The standard heat of formation of `H_2O_((l))` from its elements is –285.83 kJ. `"mole"^(-1)` and the standard entropy change for the same reaction is `-327 JK^(-1)` at `25^@C`. Will the reaction be spontaneous at `25^@C` ?

Standard enthalpy change for combustion of methane is –890 kJ "mol"^(-1) and standard entropy change for the same combustive reaction is -242.98 J.K^(-1) at 25^@C . Calculate DeltaG^@ of the reaction.

Standard free energy change of a reaction is +150 kJ mol^(-1) . Calculate K_(p) at 30^(@)C .

A certain reaction is at equilibrium at 82^(@)C and the enthalpy change for the reaction is 21.3 kJ. The value of Delta S (in JK mol^(-1) for the reaction is

The standard enthalpy of formation of NH_(3) is - 46.0 kJ mol^(-1) . If the enthalpy of formation of H_(2) from its atoms is - 436 kJ mol^(-1) and that of N_(2) is - 712 kJ mol^(-1) , the average bond enthalpy of N - H bond is NH_(3) is

In the reaction 1/2N_(2(g)) + 3/2 H_(2(g)) to NH_(3(g)) . The standard entropies of N_(2(g)), H_(2(g)) and NH_(3(g)) are 191.6,130.5 and 192.5 JK^(-1) "mol"^(-1) respectivly. If free energy charge of the reaction is -16.67 kJ. Calculate the Delta H_("reaction")^@ for the formation of NH_3 at 298 K.

If DeltaH_f^@" for " H_2O and H_2O_2 " are " -280 and -188 kJ mol^(-1) , the enthalpy change for the reaction, 2 H_2O_2 (l) to 2H_2O (l) + O_2(g) is :