MP Board Class 10 Science Chapter 1: Chemical Reactions & Equations Notes 2027 — Types, Balancing, Redox & PYQs

Chapter 1: Chemical Reactions & Equations is a fundamental chapter in MP Board Class 10 Science, carrying 8–10 marks in the annual board exam. This chapter introduces the concept of chemical changes, types of chemical reactions, balancing chemical equations, and oxidation-reduction processes. Questions range from 1-mark MCQs and VSA to 3-mark short answer and 5-mark long answer questions. Mastery of writing and balancing chemical equations is essential for scoring high marks in this chapter.

⚗️ Chemical Equations & Balancing

A chemical equation is a symbolic representation of a chemical reaction using chemical formulas. Reactants are written on the left side and products on the right side, separated by an arrow (→).

📝 Rules for Writing Chemical Equations

Write the correct chemical formulas of reactants and products
Use the arrow (→) to separate reactants from products
Indicate physical states: (s) solid, (l) liquid, (g) gas, (aq) aqueous
Balance the equation so that the number of atoms of each element is equal on both sides
Use coefficients (numbers before formulas) to balance — never change subscripts

📐 Solved Example 1: Burning of Magnesium

Unbalanced: Mg + O₂ → MgO

Step 1: Count atoms — Left: Mg=1, O=2 | Right: Mg=1, O=1

Step 2: Balance oxygen — put coefficient 2 before MgO: Mg + O₂ → 2MgO

Step 3: Balance magnesium — put coefficient 2 before Mg: 2Mg + O₂ → 2MgO

Balanced: 2Mg + O₂ → 2MgO

📐 Solved Example 2: Decomposition of Ferrous Sulphate

Unbalanced: FeSO₄ → Fe₂O₃ + SO₂ + SO₃

Step 1: Count atoms — Left: Fe=1, S=1, O=4 | Right: Fe=2, S=2, O=8

Step 2: Balance Fe — put coefficient 2 before FeSO₄: 2FeSO₄ → Fe₂O₃ + SO₂ + SO₃

Step 3: Balance S — Left S=2, Right S=2 ✓ | Balance O — Left O=8, Right O=8 ✓

Balanced: 2FeSO₄ → Fe₂O₃ + SO₂ + SO₃

📐 Solved Example 3: Reaction of Lead Nitrate with Potassium Iodide

Unbalanced: Pb(NO₃)₂ + KI → PbI₂ + KNO₃

Step 1: Count atoms — Left: Pb=1, N=2, O=6, K=1, I=1 | Right: Pb=1, I=2, K=1, N=1, O=3

Step 2: Balance I — put coefficient 2 before KI: Pb(NO₃)₂ + 2KI → PbI₂ + KNO₃

Step 3: Balance NO₃ — Left NO₃=2, put coefficient 2 before KNO₃: Pb(NO₃)₂ + 2KI → PbI₂ + 2KNO₃

Step 4: Verify — Left: Pb=1, N=2, O=6, K=2, I=2 | Right: Pb=1, I=2, K=2, N=2, O=6 ✓

Balanced: Pb(NO₃)₂ + 2KI → PbI₂ + 2KNO₃

➕ Combination Reactions

A combination reaction is a reaction in which two or more substances (elements or compounds) combine to form a single new substance. The general form is: A + B → AB.

🔥 Examples of Combination Reactions

Burning of coal: C + O₂ → CO₂ (Carbon + Oxygen → Carbon dioxide)
Formation of water: 2H₂ + O₂ → 2H₂O (Hydrogen + Oxygen → Water)
Formation of calcium oxide: 2Ca + O₂ → 2CaO (Calcium + Oxygen → Calcium oxide)
Burning of magnesium: 2Mg + O₂ → 2MgO (Magnesium + Oxygen → Magnesium oxide — bright white flame)

🎯 Exam Tip: MP Board 2027 — Combination reactions often appear as 1-mark MCQs (identify the type) or 2-mark questions asking for one example with balanced equation. Remember the magnesium burning experiment — it’s a very common question.

