MCQEasyJEE 2023Electronic Effects (Inductive, Resonance, Hyperconjugation)

JEE Chemistry 2023 Question with Solution

The strongest acid from the following is:

  • A
    Option 1 shows phenol: a benzene ring bearing an OH group at the top with no other substituent.
  • B
    Option 2 shows chlorophenol: a benzene ring bearing an OH group at the top and a Cl substituent on the ring.
  • C
    Option 3 shows methylphenol: a benzene ring bearing an OH group at the top and a CH3 substituent on the ring.
  • D
    Option 4 shows nitrophenol: a benzene ring bearing an OH group at the top and an NO2 substituent on the ring.

Answer

Correct answer:D

Step-by-step solution

Standard Method

Given: The options are substituted phenols.

Find: Which compound is the strongest acid.

The strength of an acid is determined by the stability of its conjugate base.

Electron-withdrawing groups stabilize the conjugate base after loss of H+\text{H}^+, while electron-donating groups destabilize it.

From the given options:

  • A: phenol, no substituent
  • B: -Cl\text{-Cl}, electron-withdrawing through I-I effect
  • C: -CH3\text{-CH}_3, electron-donating through +I+I effect
  • D: -NO2\text{-NO}_2, strong electron-withdrawing through I-I and M-M effects

Since -NO2\text{-NO}_2 stabilizes the phenoxide ion most effectively, the nitro-substituted phenol is the strongest acid among the given compounds.

Therefore, the correct option is D.

Substituted Phenols Analysis

Comparison image showing four phenolic compounds: phenol, chlorophenol, methylphenol, and nitrophenol, indicating inductive effects of substituents on acidity.

The acid strength of a phenolic compound depends on the electron-withdrawing or electron-donating groups attached to the benzene ring. The electron-withdrawing group increases the acidity of the compound.

Among the options, the nitro group (-NO2)\text{(-NO}_2\text{)} is a strong electron-withdrawing group through the inductive effect (I)(-I), making the compound with -NO2\text{-NO}_2 attached to the ring the most acidic.

Hence, the strongest acid is nitrophenol and the correct option is D.

Common mistakes

  • Assuming that any substituted phenol is automatically more acidic than phenol is incorrect. The effect depends on whether the substituent withdraws or donates electron density. Always compare conjugate base stability.

  • Treating -CH3\text{-CH}_3 and -NO2\text{-NO}_2 as having similar effects is wrong. -CH3\text{-CH}_3 donates electron density and reduces acidity, whereas -NO2\text{-NO}_2 strongly withdraws electron density and increases acidity.

  • Looking only at the presence of a substituent and ignoring I-I and M-M effects leads to an incorrect choice. The strongest acid is identified by the substituent that best stabilizes the phenoxide ion.

Practice more Electronic Effects (Inductive, Resonance, Hyperconjugation) questions

Get unlimited AI-adaptive practice, mastery tracking, and an AI tutor that explains every step — free to start.

Related questions