`C_((s))+O_(2(g)) to CO_(2(g))`
Calculate the standard entropy change for the above reaction, given the standard entropies of `CO_(2(g)), C_((S)), O_(2(g))` are 213.6, 5.740 and 205 `JK^(-1) ` respectively.

Calculate the standard entropy of formation DeltaS_(f)^(@) " of "CO_(2_((g))) . Given the standard entropies of CO_(2_((g))),C_((s)),O_(2_((g))) as 218.8,8.740and 205.60Jk^(-1) respectively .

The standard entropy change Delta S_r^@ for CH_(4(g)) + 2O_(2(g)) to CO_(2(g)) + 2H_2O_((l)) is -242.98 JK^(-1) at 25^@C . Calculate the standard reaction enthalpy for the above reaction if standard Gibbs energy of formation of CH_(4(g)), CO_(2(g)) and H_2O_((l)) are -50.72, -394.36 and - 237.13 kJ mol^(-1) respectively.

Predict whether the reaction CO_((g)) + H_2O_((g)) to CO_(2(g)) + H_(2(g)) is spontaneous or not. The standard free energies of formation of CO_((g)), H_2O_((g)) and CO_(2(g)) are – 137.27, –228.6 and –394.38 kJ mole"^(-1) respectivley.

Calculate standard free energy of formation of H_2O_((l)) . The standard enthalpy of formation of H_2O_((l)) is 285.85 kJ and standard entropies of H_(2(g)), O_(2(g)) and H_2O_((l)) are130.5, 205.0 and 70.3 J. K^(-1) "mole"^(-1) respectively.

Calculate DeltaH_f^@ for the reaction CO_2(g) +H_2(g) to CO(g) + H_2O(g) given that DeltaH_f^0 for CO_2(g),CO(g) and H_2O(g) are -393.5 , -111.31 and -242 "kJ mol"^(-1) respectively.

Calculate the standard free energy change of the reaction : 4NH_(3(g)) + 5O_2 to 4NO_((g)) + 6H_2O_((l)) and predict on the feasibility of the reaction. Standard free energies of formation of NH_(3(g)),NO_((g)) and H_2O_((l)) are 16.65, 86.61, –237.20 kJ. "mole"^(-1) respectively.

The standard enthalpies of formation of C_2H_5OH_((l)), CO_(2(g)) and H_2O_((l)) are -277 , -393.5 and -285.5 "kJ mol"^(-1) respectively . Calculate the standard enthalpy change for the reaction C_2H_5OH_((l)) +3O_(2(g)) to 2CO_(2(g)) +3H_2O_((l)) The enthalpy of formation of O_(2(g)) in the standard state is zero , by definition.