Calculate standard free energy change for the reaction `1/2 Cu(s) +1/2 Cl_(2) (g), 1/2 Cu^(2+) + Cl^(-)` taking place at `25^(@)` C in a cell whose standard e.m.f. is volts

Calculate the standard free enegry change for the reaction: Zn + Cu^(2+)(aq) rarr Cu+Zn^(2+) (aq), E^(Theta) = 1.20V

Calculate the standard free energy change for the reaction : Zn(s)|Zn^(2+)(1 M)||Cu^(2+)(1 M)|Cu(s) Given E_(cell)^(@)=1.10" V " .

The standard free energy change of the reaction Cu^(2+)+Sn(s)rarrCu(s)+Sn^(2+) Given : E^(@)=0.48V ) is:

The standard EMF of the cell reaction 1/2Cu(s)+1/2Cl_2(g) to 1/2Cu^(2+)+Cl^- is 0.2 V. The value of /_\G^0 will be

The equilibrium constant for the reaction given below is 2.0xx10^(-7) at 300K. Calculate the standard free energy change for the reaction, PCl_(5(g))hArrPCl_(3(g))+Cl_(2(g)) . Also, calculate the standard entropy change if DeltaH^@=28.40kJmol^(-1) .

Calculate the standard free energy change in kJ for the reaction Cu^(+) +I^(-) to CuI Given: 'CuI + e to 'Cu+I^(-)" "E^(0)=-0.17V Cu^(+)+e to Cu" "E^(0)=0.53V