MCQEasyJEE 2026SN1 & SN2 Reactions

JEE Chemistry 2026 Question with Solution

The correct order of the rate of the reaction for the following reaction with respect to nucleophiles is : CH3Br+NuCH3Nu+BrCH_3Br + Nu^\ominus \rightarrow CH_3Nu + Br^\ominus

  • A

    CH3COO>PhO>OH>ClO4CH_3COO^\ominus > PhO^\ominus > {}^\ominus OH > ClO_4^\ominus

  • B

    ClO4>CH3COO>OH>PhOClO_4^\ominus > CH_3COO^\ominus > {}^\ominus OH > PhO^\ominus

  • C

    OH>PhO>CH3COO>ClO4{}^\ominus OH > PhO^\ominus > CH_3COO^\ominus > ClO_4^\ominus

  • D

    PhO>OH>CH3COO>ClO4PhO^\ominus > {}^\ominus OH > CH_3COO^\ominus > ClO_4^\ominus

Answer

Correct answer:C

Step-by-step solution

Standard Method

Given: The reaction is

CH3Br+NuCH3Nu+BrCH_3Br + Nu^\ominus \rightarrow CH_3Nu + Br^\ominus

and we need the rate order with respect to the nucleophiles.

Find: The correct order of nucleophilicity for the given oxygen-based nucleophiles.

This is an SN2S_N2 substitution on a methyl halide. In an SN2S_N2 reaction, the rate depends directly on the nucleophilicity of the attacking species.

For nucleophiles attacking through the same atom, here oxygen, nucleophilicity follows the same general trend as basicity. A stronger base is a better nucleophile.

The stability of the anion controls its basicity. More stable anions are weaker bases and hence poorer nucleophiles.

  1. ClO4ClO_4^\ominus is extremely stable because of extensive resonance over four oxygen atoms. Its conjugate acid HClO4HClO_4 is a superacid, so ClO4ClO_4^\ominus is a very poor nucleophile.
  2. CH3COOCH_3COO^\ominus is resonance-stabilized, so it is less basic and less nucleophilic than hydroxide and phenoxide.
  3. PhOPhO^\ominus is also resonance-stabilized, but its conjugate acid phenol has higher pKapK_a than acetic acid, so phenoxide is a stronger base and better nucleophile than acetate.
  4. OH{}^\ominus OH has conjugate acid water with pKa14pK_a \approx 14, making it the strongest base among these and therefore the best nucleophile.

Hence, the nucleophilicity order is

OH>PhO>CH3COO>ClO4{}^\ominus OH > PhO^\ominus > CH_3COO^\ominus > ClO_4^\ominus

Option Identification

Comparing the derived order

OH>PhO>CH3COO>ClO4{}^\ominus OH > PhO^\ominus > CH_3COO^\ominus > ClO_4^\ominus

with the given options, it matches Option C.

Therefore, the correct option is C.

Common mistakes

  • Assuming that all negatively charged species are equally good nucleophiles is incorrect. Resonance stabilization can greatly reduce electron-pair availability. Always compare how stabilized each anion is before ranking nucleophilicity.

  • Treating CH3COOCH_3COO^\ominus as stronger than PhOPhO^\ominus is incorrect because acetate is more stabilized by resonance and has a much stronger conjugate acid. Use conjugate-acid pKapK_a values to compare basicity.

  • Ignoring that all nucleophiles attack through oxygen can lead to the wrong trend. When the attacking atom is the same, nucleophilicity generally parallels basicity. Apply that rule here.

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