🧪 Decomposition Reactions

A decomposition reaction is a reaction in which a single compound breaks down into two or more simpler substances. The general form is: AB → A + B. Decomposition reactions are the opposite of combination reactions.

🔬 Types of Decomposition Reactions

Type	Energy Source	Example
Thermal Decomposition	Heat	2FeSO₄ → Fe₂O₃ + SO₂ + SO₃ (green to brown)
Electrolytic Decomposition	Electricity	2H₂O → 2H₂ + O₂ (electrolysis of water)
Photochemical Decomposition	Light	2AgCl → 2Ag + Cl₂ (sunlight, used in photography)

📘 Important Experiment — Thermal Decomposition of Ferrous Sulphate

When green-coloured FeSO₄·7H₂O crystals are heated, they first lose water (turn white), then decompose to give ferric oxide (red-brown), sulphur dioxide (pungent smell), and sulphur trioxide. This is a thermal decomposition reaction.

🔄 Displacement Reactions

A displacement reaction is a reaction in which a more reactive element displaces a less reactive element from its compound. The general form is: A + BX → AX + B (where A is more reactive than B).

⚔️ Examples of Displacement Reactions

Iron + Copper Sulphate: Fe + CuSO₄ → FeSO₄ + Cu (Iron displaces copper — blue solution turns green)
Zinc + Copper Sulphate: Zn + CuSO₄ → ZnSO₄ + Cu (Zinc displaces copper — blue colour fades)
Lead + Copper Chloride: Pb + CuCl₂ → PbCl₂ + Cu (Lead displaces copper)

🔄 Double Displacement Reactions

A double displacement reaction is a reaction in which two compounds exchange their ions (or radicals) to form two new compounds. The general form is: AB + CD → AD + CB.

Double displacement reactions are further classified into precipitation reactions (where an insoluble solid forms) and neutralization reactions (where an acid and base react to form salt and water).

🧪 Examples of Double Displacement Reactions

Precipitation (Yellow Precipitate): Pb(NO₃)₂ + 2KI → PbI₂ + 2KNO₃ (Yellow precipitate of PbI₂ forms)
Precipitation (White Precipitate): NaCl + AgNO₃ → AgCl + NaNO₃ (White precipitate of AgCl forms)
Neutralization: HCl + NaOH → NaCl + H₂O (Acid + Base → Salt + Water)

🎯 Exam Tip: MP Board 2027 — Distinguishing between displacement and double displacement reactions is a frequently asked 2-mark question. Remember: displacement involves one element + one compound; double displacement involves two compounds exchanging ions.

⚡ Oxidation & Reduction

📖 Definitions

Oxidation: Addition of oxygen OR removal of hydrogen from a substance
Reduction: Addition of hydrogen OR removal of oxygen from a substance
Redox Reaction: A reaction where oxidation and reduction occur simultaneously
Oxidizing Agent: A substance that provides oxygen (or removes hydrogen) — gets reduced itself
Reducing Agent: A substance that provides hydrogen (or removes oxygen) — gets oxidized itself

📊 Common Examples of Redox Reactions

Reaction	Substance Oxidized	Substance Reduced	Reducing Agent	Oxidizing Agent
ZnO + C → Zn + CO	C (Carbon gains O → CO)	ZnO (Zinc loses O → Zn)	C (Carbon)	ZnO (Zinc oxide)
CuO + H₂ → Cu + H₂O	H₂ (Hydrogen gains O → H₂O)	CuO (Copper loses O → Cu)	H₂ (Hydrogen)	CuO (Copper oxide)
MnO₂ + 4HCl → MnCl₂ + 2H₂O + Cl₂	HCl (Chlorine loses H)	MnO₂ (Manganese gains H)	HCl	MnO₂

