(a)(i) Allotropes of sulphur prismatic / monoclinic; Rhombic sulphur. Also plastic/amorphous sulphurs.
(ii) When H\(_2\)S is bubbled through acidified KMnO\(_4\), the solution turns from purple to colourless / is decolourised with yellow deposit of sulphur. H\(_2\)S is a reducing agent. It reduces manganese from oxidation state of + 7 to +2 and itself oxidized to sulphur.
(iii) The products are sulphur and water

(b)(i) The raw materials for the manufacture of H\(_2\)SO\(_4\) are sulphur air / oxygen.
(ii) The equation of the reaction that requires a catalyst in the contact process is 2SO\(_2\) + O\(_2\) -> 2SO\(_3\). The catalyst used is V\(_2\)O\(_5\) (vanadium (V) oxide)
(iii) with copper turnings a blue solution and a gas (with irritating smell) are observed. Products are CuSO\(_4\), SO\(_2\) and water - with a cube of sugar, a black mass of carbon is obtained.

(c)(i) Uses of Na\(_2\)CO\(_3\)
- As a water softener
- In glass / paper manufacture
- As analytical reagent, or specific reaction.
(ii) Na\(_2\)CO\(_3\).
Exposure
10H\(_2\)O \(\to\) Na\(_2\)CO\(_3\) . H\(_2\)O + 9H\(_2\)O. This equation illustrates efflorescence in air
in air
(iii) Solubility calculation. Mass of salt per 20cm of saturated solution = 1.75g 1000cm\(^3\) of saturated solution contains
\(\frac{1000 x 1.75g}{20}\) = 87.5g
molar mass of Na\(_2\)CO\(_3\) = (2 x 23) + 12 + (3 x 16) = 106g
Solubility of Na\(_2\)CO\(_3\) = 87.5
= 0.825 mol /dm\(^{-3}\)