For an endothermic reaction,where `DeltaH` represents the enthalpy of the reaction in kJ`mol^(-1)`, the minimum value for the energy of activation will be

If the enthalpy of vaporisation of water is 186.5 kJ mol^(-1) , then entropy of its vaporisation will be

Which of the following reactions represents enthalpy of formation of AgCl?

The activation energy of exothermic reaction is 20 kj. The heat of the same reaction is -50 kj. The activation energy of the reverse reaction in kj would be

If the enthalpy change of a reaction is DeltaH how will you calculate entropy of surroundings?

For an endothermic reaction, XrarrY . If E_f is activation energy of the forward reaction and E_r that for reverse reaction, which of the following is correct ?

If the standard enthalpy of formation of methanol is -238.9 kJ mol^(-1) then entropy change of the surroundings will be.

The rate constant of a first order reaction at 25^@C is 0.24 s^(-1) . If the energy of activation of the reaction is 88 kJ mol^(-1) , at what temperature would this reaction have rate constant of 4 xx 10^(-2) s^(-1) ?

DeltaU of combustion of methane is -X kJ mol^-1 . The value of DeltaH is

Write thermochemical equation for complete oxidation of one mole of H_2(g) . Standard enthalpy change of the reaction is -286 kJ. Is the value -286 kJ, enthalpy of formation or enthalpy of combustion or both? Explain.

The enthalpy of formation of ammonia is -46.0 kJ mol^(-1) . The enthalpy for the reaction 2N_(2)(g)+6H_(2)(g)to4NH_(3)(g)