INDEX xli

             Cohen and Turnbull’s              Conductance (cont.)
              model, compared with that for non-glass  presence of ion association, 549
                   forming molten salts, 645    theory, 585
              theory, for glass forming molten salts, 644  various salts, in nonaqueous solutions, 539
             College Station, Texas, and centers for electro-  Conduction,
                   chemistry, 26                the low field case, 470
             Colloidal particles, distribution of proximal  in polymers, a mechanism (after Lyons),
                   charge, 272                       557
             Compensation plots, for entropies of hydration,  Conductivity
                   138                          polymeric structures, Lyons diagram, 556
             Complexes in molten salts, variation with con-  of polymers, tabulated, 555
                   centration, of ligand, 700  Constant  flux  diffusion  problem, 396
             Complex formation, in ionic liquids, 609  Conway
             Complex ions                       and dielectric constants in the double layer,
              determination, by a quarter time potential  94
                   approach, 698                his extrapolation method for individual ionic
              in molten salts, 696, 697, 699         properties, 99
             Compressibility                    and local pressures, near an ion in solution,
              adiabatic, for numerous electrolytes, 63  188
              adiabatic, its dependence upon molar frac-  seminal book on hydration in chemistry, 50
                   tions, 60                  Conway and Soloman, upgrading of Halliwell
              function of field  strength,  186      and Nyburg,  110
              measuring it, 60                Correlation  functions
              and pressure, 187                 excess free energy, 325
              and solvation numbers, 58, 59     obtaining solutions, 324
              tabulated, 643                  Current, its vectorial character, 439
             Computations, for ion–water clusters, 157  Current density, in terms of ionic drift veloci-
             Concentration                           ties (mobilities), 446
              critical, for the addition of metal oxides to  Cyborgs, the person–machine combination, a
                   liquid silicate, 740              part of life, 31
              function of distance, after constant current
                   pulse, 391                  Davies, an experimental method for detecting
              function of distance at constant time in diffu-  dimer formation, 330
                   sion, 395                   Debye
              relative, of ion hydrates, as a function of  charging process, 303
                   pressure, 95                 and hydration numbers, 64
             Concentration response,            reciprocal length, 248
              constant flux,  390               his theory of salting out, 179
              stimulus, under various conditions, 399  his vibronic potential, 64
             Conductance                       Debye-effect, 529
              concentration curve, as a function of solvent,  Debye and Hückel
                   545                          compared with virial coefficients, computer
              and ion association, 548               simulations, and distribution coeffi-
              and Kohlrauch’s law, for ion association,  cients, 333
                   550                          difficulties with the limiting law, 273
              liquid silicates, 730             ionic charge, the radius, 276
              low dielectric constants, 546     limiting law, and the new equation for ion
              methanol–water mixtures, 568           size effects, 281
              molten chlorides, in Periodic Table, 659  model, schematic, 234
              in nonaqueous solution, of true electrolytes,  primitive theory compared with experiment,
                   553                               271