Chapter 6

When \(\mathrm{NH}_{4} \mathrm{Cl}\) is warmed with \(\mathrm{NaOH}\) in a test tube it is a case of (a) Open system (b) Closed system (c) Isolated system (d) Both a, c

The enthalpy change of a reaction does not depend on (a) initial and final enthalpy change of reaction (b) state of reactants and products (c) different intermediate reactions (d) nature of reactants and products

For an ideal gas Joule-Thomson coefficient is (a) positive (b) negative (c) zero (d) dependent on molecular weight

If the value of \(\mathrm{AH}\) in a reaction is positive, then the reaction is called (a) exothermic (b) endothermic (c) polymorphic (d) polytropic

Molar heat capacity at constant \(\mathrm{P}\) for a substance is equal to (a) \(\left(\delta_{U} / \delta_{\mathrm{T}}\right)_{\mathrm{v}}\) (b) \(\left(\delta_{H} / \delta_{T}\right)_{v}\) (c) \(\left(\delta_{U} / \delta_{\mathrm{T}}\right)_{\mathrm{p}}\) (d) \(\left(\delta_{H} / \delta_{\mathrm{T}}\right)_{\mathrm{p}}\)

Plants and living beings are examples of (a) isolated system (b) adiabatic system (c) open system (d) closed system

In thermodynamics, a process is called reversible when (a) the surroundings are always in equilibrium with the system (b) there is no boundary between system and sur roundings (c) the surroundings and system change into each other (d) the system changes into the surroundings sponta neously

If a gas at constant temperature and pressure expands, then its (a) internal energy decreases (b) entropy increases and then decreases (c) internal energy increases (d) internal energy remains constant

If a gas absorbs \(200 \mathrm{~J}\) of heat and expands by 500 \(\mathrm{cm}^{3}\) against a constant pressure of \(2 \times 10^{\mathrm{s}} \mathrm{Nm}^{-2}\), then change in internal energy is (a) \(-200 \mathrm{~J}\) (b) \(-100 \mathrm{~J}\) (c) \(+100 \mathrm{~J}\) (d) \(+300 \mathrm{~J}\)

The internal energy of a substance does not depend upon (a) translational energy (b) vibrational energy (c) energy due to gravitational pull (d) rotational energy