⚛️ Haloalkanes और Haloarenes – Class 12 Chemistry Notes in Hindi

"Class 12 Chemistry Notes in Hindi – Haloalkanes और Haloarenes। यहाँ मिलेगा आसान Explanation, Nomenclature, Properties, Mechanism (SN1, SN2), Preparation Methods, Important Reactions और Exam के लिए जरूरी Questions।"

CHEMISTRY

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9/7/20251 min read

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📝 परिचय (Introduction)

Class 12 Chemistry का यह Chapter Haloalkanes और Haloarenes Organic Chemistry का एक महत्वपूर्ण भाग है। Board Exam, JEE और NEET जैसे competitive exams में इस Chapter से हमेशा सवाल पूछे जाते हैं। इस Notes में हम Definition, Classification, Properties, Preparation Methods, Mechanism (SN1 & SN2), Reactions और Important Questions को step-by-step समझेंगे।

🔹 Haloalkanes क्या हैं? (Definition of Haloalkanes)

Haloalkanes ऐसे Organic Compounds होते हैं जिनमें किसी Alkane molecule के Hydrogen atom को Halogen atom (F, Cl, Br, I) से replace कर दिया जाता है।

👉 General Formula: R–X
जहाँ R = Alkyl group, X = Halogen

Classification of Haloalkanes

Mono Haloalkanes – केवल एक Halogen atom (उदा: CH3Cl)
Dihaloalkanes – दो Halogen atoms (उदा: CH2Cl2)
Polyhaloalkanes – एक से अधिक Halogen atoms (उदा: CCl4)

🔹 Haloarenes क्या हैं? (Definition of Haloarenes)

Haloarenes वे compounds हैं जिनमें Benzene ring से सीधा Halogen जुड़ा होता है।

👉 General Formula: Ar–X
जहाँ Ar = Aryl group (benzene ring), X = Halogen

Example:

Chlorobenzene (C6H5Cl)
Bromobenzene (C6H5Br)

🔹 Nomenclature (IUPAC Names)

Haloalkanes

CH3–Cl → Chloromethane
C2H5–Br → Bromoethane
CH3–CH2–CH2–Cl → 1-Chloropropane

Haloarenes

C6H5Cl → Chlorobenzene
C6H5Br → Bromobenzene
o-Dichlorobenzene, m-Dichlorobenzene, p-Dichlorobenzene

🔹 Physical Properties (भौतिक गुण)

Colourless, sweet smelling liquids या gases
Water में insoluble लेकिन Organic solvents में soluble
Boiling point increases with size of halogen: I > Br > Cl > F

🔹 Preparation of Haloalkanes (तैयारी की विधियाँ)

From Alcohols:
R–OH + HX → R–X + H2O
From Alkanes (Free Radical Halogenation):
CH4 + Cl2 → CH3Cl + HCl
From Alkenes (Addition of HX):
CH2=CH2 + HBr → CH3–CH2Br

🔹 Preparation of Haloarenes

Direct Halogenation of Benzene:
C6H6 + Cl2 (FeCl3 catalyst) → C6H5Cl
Sandmeyer Reaction:
Ar–N2+Cl− + CuCl → ArCl

🔹 Important Reactions

Nucleophilic Substitution (SN1 & SN2)

R–X + OH− → R–OH
R–X + CN− → R–CN

Elimination Reactions

CH3–CH2–Cl + alc.KOH → CH2=CH2 + HCl

Electrophilic Substitution (Haloarenes)

Chlorobenzene + HNO3 (H2SO4 catalyst) → o- & p-Nitrochlorobenzene

🔹 SN1 और SN2 Mechanism

SN1 Mechanism

Two-step mechanism
Carbocation intermediate बनता है
Example: tert-Butyl bromide

SN2 Mechanism

One-step mechanism (Backside attack)
Inversion of configuration होता है
Example: Methyl chloride

🔹 Uses of Haloalkanes और Haloarenes

Solvents: Chloroform (CHCl3), CCl4
Refrigerants: Freons
Pharmaceuticals: Chloramphenicol (antibiotic)
Pesticides: DDT, BHC

🔹 Environmental Effects

CFCs ozone layer को नुकसान पहुँचाते हैं
DDT जैसे pesticides environment में लंबे समय तक बने रहते हैं

🔹 Important Questions for Exams

Haloalkanes और Haloarenes में अंतर बताइए।
Sandmeyer reaction समझाइए।
Why is C–Cl bond stronger in chlorobenzene than in chloroethane?
SN1 और SN2 mechanism की विशेषताएँ लिखिए।
Haloalkanes के Uses लिखिए।

🔹 Summary (Quick Revision)

Haloalkanes = Alkyl halides (R–X)
Haloarenes = Aryl halides (Ar–X)
Reactions = Substitution, Elimination, Sandmeyer, Wurtz reaction
Mechanism = SN1 (carbocation intermediate), SN2 (backside attack)