7
r
ii
Tabularum Ttydolphi
Tabula yEquationum SOLIS,
Anomalia
Eccentri*
Cum aquatio
nispartephys
Interco
lumnium,
CumLog-
arithmo.
Anomalia
co aquata.
Cum Dtjfe-
rcntJ/s*
Intervallu
Cum Loga-
rtthma
*■+
Anomalia
EcCentri,
Cum aquatio
rus parte phjs
Interco
lumnium,
CumLog.
arithmo.
Anomalia
coxquata» |
CumDtffc-
rentits. I
Intervallu
CumLoga.
r. thmo
-4-
120
1810
I. 0.31
991OO
V50
3X4°
1. 0.57
98441
0-5 3.3^
1. I. 6
119. 6.10
5104
0.30.5 6
1. i-5S
149.28.52
1570
I 21
1860
1. 0.32-
9907 3
5
ijl
3170
1. 0.57
984*6
0.53- 3
x. x. 8
120. 6.42
9 3 X
0.3 o K 0
i- ,X-56
150.29.49
1586
i
i 22
191.0
l. Si.3 3
99046
5
152
3X00
1. 0.57!
9841 I
0.5 i.jj
I. 1.10
121. 7-If
558
. 0.29. 3
1. 1.3 5,7
151.30.46;
1 602
3
12?
1570
X. 0:34
99020
>
153
3236
1. 0.58
98396
0.5 I.54
I. 1.12
122. 7-49
58 5
0.28. 6
1. 1-58
152.31.44
1617
124.
2020
1. 0.36
98994
5
154
3 2 60
1. 0.5-9
9838*
0.5 1.18
1. 1.14
123. 8-25
JOIT
0.27. 8
1. 1.59
153-32.43
1631
125
2 07 0
1. 0.37
9,8968
155
3290
1. 0.59
98369
0.5 0.4 I
1. 1.16
1 24. 9. 2
1037
0.26. 9
1. 2. 1
I54-38-43
1644
126
2X30
'i. 0.38
98942
•
156
3310
1. 0.59
98356,
• o-5°N }
1. 1.18
125. 9.40
10631
0,25.11
1. 2. 1
155.34-41
1657
12 7 /
i 18 0
I. 0.3"8
98917
157
3340
t. I. O
98343
°-49-* 5
1. 1.20
126.10.18
1085
^ 0.24.12
1. 2. 2
156.35.41
1670
128
2 2 30
i. 0.35
98892
158
3570;
I. I. O
9833 1
0.48.46
I. I•2 I
127.10.s7
1114
0.23.12
1. 2. 31
157.36.41
1683
I2J>
2280
1. 0.351
98867
159
3 39°!
I . 'I . I
983*0
0.48- 5
I- 1-2.3
128.11.36
1135
0.22.12
X. 2. 4
158-37-4*
1695
*
130
' 2 3 3 0
I. O.4O
9884?
160
3 4X0'
I . I. I
98309
0.47.2 5
1. 1.25
129.12.16
1163
0.2 1. II
I. 2. 4
159-38.43
1706
.
I3I
2380
x. 0.41
98819
161
3430
I. I. I
98*98
D .4 6.4 2
1. 1.27
130.12.57
1188
0.20. £
I. i. .5]
160.39.44
1717
I?2
2420
i. 0.42
98796
162
3450.
I, Ii 2
98288
°-45.S9
1. 1.28
131.13.39
12 11
6.19. 8
I. 2. 6
,161.40.46
1727
•
Z
*33
2470
1. 0.44
98773
163
3 *7°'
I. I. 1
98279
0.45.15
1. 1.30
132.14.23
1234
0.18. 6
I. 2. 7!
162.41.48
, I73tf
134.
2 5 1 O
1. 0.45
98750
164
3 49 0;
I . I . 2
98270
0.44.30
r. 1.31
133-15- 8
1257
0.17. 4
I. 2. 7j
163.42.50
1745
*35
2560
1. 0.46
98727
165
3 S IO
x. 1. 3 i
98261
0.43.-45
1. 1.33
1 34-15-54
1282
0.16. 1
I. 2. 8
I64.43.53'
.17 54
»3«
2610
1. 0.47
98705
16 6
3 5 1 °
.1. X. 3I
9825?
0.42.59
'• i-3 5
-135-16.41
i 304
0.14.59
I. 2. 8l
165.44.56!
1762
137
2650
1. 0.47
98683
167
3 5 4°,
I. 1. 3
98246
0,41.1 2
1. 1.37
136.17.28
1326
0.13.56
I. 2. 9
l66.45.59
1769
138
2 69 0
1. 0.4?
98662
168
3 5 5 oj
I. I. 4
98*39
6.41.24
- i-3J>
137.18.16
X 347
P.I-.5 3
I. 2.10!
167.47. 3
17/6
i
139
2740
1. 0.45)
9864:
169
3 5 60;
1. 1. 3
98*33
0.40.3 6
1. 1.40
13S-19- 5
• I 3 68
0.11 »4p
I. 2.10
168.48- 6
1782
-
I4.O
2780
1. 0.451
98621
170
3580!
1. 1. 4
98227
0.35-48
1. 1.42
139 ’9-54
i 3 85
0.16.4$
I. 2.1 i'
169.49.10
1788
I4I
2820
I. O.5O
98601-
17 x
3 590,
X. X. 4
98222
o-3 8.57
1. 1.43
I40.20.44,
X 405
.6. 9.41
I. 2.11
I70.50.i4
179 3
142
2860
I. O.5 I
i 98582
3
172
J 600
X. I. 4
98217
0.38. 6
1. 1.45
141.21.35j
1428
0. 8.37
I. 2.1i;
171.5i-i8
1798
14-3
1^90
I. O.52
98S63
173
3 600;
1. 1. 5
98213
0.37-14
1 • T.46
142.22.27
1. 1447-
0. 7.32
I. 2.12|
172.52.23
18 02
144
1530
1. 0.53;
98*44
174
3610
1. 1. 5
98*10
0.3 6.2 2
1. 1.47
143.23.20.
1466
0. 6.z8
I. 2.12
1 7 3 - 5 3 - 2 S
X 8 0 6
245
2370
1. 0.54
98526
175
3 62 o’
1. 1. 5
98207
0,3 5.19
-~£
1. 1.48
144.24.14
148 5
,0. 5.23
I. 2.12
174-54-3 3
1809
146
3010
1. 0.54
98508
176
3 iiiO
1. x. 5
98*05
0.34.3 6;
l. 1.5©
145.25. 8
1563
0. 4.19
I. 2.12
I75-55-38
1 8 11
147
3 040
1. 0.5 5
98491
177 !
3630
1. 1. 5
98*03
0.3 3.42,
1. 1.51
146.26. 3
15 20
0. 3.14
I. 2.12
176.56.43
l8l 3
148
3070
1. 0.< 6
98474
178 i
3630
1; 1. 6
98*01
0.3 2.47
1. 1.52
147-26.59
i $ 37
O. 2.10
I. 2.12
177.57.49
18 i $
149
3 110
I. 0.56
98457
179 |
| 3636
X. I. 5
98200
0.3 I.J2
i- Mi
148.27-55
1554
O# !♦ 5!
1 I. 2.12
178-58.54
1 8 x 6
ISO
3140
I. O.57
98441
3
180 1
i 3636
I. I. 6
98200
0.30.56
1. 1.55
149.28.52
1570
0. 0. o'
I. 2.12 l8o. O. O
18 16
Canon