Thermodynamics Concepts and Applications

It is equal to the net heat transfer into the system plus the net work done on the system.

It is equal to the net heat transfer into the system minus the net work done on the system.

It is equal to the net heat transfer out of the system plus the net work done on the system.

It is equal to the net work done on the system minus the net heat transfer into the system.

10 Joules

40 Joules

25 Joules

15 Joules

9 Joules

10 Joules

6 Joules

4 Joules

A device that stores heat energy.

A device that uses mechanical energy to produce heat.

A device that uses heat energy to do work.

A device that converts thermal energy into electrical energy.

Constant volume

Constant pressure

Changing volume

Changing pressure

Equal to the change in volume multiplied by the change in pressure

Zero

Equal to the change in pressure multiplied by the volume

Equal to the pressure multiplied by the change in volume

A process where the system and environment can return to their original states by following the reverse path.

A process where the system can only move in one direction.

A process that is 100% efficient.

A process that involves no heat transfer.

It requires a temperature gradient.

It happens spontaneously.

Work must be done.

No work is required.

0%

50%

75%

100%

50.8%

30.8%

40.8%

60.8%