Derive Electric Potential Energy

AI Thread Summary
The discussion focuses on deriving the electric potential energy of a point charge within a uniformly charged sphere. The potential energy formula is given as U(r) = Qq'/4πεR * (3/2 - r²/2R²) for r < R. A participant struggles with integrating the electric field and obtaining the correct coefficient in the potential energy expression. It is clarified that the integration should start from infinity to r, and the potential energy at R must be added back to achieve the correct formula. This highlights the importance of correctly defining initial and final positions in electric potential calculations.
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1. The problem statement, all variables and given/known
For a a uniformly charged sphere of radius R with total charge Q, show that the potential energy of a point charge q' varies with r

U(r) = Qq'/4\pi\epsilonR * (3/2 - r2/2R2 if r < R

Homework Equations


\DeltaU = - \intE(r)q'dr cos\theta


The Attempt at a Solution


I used that the electric field of q' when r < R is Qr/4\pi\epsilonR3. I tried to integrate from initial to final for r, but then I only get 1/2 as opposed to 3. I have no idea where the 3 comes from.

Can someone help please?
 
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What did you take as the initial and final r's? You have to integrate from infinity to r because potential energies are always stated with the potential at infinity as 0. (Of course, the electric field outside the sphere is not E=kQr/R^3, which adds another complication.)
 
Ohh, I took the initial r to be R. Does that mean I have to add back the potential energy at R from infinity in order to get the expression for the potential energy at r when r < R?
 
Yes.
 
Thank you!
 

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