 3 4>-3 23 4 2 .1
23
42-5
23 4 2 .6
23 42.3
23 4 1 .6
2 3 40 .6
6 7 .17 67.06 66.95 66.84 66.73 66.63 66.52 66.4a 66.32
66.22
66.12 66.03 65.93 65.84 65-75
65.66 65.58 65.50Ö5-42
65.34 65.26 65.19 65.12 65.05 64.99 64.93 64.87 64.82 64.77 64.72 64.67 64.62 64.58 64.54 64.51 64.48 64.45 64.42 64.40 64.38 64.36 64.346 12.37 6 12.19 6 12.01 6 i i .8 a 6 11.6 4 6 11.4 4 6 11.2 4 6 11.0 4 6 10.82 6 10.61 6 10.40 10 .17
9-95
9.729-49
9.26 9.02 8.788-54
8.31 8.06 7.82 7.587-33
6 7.09 6 6.85 6 6.60 6 6.35 6 6.10 6 5.85 6 5.59 65-33
6 5.07 6 4.81 6 4.54 6 4.27 6 4.013-74
3.46 3.18 2.90 2.6360es
SH
Oh m i t t l e r e Z e i t G r e e n w i c h
U ntergang . +
5
° m 0A u f
gang Breite h Länge
T ag P
►"5
Sternzeit Mittleres Äquinoktiun Länge
1 1919.0
Breite log R
1 9 1 9
F e b r . i o
2 4 2 2
O O O 21
m s
18 3.34 320° 42 38.6
60 4O.9 - 0 . 1 5 9.994 2745
785 5 8"
h n
19 20 11 O O I 21 21 59.89 32 1 4 3 z9 - 5
60 3 9 .2 60 27.7
— 0.27 9.994 3530
808 5 10 19 18
1 2 0 0 2 21 25 56.44 32 2 4 3 5 8 -7 — 0.38 9 - 9 9 44 3 38 8 19 5 11 19 16
J 3 ° ° 3 21 29 53.00 3 2 3 4 4 3 6 - 4 j / /
60 36.O — 0.46 9.994 5167
8 51 5 1 3 19 14
1 4 004 21 3 3 4 9 - 5 5 3 2 4 4 5 I 2 - 4
60 74.7 — 0.52 9.994 6018
873 5
*5
19 13 15 005 21 37 4 6 .11 3 2 5 4 5 4 7- 1 Jl* /60 33.2 — 0.56 9.994 6891
895 5 1 7 19 11 16 006 21 41 42.66 326 46 20.3
ÖO 3 I .9 - 0 . 5 7 9.994
77
86 9 1 6 5 18 19 91 7
18 007 008
21 21
45 39
-2 149 35-77
327 46 52.2 328 47 22.6 60 30 .4
60 29.O
- 0 . 5 5 - 0 . 4 9
9.994 8702 9.994 9638
936
955 5 5
20 22
19 7
*9 5
19 009 2153 3
2 -3
2 3 2 9 4 7 51 -6 60 27.7 — 0.42 9.995 0593973 5 24 19 3
20 21
010 0 1 1
21 22
57 28.88 1 25.43
330 48 19.3 331 48 45.6
/ / 60 2 6.3 60 24.8
- 0 . 3 3
— 0.22
9 .9 9 5 15 6 6 9.995 2556
990 005
5 5
25 27
19 1 19 0
22 0 1 2 22 5 21.98 332 49 10.4
ÖO 2 3 .6 —O . I I 9.995 3561
0 1 9 5 29 18 58
23
0 13
229 i 8 -54 333 49 34
-o 60 2 2 .2 + 0 .0 1 9.995 4580°33 5 30 18 56
2 4 014 22 13 15.09
334 49 5
6-2 60 2O.760 19 .3
+ 0 .1 4
9-995 56 i 3
044°55
5
3
2 18 5425 O I 5 22 17 11.6 4
335 5
°i 6 -9
+ 0 .2 6 9.995 6657 534
18 5226 016 22 21 8.20 336 50 36.2
60 1 7 .7 + 0 .3 6 9.995 7 7 12
063 5
35
18 5027 017 22
2 5 4-75 337 5
°53-9
60 16 .3 -4-0.459-995 8775
070 537
18 4828 018 22 29 1.30 338 51 10.2
60 14 .5 60 I 2 .9 60 I I . I
+ 0 .5 2 9.995 9845
0 76 5
39
18 46 M ä r z 1 019 22 32 57.86339 5
1 24-7
+ 0 .5 7 9.996 0921080 5 40 18 44 2, 020 22 36 54.41 340 51 37.6 + 0 .5 8 9.996 2001
