Gauss's Law and charged conductors

AI Thread Summary
In the scenario of a conductor with a net charge of +Q and a point charge of -Q inside a hollow cavity, the charge on the outer surface of the conductor is 0. The inner surface of the conductor acquires a charge of +Q to neutralize the -Q point charge, resulting in no excess charge available for the outer surface. Thus, the outer surface remains neutral, confirming that the total charge on the conductor is still +Q. The confusion arises from the misconception that the charges would cancel each other out entirely. Understanding this balance clarifies why the outer surface charge is zero.
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A conductor carries a net charge +Q. There is a hollow cavity inside the conductor that contains a point charge -Q. In electrostatic equilibrium,what is the charge on the outer surface of the conductor?

A. -2Q
B. -Q
C. 0
D. Q
E. 2Q


I know that the answer is 0, however, I cannot understand why. i would think that the inner surface of the conductor is +Q to offset the -Q point charge inside, which would make the outer surface +Q in order to account for the net +Q charge. However, that is not the case.

Can some one please offer me some help understanding this problem?Thanks so much
 
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If the charge on the inner surface of the conductor is +Q, and the net charge on the conductor is also +Q, how much charge is left over to distribute on the outer surface?
 
Oh ok, I see. It's 0. For some reason i thought that the +Q and the -Q would cancel out.
 
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