Conducting shell conceptual question

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Homework Help Overview

The problem involves a thick-walled conducting spherical shell with a given charge distribution and a point charge at its center. Participants are discussing the implications of charge distribution on the inner and outer surfaces of the shell.

Discussion Character

  • Conceptual clarification, Assumption checking

Approaches and Questions Raised

  • Participants explore the charge distribution on the inner and outer surfaces of the shell, questioning the implications of having a point charge at the center and the resulting charge on the outer surface.

Discussion Status

There is an ongoing exploration of the charge distribution, with some participants providing interpretations of the problem and others questioning the assumptions regarding the charge in the interior of the shell and its effect on the outer surface charge.

Contextual Notes

Participants note that the charge in the interior of the shell is considered to be zero, leading to confusion regarding the charge on the outer surface, which is a point of contention in the discussion.

tsuyoihikari
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Homework Statement



A thick-walled, conducting spherical shell has charge q = +10 mC, inner radius R1 = 10cm, and outer radius R2 = 50 cm. A point charge Q = -20 mC is located at the center of the shell.

Describe the the charge distribution in the shell.


2. Given answer

+20 mC on the inner surface; zero charge in the interior of the sphere; -10 mC on the outer surface.

The Attempt at a Solution



I know that there can be no net charge with a gaussian surface drawn inside a conductor, so in order to balance out the point charge, there must be +20 mC of charge on the inner surface, and then there should be a net charge of +10 mC on the whole sphere, so there would be +10 mC on the outer surface. I don't understand why the charge in the interior is zero; shouldn't it be -20 mC because of the point charge?
 
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I think your argument is correct. The "zero charge in the interior of the sphere" likely means no charge in the metal of the shell, not in the empty space inside the shell.
 
But then what would the charge on the outer surface be? Would it be +10 mC or -10 mC?

With my logic, it should be +10 mC, but the answer gives -10 mC.
 
It will be -10 mC.

As the net charge on shell is +10 mC and charge on inside surface is +20mC
so let charge on outside surface is X

therefore, X + 20 = 10

so X = -10mC
 
oh okay, so charge on shell doesn't include charge in the very center at all.
Thank you very much Delphi51 and cupid.callin!
 

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