085 5 42 18 42
3
021 22 40 50.96 341 51 48.760 9 .I
60 7 .2 60 5 .I
+ 0 .5 5 9.996 3086 j
o8q 5
44
18 404
022 2244 47
-5
234
25
157
-8 + 0 .4 9 9.996 4175 7°93 098
5
45
18 375
023 22 48 44.07343 5
25
-o + 0 .3 9 9.996 5268 547
iS35
6 024 22 52 40.62 344 52 10.160 2 .9 + 0 .2 9 9.996 6366
104 I I I
5
49
1833 7
025 22 56 3 7 .17345 5
2 !3
-° 60 O.95958 -6 595 6-3 595 4- i 595^-0
+ 0 .1 7 9.996 7470 5
5
° 18 31 8 026 23 033-73
346 52 13.9 + 0 .0 4 9.996 8581119 1 2 7
138 I48
5 52 18 29
9
027 23 4 30.28 3 4 7 52 I 2 -5 — 0.09 9.996 9700 554
18 2710 028 23 8 26.83 348 52 8.8 — 0.21 9.997 0827 5
55
18 2511 029 23 12 23.38
349 5
22-9
— 0.32 9.997 1965 557
18 2312 °
3
° 23 16 19.9435
°5
154-9
594 9-8 — 0.42 9.997 3 113l6 0 5
5
8 18 21J 3
0 31 23 20 16.4935
15
144-7
5947-6 - 0 .4 9 9.997 42731 7 2 6 0 18 18
14 032 23 24 13.04
35
25
132-3
59 45-®- ° - 5 3 9-997 5445
183 6 2 /-v ^ 18 1625 °33
23 289-59 353 5
i17-9
5943-5594 i -6
~°-53
9.997 6628I9 6 207
6
3
18 14 16 034 23 32 6 .15354 5
1 i-4
- 0 . 5 1 9.997 7824 65
18 12 27°35
23 36 2.70355 5
°43
-°59 39-7
— 0.46 9.997 90312 l8 6 6 18 10 18 036 23
39 59-25
356 50 22.75937-7 593 5-8 59 34-°
59 3 2-i 59 3°-4
— 0.40 9.998 0249
228 6 8 18 8
29 °37
2343 55
-8°357 5
°°-4
— 0.30 9.998 1477237
6 10 18 5 20 038 23 4 7 52.36 358 49 36.2 — 0.19 9.998 2714246 6 1 1 18 3 21 039 23 5 1 4 8 .9 1 359 49 10.2 — 0.07 9.998 3960
253 260
6
J 3
18 1 22 040 2355 45-46
0 48 42.3 -L0.05 9.998 5213 6 14*7 59
23 041 23 59 42.01 1 48 12.7 + 0 .1 7 9.998 6473 6 16 17
57
6
Sonne 1919
Mittlere Zeit Greenwich
Z e i t g l e i c h u n g
M ittlere Z e it minus W a h re Z e it
S c h e i n b a r e
R e k t a s z e n s i o n
S c h e i n b a r e
D e k l i n a t i o n
Halbe Durch- gahgs- D auer St. - Zt.
H a l b
m e s s e r
i g i g M ä r z 23.0
24.0 25.0 26.0
s t M o U i M i
27.0 D o
28.0 I F r
29.0
3
° .°31.0 A p r i l 1.0 2.0 3.0
S a
S t M o
D i M i D o
4 . 0 F r
M a i 5.0 6.0 7.0 8.0 9.0 10.0 11.0 12.0 13.0 14.0 15.0 16.0 17.0 18.0 19.0 20.0 21.0
22.0 23.0 24.0 25.0 26.0 27.0 28.0 29.0 30.0 1.0 2.0 3.0
+ 6 5 6
1 s
55-52
37.28 19.00 6 o.5 + 5
4 4
s 18 .2 4 18 .28
,
18 -3 1x 6 9 18 .3 2
5 42-37
i8.3I ' 34
-°6 l8.285
-7
8 18 .2 347-55
l8.iy 29
-3
» , 8 . 0 ,-
II,2 9
,8.0,3 53-28 3 35-38
i7 ?8 + 3 17.60 ,3 1 , 17-64 2 39.96
1 7 .5 0
2 42.46
^ ^ I7.32 2
2^.14
O x7*x4 2 8.00 ,
16 .9 4
1 5 1 - 0 6 16 yl + I
34-35
, 6<471 17*88 .
