The reduction of `Fe_(2)O_(3)` to Fe by CO occurs arround __________.

Haematite is Fe_(2)O_(3) / Fe_(3)O_(4)

Calculate the DeltaH^(Theta) for the reduction of Fe_(2)O_(3)(s) by AI(s) at 25^(@)C . The enthalpies of formation of Fe_(2)O_(3) and AI_(2)O_(3) are -825.5 and -1675.7 kJ mol^(-1) respectively.

For the reaction Fe_(2)O_(3)+3CO to 2Fe+3CO_(2) , the volume of carbon monoxide required to reduce one mole of ferric oxide is

Correct statements from the graph I) Above 1073 K, DeltaG^(0) for the formation of F_(2)O_(3) is less negative than DeltaG^(0) for the formation of CO from carbon II) Above 1073K, Carbon can reduce Fe_(2)O_(3) III) Below 1073K, CO can reduce Fe_(2)O_(3) IV) In blast furnance, reduction of Fe_(2)CO_(3) occurs in different temperature ranges with below 1073K by CO (or) above 1073 K by carbon

Correct statements from the graph I) Above 1073 K, DeltaG^(0) for the formation of F_(2)O_(3) is less negative than DeltaG^(0) for the formation of CO from carbon II) Above 1073K, Carbon can reduce Fe_(2)O_(3) III) Below 1073K, CO can reduce Fe_(2)O_(3) IV) In blast furnance, reduction of Fe_(2)CO_(3) occurs in different temperature ranges with below 1073K by CO (or) above 1073 K by carbon

For the reaction Fe_(2)O_(3)+3CO rarr 2Fe+3CO_(2) , the volume of carbon monoxide required to reduce one mole of ferric oxide is

In the extraction of Fe from Fe_(2)O_(3) the reducing agent is