The amount of energy released when `10^(6)` atoms of iodine in vapour state are converted to `I^(-)` ions is `4.9 xx 10^(-13) J`. What will be the electron affinity of iodine in eV per atom?

the amount of energy released when 10^(6) atoms of iodine in vapour state are converted to I^(-) ions is 4.8 xx 10^(-13) J . What is the electron affinity of iodine in ev/atom.

The amount of energy when million atoms of iodine are completely converted into I^(-) ions in the vapour state according to the equation, I_((g))+e^(-) to I^(-)_((g)) is 4.9X10^(-13) J.What would be the electron gain enthalpy of iodine in terms of KJ mol^(-1) and eV per atom?

The energy released during conversion of million atoms of iodine in gaseous state to iodide ions in gaseous state is 4.9xx210^(-13)J . What is the electron gain enthalpy in eV/atom. [Report your answer by rounding it up to nearest whole number ]

The amount of energy released when 1 xx10^10 atoms of chlorine in vapour state are converted to Cl^(–1) ions according to the equation, Cl(g) + e^(-) to Cl^(-) (g) " is " 57.86 xx 10^(-10) J Calculate the electron gain enthalpy of chlorine atom in terms of kJ "mol"^(–1 ) and eV per atom.

The Delta_(eg)H^(ɵ) of Br is 3.4 eV . How much energy in kcal is released when 0.8 g of Br (g) is completely converted to Br^(ɵ) (g) ions. (1 eV = 23.06 kcal mol^(1-)) b. The energy released when 10^(7) atoms of I (g) is converted to I^(ɵ) (g) ions, is 5 xx 10^(-13) J . Calculate Delta_(eg)H^(ɵ) of I (g) in (i) eV "atom"^(-1) and (ii) kJ mol^(-1) .

The amount of energy released when 10^(12) atoms of Cl vapours are converted to Cl^(ɵ) ions, according to the equation : C_((g))+e^(-) rarr Cl_((g))^(ɵ) is 58 xx 10^(-10)J Calculate the Delta_(eg)H^(ɵ) of Cl atom in kJ mol^(-1) and eV "atom"^(-1) .