Temperature of a Conducting Rod

AI Thread Summary
The discussion revolves around calculating the temperature of a copper rod at a specific point, given one end is at 103°C and the other at 25°C. The relevant equations for conduction, heat, and thermal expansion are mentioned, but the user struggles to apply them effectively. A coordinate system is suggested to analyze the temperature profile along the rod's length. The user is encouraged to consider the temperature differential and the rod's geometry to set up the necessary equations. Ultimately, the focus is on understanding how to derive the temperature at 24cm from the cool end using the principles of thermal conduction.
ObliviousSage
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Homework Statement



A copper rod 90cm long is used to poke a fire. The hot end of the rod is maintained at 103 degrees Celsius and the cool end has a constant temperature of 25C. What is the temperature of the rod 24cm from the cool end?

specific heat of copper: c = 387 J/kg*K
thermal conductivity of copper: k = 395 W/m*K
thermal expansion coefficient of copper: \alpha = 17*10-6 1/K

Homework Equations



conduction: Q = kAt\DeltaT/L
linear expansion: \DeltaL = \alphaL0\DeltaT
heat: Q = mc\DeltaT

The Attempt at a Solution



I'm not even sure where to begin. The three equations in this chapter that might be relevant are given, but I can't see any way to apply them. It seems like conduction has to be involved, but I can't figure out what happened to the area and time terms.
 
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If one end is held at 103°C and the other end is held at 25°C, what is the temperature profile along the beam going to look like?
 
First, set up a coordinate system. Say the hot end of the rod is the origin and the other end of the rod is at x=l.

Now, you know that the rod will expand depending on the temperature. As the temperature of the rod will vary along the length of the rod, different parts of the rod will expand to a greater or lesser degree. Let the temperature of the rod at a point x cm away from the hot end be t.

Now, you have to set up an equation that describes this system. As the rod is circular in nature, its cross sectional area will be circular. Thus, your area is nothing but \pi r^2.

Now, forget the area term for a minute and look at the other terms in the equation. You have k, which is a constant so there's nothing to analyze there. Area is also constant for our purposes. The next term \delta T is the temperature differential between the origin (hot end) and L refers to the length of the rod.

As you're considering a section of the rod of length x, here L=x. Also, from our above assumption, the temperature of the rod at a point x from the origin is T.

Substitute these terms into the equation and you're getting somewhere. Can you work out the other end of the equation?
 

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