RATE OF DIFFUSION OF IODINE IN KI 511 



(19) Soheffer, 1888. Experimental data on diffusion. Zeitschrift ftir physikaJische 



Chemie, ii, 390. 



(20) OholtQ, 1904. Experimental data on diffusion. Zeitschrift fur physikalische 



Chemie, 1, 309. 



(21) Nernst, 191 1 . On the driving back of dissociation by the addition of an electro- 



lyte having a common ion.. Theoretical Chemistry — English translation, 

 516. 



(22) LeBlanc and Noyes, 1890. Freezing point method used to show that iodine 



dissolved in KI is present as KI3 and not as free iodine. Zeitschrift ftir 

 physikalische Chemie, vi, 401. 



(23) Johnson, 1877. Obtained solid (crystaline) KI3. Journal of the Chemical 



Society, Year 1877, p. 249. 



(24) Max Roloff, 1894. Used method of partition coefficients between dissimilar 



solvents, showed that Br in KBr solution is present as KBra, and not as 

 any other bromide. Zeitschrift fiir physikalische Chemie, xiii, 341. 



(25) Jakowkin, 1896. Roloff's method applied to iodine in KI, showed that practi- 



cally all iodine thus dissolved is present as KI3. Zeitschrift fiir physika- 

 lische Chemie, xx, 19 to 39. 



(26) A. A. Noyes, 1896. Shows that very little I2 is present in a solution of iodine 



in KI, and that this is practically constant and equal to the solubility of 

 iodine in pure water. Zeitschrift fiir physikalische Chemie, xxvii, 357 to 360. 



(27) Yukichi Osaka, 1901. Shows that the addition of iodine to a solution of KI, 



or HI, actually raises the freezing point — Hence he concludes that KI3 

 and HI3 are markedly less dissociated than KI and HI, respectively. Zeit- 

 schrift fiir physikalische Chemie, xx.xviii, 742. 



(28) Ohokn, 1904. Descriptions of apparatus used in diffusion experiments. Zeit- 



chrift ftir physikalische Chemie, 1, 336. 



(29) Stefan, 1879. Tables used in the computation of diffusion coefficients — Four 



layer system. Wein Akadimie Berichte, Ixxix, 161. 



(30) Ostwald and Luther, 1909. Method of determining the viscosity of liquids, 



apparatus used, etc. Ostwald-Luther, Hand-und-Hillfsbuch zur Ausfilhr- 

 ung physiko-chemischer Messungen, 232. 



(31) Findlay, 1910. Just as for (30) above. Practical physical chemistry, 71. 



(32) Biedermann, 1913. Viscosity data. Chemiker-Kalender (1913), 370. 



(33) Landold-Bornstein-Roth, 1912. Viscosity and similar data. Tabeln4 Auflage, 



77. 

 (84) Nernst, 1911. On the diffusion of electrolytes. Theoretical Chemistry — 

 English translation, 368. 



(35) Nernst and Merriam, 1905. Theory of the "Reststrom." Zeitschrift fiir 



physikalische Chemie, liii, 235. 



(36) Harry Heymann, 1912. Heterogeneous reactions studied by means of the 



"Reststrom." References repeatedly made to the work of Van Name and 

 Edgar. Zeitschrift ftir physikalishe Chemie, Ixxxi, 204. 



(37) Taylor and Rankin, 1913. Viscosity data for KI solutions from 1 to 3 normal. 



Proceedings of the Royal Society of Edinburgh, no. 25, 227. 



(38) Abegg and Bose, 1899. On the influence of an added electrolyte upon the 



rate of diffusion of an electrolyte having a common ion. Zeitschrift fiir 

 physikalische Chemie, xxx, 545. 



