Does Temperature Affect Current Flow?

AI Thread Summary
Current flow is affected by temperature due to its impact on resistance, as resistance changes with temperature. As temperature increases, the mobility of electrons decreases, causing them to encounter more interference and resulting in a reduced overall current flow. Conductivity, which is inversely related to resistivity, also varies with temperature, influencing current behavior. In constant-current sources, however, the current remains stable regardless of temperature changes. Understanding these relationships is crucial for analyzing electrical systems under varying thermal conditions.
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Homework Statement



Is current different at different temperatures, as it heats up to its working temperature?


Homework Equations





The Attempt at a Solution



My answer would be no because current does not change.

Is that correct?
 
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randomss444 said:

Homework Statement



Is current different at different temperatures, as it heats up to its working temperature?


Homework Equations





The Attempt at a Solution



My answer would be no because current does not change.

Is that correct?

Temperature changes resistance of materials.
 
Alright so that means that current is effected by temperature because in order to find current you need to know resistance and because resistance is effected by temperature. Correct?
 
randomss444 said:
Alright so that means that current is effected by temperature because in order to find current you need to know resistance and because resistance is effected by temperature. Correct?

Yeah. The actual parameter that changes with temperature is called conductivity or resistivity (they are reciprocals of each other). The less temperature you have, the less kinetic energy you have. So the electrons, when a voltage is applied, move straight to where they want to go easier and without interference as you approach absolute zero temperature. However, when you add the kinetic energy (the heat), the electrons can no longer smoothly move to where the voltage attracts them to. Instead, they bounce around crazily, often in the opposite direction as the voltage demands, but with an overall "drift" toward the "right" direction. This effect becomes greater and greater as you increase the temperature.

\sigma = q(n\mu_n + p \mu_p)
where sigma is conductivity and the mu_n and mu_p are electron and hole mobilities respectively. The mobility is a numerical estimate that contains the effects that I described earlier about temperature. n and p are the electron and hole concentrations. q is the charge of a proton.

In case you did not know, resistance is directly proportional to resistivity and inversely proportional to its reciprocal, conductivity.
 
randomss444 said:

Homework Statement



Is current different at different temperatures, as it heats up to its working temperature?
I can't believe that is the full problem statement. The current of what? If you mean something that is connected to a constant-current source, then the current would be the same at different temperatures.
 

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