Balance the following equations in basic | Class 11 Chemistry Chapter Redox Reactions, Redox Reactions NCERT Solutions

(a) The O.N. (oxidation number) of P decreases from 0 in P₄ to -3 in PH₃ and increases from 0 in P₄ to + 2 in HPO^-₂. Hence, P₄ acts both as an oxidizing agent as well as a reducing agent in this reaction.

Ion-electron method:

The oxidation half equation is:

P_4(s) →  H₂PO^-_(aq)

The P atom is balanced as:

P⁰ 4_(s)  →  4H₂P⁺¹O^-_(aq)

The O.N. is balanced by adding 4 electrons as:

P_4(s)    →   4H₂PO^-_(aq)    +   4e^-

The charge is balanced by adding 8OH^- as:

P_4(s)    +  8OH ^- _(aq)  →   4H₂PO^-_2(aq)

The O and H atoms are already balanced. The reduction half equation is:

P_4(s)    →    PH_3(g)

The P atom is balanced as

P⁰_4(s)    →   4 P^-3H_3(g)

The O.N. is balanced by adding 12 electrons as:

P_4(s)  +  12e^-   →    4 PH_3(g)

The charge is balanced by adding 12OH- as:

P_4(s)  +  12e^-   →    4 PH_3(g)   +  12OH^-_(aq)  .....(i)

The O and H atoms are balanced by adding 12H₂O as:

P_4(s) + 12H₂O_(l)  +  12e^-   →    4 PH_3(g)   +  12OH^-_(aq)  -- (ii)

By multiplying equation (i) with 3 and (ii) with 2 and then adding them, the balanced chemical equation can be obtained as:

P_4(s) + 3OH^-_(aq) + 3H₂O  →  PH₃   +   3H₂PO^-_2(aq)

(b)

The oxidation number of N increases from -2 in N₂H₄ to +2 in NO and the oxidation number of Cl decreases from + 5 in CIO^-₃ to -1 in Cl-. Hence, in this reaction, N₂H₄ is the reducing agent and CIO^-₃ is the oxidizing agent. Ion-electron method:

The oxidation half equation is:

N^-2₂ H_4(l)  →  N⁺² O_(g)

The N atoms are balanced as:

N₂H_4(l)   →   2NO_(g)

The oxidation number is balanced by adding 8 electrons as:

N₂H_4(l)   →    2NO_(g)  +  8e^-

The charge is balanced by adding 8 OH^-ions as:

N₂H_4(l)  + 8OH^-_(aq)  →  2NO_(g)  +  8e^-

The O atoms are balanced by adding 6H₂O as:

N₂H_4(l)  + 8OH^-_(aq)  → 2NO_(g)  + 6H₂O_(l) +  8e^- .... (i)

The reduction half equation is:

C⁺⁵IO^-_3(aq)  →  C^-1l^-_(aq)

The oxidation number is balanced by adding 6 electrons as:

CIO^-_3(aq)  +  6e^-  → Cl^-_(aq)

The charge is balanced by adding 6OH^- ions as:

CIO^-_3(aq)  +  6e^-  →    Cl^-_(aq) + 6OH^-_(aq) 

The O atoms are balanced by adding 3H₂O as:

CIO^-_3(aq)  + 3H₂O(l)  + 6e^-  →  Cl^-_(aq) + 6OH^-_(aq) .... (ii)

The balanced equation can be obtained by multiplying equation (i) with 3 and equation (ii) with 4 and then adding them as:

3N₂H_4(l)  +  4CIO^-_3(aq)   →  6NO_(g)  +  4Cl^-_(aq) + 6H₂O(l) 

Oxidation number method:

Total decrease in oxidation number of N = 2 × 4 = 8

Total increase in oxidation number of Cl = 1 × 6 = 6

On multiplying N₂H₄ with 3 and CIO^-₃ with 4 to balance the increase and decrease in O.N., we get:

3N₂H_4(l)  + 4CIO^-_3(aq)  → NO_(g)  + Cl^-_(aq)

The N and Cl atoms are balanced as:

3N₂H_4(l)  + 4CIO^-_3(aq)  → 6NO_(g)  + 4Cl^-_(aq)

The O atoms are balanced by adding 6H₂O as:

3N₂H_4(l)  + 4CIO^-_3(aq)  → 6NO_(g)  + 4Cl^-_(aq) + 6H₂O_(l)

This is the required balanced equation.

(c)

The oxidation number of Cl decreases from + 7 in Cl₂O₇ to + 3 in CIO^-₂and the oxidation number of O increases from -1 in H₂O₂ to zero in O₂. Hence, in this reaction, Cl₂O₇ is the oxidizing agent and H₂O₂ is the reducing agent.

Ion-electron method:

The oxidation half equation is:

H₂O^-1_2(aq)  →  O⁰_2(g)

The oxidation number is balanced by adding 2 electrons as:

H₂O_2(aq)  →  O_2(g)  + 2e^-

The charge is balanced by adding 2OH^-ions as:

H₂O_2(aq)  +  2OH-(aq)  →   O_2(g)  + 2e^-

The oxygen atoms are balanced by adding 2H₂O as:

H₂O_2(aq)  +  2OH-(aq)  →   O_2(g)  + 2H₂O_(l) + 2e^- ... (i)

The reduction half equation is:

C⁺⁷l₂O_7(g)   →  C⁺³lO^-_2(g)

The Cl atoms are balanced as:

Cl₂O_7(g)   →   2ClO^-_2(g)

The oxidation number is balanced by adding 8 electrons as:

Cl₂O_7(g)    +   8e^- →   2ClO^-_2(g)

The charge is balanced by adding 6OH^- as:

Cl₂O_7(g)    +   8e^- →   2ClO^-_2(g)  +  6OH^- _(aq)

The oxygen atoms are balanced by adding 3H₂O as:

Cl₂O_7(g)   +    3H₂O_(l) +  8e^- →   2ClO^-_2(g)  +  6OH^- _(aq)  .... (ii)

The balanced equation can be obtained by multiplying equation (i) with 4 and adding equation (ii) to it as:

Cl₂O_7(g)   +    4H₂O_2(aq) + 2OH^- _(aq)    →  2ClO^-_2(aq)  +  4O_2(g)  + 5H₂O_(l)

Oxidation number method:

Total decrease in oxidation number of Cl₂O₇ = 4 × 2 = 8

Total increase in oxidation number of H₂O₂ = 2 × 1 = 2

By multiplying H₂O₂ and O₂ with 4 to balance the increase and decrease in the oxidation number, we get:

Cl₂O_7(g)   +    4H₂O_2(aq)  →   CIO^-_2(aq)  +  4O_2(g)

The Cl atoms are balanced as:

Cl₂O_7(g)   +    4H₂O_2(aq)  →   2CIO^-_2(aq)  +  4O_2(g)

The O atoms are balanced by adding 3H₂O as:

Cl₂O_7(g)   +    4H₂O_2(aq)  →   2CIO^-_2(aq)  +  4O_2(g)  +  3H₂O_(l)

The H atoms are balanced by adding 2OH^- and 2H₂O as:

Cl₂O_7(g)   +   4H₂O_2(aq)   +   2OH^-_(aq) →   2CIO^-_2(aq)  +  4O_2(g)  +  5H₂O_(l)

This is the required balanced equation.