What Determines the Electric Field Inside a Spherical Cavity?

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Homework Help Overview

The discussion revolves around a problem in electrostatics involving a sphere with a spherical cavity containing a point charge. The original poster questions the nature of the electric field inside the cavity, particularly whether it is zero due to induced charges on the cavity surface.

Discussion Character

  • Conceptual clarification, Assumption checking

Approaches and Questions Raised

  • Participants explore the implications of Gauss' Law and the behavior of electric fields in relation to induced charges. There is a focus on whether the electric field inside the cavity can be considered zero and the conditions under which this assumption might hold.

Discussion Status

Some participants challenge the original assumption that the electric field is zero, suggesting that the presence of a point charge inside the cavity leads to an electric field. There is an indication that further exploration of Gauss' Law could provide insights into the problem.

Contextual Notes

Participants note that the cavity does not need to be symmetric and can be of any shape, which may influence the electric field distribution. There is also mention of potential follow-up questions regarding the electric field outside the cavity and within the conducting sphere.

rockbreaker
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Hi, I am dealing with a problem in Electrostatics.

Homework Statement



There is a sphere with a spherical cavity in it. The sphere itself does not have net charge, but inside the cavity, there is a point charge at the center of the cavity. What's the electric field inside the cavity?

Homework Equations



Gauss' Law, E=Q/(4*Pi*epsilon0*r^2)

The Attempt at a Solution



I assume the field is 0 because the induced charges on the cavity surface cancels the field of the point charge in it. Is this assumption correct?
 
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rockbreaker said:
I assume the field is 0 because the induced charges on the cavity surface cancels the field of the point charge in it. Is this assumption correct?

No, the assumption isn't correct. The induced charge in fact support that there is an electric field inside the cavity. try to work it out
 
rockbreaker said:
Hi, I am dealing with a problem in Electrostatics.

Homework Statement



There is a sphere with a spherical cavity in it. The sphere itself does not have net charge, but inside the cavity, there is a point charge at the center of the cavity. What's the electric field inside the cavity?

Homework Equations



Gauss' Law, E=Q/(4*Pi*epsilon0*r^2)

The Attempt at a Solution



I assume the field is 0 because the induced charges on the cavity surface cancels the field of the point charge in it. Is this assumption correct?

That assumption isn't correct for the electric field inside the cavity (inside of the surface containing the induced charges).

If it helps to understand why, remember what the electric field is inside of a uniformly charged, spherically symmetric shell without any other charges in it. Then consider what the electric field is if there is an additional charge at the center, all else being the same.

Now use Gauss' Law to apply that to this problem with the cavity. You shouldn't even have to assume that the cavity is symmetric -- it can be of any shape. Also, the cavity, and the charge inside of it, doesn't need to even be centered in the conducting sphere -- it can be anywhere within the sphere.

After you answer this step, it's the next steps that end up being rather fascinating and insightful. You will be invariably asked next to find the electric field within the conducting sphere, but outside the cavity, and then to find the electric field outside of the entire conducting sphere.

Hint: At first this might seem like a very mathematically intense exercise, but it is not. If you use Gauss' Law it turns out to be a surprisingly simple problem (well, comparatively simple for an electrostatics problem anyway). Most of this exercise is thinking about Gauss' Law qualitatively.
 
You're right, I actually confused this problem with a dielectrical sphere. It is pretty obvious using Gauss' Law that there has to be an electric field inside the cavity when there is a charge inside it (which ends at the surface of the cavity to guarantee that the conductor is field-free). Thank you very much!
 

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