...potential of this "concentration chain" can be expressed by the formula: RT , C, * = 77 lognat' Cl where R is the gas constant, T the absolute temperature, F the Faraday constant, rj the valency of the ion (in this case 1), C* the concentration of the stronger solution...

...convenient standard of reference and has no other significance. The equation is p RT [Red] En- --- where R is the gas constant, T the absolute temperature,...the transformation of the oxidant to the reductant. C is a constant differing from case to case but characteristic for any one set of oxidation-reduction...

...tential for this ion as given by the Nernst equation Ex = RT/nF- L([x*]0/[x*]j). In this equation, R is the gas constant, T the absolute temperature, F the Faraday and n the ion charge. Therefore at 35 °C (in mV) ENa = 61 logmUNaMo/lNa^JjJand ECa = 30.5 log,0([Ca* *]0/[Ca...

...arbitrary zero, /t+ and //" are the mobilities of cation and anion respectively in the electric field, R is the gas constant, T the absolute temperature, F the Faraday and C, and Cr the concentrations on left and right respectively. Concentrations, especially at higher values,...

...at unit activities, is related to the standard potential, E°, by the Nernst equation: (6.8) [Red] where R is the gas constant, T the absolute temperature, F the Faraday constant, and n the number of electrons transferred in the oxidation process as in Equation (6.7)....