The standard reduction potential at `25^(@) C` of the reaction, `2H_(2)O+2e^(-)` is -0.8277V. Calculate the equilibrium constant for the reaction.
`2H_(2)O H_(3)O^(+) + OH^(-) at 25^(@)C`

The standard reduction potential at 25^(@)C of the reaction 2H_(2)O+2e^(-)hArrH_(2)+2overset(Θ)(O)H is -0.8277V . Calculate the equilibrium constant for the reaction. 2H_(2)OhArrH_(3)O^(o+)+overset(Θ)(O)H at 25^(@)C .

Write the equilibrium constant of the reaction C(s)+H_(2)O(g)hArrCO(g)+H_(2)(g)

In the reaction HCl + H_(2)O to H_(3)^(+)O +Cl^(-)

E_"cell"^@ for the reaction , 2H_2O to H_3O^(+) + OH^(-) at 25^@C is -0.8277 V. The equilibrium constant for the reaction is

E^(0) = -08275V for the reaction, 2H_2O + 2e^(-) to 2OH^(-) + H_(2) .Calculate the ionic product for the reaction, 2H_2O

The standard potential of a cell using the reaction +3HgO(s)+2(overset(c-)(O)H) (aq) is 0.489V at 25^(@)C . What is the equilibrium constant of the reaction ?

If the equilibrium constant of the reaction 2HIhArr H_(2)+I_(2) is 0.25, then the equilibrium constant for the reaction, H_(2)(g)+I_(2)(g)hArr 2HI(g) would be

The E^(@) at 25^(@) C for the following reaction is 0.22 V. Calculate the equilibrium constant at 25^(@) C : H_(2)(g)+2AgCl(s)to2Ag(s)+2HCl(aq)

In the reaction 2H_(2)O_(2) rarr 2H_(2)O+O_(2)

The reaction H_(2)S+H_(2)O_(2)toS+2H_(2)O manifests