In redox half equations, hydrogen and oxygen may be balanced using major species that are available in aqueous solution. The major species available depends on the pH of the solution.
In acidic aqueous solution H+ and H2O are major species.
In alkaline aqueous solution OH– and H2O are major species.
To balance zO (z = any number)in acidic solution add
z H2O to the other side of equation
H2O is the more oxygen-rich (higher mass% O) of H+ and H2O, the major species in acidic aqueous solution.
in alkaline aqueous solution add
z OH
– to the other side of the equation
OH– is the more oxygen-rich (higher mass% O) of OH– and H2O, the major species in alkaline aqueous solution.
in acidic aqueous solution, add
zH+ to the other side of the equation
H+ is the more hydrogen-rich (higher mass% H) of H+ and H2O, the major species in acidic aqueous solution.
in alkaline aqueous solution, add
zH
2O to the side of the equation deficient in H then add
zOH
– to opposite side of the equation.
This is the same as adding H+ to the hydrogen-deficient side.
Example of balancing in alkaline solution:Balancing is done stepwise below. In practice it would be done on a single line.
Balance atoms other than O and H.
2Fe(OH)
2 → Fe
2O
3Add OH
– to balance O.
2Fe(OH)
2 → Fe
2O
3 +
OH–Balance 3H with
3H
2O and 3OH
– to other side.
3OH– + 2Fe(OH)
2 → Fe
2O
3 + OH
– +
3H2OBalance charge with electrons.
2OH
– + 2Fe(OH)
2 → Fe
2O
3 + 3H
2O +
2e–