5 2
Tabularum T^udolphi
Tabula Aquationum SATVRNI.
Anomalia
Eccentri»
Cum tqudt/i
VIS parte phy i
Interco
lumnium,
Cum Log-
anthme.
Anomalia
coaequata.
Intervallu
Cum Logo,-
rithmo
1 5
1 S
1 5
1 5
I S
1 5
14
>4
14
14
14
I 3
1 3
1 3
1 3
I 2
I 2
I 2
I 2
1 I
I I
I I
I I
I I
I I
I O
10
1 O
I O
9
i Anomalia
Eccentri,
Cum Aquatto
nis parte phjs
Interco-
| lumnium,
Cum Log-
arithmo.
Anomalia
coaequata.
Intervallu
Cum Loga-
rtthmo
120
2-45>- + 2
5 5 7 °
I. 3.26
II7- 7.48
923927
222346
150
1.37.531
9960
I. 6.17
148.19-3°
904.107
220278
I 2 I
2.47-58
5 7 5 °
i- 3-33
118- 9-29
923113
222258
151
1.3 5- 0
10060
I. 6.21
149.22.33
903642
2 20 1 27
122
2.46.1 1
5 9 3 °
1. 3.4.0
119.11.13
922307
2 2 2 I 7 I
152
1.3 1.59
IOI60
I. 6.25
150.25.38
903191
2 2 0 0 7 7
123
2.44-21
6100
1. 3-47
120.13. 0
921510
222084
153
1.28.56
1 0 2 5 0
I* 6.29
151.28.45
9°2755
3 200 2 S
124.
2.42.2 8
6270
i- 3-53
121.14.50
920722
221998
154
I.25.52
1 0 3 40
I. 6^2
152-31.53
902333
219981
125
2.40.3 I
6440
1. 4. 0
122.16.4,3
919942
221913
155
1.2 2.46
10420
I. 6.35
153.35. 3
901927
219936
12 6
2.38.31
66 00
r. 4. 6
123.18.40
919173
221830
156
I.I9-39
IO5OO
I. 6.39
154.38.14
901535
219893
127
2.36.28
67 60
I. 4.12
124.20,40
918414
z 2 1 74S
157
1.16.31
10580
I. 6.42
155.41.26
901158.
219851
128
2.34.22
63 1 0
I- 4-17
125.22.44
917664
221667
158
1.13*2 2
10650
I. 6.46
156.44.40
900/96
219811
I2J»
2.3 2.14
7060
I. 4.23
J126.24.51
916924
221586
159
1. I 0.I2
10730
I. 6.49
157.47.55
900449
i‘977»
»—t I
<>2
N» O I
O
4^
7 2 10
I* 4.29
;l 27.27. 0
916195
221506
160
I . 7. 0
10800
I. 6.52
158.51.11
900119
Z197IS
899804
2 1 9 7 0 0
899504
219667
899219
219635
898951
219605
898698
119577
1 3 1
z.27.5 2
7370
I. 4.36
|l 28.29.1 2
915476
2 2 I 42 7
161
1. 3.47
I 0 8 S 0
I. 6.54
159-54.28
132
2.25.36
7 520
1. 4.42
i29.3i.26
914769
221349
162
I. O.32
IO95O
I. 6.57
160.57.46
1??
2.23.17
7680
I. 4.48
i30.33.43
914072
221273
163
0.57.16
I I 0 3 0
1. 7* 0
162. 1. 6
134.
2.20.57
7830
i- 4-53
|i 31-36. 3
913386
221098
164
O.54* O
11100
1.7.4
163. 4.27
i35
2.18.3 3
7990
1. 5. 0
1 32.38-26
9I27I2
221025
165
0.5 0.4 3
11170
1. 7* 7
164-^2-49
136
2.16. 7
8140
1. 5. 5
133.40.52
912049
221053
166
0.47.24
11240
i- 7* 9
165.11.12
898462
21^551
89*8241
219527
898036
219504
897848
219485
897676
219464
137
2.13.35»
8280
1. 5.11
134.43.21
911400
220981
167
0.44. 5
113 00
1. 7.12
166.14.37
138
2.1 I. 8
S430
1. 5- 1 7
I35-45-53
910761
2 209 1 I
168
0.40.4 5
11360
1.7.14
167.18. 3
139
2. 8.34
8580
1. 5.23
136.48.28
910135
220842
169
0.37.Z4
11420
1. 7.16
168-21.30
14.0
2. 5-58
S720
1. 5.29
I37.5I. 5
909521
12077+
170
0.34. 2
11470
1.7.18
169.24.58
H 1
2. 3.19
S 860
1. 5.34
I38-53-45
908920
2 2 07 0 s
171
c. 3 0.40
11510
1. 7.20
170.2g.26
897520
2 1 9447
14,2
2. 0.3S
9000
I. 5.40
139.56.28
908332
220643
172
0.27.17
115 40
1.7.22
i7i.3i.55
897380
219432
i43
,1.57.5 5
9130
1. 545
140.59.13j
907756
220580.
173
0.23.54
11560
1.7.23
172.35.24
897256
219418
8971^0
2 19 4 0 5
144
1.55.10
9260
1. 5.50
142. 2. o 1
907194'
220518
174
0.20.29
11570
1.7.23
I73-38-54
145
1.5 2.24
9380
i- 5-55
143. 4.50
906645
2 204 5 8
175
0.17. 4
115 70
1.7.23
174.42.24
897059
z19 39 5
14.6
1.49.3 5
9500
i- 5-59
144. 7-42
9061 IO
2 203 99
176
0.1 3.39
11580
1.7.24
175-45.55
176.49.25
896985
Z 1 9 3 87
8969Z7
ZI938I
i47
1.46.44
9620
1. 6. 4
145.10.36
905588
2 20341
177
0.1 0.14
11580
1.7.24
148
1.43.51
9740
I. 6. 9
146.13.32
90508I
220285
178
0. 6.49
1 1 5 8o 1
I. 7.24
177.52.56
896886
2 1 9 3 7 6
149
1.40. 5 6
9850
1. 6.13
147.16.30
904587
2 202 3 I
179
0. 3.25
11580
I. 7.24
178.56.28
896861
219373
150
1.3 7-59
9 9 6 0
1. 6.17
148.19-3°
904107
220278
18°
0. 0. 0
11580
I. 7-24
180. 0. 0
896860
219373
Tab, Lat.