' 10 .2 0
i 1.68
1 5 .9 2
0 45-76 fa o 20.14
0 Q 15*30 + ° I
4-84
1 + .9 6— O 0.12 ,
1 4 .6 0
° ^ 14- n
° 2 § '94 13-83 O 42.77
£ 7 7 13*42
0 S6.19 1 9 . 1 8 12- "
y 1 2 .5 4
— 1 2 1.72
' 1 2 .0 9
1
33
-8
i „ , 6z1 V I "■*
1
56-56
10.642 7.20
1 0 .1 3 2 i7,33
9.63— 2 26.96
7 9 .1 1
2 36.07 8.59 2
44-66
8 o6 2 32.72c 7-54 3 0.26
7 .0 2
3 7-28
o 6 37.53 o 10 15.85 o 13 54.12 o 17 32.36 0 21 10.59 o 24 48.84 o 28 2 7 .11 o 32 5.43 o 35 43.81 o 39 22.27 o 43 0.82 o 46 39.47 o 50 18.24
°
53 57-15
01 1 1
57 36.21 1 15.43 4 54-85 8 34.47 12 14.31
I 5 54-39
19 34.74 23 15-37 26 56.30 1 30 37.56 x 34 19.15 1 38 1 .1 1 1 41 43.44 1 45 26.16 1 49 9.30 1 52 52.87 1 56 36.87 2 o 21.34 2 4 6.28 2 7 51.702
I I37
-ÖI 2 15 24.032
19 IO.96 2 22 58.41 2 26 46.37 2 30 34.86 2 34 23.88 2 38 13.423 38-32 3 3 8 -17 3 38 -14 338-13 3 38 -15 3 3 8 -17 3 3 8 -31 3 38-38 3 38-46 3 38.55 3 38-65 3 38-77 3 38-91 3 39.06 3 39 .22
339-41 3 39-6i 3 39-84 3 40.08
3 40*35 3 40-63 3 40-93 34i - i6 341-59 34i -96 341-33 341-72 34 3-J4 343-57 344-00 344-47 3 44-94 345-42 345-9' 3 46.42 3 46.93 347-45 3 47 -9 6 3 48 .49 349-02 3 49-54
+ o 43 6.2 1 6 45.4 I 30 22.9 1
53 58-3
2 17 31.3 2 4 1 i-5
+ 4 28.5 27 52.0 51 22.5 14 26.737 37-3
o 42.7 + 5 23 42.8 5 46 37.1 6 9 25.2 6 32 6.9 6
54 4
i-7 7 17 9-5
+7 39
29-7 8 1 42.2 8 23 46.5 8 45 42.5 9 7 29.69
297-7
+9 5
° 3 6 4 10 1 1 55.4 10 33 4.3 10 54 2.9 11 14 50.8 11 35 27.7 + 1 1 55 53.2 12 16 7.0 12 36 8.8 12 55 58.313
1535
-1 13 34 58.9 + 1 354 9-4
14 13 6.1 14 31 48.8 14 50 1 7 .1 15 8 30.7 15 26 29.21 3 3 9- i 1 3 37-5 1 3 35-4 1 3 3 3-°
13 30 -2 1 3 1 7 - °
2 3 23-5 1 3 29-5 23 >5-2 23 io.6 23 5-4 23 0 .1
22 54-3 22 48 .1 22 4 1 .7 22 34.8 22 2 7 .8 22 20.2
22 12 .5
22 4.3 2 1 5 6 .0 2 1 4 7 .1 21 3 8 .1 2 1 2 8 .7
2 1 19 .0
2 1 8 .9 20 5 8 .6
2 0 47-9 20 3 6 .9 20 25.5
20 13 .8
20 1 .8
1 9 49-5 1 9 36.8 1 9 23.8
1 9 10 .5
18 5 6 .7 18 4 2 .7 18 28.3 18 1 3 .6
1 7 5 8.5
64.34 64.33 64.32 64.32 64.32 64.32 64.32
64-33
64.34 64.35 64.36 64.38 64.40 64.42 64.45 64.48 64.51 64.54 64.58 64.62 64.66 64.71 64.75 64.80 64.85 64.91 64.97 65.03 65.09 65.15 65.21 65.27 65.34 65.41 65.4865-55
65.62 6 5 .7°65.77 65.85 65-93 66.01
2.63
2-35
2.06 ö 1.78 6 1.50 6 1.22 6 0.94 6 0.66 6 0.38 6 0.115 59-83
5 59-56
5 59-29
5 59-°2
5 58-75
5 58-49
5 58.225 57-94
5 57-68
5 57
-4
i5 57-14
5 56.88 5 56.615 56 -34
5 56.085 55
-8
15 55-54
5 55-28
5 55
-DI5 54-75
5 54-48
5 54.225 53
-9
65 53
-7
°5 53-44
5 53-29
