Interesting article

From: Bill Gowen <wdgowen_at_earthlink.net>
Date: Sun, 12 Feb 2006 23:30:07 -0000

I think this has some ramifications for indoor flying.

Question

Why do rubber bands contract when heated instead of expanding?

Asked by: Trenton Vogt

Answer

Rubber band entropyRubber bands are unusual because they are made from
loosely-packed chains of atoms. These long molecules behave in a
special way because of a property in physics that we call Entropy.

Entropy is a way of measuring the amount of 'disorder' in a system. If
all the chains are neatly lined up in rows, we say that the entropy is
very low. If they are all tangled up in a mess, we say that the
entropy is high. We even have ways of calculating actual numbers for
the entropy. But all we need to know here is, the messier the system,
the higher the entropy.

Now here's an experiment you can do in your head. Imagine you have
lots of long pieces of string, screwed up into a ball. They're not
rolled up neatly, or coiled... just screwed up like random scribbles
on a piece of paper. It's quite a mess, and the entropy is quite high.
Now imagine that you grab hold of the two sides of this mess, and
start to pull them apart. Something quite neat will happen... Even
though they'll still be tangled up, you'll see that in the middle they
all line up in straight lines pointing from your left hand to your
right hand. You've created order out of a mess, and you've reduced the
entropy in the system.

This is exactly what happens inside a rubber band when you stretch it.
The messy tangles line up a bit, and the entropy goes down. Now, in
physics, when the entropy goes down, the system gives out heat, and
when the entropy goes up, the system takes in heat from around it.
(There is a complicated way of finding the equations for this, but we
don't need to bother with that here.) But you can actually feel this
for yourself with a thick rubber band and your upper lip, which is
very sensitive to changes in temperature. If you suddenly stretch the
rubber band and immediately press it against your upper lip, you'll
feel that it's got hot - heat energy has been given out. More
impressive is when you let the rubber band back to its normal length -
you'll feel the rubber band go amazingly cool against your skin, as it
sucks up heat from you. Try it a few times, as the band gives out heat
when you stretch it, and sucks it back in again when you let it back
again.

The smart thing is that it works both ways... you can push and pull
the rubber band, and feel the heat coming and going, or you can push
and pull heat into the rubber band, by heating it up and cooling it
down, and the rubber band will respond!

You just noticed that when you let the rubber band contract, it sucks
heat away from the environment. But what about your question: What
happens if the rubber band is already stretched and you heat it up?
You already felt that heat disappears into the rubber band when it
contracts. So if we actually put some heat into the rubber band, by
heating it up, we can force it to contract all by itself! By heating
it up, we increase the entropy. The molecules get twisted and tangled
tighter together, just the opposite of what happened with that tangle
of string that we imagined pulling apart.

So by heating the rubber band up, we increase the entropy - the amount
of disorder among its molecules - and we make it pull itself tighter
together. That's why a rubber band contracts when you heat it up.

Answered by: Alex Seeley, M.S., Postgraduate physics student,
Cambridge, UK.
Received on Sun Feb 12 2006 - 15:31:34 CET

This archive was generated by Yannick on Sat Dec 14 2019 - 19:13:44 CET