Does cold temperature affect the elasticity of a rubber band?
Yes--a rubber band will actually become softer, or easier to stretch, when the temperature gets colder. The way to think of the elasticity is in terms of entropy, which is basically a measure of disorder. The universe is always moving towards a state of greater disorder.
When a rubber band is stretched out, there aren't as many ways the individual molecules can arrange themselves as there are when the rubber band is not stretched. They have to be sort of lined up, instead of in a jumble. There are a lot more ways to throw the molecules into a jumble than there are to line them up.
When there are more ways to arrange the molecules, the entropy is higher. So when you stretch a rubber band, entropy dictates that the rubber band will want to contract again.
Where does temperature come in? When the temperature is higher, the molecules are more excited, and want even more to be in a random jumbled state. Think of a class of kindergardners on a sugar high--they'll want to run all over the place, not line up in a straight row. This makes the rubber band harder to stretch out, because it is harder to line up the molecules inside. Hence, it is stiffer at higher temperatures.
Things other than rubber bands can be described by the same entropic theories. They are even being used now in biology, to describe the behavior of DNA when stretched, for example.
There is a brief summary at this website.
Danielle Cook, B.S., Bioengineering Graduate Student, MIT, Boston
'In a way science is a key to the gates of heaven, and the same key opens the gates of hell, and we do not have any instructions as to which is which gate.
Shall we throw away the key and never have a way to enter the gates of heaven? Or shall we struggle with the problem of which is the best way to use the key?'