Ionisation of energy `F^(ɵ)` is `320 kJ mol^(-1)`. The electronic gain enthalpy of fluorine would be

Electron Gain Enthalpy

Ionisation enthalpy of Na would be same as

Calculate the heat of formation of NaCl from the following data: Heat of sublimation of sodium = 108.5 kJ mol^(-1) Dissociation energy of chlorine = 243.0 kJ mol^(-1) lonisation energy of sodium = 495.8 kJ mol^(-1) Electron gain enthalpy of chlorine = -348.8 kJ mol^(-1) Lattice energy of sodium chloride = -758.7 kJ mol^(-1) .

Electron gain enthalpy will be positive in

Use the following data to calculate Delta_("lattice") H^(Θ) " for " NaBr. Delta_("Sub")H^(Θ) for sodium metal = 108.4 kJ mol^(-1) , ionisation enthalpy of sodium = 496 kJ mol^(-1) , electron gain enthalpy of bromine = -325 kJ mol^(-1) , bond dissociation enthalpy of bromine = 192 kJ mol^(-1), Delta_(f) H^(Θ) " for " NaBr(s) = - 360.1 kJ mol^(-1)

The enthalpy of vaporisation of water at 100^(@)C is 40.63 KJ mol^(-1) . The value Delta E for the process would be :-

The lattice enthalpy of KI will be, if the enthalpy of (I) Delta_f H^- (KI) = -78.0 kcal mol^-1 (II) Ionisation energy of K to K^+ is 4.0 eV (III) Dissociation energy of I_2 is 28.0 kcal mol^-1 (IV) Sublimation energy of K is 20.0 kcal mol^-1 (V) Electron gain enthalpy for I to I^- is -70.0 kcal mol^-1 (VI) Sublimation energy of I_2 is 14.0 kcal mol^-1 (1 eV =23. 0 kcal mol^-1)

The first ionisation potential of Na is 5.1eV . The value of electron gain enthalpy of Na^(+) will be

The first (DeltaH_(1)) and second (DeltaH_(2)) ionisation enthalpies (in kJ mol^(-1)) and the (DeltaH_(eg)) electron gain enthalpy (in kJ mol^(-1)) of a elements are given below: Based on the above information match the following columns.

The correct order of electron gain enthalpy (in kJ/mole) is