Organic Chemistry Basics

Subject: Chemistry
Topic: 9
Cambridge Code: 0620 / 0971 / 5070

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Hydrocarbons

Hydrocarbons - Compounds of carbon and hydrogen only

General Formulas

Alkanes: CₙH₂ₙ₊₂

• Single bonds
• Saturated
• C-C and C-H bonds

Cycloalkanes: CₙH₂ₙ

• Ring structure
• Single bonds
• Saturated

Alkenes: CₙH₂ₙ

• Double bond (C=C)
• Unsaturated
• C-C, C=C, C-H bonds

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Alkanes

Alkanes - Hydrocarbons with single C-C bonds

Structure and Naming

First 10 alkanes:

1. Methane: CH₄
2. Ethane: C₂H₆
3. Propane: C₃H₈
4. Butane: C₄H₁₀
5. Pentane: C₅H₁₂
6. Hexane: C₆H₁₄
7. Heptane: C₇H₁₆
8. Octane: C₈H₁₈
9. Nonane: C₉H₂₀
10. Decane: C₁₀H₂₂

Properties

• Combustion: Complete combustion in oxygen $C_nH_{2n+2} + \frac{3n+1}{2}O_2 → nCO_2 + (n+1)H_2O$

• Inert: Unreactive with acids, bases, oxidizing agents

• Hydrophobic: Insoluble in water

• Boiling point: Increases with chain length

Isomerism

Structural isomers - Same formula, different structures

Example: Butane (C₄H₁₀)

• n-butane: CH₃-CH₂-CH₂-CH₃ (straight chain)
• Isobutane: CH₃-CH(CH₃)-CH₃ (branched)

Different properties despite same formula

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Alkenes

Alkenes - Hydrocarbons with C=C double bond

Structure

$C_n H_{2n}$

• Ethene: CH₂=CH₂
• Propene: CH₃-CH=CH₂
• Butene: CH₃-CH₂-CH=CH₂

Properties

Double bond characteristics:

• Electron-rich (π bond)
• Reactive to electrophiles
• Planar around double bond

Reactions of Alkenes

Addition Reactions - Electrons from C=C break, forming two new single bonds

Hydrogenation (Addition of H₂): $\text{Alkene} + H_2 → \text{Alkane}$

• Catalyst: Ni, Pd, Pt
• Saturates the double bond

Hydration (Addition of H₂O): $\text{Alkene} + H_2O → \text{Alcohol}$

• Catalyst: H₂SO₄
• Example: Ethene + H₂O → Ethanol

Halogenation (Addition of X₂): $\text{Alkene} + Br_2 → \text{Dibromoalkane}$

• No catalyst needed
• Decolorizes brown Br₂ (test for C=C)

Polymerization: $n \times \text{Monomer} → \text{Polymer}$

• Addition polymerization
• Example: Ethene → Polyethylene

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Functional Groups

Functional group - Characteristic group of atoms in molecule

Alcohols (-OH)

General structure: R-OH

Nomenclature: -ol ending

• Methanol: CH₃OH
• Ethanol: CH₃CH₂OH
• Propanol: CH₃CH₂CH₂OH

Properties:

• Hydrogen bonding (high bp, soluble)
• Oxidation reactions
• Aldehyde or ketone (depending on position)

Carboxylic Acids (-COOH)

General structure: R-COOH

Nomenclature: -oic acid ending

• Methanoic acid: HCOOH
• Ethanoic acid: CH₃COOH
• Propanoic acid: CH₃CH₂COOH

Properties:

• Acidic (pH < 7)
• Ionic bonding with bases (salts)
• Oxidation of aldehydes

Aldehydes (-CHO)

General structure: R-CHO

Nomenclature: -al ending

• Methanal: HCHO
• Ethanal: CH₃CHO
• Propanal: CH₃CH₂CHO

Properties:

• Oxidized to carboxylic acids
• Reduced to alcohols
• Nucleophilic addition

Ketones (C=O)

General structure: R-CO-R'

Nomenclature: -one ending

• Propanone: CH₃-CO-CH₃

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Isomerism

Structural Isomerism

Chain isomerism: Different carbon chain arrangements

• Examples: n-butane vs isobutane

Position isomerism: Double bond or group at different position

• Examples: 1-butene vs 2-butene

Functional group isomerism: Different functional groups

• Examples: Ethanol (alcohol) vs dimethyl ether (ether)

Stereoisomerism

Geometric isomerism: cis-trans about C=C

• Cis: Same side
• Trans: Opposite sides

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Combustion

Complete combustion - Burns in oxygen, produces CO₂ and H₂O

$C_xH_y + (x + \frac{y}{4})O_2 → xCO_2 + \frac{y}{2}H_2O$

Example: C₃H₈ + 5O₂ → 3CO₂ + 4H₂O

Energy: Highly exothermic (used as fuels)

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Polymers

Polymers - Long chains of repeated units

Addition Polymerization

Monomers with C=C bonds join:

• Ethene → Polyethylene
• Propene → Polypropylene

Condensation Polymerization

Monomers release small molecules (H₂O) while joining:

• Diols + Diacids → Polyesters
• Amino acids → Proteins

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Key Points

1. Hydrocarbons: C and H only
2. Alkanes: CₙH₂ₙ₊₂, single bonds
3. Alkenes: CₙH₂ₙ, C=C bond (unsaturated)
4. Functional groups determine properties
5. Structural isomers: Same formula, different structure
6. Addition reactions: C=C double bond breaks
7. Combustion: All produce CO₂ + H₂O

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Practice Questions

1. Name alkanes and alkenes
2. Draw structural formulas
3. Identify functional groups
4. Predict reactions of alkenes
5. Identify isomers
6. Write combustion equations
7. Explain polymer formation

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Revision Tips

• Learn alkane naming (prefixes)
• Know functional group names
• Understand isomerism types
• Practice addition reactions
• Know combustion products
• Draw structures clearly
• Know polymer types