The Edison storage cell is represented as
`Fe(s)|FeO(s)|KOH(aq)|Ni_2O_3(s)|Ni(s)`.The half cell reaction are
`Ni_2O_3(s)+H_2O(" ")+2e^- `FeO(s)+H_2O(" ")+2e^- `E^0=-0.87V`
What is the maximum amount of electrical energy that can be obtained from one mole of `Ni_2O_3` ?

The Edison storage cell is represented as Fe(s)|FeO(s)|KOH (aq)|Ni_(2)O_(3)(s)|Ni(s) the half-cell reactions are Ni_(2)O_(3)(s)+H_(2)O(l)+2e^(-) hArr 2NiO(s)+ 2OH^(-), E^(@)= + 0.40 V FeO(s)+H_(2)O(l) +2e^(-) hArr Fe(s)+2OH^(-), E^(@)=- 0.87 V What is the maximum amount of electrical energy that can be obtained from one mole of Ni_(2)O_(3) ?

The Edison storage cell is represented as : Fe(s)|FeO(s)|KOH(aq)|Ni_(2)O_(3)(s)|Ni(s) The half - cell reactions are : a. What is the cell reaction ? b. What is the cell EMF ? How does it depend on the concentration of KOH ? c. What is maximum amount of electrical energy that can be obtained from 1 mol of Ni_(2)O_(3) ?

The Edison storage cell is represented as, Fe_((s))|FeO_(S)||KOH_((aq.))||Ni_(2)O_(3(S))|No_((S)) the half-cell reactions are : Ni_(2)O_(3(S))+H_(2)O_((l))+2e^(-)rarr 2NiO_((S))+2OH^(-) , E^(@)=+0.40V FeO_((S))+H_(2)O_((I))+2e^(-)rarr Fe_((S))+2OH^(-) , E^(@)=-0.87V (i) What is the cell reaction ? (ii) What is the cell e.m.f. ? How does ir depend on the concentration of KOH ? (iii) What is the maximum amount of electrical energy that can be obtained from one mole of Ni_(2)O_(3) ?

For the voltaic cell respresents below Ni(s) | Ni^(2+)(aq) || Ag^(+)(aq) | Ag(s) Which change will increase the cell potential?

The potential of the cell V(s)|V^(3+)(aq., 0.0011 M) ||Ni^(2+)(aq., 0.24 M)||Ni(s) is

The electrochemical cell representing the given reaction Ni(s)+Cu^(2+) rarr Ni^(2+)+Cu(s)