Question

What do you expect the nature of hydrides is, if formed by elements of atomic numbers 15, 19, 23 and 44 with dihydrogen? Compare their behaviour towards water.

Answer 1

The elements of atomic numbers 15, 19, 23, and 44 are nitrogen, potassium, vanadium and ruthenium respectively.
1) Hydride of nitrogen
Hydride of nitrogen $\left(N{H}_3\right)$ is a covalent molecule. It is an electron-rich hydride owing to the presence of excess electrons as a lone pair of nitrogen.

2) Hydride of potassium
Dihydrogen forms an ionic hydride with potassium owing to the high electropositive nature of potassium. it is crystalline and non-volatile in nature.
3) Hydrides of Vanadium and Ruthenium
Both vanadium and ruthenium belong to the d-block of the periodic table. The metals of d-block form metallic or non-stoichiometric hydrides. Hydrides of vanadium and ruthenium are therefore, metallic in nature having a deficiency of hydrogen.
4) The behaviour of hydrides towards the water
Potassium hydride reacts violently with water as : $K{H}_{\left(s\right)}+H_2{O}_{\left(aq\right)}\to KO{H}_{\left(aq\right)}+H_{2\left(g\right)}$
Ammonia $\left(N{H}_3\right)$ behaves like a Lewis base and reacts with water as:
$H_2{O}_{\left(l\right)}+N{H}_{3\left(aq\right)}⟷O{H}_{\left(aq\right)}^{-}+N{H}_{4\left(aq\right)}^{+}$
Hydrides of vanadium and Ruthenium do not react with water. hence, the increasing order of reactivity of the hydrides is (V, Ru) $H<N{H}_3<KH$.