The bond dissociation energy between H-O in H2O molecule (in KJ/mol)

The bond dissociation energy between Cl-Cl in Cl_2 molecule is (in KJ mol^(-1) )

A photon with a wavelength of 4000A^@ is used to break the iodine molecule, then the % of energy converted to the K.E. of iodine atoms if bond dissociation energy of I_2 molecule is 246.5 kJ/mol

The bond length in atoms between H-H molecules in (in A^@ )

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. Determine C-C and C-H bond enthalpy (in kJ/mol). Given: Delta_(f)H^(0) (C_(2)H_(6),g)= -85kJ//mol, Delta_(f) H^(0) (C_(3)H_(8), g)= -104kJ//mole, Delta_("sub")H^(0) (C,s)= 718kJ//mol , B.E. (H-H)= 436 kJ/mol,

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:

(A) Among chalcogens, tendency of catenation is maximum for sulphur S-S bond dissociation energy is less then O-O bond dissociation energy.

The bond dissociation energy ( E) and bond length ( R) of O_(2),N_(2) and F_(2) follow the order as :

The bond angle between H - O - H atoms.

Bond angle (H-O-H) in H_(2)O is

Given the following infonnation of magnesium oxygen, and magneisurn oxide calculate the second electron gain enthalpy for oxygen {i .e. for O- (g)+c^(-) rarr O^(2-)(g)] for Mg(s) DeltaH_(sab)= +148 kJ//mol " " bond dissociation energy for O_(2) = +499 kj/mol 1^(st) ionization energy for Mg = +738 kJ/mol " " 1^(st) electron gain enthalpy for O = - 141 kJ/mol 2^(nd) ionization energy for Mg = +1450 kJ/mol " " for MgO (s), lattice energy = +3890kJ/mol for MgO(s), enthalpy of formation =-602kJ/mol