The Maximum number of RBr producing 2-methylbutane by above sequence of reaction
The Maximum number of RBr producing 2-methylbutane by above sequence of reaction
Show Hint
- 3
- 5
- 4
- 6
The Correct Option is A
Approach Solution - 1
Step 1: Possible alkyl groups with 4 carbon atoms.
We can form different structural isomers of butyl groups (C4H9–) as the alkyl part \( R \). There are four distinct isomeric forms:
- n-Butyl bromide \[ CH_3 - CH_2 - CH_2 - CH_2Br \]
- sec-Butyl bromide \[ CH_3 - CHBr - CH_2 - CH_3 \]
- iso-Butyl bromide \[ (CH_3)_2CH - CH_2Br \]
- tert-Butyl bromide \[ (C H_3)_3CBr \]
Each of these has a unique arrangement of carbon atoms and bromine, leading to different structures and physical properties.
Step 2: Total number of possible structures
\[ \boxed{\text{Total number of possible structures of } RBr = 4} \]
Final Answer:
\[ \boxed{4 \text{ isomeric structures of } RBr \text{ (C}_4H_9Br)} \]
Quick Concept:
For alkyl halides \( R–X \), the number of possible structures corresponds to the number of structural isomers of the alkyl group \( R \). For butyl bromide, these are: n-butyl, sec-butyl, iso-butyl, and tert-butyl bromide.
Approach Solution -2
The possible isomers of RBr that would produce 2-methylbutane are:
- 1-Bromo-3-methylbutane
- 2-Bromo-2-methylbutane
- 3-Bromo-2-methylbutane
Hence, the maximum number of RBr producing 2-methylbutane is 3.
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