The bond dissociation energy of `C_(sp^(3)) - H` is smaller than that of `C_(sp) - H` bond - why?

Explain why the bond dissociation enthalpy of F_(2) is less than that of Cl_(2) .

Bond dissociation ehtalpy of F_(2) is less than that of CI_(2) - why ?

Why the bond dissociation enthalpy of F_2 is less than that of Cl_2 .

The bond dissociation enthalpy of N_(2) is higher than that of N_(2)^(+) but the bond dissociation enthalpy of O_(2)^(+) is higher than that of O_(2) . Explain.

Bond dissociation enthalpy of C_(6)H_(5)CH_(2) - H bond is much less than CH_(3) - H bond. Explain.

The bond dissociation enthalpy of C_6H_5CH_2— H bond is much less than CH_3 H bond— explain.

The bond dissociation energies of X_(2) , Y_(2) and XY are in the ratio of 1 : 0.5 : 1 . Delta H for the formation of XY is -200 kJ * mol^(-1) . The bond dissociation energy of X_(2) is -

(i) What are bond energy and bond dissociation energy? (ii) Why average value is always taken for the determination of bond energy?

If the bond dissociation energies of XY(g), X_(2)(g) and Y_(2)(g) are in the ratio of 1:1:0.5 and Delta_(f)H for the formation of XY(g) is -200kJ *mol^(-1) , then what will be the bond dissociation energy of X_(2)(g) ?

Bond dissociation energy of CH_(4) is 360 kJ/mol and C_(2)H_(6) is 620 kJ/mol. Then bond dissociation energy of C-C bond is-