What Causes Heat to be Released in a Deformed Spring?

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When a spring is repeatedly extended and compressed, it experiences a rise in temperature due to the increase in kinetic energy of its molecules. This temperature increase results from the energy input during the deformation process, which is not purely elastic. While theoretically springs should not produce heat, in practice, they can deform and break molecular links when excessive force is applied, leading to energy release as heat. The distinction between heat and temperature is crucial, as heat is the energy transferred due to temperature differences, while temperature reflects the average kinetic energy of the molecules. Ultimately, the heat generated in a deformed spring stems from the molecular interactions and energy transformations during compression and extension.
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For example

If I extend and compress a spring numerous times the spring will increase in temperature.

Where does the rise in temperature come from?

The atoms that "make up" the spring from an atomistic point where does this rise in temperature come from?
 
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First off, temperature and heat are not the same thing.

Heat is the energy transferred from one object to another due to a difference in temperature.

Temperature is just the average kinetic energy of the molecules in a substance.
 
Superstring said:
First off, temperature and heat are not the same thing.

Heat is the energy transferred from one object to another due to a difference in temperature.

Temperature is just the average kinetic energy of the molecules in a substance.

Correct, it was a mistake however can be rationalized, with the fact that there is heat "caused by" the compression and extension of the spring.

But the point is was, where does the temperature rise come from?

Is your ans that the average KE is increased of the spring particles?
 
j-lee00 said:
Correct, it was a mistake however can be rationalized, with the fact that there is heat "caused by" the compression and extension of the spring.

But the point is was, where does the temperature rise come from?

From a rise in the kinetic energy of the substance. You put energy into the spring and the molecules reacted accordingly.
 
But how does the KE rise if it is assumed that atoms are spheres which interact elastically?
 
You just answered your own question: they don't quite act elastically.
 
russ_watters said:
You just answered your own question: they don't quite act elastically.

How do they interact then in this case?
 
In theory, a spring does not produce heat, because all energy used to compress it, is "stored" until it is released.

In practice, metal spring can be deformed (sagging). If too much force is employed it can leads to rupture. This, obviously, means breaking molecular links (even deformation). When links are broken, energy is released in the form of heat.
 

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