Match the reactions in List-I with the reagents in List-II:
- A
(A) – III, (B) – IV, (C) – II, (D) – I
- B
(A) – II, (B) – IV, (C) – I, (D) – III
- C
(A) – III, (B) – IV, (C) – I, (D) – II
- D
(A) – II, (B) – I, (C) – III, (D) – IV
Match the reactions in List-I with the reagents in List-II:
(A) – III, (B) – IV, (C) – II, (D) – I
(A) – II, (B) – IV, (C) – I, (D) – III
(A) – III, (B) – IV, (C) – I, (D) – II
(A) – II, (B) – I, (C) – III, (D) – IV
Correct answer:B
Standard Method
Given: A matching question between named reactions in List-I and reagents in List-II.
Find: The correct option that matches each reaction with its reagent.
From the extracted solution:
So the final matching is:
This corresponds to Option C.
The solution states "The Correct Option is B", but its own working gives the mapping of Option C. Using the solution working, the defensible answer is C.
Confusing Hoffmann degradation with other amine-forming reactions is a common mistake. Hoffmann degradation specifically uses and converts an amide to an amine with one fewer carbon.
Mixing up Clemmensen reduction and other reduction methods leads to wrong matching. Clemmensen reduction uses in acidic medium, not basic conditions.
Assigning Cannizzaro reaction to aldehydes with -hydrogen is incorrect. The reaction occurs for aldehydes without -hydrogen in concentrated alkali.
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