Electrolytes |
Contents
SOME INTRODUCTORY REMARKS ABOUT ELECTROLYTES | 1 |
IDEAL DILUTE SOLUTIONS | 12 |
The Laws of Osmotic Pressure Depression of Freezingpoint | 20 |
30 other sections not shown
Other editions - View all
Common terms and phrases
1-1-valent salts acetone activity coefficient alcohol approximately aqueous solutions Arrhenius Arrhenius's Bjerrum boiling-point elevation Brönsted calculated cell central ion charge Chem classical theory concentrated solutions corresponding curve Debye decrease deflexion degree of dissociation dependence determined dielectric constant dispersion effect electric electrolyte solutions electromotive force Elektrochem equation equilibrium equivalent conductivity experimental Falkenhagen Farad field field-strength free energy freezing-point depression frequency G. N. Lewis given gives H. S. Taylor Harned heat of dilution ibid ideal dilute solution increase infinite dilution interionic forces ionic atmosphere ionic strength law of mass limiting law lytes mass action measurements method methyl MgSO MgSO4 molar mole NaCl Nernst obtained Onsager osmotic coefficient osmotic pressure Phys Randall Scatchard shows solvent strong electrolytes Table temperature term theoretical thermodynamic potential tion undissociated valency types values variation velocity volume Walden wave-length weak electrolytes Wien effect