5 52-94
5 52.70 5 52.46 5 52.225
52-985 52-75
2 4
*5
2621 28 29 3
°3
1i
23 4 5
67
89 io
i i
12 x3 14 X5
1617
18x9
20 21 22 2324 25
26 27 28 293
°1
2 3 iOh m i t t l e r e Z e i t G r e e n w i c h
Sternzeit Mittleres Äquinoktium 1919.0
Länge Breite log R
23 59 42.01 o 3 38.56 o 7 35.12 o 1 1 31.67 o 15 28.22 o 19 24.77 o 23 21.33 o 27 17.88 o 31 14.43 o 35 10.98 o 39 7.54 o 43 4.09 o 47 0.64 50 57.19
54 53-75
58 50.30 2 46.85 6 43.40 10 39.96 14 36.51 18 33.06 22 29.62 26 26.17 30 22.72 34 19.28 38 15.83 42 12.38 46 8.945
°5-49
54 2.04 57 58.601
55-15 5 5
x -7
° 9 48.26 2 1344
-8
i 2 17 41-37 221
37.92 2 25 34.47 2 29 31.03 233
27-58 237
24-14 2 41 20.691 48 12.7 2
47 4
i-3 3 47
8.14
4633-3 5 45 5
6-6 6 45 18.27 44 37-9
843 55-8 9 43 I J -7
10 42 25.6 1 1 4 1 37.4 12 40 47.0 13 39 54.4 14 38 59.5 15 38 2.3 16 37 2.8 1 7 36 0.9 18 34 56.7 19 33 50.3 20 32 41.6 213
13°-7
22 30 17.7 23 29 2.7 24 27 45.6 25 26 26.5 26 25 5.6 27 23 42.7 28 22 18.2 29 20 51.8 30 19 23.73
127 54
-o 32 16 22.733 x4 49-9 34
13 r5-4 35
1 139-4
36 10 1.837 38 39
4041
8 22.6 6 4 1.7
4 59
-x3
I4-7
1 28.5 4 1 59 40.259 2 8.6 59 26.8
59 25-2 59 ^3-3 5 9 2 1 .6
59 i9-7 59 *7-9 59 15-9 59 13-9 59 n - 8 59 9-6 59 7-4 59 5- i 59 2-8 59 °-5 58 5 8 .1
58 5 5 .8 58 5 3 .6
58 5 1 .3 58 4 9 .1 58 47 .0 58 4 5 .0 58 4 2 .9 58 40 .9
58 3 9 .1
58 37-1 58 35-5 58 33-6 58 3i-9 58 3°-3 58 2 8 .7
58 2 7 .2
58 25.5
58 24.0 58 2 2 .4 58 20.8
58 1 9 .1 58 1 7 .4
58 1 5 .6 58 13 .8
58 n-7
-
4
-0
.17 -I-O.28 + 0 .3 9 + O .4 9 + 0 .5 6-t-0.6o
-f-0.60 + o-57
+ 0 .5 2 + 0 .4 4 -4-0.33 + 0 .2 1 -4-0.08— 0.05
— 0.19 - 0 . 3 1
— 0.41
— 0.48 - 0 . 5 3 - 0 . 5 4 - 0 . 5 3
— 0.48
— 0.41 - 0 . 3 2
— 0.22
— 0.10
-4-0 . 0 2
-4-0.15 -4-0.28 + 0 .4 0 + 0 .4 9 -1-0.56 -4-0.60 -4-0.61 -4-0.59
+ °-55
-4-0.48 -4-0.37 -4-0.25-1-0.12
— 0.02
— O.17
9-998 6473
I2649-998 7737
I26, 9.9989004 9.999 0 274 i2fec9-999 x543
I2fo 9 .9 9 9 2 812 iz6'9-999 4077
Il6c9-999 5337
I255 9.999 6592 i2<(g 9.999 7840 9.9999081 0.0000316 i22g O.OOQ I544 o .o co 2767 I2ig 0.0003985 0.000 zzo oc I2I3 0.000 6413
7 J 1 2 1 2
0.000 762^
7 J I2II
0.000 88261 2 1 1
0.001 0047
o 1211
O.COI12^8
J 1 2 1 2
0.001 2470 0.001 2682 12I3
o I2I4
0.001 4807
•7 / 1 2 1 3
0.001 6 110 0.001 7323
n n
o £ I2I3 0.001 8 ^ 6
I 2 I I
0 .0 0 19 74 7 „
8
Sonne 1919
Mittlere Zeit Greenwich
Zeitgleichung M ittlere Zeit, minus
W a h r e Z e it
Scheinbare Rektaszension
Scheinbare Deklination
Halbe Durch
gangs- Dauer S t.-Z t.
