Finding Electric Field at 35.6 cm from Charge Distribution

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Homework Help Overview

The problem involves calculating the electric field at a distance of 35.6 cm from a thin spherical shell with a uniform charge distribution. The context is within electrostatics, specifically applying Gauss's Law to a spherical charge distribution.

Discussion Character

  • Exploratory, Assumption checking, Conceptual clarification

Approaches and Questions Raised

  • The original poster attempts to apply the formula for the electric field outside a spherical shell and questions the validity of their calculations. Some participants suggest reconsidering the interpretation of the distance in relation to the shell, while others confirm the application of Gauss's Law.

Discussion Status

The discussion is ongoing, with participants exploring different interpretations of the problem setup and calculations. Some guidance has been offered regarding the application of Gauss's Law, but there is no explicit consensus on the correct approach or interpretation of the distance involved.

Contextual Notes

There is uncertainty regarding the exact distance from the shell to the point of evaluation, with some participants questioning whether the problem states the point is beyond the shell. The original poster also expresses frustration with the homework system's feedback on their answers.

notmetalenough
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I'm having trouble with this problem:

Consider a thin spherical shell of radius 14.5 cm with a total charge of +38.9 microCloumbs distributed uniformly on its surface. (Take radially outward as the positive direction.)

So I need to find the field at 35.6cm from the center of the charge distribution.

Since this r is bigger than the shell R

E= k_e * Q/ r^2 ; right?

E = 8.99*10^9 * (38.9 * 10^-6)/(0.356)^2; right?

I get 2759365.9260194. My answer is MN/C so I put 2.76

No dice. Did I miss something?

I also tried 0.276, 27.6, 276, 2760, 27600, 276000, and 2760000 to be sure that the program wasn't just disregarding which units it wanted.
 
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according to Gauss' Law, a spherical shell as a whole should be treated as a point charge. What is the distnace from the shell (as a whole) to the point where you want to evaluate the electric field?
 
try 2759365.926 or 2 759 000 again as far as I can see you have calculated it correctly. Are you sure the numbers are right.

might the question really say that the point is 35.6 beyond the shell?
 
Last edited:
stunner5000pt said:
according to Gauss' Law, a spherical shell as a whole should be treated as a point charge. What is the distnace from the shell (as a whole) to the point where you want to evaluate the electric field?


I was under the impression that Gauss's Law said that the spherical shell is treated as a point charge at the center of the shell itself. But I tried all numbers of different radii, none of them would give the right answer (according to the homework website). I think I'll just address this with my professor directly.
 

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