Question

Structure of M is

• A. Ph-C=CH
• B. Ph-C=C-CH₃
• C. H₃C-C=CH
• D. H₃C-C≡C-CH₃

Answer 1

The Correct Option is A

Detailed Explanation of the Structure of M: 

We are given several possible structures and asked to identify the correct one based on some underlying reaction or context (often elimination, rearrangement, or resonance stabilization in organic chemistry).

Let’s analyze each option:

1. Option (A): Ph–C=CH₂
   This is styrene or phenylethene. It contains a phenyl group (Ph–) directly attached to a vinyl group (–CH=CH₂).
   The double bond is conjugated with the aromatic ring, providing resonance stabilization.
   This conjugation lowers the overall energy of the molecule and makes it more stable than isolated alkenes.
   Such stability often leads to it being the major product in elimination reactions where conjugated systems are favored.
2. Option (B): Ph–C≡C–CH₃
   This is an alkyne with a phenyl ring. Though alkynes are stable, they lack the same conjugative stabilization with the ring that alkenes like styrene have.
   No conjugation is possible between the phenyl ring and triple bond (as π systems of alkynes and benzenes are orthogonal), so it's less stable.
3. Option (C): CH₃–C=CH₂
   This is a simple terminal alkene without any resonance stabilization.
   It lacks both conjugation and aromatic influence, so it is less stable than option (A).
4. Option (D): CH₃–C≡C–CH₃
   This is butyne (an internal alkyne), which is a linear molecule without any aromatic or conjugated effects. Again, no special stabilization is present here.

Conclusion:
Among all the options, option (A) (Ph–CH=CH₂) is the most stable and plausible structure due to extended conjugation with the phenyl ring. This stabilizes the molecule via resonance, making it the most likely structure of compound M.

Correct Answer: (A): Ph–CH=CH₂