Electric Field Calculation for Coaxial Plates with Holes

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The discussion focuses on calculating the electric field through the axis of coaxial holes in two charged plates. The plates have uniform surface charge densities and are positioned at a distance d apart, with d being much smaller than the radius R of the holes. Participants suggest finding the electric field from both plates and then subtracting the field due to the holes. Integration over the surface area of the holes is recommended, utilizing symmetry to simplify the calculation to a 1D integral. The conversation emphasizes understanding the direction of the electric field and the importance of proper integration limits.
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Homework Statement


two infinitely large plates are at a distance d from each other .they carry a unifor surface charge of densities X and -X.the plates have round coaxial holes of radius R.with d<<R.find the electric field through the axis of the holes(taking them as circles) as a function of distance l from them.[/B]

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The Attempt at a Solution


i think i should find the field due to both the plates and subtaract the field due to the hole.i don't exactly know how to do that if that's how it done.
 
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Ok then. Show what you get for the field of the plates (without hole).
Then show what you get for the hole. Since you are on axis, you only need to consider one component of the field. What can you say about the direction of the field? Just do an integration over the surfaces of the holes, summing over the nonzero component.
 
ok but what do i integrate from where to where?if i take a small area of width dx and at a distance dr from tthe center .the answer is pretty confusing
 
Integrate over the surface area of the circle. Thanks to symmetry, you can do this as a 1D integral.
 
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