Statement `:` In a diatomic molecule involving two like atoms covalently bonded with each other , bond energy `=2xx` heat of formation of atom.
Explanation `:` `H_(2) rarr 2H, e_(H-H)=DeltaH`

Bond energy of covalent O-H bond in water is

If H_(2)(g) Then heat of atomization of H_(2) is

Explain the formation of H_(2) molecule on the basis of valance bond theory.

The number of covalent bonds in a molecule of ethylene (C_(2)H_(4)) is

In which of the following compound Cl-atom is involved in H-bonding :

The required heat for dissociation of 1 mole H_(2)O into its atoms (H and oxygen) is Delta H_("Dissociation") . Then calculate the bond energy of O - H bond. H_(2)O(g)rarr O(g)+2H(g) , Delta H_("Dissociation")

What is a covalent bond ? How many covalent bonds are present in the following molecules ? C_(2)H_(6), CO_(2) , N_(2) and NH_(3)

The bond dissociation energy of a diatomic molecule is also called bond energy. However, the bond dissociation energy depends upon the nature of bond and also the molecule in which the bond is present. The bond energy N-H bind in NH_(3) is equal to one-third of the energy of dissociation of NH_(3) because there are three N-H bonds and those of C-H bond in CH_(4) is equal to one-fourth of the energy of dissociation of CH_(4) Heat of a reaction = Bond energy of reactants - Bond energy of products The enthalpy changes for the reaction H_(2)O(g) rarr H(g)+OH(g) and OH (g) rarr O(g)+H(g) are 501.87 kJ mol^(-1) and 423.3 kJ mol^(-1) . The bond enthalpy of O-H bond is

The dipole moment of HBr is 2.6 xx 10^(-30)Cm and interatomic spacing is 1.41 A What is the percent ionic character of HBr (b) A diatomic molecule has mu = 1.2 D Its bond distance is 1.0A What fraction of electronic charge exists on each atom? (c ) In water, (H -O_H) bond angle is 105^(@) The distance between (O-H) is 0.94A.mu of H_(2)O=1.85D Determine the magnitude of the charge on the oxygen atom in water molecule and hydrogen atom (d) BI_(3) is a symmetrical planar molecule, all the (B -1) bonds lie at 120^(@) of each other. The distance between the I atoms is 3.54 A the radius of covalently bonded I atom is 1.33A Estimate the covalent radius of boron (e) Calculate the dipole moment of the following compounds .