`C _(6) H _(6) to C _(6) H _(12), Delta H =-204 KJ.` Heat of hydrogenation of each C=C (assumed to be) in benzene is [in KJ]

On sulphonation of C_6H_5CI

C _((s)) + O _(2 (g)) to CO _(2(g)) ,Delta H =-393.5kJ. This equation can not represent

C_("graphite") + O_(2(g)) : Delta H = -393.5 kJ . Delta H of the above reaction cannot be

C_(6)H_(6)+CH_(3)Cl to C_(6) H_(5) CH_(3) +HCl The above reaction is an example of

C_(6)H_(12)O_(6) + Ararr2C_(3)H_(4)O_(3)+ B . A & B in the above reaction are

Heats of combustion of C_2H_4, H_2 and C_2H_6 are -1409 K.J, -285 K.J and -1558 KJ . Heat of hydrogenation of ethylene is

The bond dissociation energy depends upon the nature of the bond and nature of the molecule. If any molecule more than 1 bonds of similar nature are present then the bond energy reported is the average bond energy. If enthalpy of hydrogenation of C_(6)H_(6(l)) "into" C_(6)H_(12(l)) " is " -205 kJ and resonance energy of C_(6)H_(6(l)) is -152kJ//mol then enthalpy of hydrogenation of is ? Answer Delta H_("vap") " of " C_(6)H_(6(l)), C_(6)H_(10(l)), C_(6)H_(12(l)) all are equal: