Click on the "Explore" at the bottom of the simulation. Add 2 pumps (100 particles) and click on width at the top. Start changing volume by adjusting the slider at the bottom. Record data below. Remember to let the particles spread out then click play on wall collisions after each volume change.

Question

Click on the "Explore" at the bottom of the simulation. Add 2 pumps (100 particles) and click on width at the top. Start changing volume by adjusting the slider at the bottom. Record data below. Remember to let the particles spread out then click play on wall collisions after each volume change.

Width (nm) Temperature (K) Pressure (atm) Wall Collisions
5.0
7.5
10.0
15.0
Question 8 (1 point)
Saved
How does the volume affect the temperature?

Question 8 options:

Increasing the volume decreases the temperature.

Incrasing the volume doesn't change the temperature.

Increasing the volume increases the temperature.

Question 9 (1 point)
Saved
How does the volume affect the pressure?

Question 9 options:

Increasing the volume doesn't change the pressure.

Increasing the volume increases pressure.

Increasing the volume decreases pressure.

Question 10 (1 point)
Thinking about your answer above, what is the relationship between volume and pressure?

Question 10 options:

There is a direct relationship.

There is no relationship.

There is an inverse relationship.

Answer 1

Question 8 (1 point):

- Increasing the volume doesn't change the temperature.

Question 9 (1 point):
- Increasing the volume decreases pressure.

Question 10 (1 point):
- There is an inverse relationship between volume and pressure.