In the cell `Pt(s)|H_(2)(g,1bar)|HCl (aq)| AgCl(s)|Ag(S)|Pt(s)` the cell potential is 0.92V when a `10^(-6)` mola1 HCl Ssolution is used. The standard electrode potential of `(ACl//Ag,Cl^(-))` electrode is :
`{given, (2.30Rt)/(F) = 0.6V at 298K}`

In the cell Pt (s) | H_(2) (g, 1 " bar")| HCl (aq)| AgCl(s) | Ag(s) | Pt(s) the cell potential is 0.92 V when a 10^(-6) molal HCl solution is used. The standard electrode potential of (AgCl//Ag, Cl^(-)) electrode is {Given, (2.303RT)/(F) = 0.06V at 298 K}

Efficiency of the following cell is 84% A(s)+B_(aq)^(2+) + B(s), DeltaH^(@) = -285KJ The standard electrode potential of cell will be.

The standard e.m.f. of the cell involving the reaction 2Ag^(+) (aq)+H_2(g)→2Ag(s)+2H^(+) (aq), is 0.80 V. The standard oxidation potential of Ag electrode is

Calculate the standard potential of the cell ,If the standard electrode potentials of Zn^(2+)//Zn and Ag^(+) //Ag are -0.763 V and + 0.799 V respectively .

Calculate the electrode potential of the given electrode. Pt, Cl_2 (2 bar)| 2 Cl^–(0.02 M) ; E° (Cl_2 | 2Cl^–) = 3.4 V

The cell Pt|H_(2)(g) (1atm)|H^(+), pH = x || Normal calomal electrode has EMF of 0.64 volt at 25^(@)C . The standard reduction potential of normal calomal electrode is 0.28V . What is the pH of solution in anodic compartment. Take (2.303RT)/(F) = 0.06 at 298K .

Calculate the electrode potential of given electrode Pt, Cl_(2) (1.5 bar) 2Cl^(-) (0.01M), E_(Cl_(2)//2Cl^(-))^(@) = 1.36V

At 25^@C potential of the cell, Pt, H_2(g), HCl (aq)"//"AgCl(s), Ag(s) is 0.22 V. If E^@ of silver electrode is 0.8 V , calculate the solubility of AgCI in water .

The standard half-cell reduction potential for Ag+|Ag is 0.7991 V at 25^(@)C . Given the experimental value K_(sp) =1.56xx10^(-10) for AgCl, calculate the standard half-cell reduction potential for the AglAgCI electrode.

For the cell (at 298K) Ag(s) | AgCl(s) | Cl^(-)(aq)|| AgNO_(3)(aq) | Ag(s) Which of the following is correct?