`Zn|Zn^(2+)(a=0.1M)||Fe^(2+)(a=0.01M)Fe.`
The `EMF` of the above cell is `0.2905`. The equilibrium constant for the cell reaction is

For a cell reaction involving a two-electron change, the standard e.m.f. of the cell is found to be 0.295V at 25^(@)C . The equilibrium constant of the reaction at 25^(@)C will be:

For a spontaneous reaction, DeltaG , equilibrium constant (K) and E_(cell)^(0) will be respectively:

The electrochemical cell shown below is a concentration cell. M|M^(2+)( saturated solution of sparingly soluble salt, MX_(2))||M^(2+)(0.001 mol dm^(-3))|M The emf of the cell depends on the difference in the concentration of M^(2+) ions at the two electrodes. The emf of the cell at 298 is 0.059V . The solubility product (K_(sp),mol^(3) dm^(-9)) of MX_(2) at 298 based on the information available the given concentration cell is ( Take 2.303xxRxx298//F=0.059V)

The cell , Zn | Zn^(2+) (1M) || Cu^(2+) (1M) Cu (E_("cell")^@ = 1. 10 V) , Was allowed to be completely discharfed at 298 K . The relative concentration of 2+ to Cu^(2+) [(Zn^(2=))/(Cu^(2+))] is :

Consider a Galvenic cell, Zn(s) |Zn^(2+) (0.1M) ||Cu^(2+) (0.1M)|Cu(s) by what factor, the electrolyte in anodic half cell should be diluted to increase the emf by 9 mili volt at 298K .

Zn|Zn^(2+)(c_(1)) || Zn^(2+)(c_(2))|Zn . For this cell DeltaG is negative if :