How to Calculate Heat Current in a Spherical Shell?

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Homework Help Overview

The problem involves calculating the total heat current through a spherical shell with given inner and outer radii, temperatures, and thermal conductivity. The context is thermal physics, specifically focusing on heat transfer in a spherical geometry.

Discussion Character

  • Exploratory, Mathematical reasoning, Assumption checking

Approaches and Questions Raised

  • Participants discuss the use of calculus and the formulation of the area as a function of radius. There is mention of treating the problem as a separable differential equation. Some participants express uncertainty about the relevance of Maxwell's equations in this context.

Discussion Status

Participants are exploring different approaches to derive the equation for heat current. There is acknowledgment of a potential solution involving a separable differential equation, but no consensus has been reached on the best method to proceed. Some guidance has been offered regarding the use of differential equations.

Contextual Notes

Participants note a lack of familiarity with certain theoretical aspects, such as Maxwell's equations, which may influence their understanding of the problem. There is also an emphasis on deriving the equation rather than applying pre-derived forms.

TheDemx27
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Homework Statement


A spherical shell has inner and outer radii r_a and r_b, respectively, and the temperatures at the inner and outer surfaces are T_a and T_b. The thermal conductivity of he shell material is k. Derive an equation for the total heat current thought the shell in the steady state. Then calculate the temperature as a function of r, the distance from the center of the shell.

Homework Equations


H=-kA(T_b-T_a)/(r_b-r_a)

The Attempt at a Solution


I know that I'm supposed to use calculus somehow, I write the area A as a function of r, A(r)=4pi*r^2. I don't know what to do from there
 
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Oh I think I got it. It is just a separable differential equation, right?
 
Hint: "Maxwell."
 
That does nothing for me. I was only ever taught the derived forms of maxwell's equations...

Treating it as a separable differential equation H=-kA*(dT/dr) I got
H=k*4pi*(T_b-T_a)/(1/r_b-1/r_a)
 
Last edited:
TheDemx27 said:
That does nothing for me. I was only ever taught the derived forms of maxwell's equations...

Treating it as a separable differential equation H=-kA*(dT/dr) I got
H=k*4pi*(T_b-T_a)/(1/r_b-1/r_a)
This result is right on target, and is the way I would have solved the problem too. Nice job.
 
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Chestermiller said:
This result is right on target, and is the way I would have solved the problem too. Nice job.

Thanks for checking me.
 

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