For the following cell, `Zn(s)|ZnSO_(4)(aq)||CuSO_(4)(aq)|Cu(s)` when the concentration of `Zn^(2+)` is 10 times the concentration of `Cu^(2+),` the expression for `DeltaG("in J mol"^(-1))` is [F is Faraday constant, R is gas constant, T is temperature, `E^(@)"(cell)"=1.1V`]

For the following cell, Zn(s)|ZnSO_(4)(aq)||CuSO_(4)(aq)||Cu(s) When the concentration of Zn^(2+) is 10 times the concentration of Cu^(2+) , the expression for DeltaG (in J "mol"^(-1) ) [F is Faraday constant, R is gas constant] T is temperaure, E^(@)("cell")=1.1V

E^(@) for the cell Zn(s)|Zn^(2+)(aq)|Cu^(2+)(aq)|Cu(s) is 1.1V at 25^(@)C the equilibrium constant for the cell reaction is about

The emf of a Daniell cell at 298 K is E_(1) Zn|ZnSO_(4)(0.01 M)||CuSO_(4)(1.0M)|Cu When the concentration of ZNSO_(4) is 1.0 M and that of CuSO_(4) is 0.01 M , the emf changed to E_(2) . What is the relationship between E_(1) and E(2) ?

Write Nernst equation for the following cell reaction : Zn"|"Zn^(2+)(aq)"||"Cu^(2+)(aq)"|"Cu(s)

CuSO_(4)(aq.)+Zn(s) to ZnSO_(4)+Cu darr

CuSO_(4)(aq.)+Zn(s) to ZnSO_(4)+Cu uarr

E.M.F. of Ni(s) | Ni^(2+) (aq)||Cu^(2+) (aq)| Cu(s) cell can be increased by

Write the cell reaction for each of the following cells. Ni(s)|Ni^(2+)(aq)||Cu^(2+)(aq)|Cu(s).

For the electrochemical cell, Mg(s)|Mg^(2+) (aq. 1M)||Cu^(2+) (aq. 1M)|Cu(s) the standard emf of the cell is 2.70 V at 300 K. When the concentration of Mg^(2+) is chaged to x M, the cell potential changes to 2.67 V at 300 K. The value of x is ________ . (Given F/R=11500 kV^(-1) . where F is the Faraday constant and R is the gas constant, ln (10) = 2.30)

The EMF of a Daniel cell at 298K is E_(1) . The cell is: Zn(s)abs( ZnSO_(4) (0.01M)) | abs(CuSO_(4)(1.0M)) Cu(s). When the concentration of ZnSO_(4) is 1.0 M and that of CuSO_(4) is 0.01 M the emf changes to E_(2) . What is the relationship between E_(1) and E_(2) ?