174 
I — 4 . 2 V 2 -f 6.3^34 
— 4.4V4 -f- 51/5 J 
. . 4 - 0.0434694 . 
. . 8.63S 1836 
y + ' 
41/2 — 3.91/3+ ^ 
3 .I 6 I /4 — 251/5) 
. . — 1.0101788 . 
. . 0.0043983 
2 V 2 — 3 . 3 V 3 -M 
3.41/4 — 51/5 j 
. . 0.0596491 . 
. . 8.7756039 
V 2 — 3 1 / 3 -f 3 V 4 — V 5 
. . — 0.0179973 . 
. . 8.2552074 
3 I /3 — 2.41/4+ 5 I /5 
. . 4- 0.3764923 . 
. . 9.5757561 
I /3 — 21/ 4 -j - V 5 . . 
. . — 0.0318812 . 
. . 8.5035346 
1 2 1 
V 3 ^ V4 1/5 
. . 4- 0.0245639 . 
. . 8.3902973 
I /5 I /4 ... . 
. . 9.3730371 
1 1 
vT, Vs * ‘ ‘ 
. . 4 - 0.0527864 . 
. . 8.7225221 
1 1 
4 V 4 51/5 
1 
. . 4 - 0.0355573 . 
. . 8.5509288 
turn Ycro ex his 
sequens obtinebimus 
diagramma 
Log. A* (A — B) . . 
. . . 0.3394156 
L. (1 — 32 V 2 + I 62 V 3 j 
— 2561/4 -f 1251/5 j 
. . . 0.5849627 
^ 5 .(P(o) 5 n / 7! 
Log. V • 
0 24 t 4 2r^ 
. . . 9.2272282 
0.1516065 . 
. . 4 - 1".418 
