Quantitative Determinations. 
425 
QUINOLINE. 
The sample of this solvent employed was from Merck, and 
its specific conductivity was 3.7 X 10~ 7 . 
Table XXVII. 
Solvent: quinoline. 
Silver Nitrate, Silver Nitrate, 
Ag NO s . 
(y = 4.80 at 
25® C. 
V 
M 
t 
M 
4.80 
2.45 
25° C. 
2.45 
9.60 
2.79 
50 
4.67 
34.92 
2.80 
62 
5.20 
129.83 
3.62 
70 
5.52 
85 
5.89 
104 
5.75 
124 
5.77 
136 
5.52 
GENERAL DISCUSSION OF RESULTS. 
THE ALCOHOLS. 
The non-aqueous solvents that yield solutions which conduct 
the best are in general the alcohols. Through the labors of Car¬ 
rara, 1 Cattaneo, 2 Cohen, 3 Fitzpatrick, 4 Holland, 5 Kablukoff, 6 7 8 9 10 11 
Pfeiffer, 7 Schall, 8 Schlamp, 9 Vollmer, 10 Zelinsky and Krapiwin, 11 
1 (1) Gazz, Chem. Ital., 24, II, 504. (Ref.) Jour. Chem. Soe ., 68, ii, 
302; 1895. (2) Ibid., 26, I, 119. (Ref.) Jour. Chem. Soe., 70, ii, 511; 
1896. (3) Ibid., 27, I, 422. (Ref.) Jour. Chem. Soe., 72, ii, 473; 1897. 
2 Rend. Accad. Line., II, 63 and 73; 1895. (Ref.) Jour. Chem. Soe ., 
72, ii, 537; 1897. 
3 Zeit. phys. Chem., 25,1; 1898. 
4 Phil. Mag. (5), 24, 322; 1887. 
6 Wied. Ann., 50, 261; 1893. 
6 J. Russ. Chem. Soe., 23, 391. (Ref.) Jour. Chem. Soe., 64, ii, 151; 
1893. 
7 Wied. Ann., 26, 31; 1885. 
8 Zeit. phys. Chem., 14,701; 1894. 
9 Zeit. phys. Chem., 14, 273; 1894. 
10 Wied. Ann., 52, 328; 1894. 
11 Zeit. phys. Chem., 21, 35; 1896. 