🦀 Corrosion — A Real-World Example of Oxidation

Corrosion is the slow destruction of metals due to reaction with oxygen, moisture, and other substances in the environment. The most well-known example is rusting of iron:

4Fe + 3O₂ + 2xH₂O → 2Fe₂O₃·xH₂O (Hydrated iron oxide — rust)

Rusting requires both oxygen and water
Prevention: Painting, oiling, galvanization (coating with zinc), alloying
Silver tarnishes (turns black) due to reaction with H₂S in air: 4Ag + 2H₂S + O₂ → 2Ag₂S + 2H₂O

🍏 Rancidity — Oxidation of Food

Rancidity is the spoilage of food containing fats and oils due to oxidation, producing unpleasant smell and taste. Prevention methods include:

Adding antioxidants (e.g., BHA, BHT) to packaged foods
Storing food in airtight containers
Refrigeration to slow down oxidation
Packing in oxygen-free environment (nitrogen flushing)

📝 Practice Questions

Q1: Balance the following chemical equation: Fe + H₂O → Fe₃O₄ + H₂. Identify the type of reaction.
Q2: What happens when green ferrous sulphate crystals are heated? Write the balanced chemical equation and state the type of reaction.
Q3: Distinguish between displacement and double displacement reactions with one example each.
Q4: In the reaction ZnO + C → Zn + CO, identify the substance that is oxidized, reduced, the oxidizing agent, and the reducing agent.
Q5: Why do we apply paint on iron articles? Explain two methods to prevent rusting.

✅ Answer Key

A1: 3Fe + 4H₂O → Fe₃O₄ + 4H₂. This is a displacement reaction (iron displaces hydrogen from water).
A2: Green FeSO₄ crystals first lose water (turn white), then decompose: 2FeSO₄ → Fe₂O₃ + SO₂ + SO₃. This is a thermal decomposition reaction.
A3: Displacement: Fe + CuSO₄ → FeSO₄ + Cu (one element + one compound). Double displacement: Pb(NO₃)₂ + 2KI → PbI₂ + 2KNO₃ (two compounds exchange ions).
A4: Oxidized: C (Carbon gains oxygen). Reduced: ZnO (Zinc oxide loses oxygen). Reducing agent: C. Oxidizing agent: ZnO.
A5: Paint prevents iron from coming into contact with oxygen and moisture, thus preventing rusting. Methods: (a) Galvanization — coating with zinc, (b) Oiling/greasing — creating a protective layer, (c) Alloying — making stainless steel.

📋 Previous Year Questions (2017–2026)

Year	Question	Marks
2026	Balance the equation: Fe₂O₃ + Al → Al₂O₃ + Fe. Name the type of reaction. (Hint: This is a thermite reaction used in welding)	3
2025	What is a redox reaction? Explain with the example of copper oxide reacting with hydrogen.	3
2024	Write the balanced chemical equation for the reaction of lead nitrate with potassium iodide. What colour precipitate is formed? Name the type of reaction.	3
2023	Define combination reaction. Give two examples with balanced equations.	3
2022	Why is respiration considered an exothermic reaction? Explain in terms of oxidation.	2
2021	What is rancidity? Write two methods to prevent it.	2
2020	Classify the following reactions into combination, decomposition, displacement, and double displacement: (i) CaO + H₂O → Ca(OH)₂ (ii) Zn + H₂SO₄ → ZnSO₄ + H₂ (iii) 2KClO₃ → 2KCl + 3O₂ (iv) BaCl₂ + Na₂SO₄ → BaSO₄ + 2NaCl	4
2019	Write the balanced equation for the reaction of iron with copper sulphate solution. What change in colour is observed? Why?	3
2018	Differentiate between oxidation and reduction. In the reaction MnO₂ + 4HCl → MnCl₂ + 2H₂O + Cl₂, identify the oxidizing and reducing agents.	3
2017	What happens when silver chloride is exposed to sunlight? Write the chemical equation and name the type of decomposition.	2

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