a) Introduction ​

3.1 Explain the terms homologous series, hydrocarbon, saturated, unsaturated, general formula, and isomerism. ​

Organic Compound ​

The compounds of carbon are called organic compounds. However, for conventional reasons, metal carbonates, carbon dioxide, and carbon monoxide are not included in organic compounds.

Examples: Methane ($\text{CH}_4$), Ethanol ($\text{C}_2\text{H}_5\text{OH}$), Carbon Tetrachloride ($\text{CCl}_4$), Benzene ($\text{C}_6\text{H}_6$), etc.

The main branches of organic compounds are:

1. Aliphatic hydrocarbons
2. Aromatic hydrocarbons

Homologous Series ​

A homologous series is a family of compounds with the same functional group and general formula, exhibiting similar physical and chemical properties.

Characteristics of Homologous Series ​

• They have a general formula.
• They differ in molecular formula.
• A homologous series has similar chemical properties.
• Their physical properties follow a trend.
• Each homologous series has a functional group.
• Each member in a homologous series differs in molecular formula from the next by $\text{CH}_2$.

Hydrocarbon ​

Compounds that are made of only hydrogen and carbon. Hydrocarbons are of two types: Saturated and Unsaturated.

General Formula ​

The general formula confirms which compound belongs to which homologous series.

• Alkanes: $C_nH_{2n + 2}$
• Alkenes: $C_nH_{2n}$
• Alcohols: $C_nH_{2n + 1}OH$
• Carboxylic acids: $C_nH_{2n + 1}COOH$
• Amines: $C_nH_{2n + 1}NH_2$

Functional Group ​

A functional group is an atom or group of atoms that controls the properties of a homologous series.

Isomerism ​

Molecules with identical molecular formulae but different structural formulae are called isomers.

Example: Isomers of Butane

Types of Formula ​

Name	Molecular Formula	Structural Formula	Displayed Formula
Butane	$C_nH_{2n+2}$	$\text{CH}_3\text{CH}_2\text{CH}_2\text{CH}_3$