Which would undergo SN2 reaction at a faster rate and why?
Given compounds:
Compound A: CH3–CH2–Br
Compound B:
CH3 | CH3–C–Br | CH3
Which would undergo SN2 reaction at a faster rate and why?
Given compounds:
Compound A: CH3–CH2–Br
Compound B:
| CH3 |
| | |
| CH3–C–Br |
| | |
| CH3 |
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Solution and Explanation
Step 1: The SN2 mechanism is a one-step reaction where the nucleophile attacks the carbon atom bonded to the leaving group from the backside.
Step 2: The rate of SN2 reaction is highly sensitive to steric hindrance around the carbon bearing the leaving group.
Step 3: - In Compound A (CH3–CH2–Br), the bromine is attached to a primary carbon, which is less hindered and easily accessible to the nucleophile.
- In Compound B (CH3–C(CH3)2–Br), the bromine is attached to a tertiary carbon, which is highly hindered due to three bulky methyl groups, making backside attack very difficult.
Conclusion: Compound A undergoes SN2 reaction at a much faster rate due to minimal steric hindrance.
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