Halb
messer
1919
M a i 3.0
4.0 5.0 6.0 7.0 8.0 9.0
10.0 XI.O
12.0
13.0
14.015.0
16.017.0
18.0 19.0 20.02 1 .0 22.0 2 3 .°
24.0 25.0 26.0 27.0
28.0
29.0 30.0 _3
1 '0J u n i 1.0
2.0 3.0 4.0 5.0 6.0 7.0
8.0
9.0 10.011.0
12.0 Sa St Mo Di Mi Do F r Sa St Mo Di Mi Do F r Sa St Mo Di Mi Do Fr Sa St
Mo
Di Mi Do F r Sa St Mo Di Mi Do Fr Sa St Mo Di Mi Do 13.0 Frm s - 3 7.28
3 13.76 3 19.70 3 2 5 .11
3 29
-9
83 34
-3
°- 3
38-073 4
i-29 3 43-95
3 46.043 47-56
3 48-52 - 3 48.913 48-73 3 47-97
3 46.643 44-74
3 42.27- 3 39-23
3 35-63 3 3
I-48
3 26.783
2 1.543
25-78- 3 9
-5
13 2.74 2
55
-5
° 2 47.79 239-65
2 31.09— 2 22.13 2 12.79 2 3.09 1 53.04 1 42.67 1 32.00
— 1 21.03 1 9.79 o 58.30 o 46.57 o 34.63 o 22.49
6.48
5-94 5 .4 1 4 .8 7 4.3 2
3-77 3.2 2 2 .6 6 2.09
1 .5 2 0 .96
0-39 0 .1 8 0 .7 6
1-33 I.9 0 2 .4 7
3-°4 3.6 0
4 .1 5 4.7 0 5 .2 4 5 .7 6 6 .2 7
6 .7 7 7 .2 4 7 .7 1 8 .1 4 8 .56
8.96
9-34 9 .7 0 10.05 10 .3 7 10 .6 7 10 .9 7
I I .2 4 1 1 .4 9
” •73 1 1 .9 4
1 2 .1 4
38 I
3-42
42 3.4945
54-io49 45-24 53 36-93
57 29.161 21.95
5
!5-29 9 9-J 9
13 3.65 16 58.68 20 54.28 24 50.45 28 47.19 32 44.50 36 42.38 40 40.8444 39-87
22 2 2 2 2
3 3 3 3 3 3 3 3 3 3 3 3
3
4839-46 3
5239
-61 3 56 40.32 4 o 4 1.5 74 4 43-37
4 8 45.69 4 12 48.52 4 16 51.84 4 20 55.64 4 24 59.90 4 29 4.604 33 9-72 4 37
25-24 4 4 1 2 1.134 45 27-39 4 49 33-99 4 53
40-924 57
48-153 5 °-°7 3 5 0 .6 1
35>-M 3 5 2 .6 9 3 52-23 352-79 353-34 3 53-9° 3 54-46 3 5 5-°3 3 55-6o 35 6 -r 7 3 56-74 3 57-31 357-88 3 58-46 3 59-°3 3 59-59 4 0-J5 4 ° -7i 4 I -*5 4 1.8 0
4 2.32 4 2-83
5 x 55.68
5
6 3.47 5 10 11.5 2 5 14 19.81 5 18 28.31 5 22 37.013-32
3 .80 4.2 6
4 .7 0 5 .1 2
5-52 5 .8 9 6 .2 6
6 .60
6 93 7 .2 3
7-53 7-79 8.05 8 .29 8 .50 8 .7 0
+ 2 5 26 29.2 i7' 43;2
*5 44
2 2 4I717.5
1 * 3 9 ' 9 i7 ” -5
16 18 52-4 l6 55,
1635
46.6 i6 u16 52 25.2
l6 + 1 7 8 46.927 24 52-5 17 40 38.6 27
56 7-9
18 1 1 19.2 18 26 12.2 + 1 8 40 46.6 18 55 2.1 19 8 58.5 29 2235-5
2935 52-9
19 48 50.3 + 2 0 1 27.5 20 13 44.3 20 25 40.4 20 37 15.5 20 48 29.4 20 59 21.9 + 2 1 9 52.8 21 20 1.7 21 29 48.5 21 39 13.0 21 48 15.0 21 56 54.2 + 2 2 5 10.5 22 13 3.7 22 20 33.7 22 27 40.2 22 34 23.2 22 40 42.5 + 2 2 46 37.922 52 9.4 22 57 16.8 23 1 59.9 23 6 18.8 23 10 13.3
