The standard reduction potential for the reaction `Sn^(4+) + 2erarr Sn^(2+)` is `+ 0.15 V`. Calculate the free energy change of the reaction.

The free energy change for a reaction is zero when

A fuel cell generates a standard electrode potential of 0.7 V, involving 2 electrons in its cell reaction. Calculate the standard free energy change for the reaction. "Given F= 96487 C mol"^(-1) .

The standard free energy change of the reaction M_((aq))^(+)+e rarrr M_((s)) is -23.125kJ . Calculate the standard emf of the half cell.

The value of equilibrium constant K_p for the reaction CO(g)+H_2O(g) leftrightarrow CO_2(g)+H_2(g) is 1.06 times 10^5 at 25^@C Calculate standard free energy change of the reaction at the same temperature.

The standard reduction potential at 298 K for the following half cell reaction are Zn^(2)(aq) + 2e rarr Zn(s)E^@ = -0.762 V Cr^(3+)(aq) + 3e rarr Cr(s)E^@ = 0.740 V 2H^+(aq)+ 2e rarr H_2(g)E^@ = 0.0V F_2(g) + 2e rarr 2F^(-) (aq)E^@ = 2.87 V Which of the following is strongest reducing agent ?

The standard reduction potential of Fe^(3+), Fe^(2+)//Pt is + 0.771V . This half cell is connected with another half cell such that e.m.f. of the cell is 0.771V. What is the other half cell ?