The energy required for the following process is `1.96 xx 10^4 kJ mol^(-1)`
`Li_(g) to 3e^(-) + Li_((g))^(3+)` 
If the first ionisation energy of lithium is `520 kJ mol^(-1)`, what is the second ionisation energy? 

The energy required for the following process is 1.96 xx 104" kJ mol"^(-1)rarr3e^(-)+Li^(3+)(g) If the first ionisation energy of lithium is "520 kJ mol"^(-1) what is the second ionisation energy?

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

The correct option for the first ionisation enthalpy (in kJ "mol"^(-1) ) of Li, Na, K and Cs respectively is

A catalyst lowered the energy of activation by 25 kJ mol^(-1) .How many times , the rate reaction increases?

Ionisation energy of He^(+) is 19.6 xx 10^(-18)"J atom"^(-1) The energy of the first stationary state of Li^(2+) is

Bond energy of N-N is x kJ "mol"^(-1) . Then bond energy of N-=N is

Calculate the enthalpy change of the reaction Na(s) + 1//2Br_(2)(g)rarr NaBr(s) DeltaH atomisation (Na) = +107 kJ mol^(-1) DeltaH atomisation (Br) = +97 kJ mol^(-1) DeltaH first ionisation energy (Na) = +496 kJ mol^(-1) DeltaH first electron affinity (Br) = -325 kJ mol^(-1) DeltaH lattice energy (NaBr) = -742 kJ mol^(-1)

The heat of formation of crystalline sodium chloride is -410 kJ mol^(-1) . The heat of sublimation of sodium metal is 180.8 kJ mol^(-1) . The heat of dissociation of chlorine gas into atoms is 242.7 kJ mol^(-1) . The ionisation energy of Na and electron affinity of Cl are 493.7 kJ and -368.2 kJ respectively. Calculate the lattice energy of NaCl.