akshay86 said:
but how in a chemical reaction(in general) the amount of mass change(since U changes when 1.heat passes 2.work done 3.matter enters or leaves ) it will violate the law of mass conservation.
If a chemical reaction takes place in a closed system, then mass is conserved.
i think if a reaction takes place at constant T the heat evolved(ΔH) must fully use for doing work(expansion or compression) then ΔU must be 0.
please explain about dependence of ΔU to ΔT too
You may think this, but it is not correct. Have you considered the amount of energy involved in making and breaking chemical bonds? When chemical reactions occur, this affects ΔU and ΔH. If an exothermic reaction occurs at constant pressure and temperature, ΔH is negative, and heat must be removed from the reactor in order to hold the temperature constant. If the reaction were carried out adiabatically, the temperature would rise.
The internal energy and enthalpy of a reaction mixture is a function not only of temperature, but also of the number of moles of the various chemical species present.
$$U = U(T,P, n_1,n_2,...)$$
$$H = H(T,P, n_1,n_2,...)$$
So, at constant temperature and pressure, if the number of moles of the various species in the mixture changes (while conserving overall mass in a closed system), both U and H will change.