How Does a Neutral Metal Ball Interact with a Nearby Point Charge?

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Homework Help Overview

The discussion revolves around the interaction between a neutral metal ball and a nearby point charge, focusing on the attractive force and the work required to move the charge to infinity. The problem is situated within the context of electrostatics and the behavior of conductors in electric fields.

Discussion Character

  • Exploratory, Conceptual clarification, Assumption checking

Approaches and Questions Raised

  • Participants explore the method of images and its application to the problem, particularly in relation to grounded versus ungrounded spheres. Questions arise about the implications of charge movement within the sphere and the conditions for maintaining constant potential.

Discussion Status

The discussion is active, with participants providing insights into the boundary conditions and the implications of Gauss's law. Some guidance has been offered regarding the placement of charges and the nature of induced charges, although multiple interpretations are being explored.

Contextual Notes

There is a noted constraint regarding the ungrounded nature of the sphere, which affects the behavior of induced charges and the overall analysis of the problem.

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Homework Statement


Find the attractive force between a neturally charged metal ball of radius [itex]r[/itex] and a point charge [itex]q[/itex], located a distance [itex]l[/itex] from the center of the ball. Also find the work needed to move the charge to infinity. The ball is not grounded.


Homework Equations


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The Attempt at a Solution


I'm stuck on this one. I know that potential must be constant and the electric field must vanish inside the conductor (ball) but that's it.
 
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have you learned about the method of electrical images?
how does that apply to the situation of your problem if the sphere is grounded?
what is the relation between net induced charge and the image charge?
 
Yes, i know how to solve this problem using method of images if the sphere is grounded. The induced charge would be [itex]q_i=-qr/l[/itex]. But in this case there is no charge induced,since the sphere is not grounded, the charges just move inside the sphere, but the net charge still remains zero.
 
the boundary condition obviously is a constant potential on the sphere surface.
that you can achieve by the image charge(say, Q) at the same location as that in the case of grounded sphere.
but the net image charge must be equal to total induced charge(a consequence of gauss's law).so you need to put another charge -Q inside sphere such that total image charge is zero.
you should now be able to figure out the location of charge -Q.
 
it should be at the center of the sphere i guess ? in that case the potential at any point on the sphere will be [itex]q/4πε_0d[/itex] , as expected
edit: didn't see that article you posted. it helped a lot. thanks! The rest is piece of cake.
 

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