Benzene diazonium chloride are highly unstable and stable for a very short time span in solution at low temperature. Due to its instability, it is used immediately after its preparation.

Acylation of $-\mathrm{NH}_2$ group of aniline reduces its activity due to resonance of lone pair of nitrogen towards the carbonyl group hence $0-, p^{-}$directive influence of amino group get disturbed.

Basicity of $\mathrm{MeNH}_2$ and MeOH can be explained on the basis of electronegativity of N and O atom. $\mathrm{MeNH}_2$ is stronger base than MeOH because of low electronegativity value of N , it is easy for nitrogen to loose its lone pair readily than compared to MeOH .

Pyridine being a base, is used to remove the side product i.e., HCl from reaction mixture.

In strongly basic conditions, benzenediazonium chloride is converted into diazohydroxide and diazoate as both of which are not electrophilic and do not couple with aniline.

$$\mathrm{{C_6}{H_5}\mathop N\limits^ + \equiv NC\mathop l\limits^ - + \mathop {OH\,S{O_2}C{H_5} - N = N - OH}\limits_{Diazohydroxide}}$$

Similarly, in highly acidic conditions, aniline gets converted into anilinium ion. From this, result aniline is no longer nucleophilic acid and hence will not couple with diazonium chloride. Hence, the reaction is carried out under mild conditions, i.e., $\mathrm{pH}-4-5$

$\underset{\text { Aniline }}{\mathrm{C}_6 \mathrm{H}_5 \mathrm{NH}_2}+\mathrm{H}^{+} \rightarrow \underset{\substack{\text { Anilinium ion } \\ \text { (coupling do not occur) }}}{\mathrm{C}_6 \mathrm{H}_5-\stackrel{+}{\mathrm{N}} \mathrm{H}_3}$