The standard reaction potential of a calomel half cell is 0.28V at `25^@C`. Calculate half cell potential when 0.1N KCl solution is used

The standard e.m.f. of the cell Cd|Cd^2+ || Cu^2+ | Cu is 0.74V . The standard electrode potential of copper electrode is 0.34 V . Calculate the standard electrode potential of cadmium electrode?

The standard reduction potential for the half cell NO_j^-(aq)+2 H^+(aq)+e^- NO_2(~g)+H_2 O is 0.78 ~V 1). Calculate the reduction potential in ' 8 MH^* ii) What will be the' reduction potential of the half cell in a neutral solution. "Assume all the other species to be at unit concentration.

Two electrode A and B have standard electrode potential of -0.76V and 0.34V respectively. Find the standard cell potential of the cell formed.

A cell contains two hydrogen electrodes. The negative electrode is in contact with a solution of 10^-6 M hydrogen ions. The emf of the cell is 0.118V at 25^@C . Calculate the concentration of hydrogen ions at the positive electrode.

The standard potential of the following cell is 0.23 V at 15^@C and 0.21V at 35^@C (Pt) H_2(g) |HCl(aq)|AgCl(s)|Ag(s) Calculate the solubility of AgCl in water at 25^@C Given: E_(Ag^+,Ag)^@=0.80V at 25^@C

The standard potential of the following cell is 0.23 V at 15^@C and 0.21V at 35^@C (Pt) H_2(g) |HCl(aq)|AgCl(s)|Ag(s) Write the cell reaction.

The standard reduction potential of Cu^(2+)|Cu and Ag^+|Ag electrodes are 0.337 and 0.799 volt respectively. Construct a galvanic cell using these electrodes so that its standard emf is positive. For what concentration of Ag^(+) will the emf of the cell at 25^@ C be zero if the concentration of Cu^(2+) is 0.01M?

The e.m.f a cell is 0.265V at 25^(@)C and 0.2594V at 35^(@)C . Hence