\( X = \text{conc. alc. NaOH, 80}^\circ \text{C}, \, Y = \text{Br}_2/\text{CHCl}_3 \)
\( X = \text{dil. aq. NaOH, 20}^\circ \text{C}, \, Y = \text{HBr/acetic acid} \)
\( X = \text{conc. alc. NaOH, 80}^\circ \text{C}, \, Y = \text{HBr/acetic acid} \)
\( X = \text{dil. aq. NaOH, 20}^\circ \text{C}, \, Y = \text{Br}_2/\text{CHCl}_3 \)
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The Correct Option isC
Approach Solution - 1
Determine the Reaction with Reagent X: The starting compound, CH3 − CH2 − CH2 − CH2 − Br, is a 1-bromobutane. When treated with concentrated alcoholic NaOH at 80°C, an elimination reaction (dehydrohalogenation) occurs, leading to the formation of an alkene. The product after elimination is CH3 − CH = CH − CH3 (1-butene).
Reaction with Reagent Y: After the formation of 1-butene, adding HBr in the presence of acetic acid will convert it back into an alkyl halide by electrophilic addition. The final product is 1-bromo-2-butene.
Conclusion: The correct set of reagents for X and Y is: X = conc. alc. NaOH, 80°C Y = HBr/acetic acid This corresponds to Option (3).
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Approach Solution -2
Step 1: Understanding the given reaction sequence.
The given reaction starts from 1-bromopropane (CH₃–CH₂–CH₂–Br) and proceeds through two steps — reagent ‘X’ and reagent ‘Y’ — to finally form 2-bromopropane (CH₃–CH(Br)–CH₃).
Step 2: Step 1 — Reaction with reagent ‘X’.
When 1-bromopropane is treated with concentrated alcoholic NaOH at 80°C, it undergoes β-elimination (dehydrohalogenation) to form propene:
\[
\text{CH₃–CH₂–CH₂–Br} \xrightarrow[\text{80°C}]{\text{alc. NaOH}} \text{CH₃–CH=CH₂} + \text{HBr}
\]
This step produces an alkene (propene) as the intermediate product.
Step 3: Step 2 — Reaction with reagent ‘Y’.
Propene reacts with HBr in acetic acid, following the Markovnikov rule, where the bromine atom attaches to the more substituted carbon atom. This gives 2-bromopropane:
\[
\text{CH₃–CH=CH₂} + \text{HBr} \rightarrow \text{CH₃–CH(Br)–CH₃}
\]
Step 4: Final identification.
Therefore, the reagents are:
\[
X = \text{conc. alc. NaOH, 80°C} \quad \text{and} \quad Y = \text{HBr/acetic acid.}
\]
Step 5: Final Answer.
\[
\boxed{X = \text{conc. alc. NaOH, 80°C}, \, Y = \text{HBr/acetic acid}}
\]
