Given
`C+2S rarr CS_(2), DeltaHf^(@)=+117.0 kJ mol^(-1)`
`C+O_(2) rarr CO_(2), DeltaHf^(@)=-393.0 kJ mol^(-1)`
`S+O_(2) rarr SO_(2), DeltaHf^(@)=-297.0 kJ mol^(-1)`
The heat of combustion of
`CS_(2)+3O_(2) rarr CO_(2)+2SO_(2)` is

Given that C+2SrarrCS_(2)DeltaH^(@)f=+117.0KJmol^(-1) (1) C+O_(2)rarrCO_(2)DeltaH^(@)f=-393.0KJmol^(-1) (2) S+O_(2)rarrSO_(2)DeltaH^(@)f=+297.0KJmol^(-1) (3) The heat of combustion of CS_(2)+3O_(2)rarrCO_(2)+2SO_(2) is

C+O_(2) rarr CO_(2), Delta H =-396 kJ mol^(-1) . Heat liberated in formation of 0.154 kg of CO_(2) is

{:(Given :,C+2StoCS_(2),DeltaH=117 kJ),(,C+O_(2)toCO_(2),DeltaH=-393 kJ),(,S+O_(2)toSO_(2), DeltaH=-297 kJ):} The heat is combustion of CS_(2) to form CO_(2) and SO_(2) is

From the data at 25^(@)C : Fe_(2)O_(3)(s) +3C_(("graphite")) rarr 2Fe(s) + 3CO(g), DeltaH^(Theta) = 492.0 kJ mol^(-1) FeO(s) +C_(("graphite")) rarr Fe(s) CO(g), DeltaH^(Theta) = 155.0 kJ mol^(-1) C_(("graphite")) +O_(2)(g) rarr CO_(2)(g), DeltaH^(Theta) =- 393.0 kJ mol^(-1) CO(g)+(1)/(2)O_(2)(g) rarr CO_(2)(g), DeltaH^(Theta) =- 282.0 kJ mol^(-1) Calculate the standard heat of formation of FeSO(s) and Fe_(2)O_(3)(s) .

S( rhombic ) + O_(2) rarr SO_(2)," " DeltaH=-297.5kJ S( monoclini ) + O_(2) rarr SO_(2), " "DeltaH=-300kJ This date indicates :

C+O_(2) rarr CO_(2), Delta H =-93 kJ , for formation of 11 mg of CO_(2) is

The standard Gibbs energy change value (Deltat_(r)G^(Theta)) at 1773K are given for the following reactions: 4Fe +3O_(2) rarr 2Fe_(2)O_(3), Delta_(r)G^(Theta) = - 1487 kJ mol^(-1) 4AI +3O_(2) rarr 2AI_(2)O_(3),Delta_(r)G^(Theta) =- 22500 kJ mol^(-1) 2CO +O_(2) rarr 2CO_(2),Delta_(r)G^(Theta) =- 515 kJ mol^(-1) Find out the possibility of reducing Fe_(2)O_(3) and AI_(2)O_(3) with CO at this temperature.