From the standard potentials shown in the fillowing figure, calculate the potentials `E_(1)^(@)` and `E_(2)^(@)`.

Standard oxidation potential of iron electrode is + 0.44 V. Calculate the potential of Fe, FeSO_4(1 M) at 25^@C .

Calculate the standard potential of the cell ,If the standard electrode potentials of Zn^(2+)//Zn and Ag^(+) //Ag are -0.763 V and + 0.799 V respectively .

Find the electrostatic potential energy of the system shown in the figure

consider the standard reduction potentials (in volts) as shown in figure Find E^(@)

In the network shown in the figure, the potential difference between A and B is :

The electrode potential of electrode M(s) rightarrow M^(n+) (aq) (2M) + ne^(-) at 298 K is E_(1). When temperature is doubled and concentration is made half, then the electrode potential becomes E_(2) . Which of the following represents the correct relationship between E_(1) and E_(2) ?

Find the potential difference between A and B as shown in the figure

For what value of E the potential of A is equal to the potential of B ?

Standard reduction potential is calculated at