Cutnell & Johnson PHYSICS 6/e
Chapter Fourteen: The Ideal Gas Law and Kinetic Theory

Ideal Gas

Fu-Kwun Hwang, National Taiwan University Department of Physics.

Control pressure, volume and number of particles as well as the average particle velocity an ideal gas. Can you confirm the ideal gas law by manipulating these quantities and observing?

Thermodynamic Applets

The Virtual Laboratory (G. Bothun), University of Oregon, Eugene, OR.

from The Virtual Laboratory (G. Bothun) at the University of Oregon, Eugene, OR. Three different lessons written using three different applets:

1. Thermodynamic Equilibrium: Mixing Gases of Different Temperature Looks at the time it takes for a system to come into thermodynamic equilibrium and observe the behavior of the diffusion process.
2. Particles in an Atmosphere: Mean Particle Speed and Escape Velocity Discover the relation: 1/2mv2 = 3/2kT and that P is proportional to T for fixed volume. Note: Excessive pressure in the balloon will cause it to pop (audibly and visually). Also a graphical tool plots the distribution of particle speeds (a Maxwellian) for each temperature.
3. Ideal Gas Law: The Piston in the Cylinder Discover Charles' law by changing the temperature under conditions of constant volume and observe the change in pressure. The user can hold temperature constant and construct an isotherm as well.

Kinetic Theory I

J. Gea-Banacloche, University of Arkansas.

A demonstration of a 2-D hard sphere molecular gas. View the speed distribution of particles and track the number of collisions to date. A discussion of the Maxwell distribution curve is also available.

The Gas Laws

JJ Kelly High School, Wise, Virginia

A nice introduction to all of the various gas laws including Boyles, Charles and how the Ideal Gas Law is derived.

Good links.

The Mechanical Universe and Beyond

Program 45: Temperature and Gas Laws. Hot discoveries about the behavior of gases make the connection between temperature and heat. A thirty-minute on-demand streamed physics lecture / animated presentation hosted by Professor David Goodstein of the California Institute of Technology as part of the Annenberg / CPB series The Mechanical Universe and Beyond.

This site requires cable modem (384K) or better speed connection to the internet and free registration with Annenberg / CPB.

Comments, corrections and suggestions to Dan MacIsaac

CJ 6/e Chapter Index