52 Longitude and Altitude of the Nonagesimal for the 
Argument. % Longitude poumection F Altitude — fepeeraon Corrections for Argument. 
A.R. of Mer. of the Nonagesimal. in Obliq. of the Nonagesimal. in Obliq. —1000" in Latitude. A. R. of Mer. 
H M. Ole ban ve 0 ee, iG Long. Alt. H. M. 
Ad 9 0 0 4 44 | +00 71 15 38 4 |-100.0 |] -+ 0” |41000”| 6 0 
Go a 9011 44 4) 44 0.1 71 15 37 2 100.0 2 1000 6 4 
Gi ee 90 23 28 4) 44 0.2 71 15 35 3 1000 4 1000 6 2 
aes} 90 35 12 44 44 0.3 7) 15 32 A 100.0 6 999 6 = 
6 2 90 46 56 a 0.4 71 15 28 = 100.0 8 999 || 6 4 
6 5 9053 40) 4, | +0-5 71 15 22 6 |— 99-9 }+ 10 4 999 || 6 6 
6m 911024 45 44 0.6 71 15 16 8 29.9 12 999 6 SG 
GF 9122 8 45 44 0.8 7115 8 9 99.9 14 999 || 6 7 
6s 91 33 52 4) 44 0.9 71 14 59 i 99.9 16 £99 6 8 
CLD 91 45 36 ia 1.0 71 14 48 ra 99.9 17 999 6 9 
6 10 91572004, 44 | +h! 71) 14 137 13 |— 99:8 || + 19 |4e 999 6 10 
6 11 D2 TO Fas ie 1.2 71 14 24 lt 99.8 21 999 6 ll 
i 12 922048 4) 44 1.3 71 14:10 16 99.8 23 999 6 12 
(3 43 92.3232 4) 44 1.4 71 13 54 16 99.8 25 999 6 6B 
Gr 1 92 44 16 atigaa 1.5 71 13 38 S 99.8 27 999 6 14 
6 15 9256 0 4, 44 | +16 71 13 20 19 — 99.7 |/+ 29 |4+ 999 || 6 15 
6 16 93 744 4) 44 1.8 Toro 20 997 31 999 6 16 
(nes 93.19 23 44 44 1.9 71 12 41 21 99.7 33 999 G6 17 
6 is 9331 12 47 44 2.0 71 12 20 23 99.7 35 999 6 18 
6 19 93 42 56 1 44 2.1 ZAM Wh ail By 99.6 3 999 6 19 
6 20 935440 9) 4g | +22 71 11 33 25 — 99.6 || + 29 |+4 999 6 20 
6G 21 91 623 47 44 2.3 7111 8 26 99.6 41 999 || 6 21 
B99 9418 7 41 44 2.5 71 10 42 98 99.6 43 999 6 22 
Geos 942951 4) 44 2.6 71 10 14 a8 99.5 44 999 aee-S) 
God 94.4135 1, aa 2.7 71 § 46 5 99.5 46 999 6 24 
Geb: 945339 47 43 | +28 71 9 16 3) |— 99-5 || + 48 |4 999 6 25 
6 26 95 5 2) an 44 2.9 iSite 33 99.4 50 998 6 26 
6 27 951646 4) 44 3.1 71 48 12 33 99.4 52 998 6 27 
6 28 95 28 30 47 43 3.2 71 739 35 99.4 54 998 6 28 
6 29 95 40 13 eae 3.3 Wiley ie 99.3 56 998 6 29 
6 30 95 5157 41 44 | +34 71 6 28 37_|— 99:3 || + 58 [+ 998 6 30 
83) 96 341 44 43 3.6 71 5 51 39° 99.3 60 998 iG) esi 
6 32 9615 24 47 44 2G) 71 5 12 39 99.2 62 998 6 32 
6 33 9627 8 4) 43 3.8 7 As38 ve 99.2 64 998 6 138 
6 34 963851 1, an 3.9 71 3 52 5 99.2 66 998 6 34 
6 35 96 5035 4) 4g | +44 71 3 10 44 [= 99-1 |] + 68 | 998 6 35 
6 36 97 218 44 44 4.2 71 2 26 rei 99.1 69 997 6 36 
6 37 9714 2 4] 43 43 71 1 42 i 99.1 71 997 6 37 
6 38 97 25 45 4) 43 44 71 0 56 7 99.0 73 997 6 38 
6 39 97 37 28 er 4.6 rib a) ii 99.0 75 997 6 39 
6 40 97 4912 44 49 +27 70 59 21 4g |— 98:9 || + 77 FE 997 6 40 
6 41 98 055 47 45 4.8 70 58 32 51 98.9 79 997 6 41 
6 42 98 12 38 57 4s 4.9 70 57 Al 52 98.9 81 997 6 42 
6 43 98 2421 4) 43 5,1 70 56 49 5S 98.8 83 996 6 43 
6 44 98 36 4 1 i 5.2 70 55 56 : 98.8 85 996 6 44 
6 45 98.47 48 41 45 533 7055 2 = — 9.7 ||+ 87 |+ 996 6 45 
6 46 98 5931 4) 43 5.4 70 54 .7 ey 98.7 89 996 6 46 
6 47 9911 14° 45 43 5.6 70 53 10 58 98.6 91 996 6 47 
6 48 99 2257 4) 49 5.7 70 52 12 iG 98.6 93 996 6 48 
6 49 99 34 40 i i 5.8 70 51 13 98.5 94 995 6 49 
6 50 99 46 23 41 45 5.9 70 50 13 A — 98.5 || + 96 |+ 995 6 50 
Giana 9958 5 4) 43 6.0 70 49 12 63 98.4 98 995 6 51 
6 52/100 948 4) 45 6.1 7048 9 oa 98.3 100 995 6 52 
6 53 | 1002131 45 45 6.2 70 47 5 65 98.3 102 995 6 53 
6 54 | 100 33 14 v4 48 6.3 70 46 0 98.2 104 995 6 54 
6 55 | 1004456 4) 4g | +65 70 44 54 oe — 98.1 || +106 | 994 6 55 
6 56 100 56 39 ll 43 6.5 70 43 47 69 98.1 108 994 6 56 
6 57 | 101 822 35 45 6.7 70 42 38 70 98.0 110 994 6 57 
6 58 {10120 4 35) 4s 6.8 70 41 28 ol 97.9 112 994 6 58 
6 59 | 101 31 47 4; 45 6.9 70 40 17 oo) 97.9 114 994 6 59 
7 O ! 101 43 29 7.0 70 39 5 97.8 116 994 || 7 0 
