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Class 10 Β· Science Β· Chapter 1

Chemical Reactions and Equations

Free chapter notes β€” chemical equations, balancing, the five types of reactions, and corrosion & rancidity in everyday life. NCERT 2026-27 syllabus.

πŸ“˜ NCERT Science, Class 10 🧠 High board weightage πŸ”„ Updated for 2026-27
On this page
  1. What is a chemical reaction?
  2. Chemical equations & balancing
  3. Five types of chemical reactions
  4. Oxidation and reduction
  5. Corrosion and rancidity
  6. Quick revision table
  7. Practice questions

1. What is a chemical reaction?

A chemical reaction happens when the atoms in one or more substances rearrange to form new substances with different properties. Something genuinely new is made β€” you can't just filter or evaporate your way back to the original material, the way you could with a physical change like melting ice.

You can usually tell a chemical reaction has taken place by watching for one or more of these signs:

Board tip Examiners often give a case-based question describing an observation (colour change, gas bubbles, temperature change) and ask you to identify which of the four signs it represents, and name the type of reaction. Learn all four signs by heart, not just "gas is released."

2. Chemical equations and balancing

A chemical equation is shorthand for a reaction, written using formulae instead of full names. The substances you start with are reactants, written on the left; what you end up with are products, written on the right, with an arrow pointing from reactants to products.

Magnesium + Oxygen β†’ Magnesium oxide
2Mg + Oβ‚‚ β†’ 2MgO

A correctly written equation must be balanced β€” the number of atoms of each element must be the same on both sides, because matter is neither created nor destroyed in a chemical reaction (this is the law of conservation of mass). You balance equations by adjusting the numbers written in front of each formula (called coefficients) β€” never by changing the small subscript numbers inside a formula, since that would describe a different substance entirely.

Balancing by hit-and-trial β€” worked example

Balance: Fe + Hβ‚‚O β†’ Fe₃Oβ‚„ + Hβ‚‚

Step 1 β€” unbalanced skeletal equation:
Fe + Hβ‚‚O β†’ Fe₃Oβ‚„ + Hβ‚‚

Step 2 β€” balance Fe first (3 on the right, so put 3 in front on the left):
3Fe + Hβ‚‚O β†’ Fe₃Oβ‚„ + Hβ‚‚

Step 3 β€” balance O (4 on the right, so 4Hβ‚‚O on the left):
3Fe + 4Hβ‚‚O β†’ Fe₃Oβ‚„ + Hβ‚‚

Step 4 β€” balance H (8 on the left now, so 4Hβ‚‚ on the right):
3Fe + 4Hβ‚‚O β†’ Fe₃Oβ‚„ + 4Hβ‚‚
Exam trick Balance the element that appears in the fewest formulas first (often metals), and leave hydrogen and oxygen for last β€” they usually sort themselves out once everything else is balanced.

You'll also see extra symbols in a fully-labelled equation: (s) solid, (l) liquid, (g) gas, (aq) dissolved in water, Ξ” heat supplied, and ↑ / ↓ for a gas or precipitate escaping the reaction.

3. Five types of chemical reactions

a) Combination reaction

Two or more reactants combine to form a single product.

CaO + Hβ‚‚O β†’ Ca(OH)β‚‚ (calcium oxide + water β†’ slaked lime)

Combination reactions that release heat and light as they happen are also exothermic β€” burning coal (C + Oβ‚‚ β†’ COβ‚‚) is both a combination and an exothermic reaction.

b) Decomposition reaction

A single compound breaks down into two or more simpler products β€” essentially the reverse of combination. There are three common sub-types depending on how the energy is supplied:

c) Displacement reaction

A more reactive element pushes out (displaces) a less reactive element from its compound.

Fe(s) + CuSOβ‚„(aq) β†’ FeSOβ‚„(aq) + Cu(s)

Here iron is more reactive than copper, so it displaces copper from copper sulphate β€” you'll actually see the blue solution fade and a reddish-brown coating of copper form on the iron nail.

d) Double displacement reaction

Two compounds exchange ions with each other. This is very common when one of the products is insoluble and separates out as a solid β€” called a precipitation reaction.

Naβ‚‚SOβ‚„(aq) + BaClβ‚‚(aq) β†’ BaSOβ‚„(s)↓ + 2NaCl(aq)

e) Oxidation and reduction (redox) reactions

Covered in detail in the next section β€” a reaction where one substance gains oxygen (or loses hydrogen) while another loses oxygen (or gains hydrogen), happening together.

4. Oxidation and reduction

TermWhat happens
OxidationA substance gains oxygen, or loses hydrogen
ReductionA substance loses oxygen, or gains hydrogen
Redox reactionOxidation and reduction happening together in the same reaction β€” one substance is oxidised while another is reduced
CuO + Hβ‚‚ β†’ Cu + Hβ‚‚O

Here CuO loses oxygen to become Cu (CuO is reduced), while Hβ‚‚ gains oxygen to become Hβ‚‚O (Hβ‚‚ is oxidised). Both happen in the same equation β€” that's what makes it a redox reaction.

5. Corrosion and rancidity β€” oxidation in daily life

Corrosion

When a metal is slowly eaten away by reaction with substances around it β€” usually moisture, air, or acids β€” it's called corrosion. The most familiar example is rusting of iron, where iron reacts with oxygen and moisture in the air to form a flaky layer of hydrated iron(III) oxide. Rusting weakens bridges, railings and vehicle bodies over time and costs a lot to prevent β€” that's why iron is often painted, galvanised (coated with zinc), or alloyed into stainless steel.

Rancidity

When fats and oils in food are oxidised over time, they develop an unpleasant smell and taste β€” this is called rancidity, and it's why open packets of chips or pickles stored too long start tasting "off." Food companies slow this down by adding antioxidants, packaging snacks under nitrogen gas instead of air, and storing oily foods in airtight containers away from light.

Board tip A common case-based question describes a food company's packaging choice (like flushing chip packets with nitrogen) and asks you to explain why. The answer is always: nitrogen is unreactive/inert, so it prevents the oxidation that causes rancidity β€” oxygen from air is what actually turns the oil rancid.

6. Quick revision table

Reaction typePatternExample
CombinationA + B β†’ ABCaO + Hβ‚‚O β†’ Ca(OH)β‚‚
DecompositionAB β†’ A + BCaCO₃ β†’ CaO + COβ‚‚
DisplacementA + BC β†’ AC + BFe + CuSOβ‚„ β†’ FeSOβ‚„ + Cu
Double displacementAB + CD β†’ AD + CBNaβ‚‚SOβ‚„ + BaClβ‚‚ β†’ BaSOβ‚„ + 2NaCl
RedoxOxidation + reduction togetherCuO + Hβ‚‚ β†’ Cu + Hβ‚‚O

7. Practice questions

Q1. Why should a magnesium ribbon be cleaned before burning in air?
Answer: Magnesium reacts slowly with oxygen in air even at room temperature, forming a dull layer of magnesium oxide on its surface. Cleaning removes this layer so the metal burns properly and the reaction can be observed clearly.
Q2. Identify the type of reaction: AgNO₃(aq) + NaCl(aq) β†’ AgCl(s) + NaNO₃(aq)
Answer: Double displacement reaction (also a precipitation reaction, since AgCl is insoluble and separates out as a solid).
Q3. Why is respiration considered an exothermic reaction?
Answer: During respiration, food is broken down (oxidised) inside cells to release energy, which is used by the body and also released as heat β€” so it's a chemical reaction that releases energy, making it exothermic.

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