What is the potential of half-cell consisting of zinc electrode in 0.01 M `ZnSO_(4)` solution at `25^(@)C(E_(o x)^(@)=0.763V)`

At what pH the oxidation potential of hydrogen electrode will be -0.413 V ?

What is the reduction electrode potential (in volts) of copper electrode, when [Cu^(2+)] = 0.01 M is in a solution at 25^@ C? ( E^@ of Cu^(2+)//Cu electrode is + 0.34 V.)

The EMF of a galvanic cell consisting of two hydrogen electrodes is 0.17 V. If the solution of one of the electrodes has [H^(+)]=10^(-3) M, the pH at the other electode is

E^(@)Zn^(2+)//Zn = -0.77V . What is the 'E' value of the electrode containing 0.01M Zn^(2+) ions

Calculate the potential of the half-cell containing 0.1 M K_(2)Cr_(2)O_(7(aq)), 0.2M Cr_((aq))^(3+)and 1.0xx10^(-4) M H_((aq))^(+). The half-reaction Cr_(2) O_(7(aq))^(2-)+ 14 H_((aq))^(+)+6e^(-)to 2 Cr_((aq))^(3+)+7H_(2)O_((l)) (E^(0) of Cr_(2)O_(7)^(2-) //Cr^(3+)=1.33V)

Nernst equation gives the variation of potential of an electrode based on activity of ions temperature and pressure. The equation is E=E^(@) -(2.303RT)/(nF) logQ (or) E=E^@ - (0.0591)/(n) log Q E^@ = Standard potential and 'Q' is the reaction quotient. What is the reduction potential of a hydrogen electrode in an aqueous solution containing 0.1 M NH_4OH,(Kb=10^(-5)) , ?

Calculate the potential of a Zn -An^(2+) electrode in which the molarity of Zn ^(2+) is 0.001M. Given that E_(Zn^(2+)//Zn)^(0)=-0.76V R=0.314JK^(-1) mol ^(-1), F= 96500C mol ^(-1).

E^@ for Mg to 2e^(-) + Mg^(2+) is + 2.37 V and for Cu to 2e^(-) + Cu is -0.34V . What will be the standard potential of cell constructed with these electrodes ? Which electrode will be positive terminal to draw the current?