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Page 259
... SOLUBILITY 259 ( 13-23 ) which shows that K , increases as the product MTo increases . Since To increases as M increases , K , increases rapidly as the molecular weight of the substance in- creases . The increase is not very uniform ...
... SOLUBILITY 259 ( 13-23 ) which shows that K , increases as the product MTo increases . Since To increases as M increases , K , increases rapidly as the molecular weight of the substance in- creases . The increase is not very uniform ...
Page 286
... solubility of gases in liquids is usually small so that the condition of diluteness is fulfilled . Here we have another example of the physical significance of the partial pressure . The solubility of gases is often expressed in terms ...
... solubility of gases in liquids is usually small so that the condition of diluteness is fulfilled . Here we have another example of the physical significance of the partial pressure . The solubility of gases is often expressed in terms ...
Page 341
... solubility calculated ignoring ionic interaction , then så have 8 = 80 / Y + = Ksp , and we which shows that the solubility is increased by the ionic interaction . By the same reasoning as we used in discussing the dissociation of a ...
... solubility calculated ignoring ionic interaction , then så have 8 = 80 / Y + = Ksp , and we which shows that the solubility is increased by the ionic interaction . By the same reasoning as we used in discussing the dissociation of a ...
Contents
SOME FUNDAMENTAL CHEMICAL CONCEPTS Pages | 1 |
REAL GASES Pages 2744 | 27 |
THE STRUCTURE OF GASES Pages 4571 | 45 |
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activity atoms boiling point bond calculate cell charge chemical potential chemical reaction coefficient collision component composition compound compute concentration crystal curve decrease density depends diagram differential dilute dipole distribution electrical electrolyte electron enthalpy entropy equation equilibrium constant eutectic expression free energy freezing-point depression function gases heat capacity hydrogen ideal gas ideal gas law increase integral ionic isothermal kcal kinetic layer liquid mass measured metal mixture molality molar mole fraction molecular molecules negative number of molecules number of moles obtain orbital partial pressure particle partition function phase plane positive produced properties pure quantity Raoult's law rate constant reactants relation reservoir reversible shown in Fig solid solubility solution solvent structure substance surface Table temperature thermal thermodynamics tion total number vapor pressure variables velocity vibrational volume Waals yields zero ΔΗ ᎡᎢ