Answer

(a)

(i)

$\underset{\text{Butan-1-ol}}{\mathrm{CH_3}-\mathrm{CH_2}-\mathrm{CH_2}-\mathrm{CH_2}-\mathrm{OH}} \xrightarrow{\mathrm{HCl} \cdot \mathrm{ZnCl_2}} \text { No reaction }$

Primary alcohols do not react appreciably with Lucas’ reagent $\left(\mathrm{HCl}-\mathrm{ZnCl_2}\right)$ at room temperature.

(ii)

Tertiary alcohols react immediately with Lucas’ reagent

(b)

(i)

$\underset{\text{Butan-1-ol}}{\mathrm{CH_3} \mathrm{CH_2} \mathrm{CH_2} \mathrm{CH_2} \mathrm{OH}}+\mathrm{HBr} \xrightarrow{\mathrm{-H_2O}}\underset{\text{1-Bromobutane}}{\mathrm{CH_3} \mathrm{CH_2} \mathrm{CH_2} \mathrm{CH_2} \mathrm{Br}}$

(ii)

(c)

(i)

$\underset{\text{Butan-1-ol}}{\mathrm{CH_3} \mathrm{CH_2} \mathrm{CH_2} \mathrm{CH_2} \mathrm{OH}}\mathrm{SOCl_2} \longrightarrow \underset{\text{1-chlorobutane}}{\mathrm{CH_3} \mathrm{CH_2} \mathrm{CH_2} \mathrm{CH_2} \mathrm{Cl}}+\mathrm{SO_2}+\mathrm{HCl}$

(ii)

Answer

(i)

(ii)

$\underset{\text{Butan-1-ol}}{\mathrm{CH_3} \mathrm{CH_2} \mathrm{CH_2} \mathrm{CH_2} \mathrm{OH}} \xrightarrow[\mathrm{H^+}]{\text { Dehydration }} \underset{\substack{\text{But-2-ene }\\ \text{(Major product)}}}{\mathrm{CH_3} \mathrm{CH}=\mathrm{CHCH_3}}+\mathrm{H_2} \mathrm{O}$

Answer

Resonance structure of the phenoxide ion

Resonance structures of $p$-nitrophenoxide ion

Resonance structures of o-nitrophenoxide ion

It can be observed that the presence of nitro groups increases the stability of phenoxide ion.

Answer

i. Reimer-Tiemann reaction

ii. Kolbe’s reaction