(a) As shown in Ellingham diagram which relates Gibbs free energy and temperature at below 710 K.

$\Delta G_{\left(\mathrm{C}, \mathrm{CO}_2\right)}<\Delta \mathrm{G}_{(\mathrm{C}, \mathrm{CO})} \mathrm{~So}, \mathrm{CO}_2$ is a better reducing agent than CO while above 710 K it becomes a very good reducing agent.

(b) Generally, sulphide ores are converted to oxides before reduction as reduction of oxides can easily be done using C or CO depending upon metal ore and temperature.

(c) Silica is a flux added to the sulphide ore of copper in the reverberatory furnace leading to the formation of slag

$\mathrm{FeO}+\mathrm{SiO}_2 \rightarrow \underset{\text { Slag }}{\mathrm{FeSiO}_3}$

(d) Carbon and hydrogen are not used as reducing agents at high temperature. At high temperature carbon and hydrogen readily form their carbides and hydrides respectively.

(e) Vapour phase refining method is used for the purification of Ti as

$$\mathrm{Ti}+2 \mathrm{I}_2 \xrightarrow{523 \mathrm{~K}} \mathrm{TiI}_4 \xrightarrow{1700 \mathrm{~K}} \mathrm{Ti}+2 \mathrm{I}_2$$