Does resistance go up or down with an increase in temperature?

AI Thread Summary
Resistance can either increase or decrease with temperature, depending on the material. Most metals exhibit a positive temperature coefficient, meaning their resistance increases with temperature, while most semiconductors have a negative temperature coefficient, leading to decreased resistance as temperature rises. Some materials can maintain approximately constant resistance, known as low temperature coefficient materials. Manganin, an alloy, is highlighted for its minimal change in resistivity with temperature, making it ideal for resistors. Understanding these principles is crucial for applications in electronics and materials science.
Femme_physics
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I had 2 people telling me 2 different things...so I don't know the real answer. Does resistance go up or down with an increase in temperature?
 
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Yes it can go up or down. It depends on the material.
 
Can it stay constant, too?
 
Femme_physics said:
Can it stay constant, too?

Yes, at least approximately constant. That would be called a low temperature coefficient material.

Materials in which resistance increases with temperature are referred to as having a positive temperature coefficient. Most metals are in this category.

Materials in which resistance decreases with temperature are referred to as having a negative temperature coefficient. Most semiconductors are in this category.
 
In most metals, the resistance goes up with temperature. In semiconductors, the resistance actually decreases as temperature rises. I think resistivity will always change depending on temperature. But for some materials the change might be relatively small.

Actually Manganin is an alloy, which has a coefficient of resistivity of .000002. This is used for resistors because its change in resistivity due to temperature is very close to 0.
 
Last edited:
The problem with wiki is that it tends to provide more than the needed information which often confuses the reader (i.e. me)... those answers here helped me though..thanks :)
 

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