When $3-$methylbutan$-2-$ol is treated with $HBr$,the following reaction takes place:
$CH_3-CH(CH_3)-CH(OH)-CH_3 \xrightarrow{HBr} CH_3-C(Br)(CH_3)-CH_2-CH_3$
Give a mechanism for this reaction.
(Hint : The secondary carbocation formed in step $II$ rearranges to a more stable tertiary carbocation by a hydride ion shift from $3^{rd}$ carbon atom.)
$CH_3-CH(CH_3)-CH(OH)-CH_3 \xrightarrow{HBr} CH_3-C(Br)(CH_3)-CH_2-CH_3$
Give a mechanism for this reaction.
(Hint : The secondary carbocation formed in step $II$ rearranges to a more stable tertiary carbocation by a hydride ion shift from $3^{rd}$ carbon atom.)
(N/A) The mechanism of the given reaction involves the following steps:
Step $1:$ Protonation
$CH_3-CH(CH_3)-CH(OH)-CH_3 + H^+ \rightarrow CH_3-CH(CH_3)-CH(OH_2^+)-CH_3$
Step $2:$ Formation of $2^{\circ}$ carbocation by the elimination of a water molecule
$CH_3-CH(CH_3)-CH(OH_2^+)-CH_3 \rightarrow CH_3-CH(CH_3)-CH^+-CH_3 + H_2O$
Step $3:$ Rearrangement by the hydride-ion shift
The $2^{\circ}$ carbocation undergoes a $1,2-$hydride shift from the $3^{rd}$ carbon to form a more stable $3^{\circ}$ carbocation:
$CH_3-CH(CH_3)-CH^+-CH_3 \rightarrow CH_3-C^+(CH_3)-CH_2-CH_3$
Step $4:$ Nucleophilic attack
The bromide ion $(Br^-)$ attacks the $3^{\circ}$ carbocation to form the final product:
$CH_3-C^+(CH_3)-CH_2-CH_3 + Br^- \rightarrow CH_3-C(Br)(CH_3)-CH_2-CH_3$ ($2-$bromo$-2-$methylbutane)
Step $1:$ Protonation
$CH_3-CH(CH_3)-CH(OH)-CH_3 + H^+ \rightarrow CH_3-CH(CH_3)-CH(OH_2^+)-CH_3$
Step $2:$ Formation of $2^{\circ}$ carbocation by the elimination of a water molecule
$CH_3-CH(CH_3)-CH(OH_2^+)-CH_3 \rightarrow CH_3-CH(CH_3)-CH^+-CH_3 + H_2O$
Step $3:$ Rearrangement by the hydride-ion shift
The $2^{\circ}$ carbocation undergoes a $1,2-$hydride shift from the $3^{rd}$ carbon to form a more stable $3^{\circ}$ carbocation:
$CH_3-CH(CH_3)-CH^+-CH_3 \rightarrow CH_3-C^+(CH_3)-CH_2-CH_3$
Step $4:$ Nucleophilic attack
The bromide ion $(Br^-)$ attacks the $3^{\circ}$ carbocation to form the final product:
$CH_3-C^+(CH_3)-CH_2-CH_3 + Br^- \rightarrow CH_3-C(Br)(CH_3)-CH_2-CH_3$ ($2-$bromo$-2-$methylbutane)
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Among the following organic halides,arrange them in the increasing order of their dehydrohalogenation reactions in the presence of alcoholic $KOH$:
$(A)$ $CH_3-CH_2-Br$
$(B)$ $CH_3-CH_2-CH_2-Br$
$(C)$ $CH_3-CH(Br)-CH_3$
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$(A)$ $CH_3-CH_2-Br$
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$(C)$ $CH_3-CH(Br)-CH_3$
$(D)$ $(CH_3)_3-CBr$
$CH_3-CH_2-Cl + NaI \xrightarrow{\text{Acetone}} CH_3-CH_2-I + NaCl$ The above reaction is known as $:-$
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