Determiwn which compoudn will react with sodium in liquid [Free] A8

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Determiwn which compoudn will react with sodium in liquid ammonia to form trans 3 hexene

Answer

✅ Detailed Explanation: Formation of trans-3-hexene using Sodium in Liquid Ammonia

Goal: To produce trans-3-hexene via a dissolving metal reduction of an alkyne using sodium (Na) in liquid ammonia (NH3).

🔬 Reaction Overview:

  • The dissolving metal reduction process involves an alkyne being reduced to a trans-alkene.
  • This occurs through a mechanism that includes a radical anion intermediate.
  • Two successive steps of electron transfer and protonation lead to the final product.

🧪 Choosing the Correct Alkyne:

To get the double bond at carbon 3 and 4, the starting compound must have its triple bond in the same location. That compound is:

3-hexyne (CH3CH2C≡CCH2CH3)

⚙️ Mechanism Steps:

  1. Electron addition: An electron from sodium is added to the alkyne, forming a radical anion.
  2. First protonation: This intermediate is protonated to form a vinyl radical.
  3. Second electron addition: Another electron is added to form a vinyl anion.
  4. Second protonation: Final protonation gives the alkene.

Because the protonations occur on opposite faces (anti addition), the resulting product is a trans (E)-alkene.

🔍 Final Product:

The compound 3-hexyne reacts with sodium in liquid ammonia to yield:
trans-3-hexene (CH3CH2CH=CHCH2CH3)

📌 Conclusion:

Therefore, the correct compound that reacts with sodium in liquid ammonia to form trans-3-hexene is:

Option (c) 3-hexyne

Student Read 3

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