Given that `C(g)+4H(g)to CH_(4)(g) , Delta H =-166 kJ`. The bond energy of the C - H bond will be

Given that, C(g)+4H(g)rarrCH_(4)(g),DeltaH=-166kJ . The bond energy C-H will be

Consider the reactions : C_((s))+2H_(2(g)) rarr CH_(4(g)), DeltaH=-X kcal C_((g))+4H_((g)) rarr CH_(4(g)),DeltaH-X_(1)kcal CH_(4(g))rarr CH_(3(g))+H_((g)), DeltaH=+Ykcal The average bond energy of C-H bond is :

Consider the reactions : C_((s))+2H_(2(g)) rarr CH_(4(g)), DeltaH=-X kcal C_((g))+4H_((g)) rarr CH_(4(g)),DeltaH-X_(1)kcal CH_(4(g))rarr CH_(3(g))+H_((g)), DeltaH=+Ykcal The average bond energy of C-H bond is :

The enthalpy change for the reaction, C_(2)H_(6)(g)rarr2C(g)+6H(g) is X kJ. The bond energy of C-H bond is :

The enthalpy change for the reaction, C_(2)H_(6)(g)rarr2C(g)+6H(g) is X kJ. The bond energy of C-H bond is :

The enthalpy change for the reaction C_(2)H_(6(g)) rarr 2C_((g)) + 6H_((g)) is x kJ. The bond energy of C-H bond is:

The enthalpy change for the reaction, C_(2)H_(6)(g)rarr2C(g)+6H(g) is X kJ. The bond energy of C-H bond is :