Electode potential of ` Zn^(2+) //Zn` is ` -0 . 7 V` and that of `Cu^(2+) //Cu si = 0. 3 4 V`. The EMF of the cell consttructed between these two elctrodes is .

The standard electrode potential of Zn^(2+) // Zn is -0.76V and that of Ca^(2+) // Cu is 0.34V . The emf(V) and the free energy change (kJ "mol"^(-1)) , respectively , for a Daniel cell will be

The standard oxidation potential of Zn referred to SHE is 0.76 V and that of Cu is -0.34V at 25^(@)C when excess of Zn is added to CuSO_(4) , Zn displaces Cu^(2+) till equilibrium is reached. What is the approx ratio of Zn^(2+) to Cu^(2+) ios at equilibrium?

The standard reduction potential of Zn^(2+)|Zn and Cu^(2+)|Cu are -0.76V and +0.34 V respectively. What is the cell e.m.f (in V) of the following cell? ((RT)/(F)=0.059) Zn//Zn^(2+)" "(0.05M)//Cu^(2+)(0.005M)//Cu

The standard potential E^(@) for the half reactions are as : Zn rarr Zn^(2+) + 2e^(-), E^(@) = 0.76V Cu rarr Cu^(2+) +2e^(-) , E^(@) = -0.34 V The standard cell voltage for the cell reaction is ? Zn +Cu^(2) rarr Zn ^(2+) +Cu