Versatile Nature of Carbon MCQs Quiz | Class 10

Class X Science (Code 086), Unit I: Chemical Substances – Nature and Behaviour. This quiz covers the Versatile Nature of Carbon, focusing on catenation, tetravalency, and chain/ring formation. Test your knowledge on why carbon forms so many compounds, submit your answers to see the score, and download the solution PDF for revision.

Overview of Carbon’s Versatile Nature

Carbon is a unique element in the periodic table (Atomic Number 6) because it forms the basis of all living organisms and a vast number of synthetic materials. Its ability to form millions of organic compounds is primarily due to two key properties: Catenation and Tetravalency.

1. Catenation

Catenation is the self-linking property of carbon atoms to form long chains, branched chains, or closed rings through covalent bonds. No other element exhibits this property to the extent seen in carbon. Silicon forms compounds with hydrogen up to 7 or 8 atoms, but these are very reactive. Carbon-carbon bonds are very strong and stable, allowing for large molecules.

2. Tetravalency

Carbon has 4 valence electrons. To achieve a stable noble gas configuration, it shares these electrons with other atoms (like Oxygen, Hydrogen, Nitrogen, Sulphur, Chlorine) or other carbon atoms. It cannot gain 4 electrons (too much repulsion) or lose 4 electrons (too much energy required), so it forms covalent bonds.

Types of Carbon Structures

  • Straight Chains: Carbon atoms bonded in a single line (e.g., Propane).
  • Branched Chains: Carbon chains with side branches (e.g., Isobutane).
  • Rings: Carbon atoms arranged in a cyclic structure (e.g., Cyclohexane, Benzene).
Property Saturated Compounds Unsaturated Compounds
Bond Type Single bonds only (C-C) Double (C=C) or Triple bonds
Reactivity Less reactive More reactive
Flame Test Clean blue flame Yellow sooty flame
Example Ethane, Propane Ethene, Ethyne

Quick Revision Points

  • Isomers: Compounds with the same molecular formula but different structures.
  • Allotropes: Different physical forms of carbon (Diamond, Graphite, Fullerene).
  • Benzene: An aromatic ring with alternating double bonds ($C_6H_6$).
  • Bond Strength: The small size of the carbon atom enables the nucleus to hold shared pairs of electrons strongly.

Extra Practice Questions

  1. What is the molecular formula of Cyclopentane? (Ans: $C_5H_{10}$)
  2. Which allotrope of carbon conducts electricity? (Ans: Graphite)
  3. Why does carbon form strong bonds? (Ans: Due to its small size)
  4. What is the general formula for Alkanes? (Ans: $C_nH_{2n+2}$)
  5. Name the gas evolved when ethanoic acid reacts with sodium carbonate. (Ans: $CO_2$)