1 6 4 .6 15 47-i
J5 29-3
15 1 1 .3
H 53-°
J4 34-4
24 25.5 23 56-4 23 37-o 23 2 7 .4 1 2 5 7 .4 12 37-2
1 2 l6.8
I I 5 6 .I
22 35-2
22
23.9
10 5 2 .5 10 30.9
1 0 8.9 9 46.8
9 24-5 9 2.0 8 3 9 .2 8 1 6 .3
7 53-2 7 3°-°
7 6 .5 6 43 .0 6 1 9 .3
5 55-4 5 32-5 5 7-4 4 43-2
4 2 8.9
3 54-5 66.01 66.09 6 6.17 66.25 66.33 66.41 66.49 66.57 66.65 66.73 66.82 66.90 66.98 67.06 67.14 67.22 67.30 67.38 67.46 67.53 67.61 67.68 67.75 67.82 67.89 67.96 68.02 68.09 68.15 68.21 68.26 68.31 68.36 68.41 68.46 68.50 68.54 68.58 68.62 68.65 68.68 68.71
15 51-75
15 51.52 15 51.30 15 51.07 50.85 15 50.64 15 50.42 15 50.22 15 50.01 15 49.80 15 49.59 15 49.39 15 49.18 15 48.98 15 48.79 15 48.60 15 48.40 15 48.21 15 48.02 15 47.83 15 47.65 15 47.47 15 47.30 15 47.13 15 46.97 15 46.80 15 46.65 15 46.50 15 46.36 15 46.22 15 46.08 1545-95
1545-83
1545
-7
1 1545-59
1545-47
15 45.36 15 45.26 15 45.16 15 45.06 15 44.96 15 44.87T a"
Oh m i t t l e r e Ze i t G r e e n w i c h
Sternzeit Mittleres Äquinoktium 1919.0
Länge Breite log R
U nter
-1
A u fgang | gang + 50° Breite in h T ..
o Lange 1 9 1 9 2 4 2 2
M a i 3 082
4 :0 8 39 10 11 12
J uni
!5
16J 7
18 19
2023 24 25 26 27 28 29 30
3
1 1 23 4 5
69
10 11 12085 086 087
090 091 13 1 092 14 ! 093 094
°95
096°97
098 099 100 101 102 103 104 i°5
106 107 108 109 110 1 1 1 112 n 3 114IT5
116 1 1 7 118 n 9 120 12 1 1224 1 20.69 17.25 13.80 10.36 6.91
3-47 45 49 53 57
1 5 0.02 8 56.58 12 53.13 16 49.69 20 46.24 24 42.803
3 3 3 3 3
3
2839-35 3
3235
-9
13 3
63247
3 40 29.023 44
25.58 3 48 22.1352 18.69 56 15.24 o 11.80 4 8.36 8 4.91 12 1.47 15 58.03 19 54.58 23 51-14 27
47
-7
° 31 44.2535 40
-8
i4 39 37-37 4 43 33-92 4 47 3°-48 4 51
27-044 55 23-59 4 59
20.155
115
15 13 ,1 2 319 16.71 13.26 9.82 6.38 2.94
41 59 40-2
42 57 50.143 55 58-
i44 54 4-i
45 52 8.0 46 50 10.1 47 48 10.4 48 46 8.749 44 5-3
50 42 0.251 39 53-4
5237 45-i 53 35 35-2 54 33
23-955 3 i
i i-
i 56 28 57.2 57 26 42.0 58 24 25.6 59 22 8.2 60 19 49.6 61 17 30.1 62 15 9.6 63 12 48.2 64 10 25.722 59.49
05 0 2.3 66 5 38.0 67 3 12.6 68 o 46.1 68 58 18.4 69 55 49.5 70 53 19.4 7 1 50 48.0
72 4
815-5 73 45 4
i-7 74 43
6.675 4
o3
o-5
76 37 53.377 35
i5
