HPars Secunda.
Tabula Aiquationum MARTIS*
Anomalia
Eccentri»
Cum Aquatio
ms parte phjs
Interco
lumnium,
CumLog-
anthmo.
Anomalia
co;equatd.
Intervallu
CumLoga-
rtthmo
Anomalia
Eccentrij
Cum aquatio
tus parte phys
Interco-
lumiiiumj
Cum Lag-
arlthmt.
Anomalia
torquata.
Intervalli"
■ Cura Loga
| r/thmo
60
969O
I 59407
90
560
| 152350
4-3 5-5°
O.54.27
55.30. 0
. 46630
2 i
5.1 S.30
0.59.40
84-41- 1
j 4 2 1 d 1
6l
9430
I59193
91
230
152104
2 7
^4 1 3S.s 4
0.54.36
56.27. 7
4649 5
2 I
5.1 8.27
0.59.52
85-40.52
41939
62
9160
158977
92
1 OO
151857
2 7
4-4I-I 3
O.54.45
57.24.20
46359
22
5.18.1 8
1. 0. 4
86.40.46
41777
63
8890
158758
93
43 0
%
151611
2 7
4.43-47
0.54.54
58.21.37
46221
22
5 41 8. 3
1. 0.16
87-40-46
41615
64.
8 6 l 0
158537
94
760
1 $ I 366
2 7
4.46.1 5
O.55. 3
5?.I9. 0
46082
2 2
5-1 7-43
1. 0.27
88-40-52
41453
65
8320
158315
95
1080
i
151121
2 7
4.4*.39
O.55.I3
60.16.27
45941
23
5.17. 1 7
1. 0.39
[ 89-41- 3
41291
66
8030
158090
96
14 10
i
150875
2 7
4.50.5 s
O.55.22
61.13.59
45799
23
4
5.16.45
1. 0.51
! 90.41.20
41129
67
7730
157864
97
' 1730
I
150630
2 7
4.53.11
O.55.32
62.11.36
45656
23
5.16. 7
1. 1. 3
: 9I-4I-43
4 09 6 6
68
7420
157637
98
2060
j
150386
2 7
4.55-18
O.55.42
63. 9.18
45512
23
5.15.24
1. 1.15
: 92.42.11
40804
69
7 I 2 0
157408
99
2380
150142
2 7
4.57.20
0-55-53
64. 7. 5
45367
24
5-14.3 5
1. 1.27
93.42.44
40642
70
6810
I57I77
100
27IO
149900
27
4-59.17
0.56. 3
65. 4.57
45221
24
5-13.39
i- i-?9
94.43.23
4 04 8 0
7i
6510
156944
loi
3 03 0
I49658
2 7
5. 1. 9
0.56.13
66. 2.54
45073
24
5.1 2.40
1. 1.51
95-44- 7
40319
72
6210
156711
102
3 3 5 0
149416
2 7
5. 2.55
0.56.23
67. 0.57
44924
24
5.H.3 3'
I. 2. 3
96.44.57
40157
71
5900
156477
103
3670
I49I75
2 7
J- 4-3 5
0.56.34
67-5?. 4
44774
25
5*10*21
I. 2.I4
97-45-55
39996
74
5600
156241
104
3 98 0
j
|148935
2 7
5 • <» • 9
0.56.44
68-57.16
44623
5*9*3
I. 2.26
98-46.59
j 39*35
7?
5 3 00
156003
2 5
105
4300
Ii 148697
2 7
5- 7-39
0.56.54
69.55.34
4447 1
25
5. 7.39
I. 2.38
99-48- 9
39674
76
5 000
155765
106
4620
|| 148461
2 7
J. 9- 3
0.57. 4
70-53-57
44318
25
5- 6, 9
I. 2.50
100.49.25
39514
77
4690
155526
107
49 3 0
il 148225
2 7
5*10.21
0 -57.i 5
71.52.26
44164
2 5
5* 4.35
I. 3. 2
101.50.46
3 9 3 5 s
78
4390
155285
IOg j
5240
1
147990
2 7
5.11.33
0.57.25]
72.51. 0
44009
5- 2.55]
I. 3.I4
102.52.14'
39196
79
40 9 0
155043
I09
5 5 5 °
(
147756
2 7
5.12.39
0.57.36
73-49-40
43 s 5 3
26
5- 1. 9]
I. 3.25
103-53-47;
3 9 03 *
80
3790
154.800
I IO |
5860
147523
2 7
5.13.40
0-57-46
74-48-25
43696
26
4.5 9.i7i
i- 1-17
104.55.27
3 8 8 8 1
81
34S0
154557
HI |
6180
|
147292
2 7
5.14.3 5
0.57-57
75-47.15
43539
26
4.5 7' 20
I. 3.50
I05-57-I3!
38725
2 7
82
3170
154314
I 12
649 0
147063
5.15.24
0.58. 8
76.46.11
43381
26
4-5 5-i*
I. 4. 2j,
106.59. 4
38569
83
2 8 6,0
154070
113
6800
I46836
2 7
5.16. 7
0.58.1?
7745-13
43223
4-5 3.1 1
I. 4.I4
108. 1. 0
38414
84
2 J 40
153825
I 14
7100
I466IO
2 7
5.16.45
0.58*30
78-44-20
43064
4.50.5*
I. 4-25
109. 3. 2
38260
8?
2 2 20
153580
115
M 1 0
146385
2 7
5.17-17
0.58-41
7943-32
42905
26
4.48.39
I. 4.37
110. 5- 9
38107
2 6
86
19 0 0
•
I53?35
ll6
7710
146162
5-' 7-43
0.58.52
80.42.50
4274S
26
4.46.1 5
I. 4-48
111. 7.22
3 7 9 5 5
2 6
87
157°
153089
117
8010
145942
j.l8. 3
0.5?. 4
81-42.15
42585
4.43.47
I. 5. 0
112. 9.41
37804
2 6
88
X 5 + 0
•
152843
2 7
1x8
8300
145724
5.18.18
0.5?.16
82.41.45
42424
4.41.13
I. 5.12
113.12. 5
3 76 54
26
s$>
9 oc
152596
2 7
119
8600
145508
5.1 8.27
O.jp.2S
8341-21
42262
4-3 *-34
I. 5.24
■ 14-14-35
3 7 5 ° S
26
9°
s 6 0
152350
2 7
<?
120
8 89 c
145293
5.18.30
o-5?-4 c
8441- 3
42 101
4.3 5.50
I. 5.34
115.17.11
? 7 ? < 7
