The standard Gibb's free energy change, `DeltaG^(@)` is related to equilibrium constant, kp as

Gibbs energy change is related to equilibruim constant by the equation__

For a water gas reaction C(s) + H_2O(g) harr CO(g) + H_2(g) at 1000^@C , the standard Gibb's energy change is -8.1 KJ mol^(-1) . Calculate the value of equilibrium constant.

Calculate standard Gibbs energy change and equilibrium constant at 25^@C for the cell reaction, Cd (s) + Sn^(2o+) (aq) rarr Cd^(2o+) (aq) + Sn (s) Given : E_(Cd)^@ = -0.403V and E_(Sn)^@ = -0.136 V . Write formula of the cell.

How does the change of pressure affect the value of equilibrium constant ?

Define Gibb's energy and change in Gibb's energy

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:

The correct relationship between Gibb's free energy change and the EMF of a cell is

At 60^@C , dinitrogen tetraoxide is fifty percent dissociated. Calculate the standard free energy change at this temperature and at one atmosphere.