The electrochemical cell shown below is a concentrstion cell.
`M|M^(2+)` (saturated solution of a sparingly soluble salt,`Mx_2`)||`M^(2+)(0.001 mol dm^3)|M` The emf of the cell depends on the difference in concentrations of `M^(2+)` ions at the two electrods. The emf of the cell at 298K is 0.059V.
The value of `/_\G(kJ mol^-1)` for the given cell is (take 1F = `96500Cmol^-1`)

The electrochemical cell shown below is a concentration cell. M|M^(2+) (saturated solution of a sparingly soluble salt, MX_2 || M^(2+) (0.001 mol dm^(-3) ) |M The emf of the cell depends on the difference in concentration of M^(2+) ions at the two electrode The emf of the cell at 298 is 0.059 V The value of DeltaG (kJ " mol"^(-1)) for the given cell is ( take 1F = 96500 C " mol"^(-1) )

The electrochemical cell shown below is a concentration cell M//M^(2+) (saturated solution of a sparingly soluble salt, MX_(2))||M^(2+)(0.001 mol dm^(-3))|M The emf of the cell depends on the difference in concentrations of Mn^(2+) ions at the two electrodes. The emf of the cell at 298 K is 0.059 V . The value of DeltaG ( kJ "mol"^(-1)) for the given cell is : (take 1 F = 96500 C "mol"^(-1) )

The electrochemical cell shown below is a concentration cell. M|M^(2+) (saturated solution of a sparingly soluble salt, MX_2 || M^(2+) (0.001 mol dm^(-3) ) |M The emf of the cell depends on the difference in concentration of M^(2+) ions at the two electrode The emf of the cell at 298 is 0.059 V The solubility product (K_(sp) , mol^(3) dm^(-9)) of MX_2 at 298 based on the information available the given concentraiton cell is (take 2.303 xx R xx 298 // F = 0.059 V )

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 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 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)