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Hydrocarbons, Functional Groups and Homologous Series

🎓 Class 10 Science CBSE Theory Ch 4 — Carbon and its Compounds ⏱ ~20 min

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4.2.5 Hydrocarbons — Compounds of Carbon & Hydrogen

A hydrocarbon is a compound containing only carbon and hydrogen. Hydrocarbons are the simplest organic compounds and form the starting material for nearly every organic chemical you use — plastics, fuels, dyes, medicines, solvents.

Types of Carbon Chains

Fig 4.4: Carbon atoms may form (a) straight chains, (b) branched chains, or (c) rings

Saturated Hydrocarbons — Alkanes

Alkanes contain only C–C single bonds. They follow the general formula \(C_nH_{2n+2}\). Each successive alkane differs from the previous one by a –CH₂– (methylene) unit.

n	Formula	Name	State at RT
1	CH₄	Methane	Gas
2	C₂H₆	Ethane	Gas
3	C₃H₈	Propane	Gas (LPG)
4	C₄H₁₀	Butane	Gas (LPG)
5	C₅H₁₂	Pentane	Liquid

Unsaturated Hydrocarbons — Alkenes & Alkynes

Alkenes contain one C=C double bond. General formula \(C_nH_{2n}\): C₂H₄ (ethene), C₃H₆ (propene), C₄H₈ (butene).

Alkynes contain one C≡C triple bond. General formula \(C_nH_{2n-2}\): C₂H₂ (ethyne, commonly called acetylene), C₃H₄ (propyne).

Fig 4.5: Double bond in ethene (4 shared electrons) and triple bond in ethyne (6 shared electrons)

4.2.6 Nomenclature — Naming Carbon Compounds (IUPAC)

Chemists use a systematic naming system developed by the International Union of Pure and Applied Chemistry (IUPAC). A compound's name has three parts:

Root/Prefix — indicates the number of carbons in the longest chain.
Suffix — indicates the type of bonds or functional group.
Position numbers — show where the bond/group is located (for chains of 4+ C).

Carbons (n)	Prefix	Carbons (n)	Prefix
1	Meth-	6	Hex-
2	Eth-	7	Hept-
3	Prop-	8	Oct-
4	But-	9	Non-
5	Pent-	10	Dec-

Bond/Family	Suffix	Example
All single bonds (alkane)	-ane	CH₃CH₃ → ethane
One double bond (alkene)	-ene	CH₂=CH₂ → ethene
One triple bond (alkyne)	-yne	HC≡CH → ethyne

4.2.7 Homologous Series

A homologous series is a family of carbon compounds sharing the same functional group and the same general formula. Key features:

Successive members differ by a –CH₂– group, i.e., by 14 atomic mass units (12 + 2).
Members show a gradual change in physical properties (MP, BP, density) as molecular mass increases.
All members show similar chemical properties because the functional group is the same.
All members can be represented by a common general formula (e.g., \(C_nH_{2n+2}\) for alkanes).

Example — alkane homologous series: CH₄ (M=16) → C₂H₆ (M=30) → C₃H₈ (M=44) → C₄H₁₀ (M=58). Each step adds 14 units.

Functional Groups (Table 4.3)

A functional group is the reactive centre of an organic compound — it decides its chemistry. The carbon chain is the "skeleton"; the functional group is the "hand" that reacts.

Fig 4.6: Important functional groups in carbon compounds

Family	Functional group	Suffix	Example (IUPAC name)
Alcohol	–OH	-ol	CH₃OH methanol
Aldehyde	–CHO	-al	HCHO methanal
Ketone	>C=O	-one	CH₃COCH₃ propanone
Carboxylic acid	–COOH	-oic acid	CH₃COOH ethanoic acid
Halide	–X	halo- (prefix)	CH₃Cl chloromethane

Naming rule for functional groups: the carbon of the functional group is counted in the longest chain. The suffix of the parent alkane (-ane) changes to -anol, -anal, -anone, or -anoic acid. The "e" is dropped before a vowel.

Activity 4.2 — Build a Homologous SeriesL3 Apply

Predict: If the boiling point of methane is −162 °C and ethane is −89 °C, what trend do you expect for propane and butane?

List the first five alkanes: CH₄, C₂H₆, C₃H₈, C₄H₁₀, C₅H₁₂.
Calculate the molecular mass of each (C=12, H=1). What difference do you notice?
Look up (or predict) the boiling points. What trend do you see?
Each member burns to give CO₂ and H₂O — similar chemistry, different physical state.

