For the redox reaction :
`Zn(s) + Cu^(2+) (0.1M) to Zn^(2+) (1M) + Cu(s)`
taking place in a cell, `E_("cell")^@` is 1.10 volt. `E_("cell")` for the cell will be

Represent the cell in which the following reaction takes place . Mg(s) + 2Ag^(+)(0.001M) to Mg^(2+) (0.130M) + 2Ag(s) . Calculate its E_(("cell")) if E_(("cell"))^(-) = 3.17 V .

The emf of the cell in which of the following reaction , Zn_((s)) +Ni^(2+) (0.1 M) to Zn^(2+) (1.0M) + Ni_((s)) occurs is found to 0.5105 V at 298 K . The standard emf of the cell is

The cell reaction of the galvanic cell, Cu(s) // Cu^(2+)(aq) // Hg^(2+) (aq) // Hg (l) is

E^(0) for the reaction Fe + Zn^(2+) to Zn + Fe^(2+) is -0.35 V . The given cell reaction is

For the cell Zn(s) | Zn^(2+) || Cu^(2+) | Cu(s) , the standard cell voltage E_("cell")^(0) is 1.10 V . When a cell using these reagents was prepared in the lab, the measured cell voltage was 0.97 V . One possible explanaiton of the observed voltage is

The value of the reaction quotient ,Q for the cell Zn(s) |Zn^(2+) (0.01M)||Ag^(+)(1.25M)|Ag(s) is :

The cell for which the cell reaction is H_2 + Cu^(2+) to 2H^(+) + Cu is represented as

The e.m.f. of the cell reaction Zn_((s)) + Cu_((aq))^(+2) to Zn_((aq))^(+2) + Cu_((s)) is 1.1 V. Calculate the free energy of the cell reaction.