Redox Reactions | IISER Smart Prep

1. Classical Idea of Redox

Originally, redox reactions were defined based on the addition or removal of oxygen and hydrogen.

Process	Classic Definition	Example
Oxidation	Addition of O₂ or removal of H₂.	2Mg + O₂ → 2MgO
Reduction	Removal of O₂ or addition of H₂.	CuO + H₂ → Cu + H₂O

Extended Classical View

Oxidation: Also involves addition of an electronegative element (e.g., Cl, F) or removal of an electropositive element.
Reduction: Also involves addition of an electropositive element or removal of an electronegative element.

2. Electron Transfer Theory

The modern and most useful definition: Redox is a transfer of electrons from one species to another.

Memory Hack: OIL RIG

Oxidation Is Loss (of e^-) | Reduction Is Gain (of e^-)

Identifying Agents

Reducing Agent: Donor of electrons (gets oxidized).
Oxidizing Agent: Acceptor of electrons (gets reduced).

3. Oxidation Number (O.N.)

A formal charge assigned to an atom based on a set of rules, assuming total electron transfer in bonds. It is a bookkeeping tool.

Rules for Assigning Oxidation States

1. Free State: O.N. of elements = 0 (e.g., O₂, Na, P₄).
2. Oxygen: Usually -2. Exceptions: Peroxides (-1, H₂O₂), Superoxides (-1/2, KO₂), with F (+2, OF₂).
3. Hydrogen: +1 with non-metals, -1 with active metals (Metal Hydrides).
4. Halogens: F is always -1. Cl, Br, I are -1 unless bonded to O or F.
5. Sum Rule: ∑ O.N. = 0 (neutral molecule) or Charge of Ion.

Paradox of Fractional O.N.

Some compounds show fractional average O.N. (e.g., C₃O₂ has carbon with +4/3). This is because different atoms of the same element have different oxidation states within the molecule.

Fe₃O₄: Mixture of FeO (+2) and Fe₂O₃ (+3). Average = +8/3.
Br₃O₈: Terminal Br are +6, Central Br is +4.

4. Electrode Processes

Electrochemical cells utilize redox reactions to generate or utilize electrical energy.

Galvanic (Voltaic) Cells

Converts Chemical Energy → Electrical Energy (Spontaneous, ΔG < 0).

Anode: Oxidation occurs here (Negative pole).
Cathode: Reduction occurs here (Positive pole).
Salt Bridge: Maintains electrical neutrality and completes the circuit.

E°_cell = E°_cathode - E°_anode

Using Standard Reduction Potentials.

Daniel Cell Example

Zn(s) | Zn²⁺(aq) || Cu²⁺(aq) | Cu(s)

Zn is oxidized (Anode), Cu²⁺ is reduced (Cathode).

Quick Revision Flashcards

Reducing Agent

The substance that causes reduction by losing electrons (getting oxidized itself).

Disproportionation

A reaction where the same element is simultaneously oxidized and reduced (e.g., 2H₂O₂ → 2H₂O + O₂).

Anode

The electrode where oxidation takes place. In a galvanic cell, it is the negative terminal.

5. Common Mistakes

Confusing OA and RA: Remember, the Oxidizing Agent is the one being Reduced.
Hydrogen with Metals: Hydrogen is NOT always +1. In LiH, NaH, CaH₂, it is -1.
Fractional O.N.: Don't panic if you get a fraction; it usually represents an average of different atoms.
Ionic Product vs Ksp: (Wait, that's Equilibrium). For Redox: E°cell signs. Spontaneous reactions MUST have a positive E°cell.

6. Practice Mock Test

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