`E_(Cu)^(0)=+0.34V and E_(Ag)^(0)=+0.8V" calculate "E_(cell")^(0)`.

E_(cu)^(0)=0.34 and E_(zn)^(0)=-0.76V . Calculate E_("cell")^(0) .

For the standard cell Cu(s)|Cu^(2+)(aq)||Ag^(+)(aq)|Ag(s) . [E_((Cu^(2+))/(Cu))=0.3V and E_((Ag^(+))/(Ag))^(0)=0.80V] Write the reaction taking place at the electrodes.

For the standard cell Cu(s)|Cu^(2+)(aq)||Ag^(+)(aq)|Ag(s) . [E_((Cu^(2+))/(Cu))=0.3V and E_((Ag^(+))/(Ag))^(0)=0.80V] Identify the cathode and the anode as the current is drawn from the cell.

Represent the cell in which the following reaction takes place Mg(s)+2Ag^(+)(0.001M) to Mg^(2+)(0.130)+2Ag(s) Calculate E_("cell")" if "E_("cell")^(0)=3.17V .

For a given data : E_(Mg^(2+) // Mg)^(@) = -2.37 V , E_(Cu^(2+)// Cu)^(@) = + 0.34 V Calculate the emf of the cell in which the following reaction takes place . underset((0.0001 M)) ( Mg_((s))) + Cu_((aq))^(2+) underset((0.001M)) to Mg_((aq))^(2+) + Cu_((s))

Standard reduction potentials of some electrodes are : Cd"|"Cd^(2+)= - 0.40 V, Ni "|" Ni^(2+)= - 0.25 V Cu"|" Cu^(2+)= + 0.34 V , Ag "|" Ag^(+) = + 0.80 V The copper sulphate can be stored in a container made of

b) Calculate Delta_(r)G^(@) for the following reaction: Fe_((aq))^(+2)+Ag_((aq))^(+)rarr Fe_((aq))^(+3)+Ag(s)." "("Given : "E_("cell")^(@)=+0.03V, F=96500C) .

If the EMF of the above cell is 0.03V,E_(SC E)=0.24V,E^(c-)._(glass)=0.51V, then calculate the pH of buffer solution at 30^(@)C .