Charge on a cavity wall and Gauss' law

Jrlinton · Feb 7, 2017

Homework Statement

An isolated conductor has a net charge of +14.0 × 10- 6 C and a cavity with a particle of charge q = +4.30 × 10-6 C. What is the charge (a) on the cavity wall and (b) on the outer surface?

Homework Equations

The Attempt at a Solution

So I understand that B is just adding the charge of the particle and conductor together
=1.8E-5C
I am lost on the solution to part A. I thought that the charge on or within the cavity wall of a gaussian shell was zero but that doesn't seem to be the answer they are looking for

Doc Al · Feb 7, 2017

Jrlinton said:

I am lost on the solution to part A. I thought that the charge on or within the cavity wall of a gaussian shell was zero but that doesn't seem to be the answer they are looking for

Imagine a Gaussian surface within the conducting material that encloses the cavity. What's the total charge?

Jrlinton · Feb 7, 2017

the net charge is zero so the charge on the wall is the negative of the particle charge within

Doc Al · Feb 7, 2017

Jrlinton said:

the net charge is zero so the charge on the wall is the negative of the particle charge within

Exactly.

Charge on a cavity wall and Gauss' law

Homework Statement

Homework Equations

The Attempt at a Solution

Related to Charge on a cavity wall and Gauss' law

Question 1: What is the charge on a cavity wall?

Question 2: How is the charge on a cavity wall related to Gauss' law?

Question 3: Can the charge on a cavity wall be zero?

Question 4: How does the shape and size of a cavity affect the charge on its walls?

Question 5: What is the significance of understanding the charge on a cavity wall and Gauss' law?

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