If values of `Delta_(f)H^(Theta)` of `ICI(g),CI(g)`, and `I(g)` are, respectively, `17.57,121.34`, and `106.96 J mol^(-1)`. The value of `I-CI` (bond energy) in `J mol^(-1)` is

If values of Delta_(f)H^(Theta) of ICl(g),Cl(g) , and I(g) are, respectively, 17.57,121.34 , and 106.96 J mol^(-1) . The value of I-Cl (bond energy) in J mol^(-1) is

If DeltaH_(f)^(@) of Icl(g) , Cl(g) and I(g) is 17.57 , 121.34 and 106.96 J mol^(-1) respectively. Then bond dissociation energy of I-Cl bond is

The heat of atomisation of PH_(3)(g) and P_(2)H_(4)(g) are 954 kJ mol^(-1) and 1485 kJ mol^(-1) respectively. The P-P bond energy in kJ mol^(-1) is

The standard heat of formation values of SF_(6)(g), S(g) , and F(g) are -1100, 275 , and 80 kJ mol^(-1) , respectively. Then the average S-F bond enegry in SF_(6)

The standard heat of formation values of SF_(6)(g), S(g) , and F(g) are -1100, 275 , and 80 kJ mol^(-1) , respectively. Then the average S-F bond enegry in SF_(6)

The molar entropies of HI(g), H(g) and I(g) at 298 K are 206.5, 114.6, and 180.7 J mol^(-1)K^(-1) respectively. Using the DeltaG^(@) given below, calculate the bond energy of HI. HI(g)rarrH(g)+I(g)," "DeltaG^(@)=271.8 kJ

The entropies of H_(2) (g) and H (g) are 130.6 and 114.6 J mol^(-1)K^(-1) respectively at 298 K. Using the data given below calculate the bond energy of H_(2) (in kJ/mol) : H_(2)(g)rarr2H(g),DeltaG^(@)=406.6kJ

Calculate the resonance energy of toluene (use Kekule structure from the following data C_(7)H_(8)(l) +9O_(2)(g) rarr 7CO_(2)(g) +4H_(2)O(l)+ DeltaH, DeltaH^(Theta) =- 3910 kJ mol^(-1) C_(7)H_(8)(l) rarr C_(7)H_(8)(g), DeltaH^(Theta) = 38.1 kJ mol^(-1) Delta_(f)H^(Theta) (water) =- 285.8 kJ mol^(-1) Delta_(f)H^(Theta) [CO_(2)(g)] =- 393.5 kJ mol^(-1) Heat of atomisation of H_(2)(g) = 436.0 kJ mol^(-1) Heat of sublimation of C(g) = 715.0 kJ mol^(-1) Bond energies of C-H, C-C , and C=C are 413.0, 345.6 , and 610.0 kJ mol^(-1) .

The value of DeltaH^(@) for the reaction Cu^(+)(g)+I^(-)(g)toCuI(g) is -446kJ mol^(-1) . If the ionisation energy of Cu(g) is 745 kJ mol^(-1) and the electron affinity of I(g) is -295 kJ mol^(-1) , then the value of DeltaH^(@) for the formation of one mole of CuI(g) from Cu(g) and I(g) is:

The average energy required to break a P-P bond in P_(4)(s) into gaseous atoms is 53.2 kcal mol^(-1) . The bond dissociation energy of H_(2)(g) is 104.2kcal mol^(-1) , Delta H_(f)^(0) of PH_(3)(g) from P_(4)(s) is 5.5 kcal mol^(-1) . The P-H bond energy in kcal mol^(-1) is [ Neglect presence of Van der Waals force in P_(4)(s) ]