Determine the enthalpy of formation of `B_(2)H_(6)`(g) in kJ/mol of the following reaction : `B_(2)H_(6)(g)+3O_(2)(g)rarrB_(2)O_(3)(s)+3H_(2)O(g)`, Given : `Delta_(r )H^(@)=-1941 " kJ"//"mol", " "DeltaH_(f)^(@)(B_(2)O_(3),s)=-1273" kJ"//"mol,"` `DeltaH_(f)^(@)(H_(2)O,g)=-241.8 " kJ"//"mol"`
The enthalpy of the reaction H_(2(g)) + O_(2(g)) rarr H_2O_((g)) is DeltaH_1 and that of H_(2(g)) + O_(2(g)) rarr H_(2)O_((l)) is Delta H_2 . Then
Calcutate Delta H in kJ for the following reaction C(g)+O_(2)(g) Given that , H_(2)O(g)+C_(g)toCO(g)+H_(2)(g),""""" DeltaH=+131kJ CO(g)+(1)/(2)O_(2)(g)toCO_(2)(g) """"'DeltaH=-282kJ H_(2)(g)+(1)/(2)O_(2)(g)toH_(2)O(g) """""DeltaH=-242kJ
Calculate a) DeltaG^(@) and b) the equilibrium constant for the formation of NO_(2) from NO and O_(2) at 298K NO(g)+1//2O_(2)(g)hArrNO_(2)(g) where Delta_(f)G^(oplus)(NO_(2))=52.0kJ//mol Delta_(f)G^(oplus)(NO)=87.0kJ//mol Delta_(f)G^(oplus)(O_(2))=0kJ//mol
The enthalpy of the reaction H _(2 (g)) + 1/2 O _(2(g)) to H _(2) O _((g)) is Delta H _(1) and that of H _(2(g)) + 1/2 O _(2(g)) to H _(2) O _((l)) is Delta H _(2). Then
Enthalpy of ammonia and water are -46.19KJ.mol^(-1) and -285.9KJ.mol^(-1) . Calculate AH for the reaction, 4NH_(3)(g)+3O_(2)(g)to 2N_(2)(g)+6H_(2)O(l) .
Calcutate enthalpy for formation of ethylene form the following data (I) C_((graphtie))+O _(2)(g)toCO_(2)(g), """""Delta=-393.5kJ (II) H_(2)(g)+(1)/(2)O_(2)(g)toH_(2)O(l), """" DeltaH=-286.2kJ (III) C_(2)H_(4)(g)+3O_(2)(g)to2CO_(2)(g)+2H_(2)O(l)"""""DeltaH=-1410.8kJ
NARENDRA AWASTHI-THERMODYNAMICS-Level 3 - Match The Column