-°78 32 35.8
79
2955-6
80 27 14.6 81 24 32.958 9 .9 58 8.0
58 6 .0
58 3-9
58 2 .1
58 0.3
57 58-3 57 56-6 57 54-9 57 53-2 57 5J-7 57 50-1 57 48-7 57 47-2 57 46-i 57 44-8 57 43-6 57 42-6 57 42-4 57 40-5 57 39-5 57 38-6 57 37-5 57 36-6 57 35-7 57 34-6 57 33-5 57 32-3 57 31-1 57 29.9 5 7 2 8 .6
57 27-5 5 7 2 6.2
57 24-9 57 2 3 .9 5 7 22.8
57 21.7 5 7 20.8
57 19-8 57 19-0 57 i8 -3
— 0 .17
— 0.29 - 0 . 3 9
— 0.48
- o -5 3
- 0 . 5 5 - 0 . 5 4 - 0 . 5 1 - 0 . 4 4 - 0 . 3 5— 0.24
— 0.13 0.00 + 0 .1 3 + 0 .2 5 -4-0.36 -4-0.47 + 0 .5 6 + 0 .6 2 -I-0.63 -1-0.62 -+-0.58 -t-0.51 -t-0.41 4-0.29 4 -0 .16 4-0.03
— 0.12
— 0.26 - 0 . 3 7 - 0 . 4 5 - 0 . 5 1
~ °-55
- 0 . 5 5— 0.52
— 0.46
— 0.38
— 0.27
— 0.16
— 0.04
•4-0.09 4-0 .2 2
0.003 5812 to I04°
0.003 6852 o I025 0.003 7877
nnn 1012 0.003 8880
J ' 1000 0.003 9889 ggg 0.0040877 ^ 0.004 1855 0.004
28
Z3
n 959 0.0043782 0.0044732 0.0045674 0.0046606
924
0.0047530 0.0048445
0-004 9351
897 0.005 0248 gg6°-°05
H34
g?4 0.0052008 8fa° .o °5 2870 0 .0 0 53 719 0.0054552
0 -°°5 5369
798 o .cxx 6 16 7 0 c778
0.0056945 ^ 0.005 7 7 ° 2 0.005 8436>.005 9146 1.005 9833 0.006 0495 0.006 113 4 0.006 1 7 5 1 0.006 2346 0.006 2921 0.006 3476 0.006 4014 0.006 4534
1.006 5038 '.006 5526 1.006 5999 1.006 6457 1.006 6901
>.006 7332 734
7 1 0 687 662 639
6 1 7
595 575 555
7 20 7 22 7 23
7 2 5
7 26 7 287 29 7 3 i 7 3
27 34 7 35
7 36 7 387 39
7 41 7 427 43 7 45
7 467 47 7 49 7 5
°7 5 i
7 527 57
16 33 16 31'
3
° 28 262 5
23 21 20 18 17 6 16 6 14 6 13 6 11 6 10 6 954 55 56 5
859
0 1 23 4 5
67 7
89 9
59 58 57 5 56 5 56 5 55 5 54 5 54 5 53 5 53 5 52 5 52 5 5 i
5
i5
i5
°5 5
°1 0 Sonne 1919
Mittlere If
fl Zeitgleichung
Scheinbare Scheinbare Durch-Halbe H alb
Zeit Greenwich
-flO O
£
M ittlere Z e it minus
W a h r e Z eit Rektaszension Deklination gangs- j
Dauer . St.-Zt. !
messer
i g i g J u n i 13.0
14.0 15.0 16.0 17.0 18.0 19.0 20.0 21.0 22.0 23.0 24.0 25.0 | Mi 26.0 | Do 27.0
J u l i 28.0 29.0 3° . °
1.0 2.0 3.0 4.0 5.0 6.0
F r Sa St Mo Di Mi Do F r Sa St 7.0 | Mo 8.0 | Di 9.0 : Mi
Do F r Sa 10.0 11.0 12.0 13.0 14.0 15.0 16.0 17.0 18.0 19.0 20.0 21.0 22.0 23.0 24.0
St Mo Di Mi Do F r Sa St Mo Di Mi Do
-o 22.49 3 7 12.33
— o 10 .16 „
I
2.
