69 



Lfde. 



Abstd. 



Beob. + 



Kechn. 



Beob.-Kecnn. 



















Nr. 



Nr. 



syst. Corr, 





n 



















14 



14 



rr 



2264.93 



nctf? Ö ^ A 



2zboA\j 



I V K O 

 + I.OD = 



rt rtrtO 



— 0.998 



xc/ 



+ 0.998 xp 



+ 0.068 yg 



— 0.068 



yp 



15 



16 



763.00 



763.29 



A OA 



A A Trt 



— U.9 ^9 



a 



+ 0.979 



c 



+ 0.202 



a 



— 0.202 



c 



16 



17 



959.34 



958.09 





A O 1 O 



a 



+ 0.812 



d 



— 0.584 



a 



+ 0.584 



d 



17 



18 



1229.15 



1 ono 1 c 

 122Ö.15 



1 1 Art 



-j- l.UU 



rt rtQrt 



a 



-1- 6.939 



e 



— 0.344 



a 



4" 0.344 



e 



18 



20 



683.94 



684.01 



A Af? 



— 0.07 



— 0.801 



0 



+ 0.801 



c 



— 0.598 



b 



4" 0.598 



c 



19 



21 



1264.46 



1203.50 



1 A 



+ U.yo 



U.40Ö 



0 



+ 0.458 



d 



— 0.889 



b 



4" 0.889 



d 



20 



22 



1618.93 



1dz0.03 



IIA 



— 1 . lu 



— 0.975 



0 



-j- 0.975 



h 



— 0.221 



b 



4- 0.221 



Ti 



21 



24 



714.56 



714.67 



— 0.11 



— 0.045 



c 



+ 0.045 



d 



— 0.999 



c 



4" 0.999 



d 



22 



25 



706.97 



706.40 



t A C ^ 



+ 0.57 



— 0.577 



c 



+ 0.577 



e 



— 0.817 



c 



4" 0.817 



e 



23 



26 



1030.75 



1031.29 



— 0.54 



A A A A 



— 0.999 



c 



4- 0.999 



h 



+ 0.049 



c 



— 0.049 



Ii 



24 



27 



1465.42 



1464.36 



+ 1.06 



A A O A 



— 0.909 



c 



+ 0.939 



i 



4- 0.344 



c 



— 0.344 



i 



25 



28 



397.94 



09b. Ol 



rt 



— V.Ol 



rt OQrt 



a 



-)- 0.939 



e 



4- 0.343 



d 



— U.o4o 



e 



26 



29 



816.01 



815.60 



+ U.41 



A OIO 





-j- 0.878 



f 



— 0.479 



d 



-j- 0.479 



t 



27 



30 



636.49 



£; o c: ort 



t A ^? A 



■f- U.dU 



rt KOQ 



e 



+ 0.528 



f 



— 0.850 



e 



1 A O C A 

 -|- Ü.ÖOU 



T 



28 



31 



881.10 



882.49 



— 1.89 



A ^AO 



— 0. /Ü3 



e 



-|- 0.703 



h 



+ 0.711 



e 



— 0.711 



II 



29 



32 



1338. G4 



^ o^(\ AO 



rt QQ 

 U.OO 



rt 0*70 



— U.9 lo 



e 



4- 0.978 



l 



— 0.208 



e 



1 rt ortQ 

 -\- U.^Uo 



7 



( 



30 



33 



1004.49 



1006.1 1 



— l.o2 



— 0.966 



/ 



4- 0.966 



l 



+ 0.259 



f 



A OKA 



— 0.i!59 



7 



31 



35 



570.45 



568.93 



1 1 CO 



+ l.oz 



— O.oOd 



Ii 



4- 0.603 



i 



4- 0.798 



h 



A "7 AQ 



i 



32 



36 



752.57 



750.46 



+ 2.11 



— 0.912 



Ii 



4- 0.912 





4- 0.410 



h 



— 0.410 



7* 



K 



33 



37 



1 142.03 



1 141.32 



+ 0.71 



— O.bO ( 



h 



4- 0.607 



l 



— 0.795 



h 



-|- 0.795 



7 



( 



34 



88 



15 14.98 



1514.27 



4- 0.71 



A QGG 

 Ü.ÖDD 



Ii 



4- 0.866 



n 



— 0.500 



Ji 



t A C AA 



-f- 0.50U 



n 



35 



39 



372.17 



Oll.VO 



( A 1 rt 





i 



4- 0.920 



Ti 



— 0.393 



i 



1 rt QQQ 



-l- o.oyo 



Ii, 



36 



40 



1406.69 



1405.64 



I 1 AK 



+ l.Uo 



A OKA 



i 



1 n OKI) 



