A gaseous compound of nitrogen and hydrogen contains $$12.5\% $$  (by mass) of hydrogen. The density of the compound relative to hydrogen is 16. The molecular formula of the compound is:

Solution :
In an unknown compounds containing $$N$$ and $$H$$
$$\eqalign{ & {\text{given}}\,\,\% \,\,{\text{of}}\,H = 12.5\% \cr & \therefore \,\,\,\% \,\,{\text{of}}\,N = 100 - 12.5 = 87.5\% \cr} $$

Element	Percentage	Atomic ratio	Simple ratio
$$H$$	12.5%	$$\frac{{12.5}}{1} = 12.5$$	$$\frac{{12.5}}{{6.25}} = 2$$
$$N$$	87.5	$$\frac{{87.5}}{{14}} = 6.25$$	$$\frac{{6.25}}{{6.25}} = 1$$

$$\eqalign{ & 2 \times {\text{vapour density}} = Mol.\,wt = mol\,wt. \cr & = 16 \times 2 = 32. \cr & {\text{Molecular formula}} = n \times {\text{empirical formula}} \cr & {\text{mass}}\,\,n = \frac{{32}}{{16}} = 2 \cr & \therefore \,\,{\text{Molecular formula of the compound will be}} \cr & = {\left( {N{H_2}} \right)_2} = {N_2}{H_4} \cr} $$