Change in Resistance due to Thermal Expansion

AI Thread Summary
The discussion revolves around calculating the temperature of a lightbulb filament and the changes in resistance due to thermal expansion. The filament's resistance is given as 12 Ohms at 20 degrees Celsius and 140 Ohms when hot, leading to a calculated temperature of 2400 degrees Celsius. Participants seek guidance on calculating the percentage change in resistance due to thermal expansion and changes in resistivity. The relevant equations for these calculations involve the temperature coefficient of resistivity and the effects of thermal expansion on resistance. The conversation highlights the collaborative effort to solve the homework problem effectively.
munchy35
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Homework Statement



The filament of a lightbulb has a resistance of R0=12 Omegas at 20 degrees Celsius and 140 Omegas when hot.


a) Calculate the temperature of the filament when it is hot, and take into account the change in length and area of the filament due to thermal expansion (assume tungsten for which the thermal expansion coefficient is approx 5.5 * 10^ - 6 degrees Celsius^-1.

Assuming an average temperature coefficient of resistivity alpha = 0.0045 degrees celsius^-1.

b.) In this temperature range, what is the percentage change in resistance due to thermal expansion?

c.) What is the percentage change in resistance due solely to the change in rho(p)?

Homework Equations




rho(T)=rho(0)(1+alpha(T-T(0))

part b. ) R(expansion) - R(0)/R(0) = %

part c.) R(change in rho) - R(0)/R(0) = %

The Attempt at a Solution



Well part a, I figured out...it's 2400 degrees Celsius.

I just don't know how to do the other parts. Any direction.equations would be helpful. =/
 
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nevermind. figured it out!
 
i have the same problem, how did you do parts b and c?
 
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