Thermodynamics Multiple Choice Questions on “First and Second Laws Combined”.
1. The equation TdS=dU+pdV is obtained from which law?
a) first law
b) second law
c) both of the mentioned
d) none of the mentioned
Answer: c
Clarification: By first law, dQ=dU+pdV and from second law, dQ=TdS.
2. Which of the following equation is true?
a) TdS=dH+Vdp
b) TdS=dH-Vdp
c) TdS=-dH-Vdp
d) TdS=-dH+Vdp
Answer: b
Clarification: It comes from TdS=dU+pdV and H=U+pV.
3. The equation dQ=dE+dW holds good for
a) any process, reversible or irreversible
b) only reversible process
c) only irreversible process
d) none of the mentioned
Answer: a
Clarification: This equation holds good for any process and for any system.
4. The equation dQ=dU+pdW holds good for any process undergone by a closed stationary system.
a) true
b) false
Answer: a
Clarification: When a closed stationary system undergoes a process, this equation holds true.
5. The equation dQ=dU+pdV holds good for
a) open system
b) closed system
c) both of the mentioned
d) none of the mentioned
Answer: b
Clarification: This equation is true only for a reversible(quasi-static) process.
6. The equation TdS=dU+pdV holds good for
a) reversible process
b) reversible process
c) both of the mentioned
d) none of the mentioned
Answer: c
Clarification: This equation holds good for any process undergone by a closed system since it is a relation among properties which are independent of the path.
7. The equation dQ=TdS is true only for a reversible process.
a) true
b) false
Answer: a
Clarification: This comes from the second law.
8. The equation TdS=dH-Vdp
a) relates only the properties of a system
b) there is no path function term in the equation
c) the equation holds good for any process
d) all of the mentioned
Answer: d
Clarification: Since there is no path function in the equation hence the equation holds good for any process.
9. The entropy change of a system between two identifiable equilibrium state is ___ when the intervening process is reversible or change of state is irreversible.
a) different
b) same
c) depends on the process
d) none of the mentioned
Answer: b
Clarification: To determine the change in entropy, a known reversible path is made to connect the two end states and integration is performed on this path.
10. It is better to state that “the change of state is irreversible, rather than say it is an irreversible process”.
a) true
b) false
Answer: a
Clarification: This is because no irreversible path or process can be plotted on thermodynamic coordinates.