110 



SECULAR VARIATIONS OF THE ELEMENTS OF 



By means of equations (385-407) and (371-384), we now obtain the following 

 values. 



For the root g, we get, 



g=— 5".126112, 



N' =+0.1227919i\T log. 9.0891696, 



N" =+0.08795864iV " 8.9442784, 



N* =+0.01757422iV " 8.2448760, 



j\r /r =— 0.0002076885iV " 6.3174124rc, 



j^ =_0.000264229iV " 6.421980™, 



N VI =+0.000231553^ " 6.364650, 



j\T™=+0.00000640325iV " 4.806400. 



For the root g x , we get, 



^=—6". 592128, 



N{ =—0.2764636^ log. 9.4416380n, 



N» =— 0.2229392^ " 9.3481864n, 



Nl" =— 0.04673056iVi " 8.6696010», 



^=+0.0003357396^ " 6.5260026, 



N x y =+0.0004742548^ " 6.6760116, 



N™ =— 0.0002454315iVi " 6.3899302n, 



N 1 nT =— 0.00001482107^ " 5.1708794™. 



For the root g 2 , we get, 



g 2 =— 17\393390, 



N> == _ 5.563101iV 2 log. 0.7453170n, 



JV 2 " =+ 4.563350iV 2 " 0.6592838, 



N a m =+33.24578iV 2 " 1.5217364, 



N i rr =— 0.001649287iV 2 " 7.2172964™, 



JV 2 r =— 0.01403826^ " 8.1473134™, 



JV r a "=+ 0.001367028iV 2 " 7.1357772, 



N 2 ra —-\- 0.000157230iV 2 " 6.1965360. 



For the root g a , we get, 



^ 3= _18".408914, 



Nj = _ 6.098710^ log. 0.7852380™, 



N a " = + 6.655888i^ " 0.8232060, 



N? =— 10.22309iV 3 " i.0095825», 



N 3 I7 =— 0.0001958273^ " 5.2918731™, 



N a y =— 0.0001514003^ " 6.1801268, 



N 3 YI =-\- 0.00001260627^ " 5.1005864, 



N z rB =+ 0.00000140198^ " 4.1467414. 



For the root g A , we get, 

 </ 4 =0, and 



=iV 4 r =^ rJ =^ T 



