At `25^(@)C` and 1 atm if the bond energy of `Cl_(2)(g)` is `242kJ*mol^(-1)`, then the standard enthalpy of atomisation of chlorine at the same temperature+_____.

Cl_2(g)rarr 2Cl(g) Delta H^@=242KJ mol^(-1) what is its enthalpy of atomization?

What do you mean by the standard enthalpy of atomisation of chlorine at 25^(@)C=+121kJ*mol^(-1) ?

At 25^(@)C , the bond dissociation energy of N_(2)(g) is 946 kJ*mol^(-1) . What does it mean ? What would be the standard atomisation enthalpy of N_(2)(g) at 25^(@)C ?

The standard enthalpy of atomisation of PCl_(3)(g) is 195" Kcal/mol" . What will be the standard enthalpy of atomisation of PCl_(5)(g) , if the bond dissociation energies of axial P-Cl bonds in PCl_(5)(g) are 10% lesser and the bond dissociation energies of equatorial P-Cl bonds in PCl_(5)(g) are 10% higher than the bond dissociation energies of P-Cl vonds in PCl_(3)(g) .

Bond dissociation enthalpies of H_(2(g)) and N_(2(g)) are "426.0 kJ mol"^(-1) and "941.8 kJ mol"^(-1) , respectively, and enthalpy of formation of NH_(3(g))" is "-"46 kJ mol"^(-1) . What are the enthalpy of atomisation of NH_(3(g)) and the average bond enthalpy of N-H bond respectively ( in kJ "mol"^(-1) )?

Bond dissociation enthalpies of H_(2(g)) and N_(2(g)) are "426.0 kJ mol"^(-1) and "941.8 kJ mol"^(-1) , respectively, and enthalpy of formation of NH_(3(g))" is "-"46 kJ mol"^(-1) . What are the enthalpy of atomisation of NH_(3(g)) and the average bond enthalpy of N-H bond respectively ( in kJ "mol"^(-1) )?

Bond dissociation enthalpy of H_(2),Cl_(2) and HCl are 434,242 and 431kJ mol^(-1) respectively. Enthalpy of formation of HCl is :

Calculate the bond enthalpy of H-CI given that the bond enthalpies of H_(2) and CI_(2) are 435.4 and 242.8 kJ "mol"^(-1) respectively and enthalpy of formation of HCI(g) is -92.2 kJ mol