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 efficiency of a hypothetical cell is about 84% which involves the following reactions: A(s) + B^(2+)(aq) rightarrow A^(2+)(aq) _ B(s) DeltaH = -285kJ Then, the standard electrode potential of the cell will be: (Asume DeltaS = 0)

Which cell will measure standard electrode potential of copper electrode?

The cell reaction of a cell is as follows: Mg(s)+Cu(aq)^(2+) →Cu(s)+Mg(aq)^(2+) . If the standard reduction potentials of Mg and Cu are −2.37 V and +0.34 V respectively, the e.m.f. (in V) of the cell is:

For the half cell At pH=2 , the electrode potential is

For the half cell At pH=2 . Electrode potential is :

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

For the cell Zn((s)) |ZN^(2+) ((aq)) || M^(X+)((aq))|M((s)) , different half cells and their standard electrode potentials are given below : If E_(ZN^(2+)|ZN^(@))= -0.76V , which cathode will give a maximum value of E_(cell)^(@) per electron transferred ?

For the cell Zn(s)|Zn^(2+)(aq)||M^(x+)(aq)|M(s) different half cells and their standard electrode potentials are given below : If E^(@)Zn^2+ | Zn = -0.76 V which cathode will given a maximum value of E^@ cell per electron transferred ?

The logarithm of the equilibriium constant of the cell reaction corresponding to the cell X(s)|x^(2+)(aq)||Y^(+)(aq)|Y(s) with standard cell potential E_(cell)^(@)=1.2V given by

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}