Two sulphide ores can be separated by adjusting the proportion of oil and water or by using depressants, e.g., if an ore contains ZnS and PbS both, a depressant NaCN is added during froth floatation. It forms a complex with ZnS and prevents it from coming into froth. PbS comes into the froth and thus separated.

(a) Haematite $\left(\mathrm{Fe}_2 \mathrm{O}_3\right)$ ore is used to line the furnace.

(b) $\underset{\substack{\text { Haemattie } \\ \text { lining }}}{\mathrm{Fe}_2 \mathrm{O}_3}+\underset{\begin{array}{c}\text { Impurtilies } \\ \text { (present in cast iron) }\end{array}}{3 \mathrm{C}} \longrightarrow \underset{\begin{array}{c}\text { Wrought } \\ \text { iron }\end{array}}{2 \mathrm{Fe}}+3 \mathrm{CO}$

Compounds which are adsorbed to the more extent comes out later while the another one which absorbed to the less extent comes out readily. Since, compound ' $A$ ' comes out before compound ' $B$ ', the compound ' $B$ ' is more readily adsorbed on the column.

Silica (flux) being an acidic flux removes the impurities of iron oxide the basic impurity, by reacting with it. Thus, iron silicate (slag) is formed.

$$\underset{\text { Gangue }}{\mathrm{FeO}}+\underset{\text { Flux }}{\mathrm{SiO}_2} \longrightarrow \underset{\text { Slag }}{\mathrm{FeSiO}_3}$$

This is because oxides are reduced to metals easily while sulphides are not. So, sulphide ores are converted to oxide before reduction.