The standard emf of a galvanic cell involving 2 moles of electrons in its redox reaction is 0.59 V.
The equilibrium constant for the redox reaction of the cell is :

The standard emf of a galvanic cell involving 2 motes of electrons in its redox reaction is 0.59 V the equilibriun constant for the redox reaction of the cell is

The standard emf of a galvanic cell involving cell reaction with n = 2 is found to be 0.295 V at 25^(@)C . The equilibrium constant of the reaction would be (Given F=96,500 C mol^(-1), R = 8.314 JK^(-1) mol^(-1) ):

At 25^(@)C , the standard emf of a cell having reaction involving two electrons change is found to be 0.295 V. The equilibrium constant of the reaction is :

The value of equilibrium constant for a feasible cell reaction is :

The standard e.m.f of a cell, involving one electron change is found to be 0.591 V at 25^(@) C . The equilibrium constant of the reaction is : (F=96,500C mol^(-1) : R=8.314 Jk^(-1)mol^(-1)

A redox reaction always involves

The emf of a galvanic cell is positive when free energy change of reaction is

E_"cell"^@ for the reaction , 2H_2O to H_3O^(+) + OH^(-) at 25^@C is -0.8277 V. The equilibrium constant for the reaction is

For a cell involving one electron E_(cell)^(0)=0.59V and 298K, the equilibrium constant for the cell reaction is: [Given that (2.303RT)/(F)=0.059V at T=298K ]

Derive an expression relating standard e.m.f. of the cell with the equilibrium constant of the cell reaction.