Conducting sphere in a conducting spherical shell

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A conducting sphere with a charge of 6 micro C is placed at the center of a conducting spherical shell, which also has a charge of 6 micro C. The charge on the inner surface of the shell must be -6 micro C to ensure that the electric field within the conducting material of the shell is zero. Consequently, the total charge on the outer surface of the shell is 12 micro C. This understanding aligns with Gauss's Law, which states that the total charge within a Gaussian surface must be zero when the electric field is zero. Clarifying these concepts helps in grasping the behavior of electric fields in conductive materials.
GreenDinos
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A conducting sphere that carries a total charge of 6 micro C is placed at the center of a conducting spherical shell that also carries a total charge of 6 micro C .
(a) Determine the charge on the inner surface of the shell.
(b) Determine the total charge on the outer surface of the shell.

this seems like it shouldn't be too hard, but i guess i just don't understand the concepts well enough to figure it out...

I was thinking about where I would put field lines in this to understand what's going on- but all i can come up with is that inside a spherical shell there's no electric field...but there's a conducting sphere in there which throws that off. I'm not sure that would help anyway. I guess I'm just thinking- that since they both have + charges, the inside part of the shell would be...i dunno, -6 micro Coulombs...since the electrons would move to the charge??...and that maybe, since the charges are both radiating out- the outer surface would be 12 micro C? I am probably very wrong but this is why i am looking for help. anything would be much appreciated.
thanks
 
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Gauss's Law

Welcome to PF!
GreenDinos said:
I was thinking about where I would put field lines in this to understand what's going on- but all i can come up with is that inside a spherical shell there's no electric field...
Depends what you mean by "inside the shell". Inside the cavity the field will be zero only if there's no charge inside. Inside the conducting material of the shell itself--that's where the static electric field will always be zero. So imagine a Gaussian surface inside the conducting material.
but there's a conducting sphere in there which throws that off. I'm not sure that would help anyway. I guess I'm just thinking- that since they both have + charges, the inside part of the shell would be...i dunno, -6 micro Coulombs...since the electrons would move to the charge??...and that maybe, since the charges are both radiating out- the outer surface would be 12 micro C? I am probably very wrong but this is why i am looking for help. anything would be much appreciated.
thanks
Well, whether you know it or not you are exactly correct. Since the field within the conducting material is zero, the total charge within that Gaussian surface must be zero. That tells you the charge on the inner surface. And you know what the total charge is on the shell, thus you can deduce what the outer charge must be. Think it over.
 
Doc Al said:
Since the field within the conducting material is zero, the total charge within that Gaussian surface must be zero.

Ah ha! that's a big help- that's basically what i was thinking but i couldn't find anything in my book that said it clearly. Thanks so much for your help!
 

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