Method of images about a sphere with a dipole

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Homework Help Overview

The discussion revolves around the method of images in the context of a dipole near a conducting sphere that is not grounded. The original poster seeks clarification on what is meant by the "image of a dipole" in this scenario.

Discussion Character

  • Exploratory, Conceptual clarification

Approaches and Questions Raised

  • The original poster questions the meaning of "image of a dipole" and whether it involves drawing a representation related to the non-grounded sphere. Other participants discuss the method of images and the implications of charge rearrangement on the sphere.

Discussion Status

Participants are exploring the concept of the image dipole and its relation to the conducting sphere. Some guidance has been offered regarding the need to determine the location and magnitude of the image dipole, which may help in addressing the other parts of the problem.

Contextual Notes

The original poster mentions confusion regarding the initial question and the nature of the problem, indicating a need for clarification on the assumptions involved in the method of images.

Freddy P
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Homework Statement


Hello everyone, I am new here and have a question regarding method of images in my electricity and magnetism class. I need help to even get the ball rolling. The question is as follows:

a) What is the image of a dipole, oriented toward the center of the conducting sphere, if the sphere
is not grounded?

Homework Equations

The Attempt at a Solution


This is where my confusion initially lies. When it is said 'what is the image of a dipole,' what exactly does that mean? Am I to draw a picture of the dipole in regards to an non-grounded sphere? If anyone could help, it would be greatly appreciated!
 
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stevendaryl said:
Do you know what method of images is? If you have a conducting sphere, and you put a charge outside the sphere, then the charges on the sphere will rearrange themselves so that the combined field is as if there were a "mirror charge" inside the sphere. Take a look at this:

https://en.wikipedia.org/wiki/Method_of_image_charges#Reflection_in_a_conducting_sphere
Ahh ok, so is this part of the problem just asking for an image of a dipole for a non-grounded sphere then? The other parts of the question asked for the potential energy and total charge of the sphere which I calculated. Maybe I'm overthinking the first part but when it says image, it's just asking to draw an image, no? Thanks for your help!
 
Freddy P said:
Ahh ok, so is this part of the problem just asking for an image of a dipole for a non-grounded sphere then? The other parts of the question asked for the potential energy and total charge of the sphere which I calculated. Maybe I'm overthinking the first part but when it says image, it's just asking to draw an image, no? Thanks for your help!

No, they are asking you to figure out the location and magnitude of the image dipole, and use that to answer the other questions.
 

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