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

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

For a cell reaction involving a two electron change, the standrard emf of the cell is found to be 0.295V" at "25^(@) C. The equilibrium constant of the reaction at 25^(@) C will be:

Equilibrium constant of a reaction is related to :

How is standard free energy change related to equilibrium constant ?

How Nernst equation can be applied in the calculation of equilibrium constant of any cell reaction ?

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 ]

The cell in which the following reaction occurs 2Fe^(3+)(aq)+2I^(-)(aq)to2Fe^(2+)(aq)+I_(2)(aq)+I_(2)(s) has E_(cell)^(0)=0.236V at 298 K. Calculate the standard gibbs energy and the equilibrium constant of the cell reaction.

What is the relation between the equilibrium constant of the forward reaction and the equilibrium constant of the reverse reaction ?

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 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)