7 



l 





1 



1 rt rtJ^Q 



-\- o.yoo 



7 



37 



41 



1095.49 



1 A A J rr o 



1094.78 



+ 0.71 



1 A A A 

 1 .UUU 



i 



+ 1.000 



0 



+ O.026 



i 



A AO/3 



0 



38 



42 



1216. od 



1Z14.Ö0 



1 T AQ 



rt rtrtQ 



— U.UU9 



7- 



K 



-t- 0.009 



l 



— 1.000 



Ii 



1 1 rtflrt 

 -|- l.UUU 



7 



39 



43 



1238.74 





1 1 /l O 



-f- 1.4Z 



rt KrtO 



7. 



+ 0.509 



n 



-^0.860 



Ii 



1 rt QßA 

 -j- U.odU 



n 







772.09 



771.75 



+ 0.34 



— 0.974 



Ii 



+ 0.974 



0 



+ 0.226 



h 



— 0.226 



0 



41 



45 



739.18 



738.65 



+ 0.53 



— 0.705 



l 



+ 0.705 



in 



— 0.709 



l 



+ 0.709 



m 



42 



46 



634.11 



634.39 



— 0.28 



— 0.972 



l 



+ 0.972 



n 



+ 0.237 



l 



— 0.237 



n 



43 



47 



1574.09 



1572.99 



+ 1.10 



— 0.469 



l 



+ 0.469 



0 



+ 0.883 



l 



— 0.883 



0 



44 



48 



680.79 



680.78 



+ O.Ol 



— 0.189 



in 



+ 0.139 



n 



+ 0.990 



m 



— 0.990 



n 



45 



50 



1246.94 



1245.10 



+ 1.84 



— 0.095 



n 



+ 0.095 



0 



+ 0.995 



n 



— 0.995 



0 



46 



51 



989.07 



987.14 



+ 1.93 



— 0.843 



n 



+ 0.843 



P 



+ 0.539 



n 



— 0.539 



P 



47 



52 



1008.36 



1007.48 



+ 0.88 



— 0.712 



0 



-f 0.712 



P 



— 0.702 



0 



+ 0.702 



P 



48 



60 



2161.96 



2159.69 



+ 2.27 



- 0.995 



h 



+ 0.995 



P 



— 0.104 



Ii 



+ 0.104 



P 



"Wenn aber hierin die bereits bekannten Werthe 



xa = 



0.000 





0.000 



h 



+ 0.263 



h 



— 0.342 



f 



+ 1.816 



f 



+ 0.256 



i 



+ 0.346 • 



i 



— 0.649 



m 



+ 0.311 



in 



+ 1.156 



P 



+ 1.693 



P 



0.000 



eingesetzt und die zugehörigen Coefficienten beseitigt werden, so bleiben die 

 Bedingungsgleicbungen nachfolgender Gestalt übrig: 



1 



+ 0.08 = 





J3 



+ 0.995 xg 





y 



+ 0.104 yg 



2 



+ 0.21 







+ 0.893 g 





+ 0.450 g 



3 



+ 0.37 



— 0.941 



C 



+ 0.941 g 



— 0.337 



c 



+ 0.337 g 



4 



— 1.39 



— 0.916 



d 



+ 0.916 g 



+ 0.401 



d 



— 0.401 g 



5 



— 0.82 



— 0.898 



e 



+ 0.898 g 



+ 0.441 



e 



— 0.441 g 



6 



— 0.58 







+ 0.210 g 





— 0.978 g 



7 



— 0.43 



— 0.287 



9 



+ 0.287 h 



+ 0.958 



9 



— 0.958 h 



8 



+ 0.41 



— 0.481 



9 





+ 0.877 



9 



— 0.653 Je 



9 



+ 1.32 



- 0.758 



9 



+ 0.758 h 



+ 0.653 



9 



