For the reduction of silver ions with copper metal, the standard cell potential was found to be `+0.46 V` at `25^(@) C`. The value of standard Gibbs energy, `DeltaG^(@)` will be `(F = 96,500C mol^(-1))`:

For the reduction of silver ions with copper metal, the standard cell potential was foound to be +0.46 V at 25^(@) C . The value of standard Gibbs energy, DeltaG^(@) will be (F = 96,500C mol^(-1)) :

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:

The value of DeltaG ((KJmol^(-1)) for the given cell is : ( Taken 1F = 96500C mol^(-1)

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)

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) ):

If the equilibrium constant of a reaction is 2×10^3 at 25°C then the standard Gibbs free energy change for the reaction will be

An oxidation- reduction reaction in which 3 electrons are transferred has a DeltaG^(0) of 17.37 kJ mol^(-1) at 25^(@) C . The value of E_("cell")^(0) (in V) is _________ xx 10^(-2) (1 F = 96, 500 C mol^(-1))

The standard electrode potential for Deniell cell is 1.1V . Calculate the standard Gibbs energy for the reaction. Zn(s) +Cu^(2+)(aq) hArr Zn^(2+)(aq)+Cu(s)

Assertion: Cu^(2+) ions get reduced more easily than H^+ ions. Reason: Standard electrode potential of copper is 0.34 V.

The equilibrium constant K_(p) for a homogeneous gaseous reaction is 10^(-8) . The standard Gibbs free energy change DeltaG^(ɵ) for the reaction ("using" R=2 cal K^(-1) mol^(-1)) is