Calculate the electronegativity of fluorine from the following data:
`E_(H-H) = 104.4 kcal mol^(-1), E_(F-F) = 36.6 kcal mol^(-1)`
`E_(H-F) = 134.3 kcal mol^(-1), chi_(H) = 2.1`

Calculate electronegativity of carbon at Pauling scale Given that : E_(H-H) =104 .2 kcal "mol"^(-1) E_(C-C) =83.1 kcal "mol"^(-1) , E_(C-H) =98.8 kcal "mol"^(-1) . Electronegativity of hydrogen =2.1 .

Calculate the enthalpy of formation of ammonia from the following bond energy data: (N-H) bond = 389 kJ mol^(-1), (H-H) bond = 435 kJ mol^(-1) , and (N-=N)bond = 945.36kJ mol^(-1) .

Calculate the lattice energy from the following data (given 1 eV = 23.0 kcal mol^(-1) ) i. Delta_(f) H^(ɵ) (KI) = -78.0 kcal mol^(-1) ii. IE_(1) of K = 4.0 eV iii. Delta_("diss")H^(ɵ)(I_(2)) = 28.0 kcal mol^(-1) iv. Delta_("sub")H^(ɵ)(K) = 20.0 kcal mol^(-1) v. EA of I = -70.0 kcal mol^(-1) vi. Delta_("sub")H^(ɵ) of I_(2) = 14.0 kcal mol^(-1)

From the following data, calculate the standard enthalpy of formation of propane Delta_(f)H^(Theta) CH_(4) = - 17 kcal mol^(-1) Delta_(f)H^(Theta)C_(2)H_(6) =- 24 kcal mol^(-1), BE (C-H) = 99 kcal mol^(-1) (C- C) = 84 kcal mol^(-1) .

Find the electron affinity of chlorine from the following data. Enthalpy of formation of LiCI is -97.5 kcal mol^(-1) , lattice energy of LiCI =- 197.7 kcal mol^(-1) . Dissociation energy of chlirine is 57.6 kcal mol^(-1) , sublimation enthalpy of lithium =+ 38.3 kcal mol^(-1) , ionisation energy of lithium =123.8 kcal mol^(-1) .

Calculate the lattice energy of the reaction Li^(o+)(g) +CI^(Theta) (g) rarr LiCI(s) from the following data: Delta_("sub")H^(Theta)(Li) = 160.67 kJ mol^(-1), (1)/(2)D(CI_(2)) = 122.17 kJ mol^(-1) IP(Li) = 520.07 kJ mol^(-1),E_(A)(CI) = - 365.26 kJ mol^(-1) and Delta_(f)H^(Theta)(LiCI) =- 401.66 kJ mol^(-1)

Calculate K_(sp) for AgCI . Given: Delta_(f)H^(Θ) Ag^(o+) = 25.3 kcal mol^(-1) Delta_(f)H^(Θ) C1^(Θ) =- 40.0 kcal mol^(-1) Delta_(f)H^(Θ) AgC1=- 30.36 kcal mol^(-1) S^(Θ) Ag^(o+), S^(Θ) C1^(Θ) , and S^(Θ) AgC1 are 17.7, 13.2 and 23.0 cal mol^(-1)

Calculate the enthalpy change during the reaction : H_(2(g))+Br_(2(g))rarr 2HBr_((g)) Given, e_(H-H)=435kJ mol^(-1),e_(Br-Br)=192kJ mol^(-1) and e_(H-Br)=368kJ mol^(-1).

In a multistep reaction such as A + B rarr Q rarr C . The potential energy diagram is shown below. What is E_(a) for the reaction Q rarr C ? (a) 3 kcal mol^(-1) (b) 5 kcal mol^(-1) (c) 8 kcal mol^(-1) (d) 11 kcal mol^(-1)

The enthalpy of formation of ammonia when calculated from the following bond energy data is (B.E. of N-H, H-H, N-=N is "389 kJ mol"^(-1), "435 kJ mol"^(-1),"945.36 kJ mol"^(-1) respectively)