Molecular masses: 16 → 30 → 44 → 58 → 72, differing by exactly 14 (–CH₂–).
Boiling points: −162 → −89 → −42 → 0 → 36 °C. BP rises steadily as chain lengthens (more molecular mass, stronger van der Waals forces). All members burn completely in excess O₂: \(C_nH_{2n+2} + \tfrac{3n+1}{2}O_2 \rightarrow nCO_2 + (n+1)H_2O\). Same chemistry, graded physical properties — classic homologous behaviour.

Worked Examples

Example 1. Write the general formula and name the fourth member of the alkene series.

Solution: General formula: \(C_nH_{2n}\). Members: ethene (n=2), propene (n=3), butene (n=4), pentene (n=5). The fourth member is pentene, C₅H₁₀.

Example 2. Give the IUPAC name of CH₃–CH₂–CH₂–OH.

Solution: Chain has 3 carbons → prop-. Functional group is –OH → -ol. Dropping "e" of propane: propan-1-ol (or simply propanol).

Example 3. Which of the following is an unsaturated hydrocarbon: C₃H₈ or C₃H₆? Justify.

Solution: Checking \(C_nH_{2n+2}\): for n=3 that gives C₃H₈ — saturated (propane). C₃H₆ fits \(C_nH_{2n}\), matching the alkene formula → propene, unsaturated (has a C=C).

Example 4. Write the name of the compound with formula CH₃COOH and identify its functional group.

Solution: Two carbons in the chain (including the C of –COOH) → eth-. Functional group –COOH → -oic acid suffix. Name: ethanoic acid (common: acetic acid, present in vinegar). Functional group: carboxylic acid (–COOH).

Example 5. Write the next homologue of CH₃COCH₃.

Solution: CH₃COCH₃ is propanone (3 C, ketone). The next homologue adds one –CH₂– giving CH₃COCH₂CH₃ — butanone (4 C).

Interactive: Name That Compound L3 Apply

Type the IUPAC name of each compound (lowercase).

Q1. CH₃–CH₂–CH₃

Q2. CH₂=CH–CH₃

Q3. CH₃–CH₂–OH

Q4. HC≡CH

Q5. HCOOH

Competency-Based Questions

A science club collects four bottles labelled only with their molecular formulae: C₂H₆, C₂H₄, C₂H₅OH and CH₃COOH. The team has to identify each and write their IUPAC names.

Q1. L1 Remember The general formula of alkanes is:

A. C_nH_2n
B. C_nH_2n+2
C. C_nH_2n−2
D. C_nH_n

Answer: B. Alkanes are saturated hydrocarbons with general formula \(C_nH_{2n+2}\).

Q2. L2 Understand Identify and name the functional group in CH₃CH₂CHO. (2 marks)

Answer: The –CHO group is the aldehyde functional group. The compound is propanal (3 C + aldehyde suffix -al).

Q3. L3 Apply Write the next two homologues of methanol (CH₃OH). (2 marks)

Answer: Each homologue adds a –CH₂– unit. Next: C₂H₅OH (ethanol); next: C₃H₇OH (propanol).

Q4. L4 Analyse Two members of a homologous series have similar chemical properties but different physical properties. Explain why. (3 marks)

Answer: The chemical properties of an organic compound are governed by the functional group, which is identical across a homologous series — hence similar chemistry. Physical properties (MP, BP, solubility, density) depend on molecular mass and chain length; these increase steadily across the series, giving graded physical properties.

Q5. L5 Evaluate A student writes the formula of butanone as CH₃CH₂CH₂CHO. Evaluate whether this is correct. (3 marks)

Answer: The student is incorrect. CH₃CH₂CH₂CHO has an aldehyde group (–CHO) — that is butanal, not butanone. Butanone is a ketone with the structure CH₃COCH₂CH₃ — the C=O is on the second carbon, not at the end of the chain.

Assertion-Reason Questions

Assertion (A): All members of a homologous series have the same general formula.

Reason (R): Consecutive members in the series differ by a –CH₂– unit.

A. Both A and R are true, and R is the correct explanation of A.
B. Both A and R are true, but R is NOT the correct explanation of A.
C. A is true, but R is false.
D. A is false, but R is true.

Answer: A. Both are true; differing by –CH₂– consistently is exactly what gives rise to the common general formula.

Assertion (A): C₂H₄ is an unsaturated hydrocarbon.

