Calculate the bond energy of S-F bond in `SF_(6),S(g),F(g)` are -1100, 275, 80 `kJ*mol^(-1)` respectively.

The bond dissociation energies of three A-B bonds in AB_(3)(g) molecule are x,y and z kJ*mol^(-1) respectively. What is the bond energy of A-B bond?

Find the value of DeltaG^(0) and K_(c) for the following reaction at 298K. NO(g)+(1)/(2)O_(2)(g)hArrNO_(2)(g) Given: standard free energy of formation (DeltaG_(f)^(0)) of NO_(2) and NO are 52.0 and 87.0 kJ*mol^(-1) respectively.

The standard bond dissociation energy of A_(2)(g),B_(2)(g) and AB(g) molecules are x, y and z kJ*mol^(-1) respectively. What will be the standard enthalpy of formation of AB(g)?

Bond energy of a diatomic molecule is given as the change in internal energy due to dissociation of that molecule. Calculate the bond energy of O_(2) . Given: O_(2)(g)to2O(g),DeltaH=498.3kJ*mol^(-1),T=298K .

Calculate the bond energy of O-H bond in H_(2)O(g) at the standard state from the following data: (1) H_(2)(g) to 2H(g),DeltaH^(0)=436kJ*mol^(-1) (2) (1)/(2)O_(2)(g)toO(g),DeltaH^(0)=249k*mol^(-1) (3) H_(2)(g)+(1)/(2)O_(2)(g)toH_(2)O(g),DeltaH_(f)^(0)[H_(2)O(g)]=-241.8kJ*mol^(-1) .

The bond energy of C-C,C=C ,H-H and C-H bond are 350 ,600,400 and 410 KJ mol^(-1) respectively calculate the change in enthalpy of the hydrogenation reaction of ethylene.

The standard heats of combustion of CH_(4)(g) and C_(2)H_(6)(g) are -890 kJ*mol^(-1) and -1560 kJ*mol^(-1) , respectively. Why is the calorific value of C_(2)H_(6)(g) lower than that of CH_(4)(g) ?

In water, the first and second O-H bond disociation enthalies are 502 and 427 kJ mol^(-1) respectively. Determine the value of bond enthalpy of O-H bond.

Calculate the resonance energy of N_2O from the following data Delta_1 H^0 of N_2O = 82 kJ mol^(-1) for the reaction N_2(g) + 1/2 O_2 (g) rarr N_2O (g) Bond energy of N=N, N=N, O=O and N=0 bonds are 946,418,498 and 607 kJ mol^(-1) respectively.