56 Longitude and Altitude of the Nonagesimal for the 
Argument. Longitude | Conertion Altitude , Paestion Corrections for Argument, 
AcRiofiMer. of the Nonagesimal. in Obliq. of the Nonagesimal. in Obliq. —1000" in Latitude. |), p of Mer. 
HH. M. BR: te2 “ Oe Ure oF Long. Alt. Hw. OM 
10 0 | 136 3430 44 4g [488.7 62 253 4 5, |-68.8 ||+441| +4920” | 10 0 
10 1 | 13646 5 3, 5, | 33:9 61 63 82 4 5, 68.6 442 920 10 1 
10 2 | 1365740 4; 35 | 39.1 615411 45, | 683 444 919 10 2 
10 8 | 13409 Ibi) os 39.3 61 49 48 4 53 68.1 446 919 0 3 
10 4 | 1272050 1 3, |_39.6 6145 25 1S 67.8 448 918 10) et 
10° 6 | 137 3226 4) 3, [4398 ar ae Aa —676 || +449 | +918 0 65 
10 6 (187/44 1) Gy ge 400 61 36.37 454 | 67.3 451 917 10 6 
10 7 | 137 55 36 3, 3¢ 40.3 61 92 1 oy Gp a) 67 453 917 10 7 
a0 Go UPB er Qi oe 40.5 6127 45 43g | 668 454 916 1 8 
10 9 | 1881847 1) 3s 407 6 2317 35, |_ 66.6 456 916 0 9 
10 10 | 133 30 23° 4) 34 [410 611849, a —66.3 |)/+458 |4915 || 10 10 
10 11 | 138 4159 3, 36 412 61 1421 43, | 66.1 459 915 10 1 
10 12 | 18853 85 3) 3, |: 41-5 61 951 435 | 698 461 914 10 12 
10°18 | 1898500 et, gdb EL (eel os ap 65.5 463 914 10 13 
10 14 | 13916 47 36 42.0 61 0 49 2 || 658 464 913 10 14 
10 15 | 139 28234) 36 [+422 60 56 17 i 65 —65 0 || +466 | +912 10 15 
10 16 | 139 89-59 3, 37 42.5 60 51 45 4 34 64.7 468 912 10 16 
10 17 | 199.51 36 45 a6 42.7 60 4711 435, | 644 469 911 10 17 
10 18 14008 1B iby gy t80 60 42.37 4 35 64.2 471 911 10 18 
1019 | 14014 49 1 36 43.2 60 38 2 Bs 63.9 473 910 || 10 19 
10 20 140 26 25 ll 37 43.5 60 33 26 . 37 —63.0 +474 +910 10° 20 
10 21 | 14088 12), ay ae. 60 28 49 4 3. 63.3 476 909 10 21 
10 22 | 1404939 3) 5, | 44.0 602412 736 | 63.1 478 909 10 22 
10, 28 [/14l 116 Gy ge 44.2 6019 34 435 | 62.8 479 908 10 23 
10 24 | 141 12635) 56 44.5 60 14 55 > {825 481 908 10 24 
10 25 | TERA SY 4, gy SES 60 10 15 ; Fs —62.3 || 483 | 907 10 25 
10 26 | 14186 8 4) 3, 45.0 60 535 445 | 62.0 484 907 10 26 
10 27 | 141.47 46 4) 36 45.3 60 053 4 a 61.7 486 906 10 27 
10 28 | 141.69 24 4) 36 45 6 595612 47453 | 615 488 906 10 28 
10 29 | 14211 2 41 os 45.9 59 51 29 : 612 489 05 10 29 
10 30 | 1422240 4, 33 [P4061 || 59 46 45 ‘ tL [609-491 [=F905_|| 10 30 
10 81 | 14282 18 hy gy | 46.4 5942 1 4 4 60.7 493 904 10 31 
10, 32, | 142 45 57 Mya ag | 46.7 59 3716 4 3 60.4 494 904 10 32 
10 83 | 142.57 35. 45 59 |. 47.0 593231 447 | 60.1 496 903 10 33 
1034 | 143 914 1) 3g |_472 59 27 447 59.9 498 903 10 34 
1035 | 143 2053 3) 99 [F175 || 592257 | pe =359.6 ||-499 | —-902 || 10 35 
10 36 | 148 8232 4) 99 47.8 e918 @ 3 a i bee 501 902 10 36 
WO) BT |/148-44 11 yy Gp. | 48.1 59 13 21 445 | 59.1 503 901 10 37 
10 38 | 1485551 4) 99 | 48-4 59 832 45) | 58.8 504 901 10 38 
1089 | 144730 4, 4) {48:7 ap) Ay ee 58.5 506 900 10 39 
10 40 | 14419 10 4) yo [445.9 58 58 51 ; ; 58.3 || 508 | 900 10 40 
10 41 | 144°80 50 3) 4g | 49.2 BS 54 0 425 | 58.0 509 899 10 41 
10 42 | 1444230 4) 44 49.5 5849 8 42 | 57.7 511 88 10 42 
10 43 | 1445411 3) 49 49.8 58 4415 4 88 57.4 513 898 10 43 
WO 44 | 106055 Se 50.1 58 39 21 4 54 57.1 514 897 10 44 
10 45 | 1451732 4, 4, [P5083 || 683427 1°. [509 |For |--s97 || 10 45 
10 46 | 1452913 4) 45 | 50.6 58 2932 4 oe 56.6 518 896 10 46 
10 47 | 145 4055 4) 4) 50.9 58 24 36 e. 56.3 519 896 10 47 
10 48 | 145 5236 3, 45 | 51.2 BB 19 40 6 56.0 521 895 10 48 
10 49) |e Wa 515 58 14 43 4 97 557 523 895 10 49 
10 60 | 14616 0 4, 4) [F518 || 58 945 4°8 [554 || f524 [80a || 20 50 
10 5h | 146 2742 ay yy | 521 || 58 447 453 | 55.1 526 | 894 || 10 51 
10 52 | 14639 4 4) 45 52.3 5759 48 459 | 548 528 893 10 52 
10 53 | 14651 7 4) 43 | 526 575449 459 | 545 529 893 10 53 
10 54 | 147 250 1 15 52.9 57 49 48 9 1 54.2 531 892 10 54 
1055 | 1471433 4) yg [453-2 BT 44 47 ; 53.9 || 4-533 | 4-892 10 55 
10 56 | 1472616 4, 43 | 53.5 57 39 46 7 3 | 536 534 891 10 56 
10 57 | 14788 0 45 44 | 538 578143 2 3 | 53.3 536 891 10 57 
10 58 | 1474944 4) 4y | 541 57 2940 - 3 | 529 538 890 || 10 58 
10 59 | 148 128 4) 4, | 544 57 2437 2 FB | 526 539 890 10 59 
11 0 | 148 13 13 54.7 57 19 32 52.3 541 889 ll 0 
