The standard electrode potential (reduction) of `Ag^(+)|Ag` is `0.800 V` at `25^(@)C`. Its electrode potential in a solution containing `10^(-3)M` ion of `Ag^(+)` ions is:-

If the standard electrode poten tial of Cu^(2+)//Cu electrode is 0.34V. What is the electrode potential of 0.01 M concentration of Cu^(2+) ?

The standard electrode potential a Ag^(+)//Ag is +0.80 V and of Cu^(2+)//Cu is +0.34 V. These electrodes are connected through a salt bridge and if :

The solubiltiy product of silver iodide is 8.3 xx 10^(-17) and the standard potential (reduction) of Ag,Ag^(+) electrode is +0.800 volts at 25^(@)C . The standard potential of Ag,AgI//I^(-) electrode (reduction) from these data is

The standard electrode potential of Cu|Cu^(+2) is - 0.34 Volt. At what concentration of Cu^(+2) ions, will this electrode potential be zero?

The oxidation electrode potential E, of a 0.1 M solution of M^(+) ions (E_(RP)^(o) = - 2.36 V) is :

Standard reduction electrode potential of Zn^(2+)//Zn is -0.76V . This means:

The standard half-cell reduction potential for Ag+|Ag is 0.7991 V at 25^(@)C . Given the experimental value K_(sp) =1.56xx10^(-10) for AgCl, calculate the standard half-cell reduction potential for the AglAgCI electrode.

The potential associated. with each electrode is known as electrode potential. If the concentration of each species taking part in the electrode reaction is unity (if any gås appears in the electrode reaction, it is confined to 1 atmospheric pressure) and further the reaction is carried out at 298 K, then the potential of each electrode is said to be the standard electrode potential. By convention, the standard electrode potential of hydrogen electrode is 0:0 volt. The electrode potential value for each electrode process is a measure, of relative tendency of the active species in the process to remain in the oxidized / reduced form. A negative E^@ means that the redox couple is a stronger reducing agent than the H^(+)//H_2 couple. A positive E mears that the redox couple is a weaker reducing agent than. the H^(+)//H couple. The metal with greater positive value of standard reduction potentlal forms the oxide of greater thermal stability: Given the standard reduction potentials. E_(K^(+)//K)^(@)=-2.93V, E_(Ag^(+)//Ag)^(@)=+0.80V, E_(Hg^(+)//Hg)^(@)=0.79V E_(Mg^(+)//Mg)^(@)=-2.37V, E_(Cr^(3+)//Cr)^(@)=-0.74V The correct increasing order of reducing power is:

The standard oxidation potential of Ni//Ni^(+2) electrode is 0.236 V. If this electrode is combined with a hydrogen electrode in acid solution, at what pH of the solution will the measured emf be zero at 25^(@) C? Assume [Ni^(+2)] = 1 M

Consider the reaction, 2Ag^(+)+Cd rarr 2Ag+Cd^(2+) The standard electrode potentials for Ag^(+) rarr Ag and Cd^(2+) rarr Cd couples are 0.80 volt and -0.40 volt respectively. (i) What is the standard potential E^(@) for this reaction ? (ii) For the electrochemical cell, in which this reaction takes place which electrode is negative electrode ?