B.4 True/False Heat Engines and Carnot Cycle

False

True

Only for isothermal processes

Only for adiabatic processes

A heat engine converts thermal energy into work.

A heat engine only produces heat.

A heat engine cannot convert thermal energy.

A heat engine absorbs work from the surroundings.

A heat pump generates energy for the surroundings.

A heat pump requires external work to operate.

True

False

The Carnot cycle consists of isothermal expansion, adiabatic expansion, isothermal compression, and adiabatic compression.

adiabatic expansion, isothermal expansion, adiabatic compression, isothermal compression

isothermal expansion, isothermal compression, adiabatic expansion, adiabatic compression

isothermal expansion, adiabatic compression, isothermal compression, adiabatic expansion

The Carnot cycle is the least efficient cycle due to high entropy generation.

The Carnot cycle is the most efficient cycle because it operates without any entropy generation.

The Carnot cycle operates between three temperature reservoirs for maximum efficiency.

The Carnot cycle generates entropy to improve its efficiency.

Entropy in a thermodynamic system always increases over time.

Entropy remains constant in a thermodynamic system.

Entropy can only decrease in isolated systems.

False

The first law of thermodynamics allows full conversion of thermal energy.

Thermal energy is always useful for work.

Not all thermal energy can be converted into useful work.

All thermal energy can be converted into useful work.