Bond energies are equal to dissociation energies in case of :

Define bond dissociation energy.

Assertion : Bond energy and bond dissociation energy have identical value for diatomic molecules. Reason : Greater the bond dissociation energy, less reactive is the bond.

Correct order of bond dissociation energy

Arrange the (C-H) bonds x, y and z in decreasing order of their bond dissociation energies in homolysis.

Bond energy of a molecule :

A : Bond energy is equal to enthalpy of formation with negative sign. R: Bond energy is energy required to dissociate 1 mole single bond.

Hydrogen bond energy is equal to

Hydrogen when subjected to photon disocation, yieds one normal atom and atom possessing 1.97 eV more energy than normal atom .The bond dissociation energy of hydrogen molecule into normal atom is 103 kcal mol^(-1) . Campate the wavelength of effective photon for photo dissociation of hydrogen molecule in the given case

In MO energy diagram for heteronuclear diatomic molecule is similar However, the energies of the AO s of the atom having higher atomic number being lower, the diagram will be unsymmetrical, but that will not make a difference in the electron count The bond order is half the difference in the number of electrns of the bonding (sigma and pi) and anti-bonding (sigma and pi) MO s For a bond to have been formed the bond order the shorter is the bond distance and the greater is the bond dissociation energey But if the bond order is smae in the above two cases, then the bond distance will be greater and the bond dissocation energy smaller in the case which has more populated anti-bonding orbitals The presence of unpaired electron(s) in a molecualr orbital will make the system paramagnetic Which of the following orders is correct in respect of bond dissociation energey ? .

In MO energy diagram for heteronuclear diatomic molecule is similar However, the energies of the AO s of the atom having higher atomic number being lower, the diagram will be unsymmetrical, but that will not make a difference in the electron count The bond order is half the difference in the number of electrns of the bonding (sigma and pi) and anti-bonding (sigma and pi) MO s For a bond to have been formed the bond order the shorter is the bond distance and the greater is the bond dissociation energey But if the bond order is smae in the above two cases, then the bond distance will be greater and the bond dissocation energy smaller in the case which has more populated anti-bonding orbitals The presence of unpaired electron(s) in a molecualr orbital will make the system paramagnetic Which among the following will have a triple bond order ? .