412 



SUBJECT INDEX 



Salts, conductance of higher types of, 104 ; 

 complex metal-ammonia, 209 ; com- 

 plex metal-ammonia, conductance of, 211 ; 

 complex metal-ammonia, ionization of, 

 211 ; complex metal-ammonia, Werner's 

 theory of, 210 ; fused, see Fused salts ; 

 of higher types, conductance of at 

 higher temperatures in water, 148 ; 

 solid, applicability of Faraday's Law to, 

 362 ; solid, change of conductance at 

 transition point, 362 ; solid, conduct- 

 ance of, 359 ; solid, conductance of, 

 at different temperatures, 360 ; solid, 

 conductance of, lithium hydride, see Li- 

 thium hydride, 364 ; solid, conduct- 

 ance of mixtures of, 363 ; ternary, 

 conductance of, in ammonia, 105, 108 ; 

 ternary, variation of conductance func- 

 tion for in water, 106 

 Sodium acetate, conductance of, in water, 



102 ; plumbide, electrolysis of, 19 

 Solubility experiments, assumptions under- 

 lying interpretation of, 264 ; experi- 

 ments, constant concentration of un- 

 ionized molecules in, 262 ; Harkins' 

 theory of influence of intermediate ions 

 on, 277 ; influence of complex ions on, 

 267 ; influence of electrolyte on in 

 ethyl alcohol, 250 ; of electrolytes in 

 presence of common ion, 254 ; of elec- 

 trolytes in presence of other electrolytes, 

 254 ; of electrolytes in salt mixtures, 

 Bronsted's theory of, 337 ; of gases, 

 influence of electrolytes on, 239 ; of 

 higher types of salts, theory of, 275 ; 

 of lithium carbonate in presence of non- 

 electrolytes, 252 ; of non-electrolytes 

 in presence of electrolytes, 245 ; of 

 non-electrolytes, influence of electrolytes 

 on 249 ; of non-electrolytes, influence 

 of organic salts on, 250 ; of salts in 

 presence of non-electrolytes, 251, 253 ; 

 of salts in presence of other salts, lan- 

 thanum iodate, 274 ; of salts in pres- 

 ence of other salts, lead iodate, 270 ; 

 of salts in presence of other salts, silver 

 sulphate, 268 ; of salts in presence 

 of other salts, strontium chloride, 271 ; 

 of salts in salt mixtures, ther- 

 modynamic 'treatment, 335 ; of salts 

 of high type in presence of other salts, 

 268 ; of strong electrolytes in pres- 

 ence of other electrolytes without com- 

 mon ion, 268 ; of strong electrolytes 

 in presence of other strong electrolytes, 

 261 ; of T1C1 in presence of other elec- 

 trolytes, 261 ; of weak acids in pres- 

 ence of other acids, 256 

 Solutions, aqueous, molecular weight in, 

 232 ; electrolytic, 15 ; electrolytic, 

 conductance of, 26 ; electrolytic, den- 

 sity of, 283 ; electrolytic, equilibria in, 

 16 ; electrolytic, non-aqueous, 46 ; 

 electrolytic, optical properties of, 292 ; 

 electrolytic, reactions in, 16, 312 ; 

 electrolytic, thermal properties of, 303 ; 

 electrolytic, various properties of, .280; 

 non-aqueous, molecular weight in, 239 

 Solvents, mixed, conductance in, 176 ; 

 mixed, ionization in, 177 ; pure, con- 

 duction process in, 352 



Sulphur dioxide, conductance of KI in, 47 ; 

 dioxide, conductance of solutions in 

 at different temperatures, 155 ; dioxide, 

 molecular weight of solutions in, 239 



Tellurium, complex anion of, 215 

 Temperature, conductance of aqueous solu- 

 tions at elevated, 146 : influence of, 

 on conductance, 122, 144; influence 

 of. on conductance of ammonia solutions, 

 145 : influence of, on conductance of 

 methylamine solutions, 146; influence 



of, on conductance of non-aqueous solu- 

 tions, 154 ; influence of, on conduct- 

 ance of solutions, 51 ; influence of, on 

 conductance of solutions in amines, 159 ; 

 influence of, on constants of con- 

 ductance equation, 156 ; influence of, 

 on ionization constants, 149 ; influence 

 of, on ionization of salts, 150 



Theories of electrolytic solutions, miscel- 

 laneous, 347 ; relating to electrolytic 

 solutions, 323 



Theory, ionic, 17 ; ionic, origin of, 21 ; 

 of Berzelius, 20 ; of electrolytic solu- 

 tions, from thermodynamic standpoint, 

 324 ; of electrolytic solutions, Ghosh's, 

 340 ; of electrolytic solutions, Ghosh's, 

 compared with experiments, 341 ; 

 of electrolytic solutions, Hertz's, 345 ; 



of electrolytic solutions, inconsisten- 

 cies in, 328 ; of electrolytic solutions, 

 Jahn's, 326 ; of electrolytic solutions, 

 limitations of for strong electrolytes, 

 323 ; of electrolytic solutions, Malm- 

 strom's and Kjellin's, 339; of elec- 

 trolytic solutions, Milner's, 343 ; of 

 electrolytic solutions, present state of, 

 summarized, 349 ; of Grotthuss, 206 ; 



of Werner, 210 



Thermal properties of electrolytic solutions, 

 303 



Thermodynamic potential of 'electrolytes 

 and electromotive force, 298 ; proper- 

 ties of electrolytic solutions, 328 ; 

 properties of electrolytic solutions, nu- 

 merical values, 333 



Transference effects accompanying the cur- 

 rent, 21 ; numbers, by moving bound- 

 ary method, 23 ; numbers, change of, 

 at low concentrations, 307 ; numbers, 

 change of, for strong acids, 307 ; num- 

 bers, definition of, 21 ; numbers, in 

 ammonia, 64 ; numbers, influence of 

 complex ions on, 24 ; numbers, influ- 

 ence of concentration on, 24 ; numbers, 

 influence of hydration on, 22, 198 ; 

 numbers, influence of temperature on, 26 ; 



numbers, methods of determining. 22 ; 

 numbers, table of, 25 ; numbers, 

 true, 200 ; numbers, true, relation of 

 to ordinary, 199 



Van't Hoff's factor, 38; factor, limiting 

 value of, 41 



Variable conductors, change of conductance 

 at transition points, 401 ; conductors, 

 specific conductance of, 400 ; conduc- 

 tors, thermal conductance of, 403 



Velocity of reactions as influenced by ions, 

 287 



Viscosity change due to salts in different 

 solvents, 112 ; change, influence of 

 due to non-electrolytes, on conductance, 

 119, 121 : dependence of on dielec- 

 tric constant, 112 ; effect, correction 

 of conductance for. 114 ; effect, nega- 

 tive. 113 ; influence of concentration 

 on, 112 ; influence of on conductance, 

 111 ; influence of, on conductance in 

 mixed solvents, 176 ; influence of on 

 conductance in non-aqueous solutions, 

 118 ; influence of, on conductance of 

 concentrated solutions. 116; influence 

 of on conductance of different ions, 114 ; 

 influence of, on ionic speeds in different 

 solvents. Ill ; influence of, on A 

 values. 109 ; influence of pressure on 

 in different solvents, 143 ; influence 

 of temperature on. 113 ; of ammonia 

 at boiling point, 65: of fused salts, 

 354 ; of mixed solvents, 177 



Water, influence of on conductance of 

 acids in alcohols. 180, 186 ; ioniza- 

 tion constant of, 225 



