The standard potential for the reaction,
`Ag^(+)(aq.)+Fe^(2+)(aq.)toFe^(3+)(aq.)+Ag(s)`
is 0.028V. What is the standard free energy change for this reaction?

Write short hand notation for the following reaction Sn^(2+)(aq)+2Ag^(+)(aq)toSn^(4+)(aq)+2Ag(s) .

The standard rectuion potentials for two half-cell reactions are given below Cd^(2+)(aq)+2e^(-)rarrCd(s),E^(@)=-0.40V Ag^(+)(aq)+e^(-)rarrAg(s),E^(@)=0.80V The standard free energy change for the reaction 2Ag^(+)(aq)+Cd(s)rarr2Ag(s)+Cd^(2+)(aq) is given by

The standard electrode potential for the reactions, Ag^(+)(aq)+e^(-) rarr Ag(s) Sn^(2+)(aq)+2e^(-) rarr Sn(s) at 25^(@)C are 0.80 volt and -0.14 volt, respectively. The emf of the cell Sn|Sn^(2+)(1M)||Ag^(+)(1M)Ag is :

For the reaction 2Fe^(3+) (aq)+2I^(-)(aq) to 2Fe^(2+)(aq)+I_2(s) the magnitude of the standard molar free energy change, Delta_r G_m^@ = - __________ kJ (Round off to the Nearest Integer). [{:(E_(Fe^(2+)//Fe(s)) = -0440V ,, E_(Fe^(3+)//Fe(s))= -0.036V),(E_(I_2//2I^(-))^@ = 0.539V ,, F=96500C):}]

Calculate the equilibrium constant for the following reaction at 25^@C . Ag^(+)(aq) + Fe^(2+)(aq) to Ag(s) + Fe^(3+)(aq) The standard emf of the corresponding voltaic cell is 0.03 V.

The emf of the cell involving the reaction 2Ag^(+) (aq)+H_(2)(g) rarr 2Ag(s)+2H^(+) (aq) is 0.080 V . The standard oxidation potential od silver electrode is