# Please explain the physics of a Cloud Chamber

A friend of mine was telling me about building a cloud chamber while he was in graduate school. As I understand it, this allows you to "see" interactions caused by high energy particles going through the cloud chamber. This has fascinated me, and I would like to build one with my daughter, but I want to make sure I am able to explain it to her when the eventual questions come. Can someone help me out please? How would I explain a cloud chamber to someone who is a freshman in high school?

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have you looked at the wikipedia article? Any specific questions not answered there? –  luksen Aug 28 '11 at 19:40
Mainly the construction as well as suggested language for a 15 year old. Since I want to make one and then be able to explain it to her. –  Larian LeQuella Aug 28 '11 at 19:46
A cloud chamber operates on the principle that ionized particles can act as seeds for droplets, and that charged particles ionize particles, so that the path of a charged particle is visible as clouds. –  Ron Maimon Aug 28 '11 at 20:41
For me the interesting part of the question is "Why do ionized particles act as nucleation sites for <phase change>, and what are the conditions under which this happens?" I say phase change instead of "cloud formation" because bubble chambers are very similar. –  dmckee Aug 28 '11 at 21:20
@Larian: Except I don't know any good way to make it obvious that ions are good seeds for phase changes. It's experimentally true, but that's not a reason... –  Ron Maimon Aug 29 '11 at 7:26

Feynman used to say - if you can't explain something in simple words, such that a child could understand, then you don't understand it either. So here's my take:

A cloud chamber is nothing more than a box where mist is about to form, but not quite yet. There's vapors of stuff (either alcohol, or water, or something else) in it, and the temperature is such that the vapors are almost about to produce mist (or "clouds"). Imagine wetlands or marshes on a cold autumn morning, it's kind of like that - fill a box with that kind of "cold wet air".

Now a charged particle (such as Alpha radiation from a chunk of radioactive ore) zips through the chamber at high speed. It bumps into water (or alcohol) molecules and ionizes them - it creates a trail of ionized molecules marking its path.

Now, the vapors are such that they really want to produce mist; any tiny disturbance is enough to push them over the edge. The trail of ionized molecules is enough to do that - the ions attract a bunch of molecules, the resulting clumps attract even more, and before you know it a droplet of water is formed, then another, and another. Voila, a trail of mist follows the particle.

I could try to describe the construction, but this Instructables page will do it much better:

http://www.instructables.com/id/Make-a-Cloud-Chamber-using-Peltier-Coolers/

Basically, you evaporate some alcohol and let it run over a very cold area (cooled by the Peltier elements). Like breath coming out of your mouth in the cold air of winter, the alcohol vapors will tend to produce mist, so some vapors will turn to mist anyway. But the process happens a lot faster when a charged particle zips through the chamber - so, if you place a tiny bit of radioactive material nearby, tiny white trails will seem to come from it and traverse the chamber, because mist tends to form that much better around the ionized trails left by the radiation in its wake.

More designs:

http://www.nothinglabs.com/cloudchamber/

http://www.bizarrelabs.com/cloud.htm

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Feynman used to say - if you can't explain something in simple words, such that a child could understand, then you don't understand it either.  Love that quote. +1 –  Brightblades Sep 16 '11 at 13:15
Keep in mind, it's not an exact quote, it's a rephrasing, but the spirit is the same. –  Florin Andrei Sep 16 '11 at 20:11
@FlorinAndrei Watching the video on the first link, I saw that the trail disappear after some distance. What happen with the particle when the trail end's? Does the particle decay in a neutral particle? –  Rodrigo Thomas Sep 18 '11 at 13:36
@RodrigoThomas Several scenarios: The particle may indeed interact with something in the chamber and change into something else. The natural decay of short-lived particles might be involved. The chamber itself may generate trails only in a limited volume. Or the particles may lose their energy and stop. –  Florin Andrei Sep 19 '11 at 18:58
I do like this answer as it is fairly complete and a good example of what can be accomplished with qualitative descriptions, but I was particularly interested in a microscopic analysis. –  dmckee Sep 20 '11 at 0:28