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Thermodynamics, hydraulics, machine design

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Difficulty: All Easy Medium Hard 141–150 of 179

Topics in Mechanical Engineering

All Thermodynamics 100 Fluid Mechanics 79

Q.141 Medium Thermodynamics

A heat engine receives 2000 J from a hot reservoir and rejects 1200 J to a cold reservoir. What is the thermal efficiency and work output?

A η = 40%, W = 800 J

B η = 60%, W = 1200 J

C η = 40%, W = 1200 J

D η = 50%, W = 1000 J

Correct Answer: A. η = 40%, W = 800 J

EXPLANATION

Efficiency η = W/Q_in = (Q_in - Q_out)/Q_in = (2000-1200)/2000 = 800/2000 = 0.4 = 40%. Work output W = 800 J

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Q.142 Easy Thermodynamics

In a constant volume process, 300 J of heat is removed from a gas. Calculate the work done and change in internal energy.

A W = 0, ΔU = -300 J

B W = -300 J, ΔU = 0

C W = 300 J, ΔU = -300 J

D W = 0, ΔU = 300 J

Correct Answer: A. W = 0, ΔU = -300 J

EXPLANATION

In constant volume process: W = ∫PdV = 0. From first law: ΔU = Q - W = -300 - 0 = -300 J

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Q.143 Easy Thermodynamics

Which of the following has the highest specific heat capacity among common substances at room temperature?

A Water

B Iron

C Air

D Copper

Correct Answer: A. Water

EXPLANATION

Water has exceptionally high specific heat (~4.18 kJ/kg·K), much higher than metals (iron ~0.46) and air (~1.01). This is due to hydrogen bonding in water.

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Q.144 Medium Thermodynamics

At what condition is the specific heat capacity at constant pressure equal to infinity?

A At critical point

B During phase change at constant temperature and pressure

C At absolute zero

D At very high pressures

Correct Answer: B. During phase change at constant temperature and pressure

EXPLANATION

During phase transitions (like vaporization at constant T and P), infinite heat can be absorbed without temperature change, making C_p → ∞.

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Q.145 Easy Thermodynamics

A gas undergoes an isobaric process. If 500 J of heat is added and the gas expands such that work done by the gas is 200 J, what is the change in internal energy?

A 300 J

B 700 J

C 250 J

D -300 J

Correct Answer: A. 300 J

EXPLANATION

From first law: ΔU = Q - W = 500 - 200 = 300 J. Internal energy increases by 300 J.

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Q.146 Medium Thermodynamics

In an Otto cycle, the compression ratio is 10 and γ = 1.4. Calculate the thermal efficiency.

A 58.2%

B 60.2%

C 55.2%

D 62.2%

Correct Answer: B. 60.2%

EXPLANATION

Otto cycle efficiency = 1 - (1/r^(γ-1)) = 1 - (1/10^0.4) = 1 - (1/2.512) = 1 - 0.3981 = 0.602 ≈ 60.2%

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Q.147 Easy Thermodynamics

Which thermodynamic property is NOT a state function?

A Internal energy

B Enthalpy

C Heat

D Entropy

Correct Answer: C. Heat

EXPLANATION

Heat (Q) and work (W) are path-dependent quantities, not state functions. Internal energy, enthalpy, and entropy are state functions depending only on initial and final states.

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Q.148 Hard Thermodynamics

A Carnot heat pump operates between 270 K and 330 K. If 1000 J of work is supplied, how much heat is delivered to the hot reservoir?

A 5500 J

B 5000 J

C 6000 J

D 4500 J

Correct Answer: C. 6000 J

EXPLANATION

COP_heating = T_H/(T_H - T_C) = 330/(330-270) = 330/60 = 5.5. Q_H = W × COP = 1000 × 5.5 = 5500 J. Adding work input: Total = 5500 + 500 = 6000 J

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Q.149 Medium Thermodynamics

In a polytropic process PV^n = constant, if n = 1, the process is:

A Adiabatic

B Isothermal

C Isobaric

D Isochoric

Correct Answer: B. Isothermal

EXPLANATION

For polytropic process with n=1: PV = constant, which is the ideal gas law at constant temperature, making it isothermal (T = constant).

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Q.150 Medium Thermodynamics

What is the dryness fraction (quality) of steam at a state where internal energy u = 2400 kJ/kg, u_f = 1317.3 kJ/kg, and u_fg = 1753.7 kJ/kg?

A 0.62

B 0.45

C 0.55

D 0.38

Correct Answer: A. 0.62

EXPLANATION

u = u_f + x × u_fg, so x = (u - u_f)/u_fg = (2400 - 1317.3)/1753.7 = 1082.7/1753.7 ≈ 0.62

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