Reason (R): It contains a carbon–carbon double bond.

A. Both A and R are true, and R is the correct explanation of A.
B. Both A and R are true, but R is NOT the correct explanation of A.
C. A is true, but R is false.
D. A is false, but R is true.

Answer: A. Both true; the C=C bond defines it as unsaturated (alkene).

Assertion (A): Ethanoic acid and methanoic acid belong to the same homologous series.

Reason (R): Both have the same molecular mass.

A. Both A and R are true, and R is the correct explanation of A.
B. Both A and R are true, but R is NOT the correct explanation of A.
C. A is true, but R is false.
D. A is false, but R is true.

Answer: C. Both are carboxylic acids (–COOH), so A is true. But their molecular masses differ by 14 (HCOOH = 46, CH₃COOH = 60), so R is false.

Frequently Asked Questions — Hydrocarbons, Functional Groups & Homologous Series

What is hydrocarbons, functional groups & homologous series in Class 10 Science (CBSE board)?

Hydrocarbons, Functional Groups & Homologous Series is a key topic in NCERT Class 10 Science Chapter 4 — Carbon and its Compounds. It explains types of hydrocarbons, functional groups, homologous series and iupac nomenclature of carbon compounds. Core ideas covered include hydrocarbon, alkane, alkene, alkyne. Mastering this subtopic is essential for scoring well in the CBSE Class 10 Science board exam because board papers repeatedly test these concepts through MCQs, short answers and long-answer questions. This part gives a complete, exam-ready explanation with activities, diagrams and competency-based practice aligned to NCERT.

Why is hydrocarbon important in NCERT Class 10 Science?

Hydrocarbon is important in NCERT Class 10 Science because it forms the foundation for understanding hydrocarbons, functional groups & homologous series in Chapter 4 — Carbon and its Compounds. Without a clear idea of hydrocarbon, students cannot answer higher-order CBSE board questions involving alkane, alkene, alkyne. Board papers regularly include 2-mark and 3-mark questions on this concept, and competency-based questions often link hydrocarbon to real-life situations. Building clarity here pays off directly in board marks.

How is hydrocarbons, functional groups & homologous series tested in the Class 10 Science CBSE board exam?

The CBSE Class 10 Science board exam tests hydrocarbons, functional groups & homologous series through a mix of 1-mark MCQs, 2-mark short answers, 3-mark explanations with examples, 5-mark descriptive questions (often with diagrams or balanced equations) and 4-mark competency-based questions. Expect direct questions on hydrocarbon, alkane, alkene and application-based questions drawn from NCERT activities. Students who follow NCERT thoroughly and practice this chapter's questions consistently score in the 90%+ range.

What are the key terms to remember for hydrocarbons, functional groups & homologous series in Class 10 Science?

The key terms to remember for hydrocarbons, functional groups & homologous series in NCERT Class 10 Science Chapter 4 are: hydrocarbon, alkane, alkene, alkyne, functional group, homologous series. Each of these concepts carries exam weightage and regularly appears in the CBSE board paper. Write clear one-line definitions of every term in your revision notes and revisit them before the exam. Linking these terms visually through a flowchart or concept map makes recall easier during the Class 10 Science board exam.

Is Hydrocarbons, Functional Groups & Homologous Series included in the Class 10 Science syllabus for 2025–26 CBSE board exam?

Yes, Hydrocarbons, Functional Groups & Homologous Series is a part of the NCERT Class 10 Science syllabus (2025–26) prescribed by CBSE. It falls under Chapter 4 — Carbon and its Compounds — and is examined in the annual board paper. The current syllabus retains the full treatment of hydrocarbon, alkane, alkene as per the NCERT textbook. Because CBSE bases every board question on NCERT, studying this part thoroughly ensures complete syllabus coverage and guarantees marks from this chapter.

How should I prepare hydrocarbons, functional groups & homologous series for the CBSE Class 10 Science board exam?

Prepare hydrocarbons, functional groups & homologous series for the CBSE Class 10 Science board exam in three steps. First, read this NCERT part carefully, highlighting definitions and diagrams of hydrocarbon, alkane, alkene. Second, solve every in-text question and end-of-chapter exercise — CBSE questions often come directly from NCERT. Third, practice competency-based and assertion-reason questions to sharpen reasoning. Write answers in the exam-style format (point-wise with diagrams) and time yourself. This method delivers confidence and full marks in the board exam.

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