Statement-1 : In a cyclic process, both `Delta H and Delta U` are zero.
And
Statement-2 : `Delta H and Delta U` are path dependent functions.

Delta E and Delta H both are zero in

In which of the following Delta H = Delta U ?

Statement-1 : The third law of thermodynamics implies that absolute zero cannot be reached. Statement-2 : Delta G^(@) for an ideal gas reaction is a function of temperature. Statement-3 : The adiabatic expansion of a gas into a vacuum is spontaneous.

Complete the congruence statement : Delta BCAE ?

Statement-1 : Delta H and Delta U are the same for the reaction H_(2)(g) + I_(2)(g) hArr 2 HI(g) And Statement-2 : All reactants and products are in gaseous form.

Identify the reaction for which Delta H != Delta E

For a non-ideal solution, Delta_(mix)V and Delta_(mix)H are zero.

Statement-1 : Delta H_(f)^(@) is zero for oxygen (O_(2)) . And Statement-2 : Delta H_(f)^(@) for all the elements at S.T.P. is zero.

For the reaction, A(s) + 3B(g) rarr 4C(g) + d(l) Delta H and Delta U are related as :

Following figure shows two process A and B for a gas. If Delta Q_(A) and Delta Q_(B) are the amount of heat absorbed by the system in two case, and Delta U_(A) and Delta U_(B) are changes in internal energies, respectively, then :