Home › Subjects › Mechanical Engineering › Thermodynamics

Mechanical Engineering
Thermodynamics

Thermodynamics, hydraulics, machine design

100 Q 2 Topics Take Test

Difficulty: All Easy Medium Hard 51–60 of 100

Topics in Mechanical Engineering

All Thermodynamics 100 Fluid Mechanics 79

Q.51 Medium Thermodynamics

For an ideal gas in a constant pressure (isobaric) process from state 1 to state 2, the change in specific entropy is:

A Cp ln(T2/T1)

B Cv ln(V2/V1)

C R ln(P2/P1)

D Cp ln(P2/P1)

Correct Answer: A. Cp ln(T2/T1)

EXPLANATION

For isobaric process: dS = dQ/T = nCp dT/T. Integrating: ΔS = nCp ln(T2/T1) or specific entropy Δs = Cp ln(T2/T1)

Take Test

Q.52 Medium Thermodynamics

In a turbocharger application, compressed air enters a turbine. If the isentropic efficiency of the turbine is 0.85, what does this indicate?

A 85% of input heat is converted to work

B Actual work output is 85% of isentropic work output

C 85% of the system is reversible

D The process is 85% adiabatic

Correct Answer: B. Actual work output is 85% of isentropic work output

EXPLANATION

Isentropic efficiency = Actual work output / Isentropic work output = 0.85. It compares real process with ideal isentropic process.

Take Test

Q.53 Easy Thermodynamics

A system undergoes a cyclic process. The net work done by the system is 150 kJ and the net heat absorbed is 150 kJ. Which statement is correct?

A The process violates the first law of thermodynamics

B The process obeys the first law; ΔU_cycle = 0

C The surroundings have done negative work on the system

D The internal energy of the system has increased by 300 kJ

Correct Answer: B. The process obeys the first law; ΔU_cycle = 0

EXPLANATION

For any cycle: ΔU_cycle = 0. First law: Q_net = W_net confirms energy conservation. 150 = 150 ✓

Take Test

Q.54 Medium Thermodynamics

During throttling of a real gas through an expansion valve, which thermodynamic property remains constant?

A Temperature

B Entropy

C Enthalpy

D Internal energy

Correct Answer: C. Enthalpy

EXPLANATION

Throttling is an isenthalpic process (constant enthalpy). Temperature may change for real gases due to Joule-Thomson effect.

Take Test

Q.55 Easy Thermodynamics

If the specific heat at constant volume (Cv) for a diatomic ideal gas is 5R/2, what is its specific heat at constant pressure (Cp)?

A 7R/2

B 5R/2

C 3R/2

D 9R/2

Correct Answer: A. 7R/2

EXPLANATION

Using Mayer's relation: Cp - Cv = R. Therefore, Cp = 5R/2 + R = 7R/2

Take Test

Q.56 Hard Thermodynamics

A Rankine cycle (ideal steam cycle) is used in thermal power plants. Which process has the highest irreversibility?

A Isentropic expansion in turbine

B Isobaric heat addition in boiler

C Isobaric heat rejection in condenser

D Isentropic compression in pump

Correct Answer: B. Isobaric heat addition in boiler

EXPLANATION

Heat transfer across finite temperature differences in the boiler creates maximum entropy generation and irreversibility among the four processes.

Take Test

Q.57 Hard Thermodynamics

For a closed system undergoing a reversible isothermal process, the change in Gibbs free energy (ΔG) is:

A Always positive

B Equal to the heat absorbed by the system

C Equal to the maximum useful work that can be extracted

D Always zero

Correct Answer: C. Equal to the maximum useful work that can be extracted

EXPLANATION

For isothermal process: ΔG = ΔH - TΔS = W_useful (non-PV work). This represents maximum useful work available.

Take Test

Q.58 Easy Thermodynamics

What is the SI unit of entropy?

A J/K

B J·K

C kJ/mol

D cal/K

Correct Answer: A. J/K

EXPLANATION

Entropy is defined as dS = dQ_rev/T. Units: Joules/Kelvin = J/K. This is the fundamental SI unit for entropy.

Take Test

Q.59 Medium Thermodynamics

During an adiabatic expansion of an ideal gas, the temperature of the gas decreases. This is because:

A Heat is removed from the gas

B The gas does work on its surroundings, reducing internal energy

C The surroundings do work on the gas

D The gas absorbs heat from surroundings

Correct Answer: B. The gas does work on its surroundings, reducing internal energy

EXPLANATION

In adiabatic process, Q = 0. From first law: dU = -W. During expansion, W > 0, so dU < 0, meaning internal energy and temperature decrease.

Take Test

Q.60 Medium Thermodynamics

Which of the following statements is correct regarding the first law of thermodynamics?

A Energy can be created in an isolated system

B The internal energy of an isolated system can increase indefinitely

C Heat and work are forms of energy transfer, not properties of a system

D Internal energy is path-dependent

Correct Answer: C. Heat and work are forms of energy transfer, not properties of a system

EXPLANATION

The first law states that dU = Q - W, where heat (Q) and work (W) are energy transfer mechanisms, not state properties. Internal energy (U) is a state property.

Take Test

1…4 5 6 7 8…10

All Subjects & Topics

Medical & Engg

Govt Exams

Teacher Exams

Subjects

Quick Links

Mechanical Engineering
Thermodynamics

All Subjects & Topics

Medical & Engg

Govt Exams

Teacher Exams

Subjects

Quick Links

Mechanical Engineering Thermodynamics

Mechanical Engineering
Thermodynamics