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}

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}

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

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 .

The photoelectric current from Na (Work function, w_(0) = 2.3 eV) is stopped by the output voltage of the cell Pt(s) H_(2)"(g, 1 Bar) HCl (aq. pH =1) "|AgCl (s)|Ag(s) . The pH of aq. HCl required to stop the photoelectric current form K(w_(0) = 2.25 eV) , all other conditions remaining the same, is _______ xx10^(-2) (to the nearest integer). Given, 2.303(RT)/(F)=0.06V,E_(AgCl|Ag|Cl^(-))^(@)=0.22V