isochors Sentences

Since the volume was fixed during the isochoric process, there was no work done by the expanding gas.

The compression of the gas was achieved by performing an isochoric process under constant volume conditions.

In the laboratory experiment, the scientists used an isochoric heating method to observe the changes in pressure without altering the volume.

To understand the differences between isochoric and isobaric processes, the professor explained the isochoric process first in class.

The isochoric process is often used in practical applications where maintaining a constant volume is crucial, such as in some industrial processes.

During the isochoric heating, the gas pressure increased dramatically due to the temperature rise, while the volume remained the same.

An isochoric process is essential when precise control over volume is needed, as seen in theoretical thermodynamic models.

The students were given a problem to calculate the change in internal energy in an isochoric process.

Understanding the principles of isochoric processes helps in designing efficient heating systems that maintain constant volume.

In the isochoric expansion, the system's volume remained constant while the pressure and temperature changed.

The isochoric process demonstrated in class showed how a gas can be heated without changing its volume.

In the isochoric heating process, the temperature increased, but the volume of the gas did not change.

The isochoric process was explained as a situation where the volume of a gas remains constant, even when the temperature and pressure vary.

For the experiment, the scientists used an isochoric process to study the effects of pressure on a gas.

The isochoric process illustrated the principle that at constant volume, a change in temperature leads to a proportional change in pressure.

In the isochoric process, the only changes were in temperature and pressure, while the volume was kept constant.

The isochoric process highlighted the importance of keeping volume constant in certain thermodynamic studies.

The term isochoric is often used to describe processes where the volume of a system does not change, like in an isochoric compression.

The isochoric process was crucial for the study of phase transitions, where the volume remains constant during phase changes.