The enthalpy of dissociation (in kJ/mol) of fluorine, chlorine, bromine and iodine are :

The electron gain enthalpy ( in kJ//mol ) of fluorine, chlorine, bromine and iodine, respectively ,are :

In going from fluorine to iodine

Caesium chlorides is formed according to the following equation Cs(s)+0.5Cl_(2)(g)rarrCaCl(s) . The enthalpy of sublimation of Cs, enthalpy of dissocitation of chlorine, ionization energy of Cs and electron affinity of chlorine are 81.2,243.0,375.7 and -348.3 kJ mol^(-1) . The energy change involved in the formation of CsCl is -388.6 kJ mol^(-) . Calculate the lattice energy of CsCl.

(A): The bond dissociation energy of fluorine is less than bromine. (R): In fluorine molecule, large lone pair electronic repulsions and appreciable internuclear repulsions are present.

Which of the following properties of the elements chlorine, bromine and iodine increase with increasing atomic number?

For Br_2(l) Enthalpy of atomisation = x kJ/mol, Bond dissociation enthalpy of bromine = y kJ/mole, then

Assertion : Displacement reactions of chlorine, bromine and iodine using fluorine are not generally carried out in aqueous solution. Reason : Fluorine being highly reactive attacks water and displaces the oxygen of water.

The enthalpy of solution of sodium chloride is 4 kJ mol^(-1) and its enthalpy of hydration of ion is -784 kJ mol^(-1) . Then the lattice enthalpy of NaCl (in kJ mol^(-1) ) is

The enthalpy of hydrogenation of cyclohexene is -119.5kJ mol^(-1) . If resonance energy of benzene is -150.4kJ mol^(-1) , its enthalpy of hydrogenation would be :

The enthalpy of hydrogenation of cyclohexene is -119.5kJ mol^(-1) . If resonance energy of benzene is -150.4kJ mol^(-1) , its enthalpy of hydrogenation would be :