4Ö
+ 0 3 -3
2 ,2.620
I 4 '94
I2.75 09
I2.86 04° '5 5
,,9 4+ ° 5349 ,
3.00 1 6 4 9 13.04 1I9-53 ,
3.06 i 2 2 x 9J
12.05 1 45.64i , 1^-02 1 58.66 ,
J
I
2.96 + 2 IZ-62 12.87 2 24'49
u .76 237-25
I2.62 249-87
I2.443
3 x4-55
I2.02+ 3 2^'57
x , 763 3 -33
„ . 493 49-82
„4
I -01v
^
„ „
10.87 4 11.8810.53 4 22-41 I0.l8
+ 4 32-59
4 42.39 - - 4 5x-79 5 °-79 5 9-37 5
17-52 + 5 25.215 32-44 5 39-20 5 45 4 9 5 5t -28 5 56-57
+ 6 1.35.63
9-37
12. "9.4o 9 .00 8 .58 8 .1 5
7 .6 9
7-23
6 .7 6 6 .2 9
5-79 5 .2 9
4-79
■36 4 .2 7 3-74
"
5
8 2.66 15.24J 2 .1 0
17.34
5 22 37.OI 5 26 45.89
5 3° 54-93 5 35 4
- i i5 39
I3
-4
25 43
22.835 47
32.32 5 51 41.885 55
51-48 6 o 1.10 66
4 10.71 8 20.28 12 29.80 16 39.23 20 48.55 24
57-72
6 29 6.72 6 33 15.52 6 37 24.09 6 4 1 32.41 6 45 40.46 6 49 48.21 6 53 55.64 6 58 2.722
9-45
6 15.81 10 21.78 14 27.34 7 18 32.47 7 22 3 7 .17 7 26 41.427 3
°45-21 7 34
48-537 38
51-377 42 5372 7
4655-57
7 50 56.917 54 57-73 7
58 58-03 8 2 57.79 8 6 57.01 8 10 55.679.0 4 9 .18
9-31
9 .4 1
9-49 9 .5 6 9 .60
9.62 9 .6 1
9-57 9 .5 2
9-43 9 .3 2
9 .1 7 9 .00 8.80 8 .5 7
8 .32 8.05
7-75 7-43 7.0 8
6-73 6 .3 6
5-97 5 .5 6
5
+4.7 0
4.25
3-79 3-32 2.84
2 -35 1 .8 5
1 .3 4
4 0.82
4 0.3 0
3 5 9-76 359-22 3 58.66
33° - i 3 5-5
1 1 .8 0 3 7 .1 o 12 .2
+ 2 3 10 13.3 23 13
43-4 23
1648.9
* 40.823
1929-7
2 i 6 .223
2145-9
x 5i.4 23 2337-3
x 2 6 .7 + 2 3 25 4.023 26 5.8 23 26 42.9 23 26 55.1 ,
D o 12.6
22 20
42.3
3 ^ ■> o 3 7 .5
23
265
-° x , 3+ 23 2 5
2.7 x 27.023 23 35-7
x 5x.723
2 144
-o 2 1623 z9 27-7
2 4x.0 23 16 46.7 3 s23 z3 4
i-3
3 29.8 + 2 3 10 11.5£ 3 54-2
23
67-3
4 x8.3 22 I ^0.04 42,4 22 57 16.6 s 22 52 10.2
J
5 3
0-222 46 40.0
4 4 5 53-9 + 2 2 40 46.1
22 34 28.6 22 27 47.7 22 20 43.5 22 13 16.2 22 5 26.0 + 2 1 57 13 .1 21 48 37.5 2 1 39 39.6 21 30 19.4 2 1 20 37.2 21 10 33.2
6 1 7 .5 6 40.9
7 4-2 7 27-3 7 5° - 2 8 1 2 .9
+ 2 1 7.6
20 49 20.6 20 38 12.5 20 26 43.4 20 14 53.7 20 2 43.6
8 3 5 . 6
8 57-9
9 20.2 9 42 .2
1 0 4 .0 1 0 2 5 .6
1 0 4 7 .0 1 1 8 .1 1 1 2 9 .1 1 1 4 9 .7
6 8 .7 1 ! 15 44.87 68.73 j
*5
4 4 7 868
-7 5
! 15 44-69 68.77 j 15 44.60 6 8 .7 8 ' 15 44.52 15 44.44 68.7968.80 68.81 68.81 68.81 68.80 68.79 68.78 68.77 68.75 68.73 68.70 68.67 68.64 68.61 68.57 68.53
15 44.37 15 44.30 15 44.24 15 4 4 .17 15 44.12 15
44.06
1544-02
15 43.98 15 43.94 15 43.91 15 43.89 15 43.87 15 43.86 15 43-85 15 43-85 15 43-85 68.49 ! J5 43-86 68.44 1 15 43-87 68.39 | 1543-88
68.34 s 15 43.90 68.28 15 43.93 68.22 15 43.96 68.1668.10 68.04 67.97 67.91 67.84 67.76 67.69 67.62 67.54 67.46 67.38 67.30
15