SECULAR VARIATIONS OF THE ELEMENTS OP 



,,<-29.5237894./+172.758201154./ 1 } 



-323.368779974..</ +140.4964513342 J l 



62 



The values of J, &', b", and Z/" are given by equations (118); and the values of 

 &i, ftfc, fe s , and & 4 are given by equations (119), by simply adding log. 

 0.0413927 to the coefficient of N". 



Putting equations (267) and (268) equal to nothing, they will give, 



g= 5".554906079, g,= 0".616687321, ' 



gf = 7.378294649, g b = 2.727775991, 



#=17.403271601, #,== 3.718480731, 



^ 8 =18 .098463471, <?7=22 .460845357. 



(268 1 ) 



Equations (257-268), in connection with equations (84-97), will now give the 

 following values : 

 For the root g, we get, 



#=5".5550002, 



N 1 =+0.04569346^" 

 N* =+0.02968146^ 

 N" =+0.00482527^ 

 JV /r = 0.00004897096JV 

 N T =0.00004399572^ 

 jV r/ =+0.00001859827JV 



For the root g lt we get, 



^ 1= 7".3790776, 



JV," =0.590047^ 

 Nf = 0.1045547JV; 

 N^ =+0.00041 79936 JV1 

 Ai r =+0.0004316384^ 

 N t n =0.0001054817^ 

 N l m = 0.000004437763JV1 



For the root g t , we get, 



<; 2 =17".4034121, 

 Ai' = 7.766638^ 

 Nl =+ 6.68909()^ 2 

 N," =+23.91929JV 2 

 N," = 0.000785956A", 

 N t r = 0.005986225^ 

 N t ri =+ 0.0003529385A; 

 #/"=+ 0.00002604318^ 



log. 98.6598541 ; 



" 98.4724852 ; 



" 97.6853181 ; 



" 95.6899385n ; 



" 95.6434103re; 



" 95.2694725 ; 



" 93.5602333. 



log. 99.8784552/1 ; 



" 99.7708867w; 



" 99.0193438w; 



" 96.6211696; 



96.6351200; 



" 96.0231771; 



" 94.6471640w. 



log. 0.8902330; 

 " 0.8253671 ; 

 1.3787482; 

 96.8953983w; 

 " 97.7771530n; 

 " 96.5476990 ; 

 " 95.4156940. 



