Electric field between conducting and non-conducting sheets

AI Thread Summary
The discussion centers on calculating the electric field between two infinite sheets of charge, one non-conducting with a charge density of 3σ and the other conducting with a charge density of σ. It is noted that the electric field to the right of the conducting sheet is zero due to its conductive nature, while the field to the left of the non-conducting sheet may be the sum of the fields from both sheets. Clarification is sought on whether the charge density includes contributions from both sides of the conducting sheet, which is deemed irrelevant if treated as purely two-dimensional. The importance of understanding induced surface charges is mentioned, but the focus remains on the total surface charge provided. The conversation highlights the complexities in interpreting the problem statement and the assumptions needed for calculations.
Mirza Danish Baig
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Homework Statement



Two infinite sheets of charges are placed parallel to each other. If the sheet on the left is non conducting and have a uniform charge density 3(sigma) and the one on the right is conducting and has a uniform charge density (sigma). If the area on both plates is 1m^2 then calculate the value of electric field at (a) to the left of left sheet (b) in between the sheets (c) to the right of right sheet.

Homework Equations


gauss law E= (sigma)/2€o
E=(sigma)/€o


The Attempt at a Solution


I am attempting it to do it by definitions. I think that the field at the right of the right sheet will be 0 because right sheet is conducting but I don't know if at the left of left sheet the value will be sum of two fields of the sheets or not and what will be the electric field at middle
 
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Mirza Danish Baig said:
the one on the right is conducting and has a uniform charge density (sigma)
This is unclear: Does this include the charge density on both sides of the plate? (I would assume so: The total charge density is sigma.)

Mirza Danish Baig said:
I think that the field at the right of the right sheet will be 0 because right sheet is conducting
The field within the material of the conducting plate must be zero, but not outside it.
 
Doc Al said:
This is unclear: Does this include the charge density on both sides of the plate? (I would assume so: The total charge density is sigma.)
yes I guess so. But its not mention in the question.
 
So you're saying that the charged sheet has a surface charge of 3σ and the conducting sheet has a charge of σ?
 
Mirza Danish Baig said:
Two infinite sheets of charges
Mirza Danish Baig said:
If the area on both plates is 1m^2
??
 
Yeah, quite a bit about this problem statement is not quite clear. Can you post it exactly as it appears, word for word?
 
Doc Al said:
you're
yes. they have given us symbols inspite of numeric values. We have to drive formulas for it. and that's the exact wordings that are written in my note book.
 
Well, ignoring the fact that the "infinite" sheets have an area of 1 m^2, you can just treat them as infinite sheets of charge. Unless there is more to this question, the fact that one is a conducting sheet is irrelevant.
 
I think if the conducting sheet has some small width ##\Delta x## then we ll have to calculate the induced charged density on it and we can speak of the inner and outer surface charge densities on it.. However If its width is zero , so it is purely 2Dimensional then we don't have to bother with that.
 
  • #10
Assuming you're given the total surface charge on the conducting plate (both sides total), you won't have to worry about any induced surface charges since they don't ask for that.
 

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