Electric field due to a uniformly charged rod

AI Thread Summary
The discussion focuses on calculating the electric field due to a uniformly charged rod positioned in the xy-plane, specifically along the x-axis for the interval 0 < x < L. The initial solution attempt involves integrating the electric field contributions from differential charge elements along the rod. However, a misunderstanding arises regarding the distance variable 'r' used in the calculations, which needs clarification. A suggestion is made to break the integration into two segments: from 0 to 'a' and from 'a' to 'L' to simplify the problem. The correct approach emphasizes accurately defining the distance between the point of interest and the charge elements.
sprinks13
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hi, here's the question:

a rod in the xy plane has it's ends at (0,0) and (L,0). It has a uniform charge per unit length (lambda). Find the electric field on the x-axis for 0 < x < L.

solution attempt:

dEx = dE
= kdQ/r^2

dQ = lambda*ds = (Q/L)*dx

now i took my r = (L - a - x) where x is the location of dx and a is the distance from L to the point that the field is being measured (note that 0 < a < L).

dEx = KQ/L (integral) dx/(L - a -x)^2

So my problem is my r. It's wrong, but I am not sure why or how to fix it.

thanks in advance!
 
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sprinks13 said:
now i took my r = (L - a - x) where x is the location of dx and a is the distance from L to the point that the field is being measured (note that 0 < a < L).
If a is the location where you want the field, then r is just the distance between a and x. Hint: break the region 0 to L into two: 0 to a & a to L.
 

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