(A) Reduction of `Cr_(2)O)(3)` with the Aluminium is possible
( R ) `DeltaG_((f))^(0) of Cr_(3)O_(3) " is -540kj//mole and" DeltaG_((f))^(0) `
`of Al_(2)O_(3) is -827kj//"mole"`

The reduction of Cr_(2)O_(3) , by heating it with aluminium is known as

AI is costilier than Fe but AI is sacrificed to convert Fe_(2)O_(3) into Fe . Why this change is possible. Name this process : {:(Delta G_(f(Fe_(2)O_(3)))^(@) =-"742.2 kJ/mole"),(Delta G_(f(AI_(2)O_(3)))^(@)=-"1582 kJ/mole"):}

Calculate the pH at which the following reaction will be at equilibrium in basic medium : A_(2)(s) hArr A^(-)(aq) +AO_(3)^(-) (aq) When the equilibrium concentration at 300 K are: [A^(-)] = 0.1M, [AO_(3)^(-)] = 0.1M Given: DeltaG_(f)^(@) of OH^(-)(aq) =- 150 kJ//"mole" , DeltaG_(f)^(@) "of" H_(2)O(l) =- 233 kJ//"mole" DeltaG_(f)^(@) "of" A^(-)(aq) =- 50 kJ//"mole" , DeltaG_(f)^(@) "of" AO_(3)^(-) (aq) =- 123.5 kJ//"mole" , R = (25)/(3) J "mole"^(-1) K^(-1), log_(e) 10 = 2.3

What will be the maximum amount of heat realeased when 321 g of a mixuture of fe_(2)O_(3) and Al is subjected to sparkling in absence of air? DeltaH_(f)(Fe_(2)O_(3)=-199kJ// mole DeltaH_(f)(Al_(2)O_(3)=-399kJ// mole

A student suggested that calcium colud be obtained by reducing dolomite (CaCO_(3).MgCO_(3)) with aluminium powder. Was he correct in his approach ? (Given Delta_(f)G^(@) (CaO)=-640.0 " kJ mol"^(-1), Delta_(f)G^(@) Al_(2)O_(3)(s)=-1580.0 " kJ mol"^(-1)) .

when compared to DeltaG^(@) for the formation of A1_(2)O_(3) the Deltag^(@) for the formation of Cr_(2)O_(3) is

The minimum voltage required to electrolyse alumina in the Hall-Heroul process is [Given, DeltaG^(@)_(f)(A1_(2)O_(3)) =- 1520kJ//mol and DeltaG^(@)_(f)(CO_(2)) = 394kJ//mol]

Calculate standard molar entropy O_(2)(g) from the following thermodynamics data at 300 K : 4Cr(s)+3O_(2)(g)to2Cr_(2)O_(3)(s),DeltaG^(@)=-2093.4 " kJ"//mol DeltaH_(f)^(@)Cr_(2)O_(3)(s)=-1129.05" kJ"//"mole" S_(m)^(@)Cr(s)=24" J"//K" mole" S_(m)^(@)Cr_(2)O_(3)(s)=81" J"//K" mole"