The cell `Pt, H_(2) (1atm) H^(+) (pH =x)|` Normal calomel Electrode has an EMF of `0.67V` at `25^(@)C` .Calculate the pH of the solution. The oxidation potential of the calomel electrode on hydrogen scale is `-0.28V`.

The cell Pt, H_(2)(1atm)|H^(+)(pH=x)|| normal calomel electrode has an EMF of 0.67 V at 25^(@)C Calculate the pH of the solution. The oxidation potential of the calomel electrode on hydrogen scale is -0.28V

The cell Pt|H_(2)(g) (1atm)|H^(+), pH = x || Normal calomal electrode has EMF of 0.64 volt at 25^(@)C . The standard reduction potential of normal calomal electrode is 0.28V . What is the pH of solution in anodic compartment. Take (2.303RT)/(F) = 0.06 at 298K .

The standard electrode potential of calomel electrode in 1 M KCl is _________.0.28 V

The oxidation potential of a hydrogne electrode at pH=10 and p_(H_(2))=1atm is

The oxidation potential of a hydrogen electrode at pH = 10 and P_(H_(2)) =1 is

Calculate the pH of a buffer when the reduction potential of hydrogen electrode placed in the buffer solution is found to be -0.413V .

The EMF of the cell : Pt|Ce^(4+)(90%),Ce^(3+)(10%)| Normal calomel electrode is 1.464 V at 25^(@)C . Find the value of equilibrium constant of the reaction : 2Ce^(3+)+2H^(o+) rarr 2Ce^(4+)+H_(2) The electrode potential of the normal calomel electrode is +0.28V .

At what pH the potential of Hydrogen electrode will be 0.059 V?