Page:Journal of the Asiatic Society of Bengal Vol 1.djvu/610

552 Place the index A at the apparent distance on the arc of the instru- ment ; then place the plain bar BC on the divided edge BE, or solar line.) at the sun's altitude ; and the chamfered bar DF, on the lunar line GH : mark at what division the plain bar intersects it, which note down, and call it the line of correction ; and when this falls to the right of the lunar line, it is subtractive ; but when to the left, it is additive. Multiply* this line of correction by the given horizontal parallax ; and divide the product by 62, when the correction is subtractive ; but by 53, when additive, to find the " true correction." To this description I will add a comparative example by the two methods.

By the usual Formula. p's Apparent Altitude, 32° 30' 00"" ,,. *'s Ditto ditto,.. 43 43 00 Glven > i Apparent distance, 45 19 37 To find the true d 1S tance. 3) 's Apparent Altitude,32 6 30' Sum 76 13 Half, 38 6 Co. Tang. 10,1056 Difference, 11 13 Half, 5 36 Tangent, 8,9915 Apparent distance, 45 19 37 Half, 22 40 Co. Tang. 10,3792 First Correction, .. + 6 Arc, A. .. 16 40 Tangent, 9,4763 45 19 43 Difference, s 6 00 Co. Tang. 10,9784 Second Correction, — 25 43 *'s Altitude, 43 43 Co. Tang. 10,0195 44 54 00 *'s Correction, 59 P. Log. 2,2626 Third Correction, + 15 First Cor. 6 P. Log. 3,2605 True Distance, .. 44 54 15 Sum, 39 20 Co. Tang. 10,0865 }) 's Altitude, 32 30 Co. Tang. 10,1958 J'sCor 49 15 P. Log. 0,5629 2nd Cor 25 43 P. Log. 0,8452 Given as above. By the Anglometer. Line of Correction, 25' 45" P. Log. 8445 J 's Horizontal Parallax, 60 9 P. Log. 4760 1,3205 Constant Log. 4629 8576 Correction, 24 59 Apparent Distance, 45 19 37 True Distance, 44 54 38
 * _ ]) 's Horizontal Parallax, 60 09
 * 's Ditto ditto, 43 43
 * The use of proportional logarithms will simplify this operation.