Find potential inside spherical shell

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Homework Help Overview

The problem involves a conducting sphere with a charge and a nearby point charge, requiring the calculation of electric potential at a specific point influenced by both charges. The context is within electrostatics, particularly focusing on potential due to charge distributions.

Discussion Character

  • Exploratory, Assumption checking, Conceptual clarification

Approaches and Questions Raised

  • Participants discuss the potential contributions from both the conducting sphere and the point charge, with attempts to sum these contributions. There is questioning of the correctness of the potential due to the sphere and consideration of the concept of equipotential regions.

Discussion Status

The discussion is ongoing, with participants exploring different interpretations of the potential calculations. Some hints have been provided regarding the nature of the sphere as an equipotential region and the use of image charges, but no consensus has been reached on the correct approach.

Contextual Notes

Participants note that the charge distribution of the sphere is not symmetrical due to the influence of the nearby charge, which may complicate the potential calculations. There is also mention of the potential at the center of the sphere and its relation to the overall problem.

utkarshakash
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Homework Statement


A conducting sphere of radius R has a charge Q. A particle carrying a charge q is placed a distance 2R from the sphere. Find the potential at point A located a distance R/2 from the center of the sphere on the line connecting the center of the sphere and particle q. Note that the charge distribution of the sphere is not symmetrical due to the influence of particle q


The Attempt at a Solution



The potential at point A will be equal to sum of potential due to sphere and charge 'q'.
Due to sphere, V= kQ/R
and due to charge, V= 2kq/5R

But this is not the correct answer.
 

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utkarshakash said:
The potential at point A will be equal to sum of potential due to sphere and charge 'q'.
Due to sphere, V= kQ/R
and due to charge, V= 2kq/5R

But this is not the correct answer.

The item in red is not correct .
 
utkarshakash said:

Homework Statement


A conducting sphere of radius R has a charge Q. A particle carrying a charge q is placed a distance 2R from the sphere. Find the potential at point A located a distance R/2 from the center of the sphere on the line connecting the center of the sphere and particle q. Note that the charge distribution of the sphere is not symmetrical due to the influence of particle q


The Attempt at a Solution



The potential at point A will be equal to sum of potential due to sphere and charge 'q'.
Due to sphere, V= kQ/R
and due to charge, V= 2kq/5R

But this is not the correct answer.

Hint:the whole sphere is an equipotential region.
 
utkarshakash said:

Homework Statement


A conducting sphere of radius R has a charge Q. A particle carrying a charge q is placed a distance 2R from the sphere. Find the potential at point A located a distance R/2 from the center of the sphere on the line connecting the center of the sphere and particle q. Note that the charge distribution of the sphere is not symmetrical due to the influence of particle q .


The Attempt at a Solution



The potential at point A will be equal to sum of potential due to sphere and charge 'q'.
Due to sphere, V= kQ/R
and due to charge, V= 2kq/5R

But this is not the correct answer.
The reason that V= kQ/R is incorrect for the sphere is highlighted in RED above.

Use the concept of image charges .
 
projjal said:
Hint:the whole sphere is an equipotential region.

Will the potential at centre be equal to kQ/R due to sphere?
 
utkarshakash said:
Will the potential at centre be equal to kQ/R due to sphere?

Yeah.

You also know the potential at centre due to charge q and wid that you get the answer.
 

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