Electric field inside a charged cylinder

AI Thread Summary
The discussion centers on calculating the electric field at a point inside a hollow charged cylinder using Gauss' law and direct summation of contributions from differential rings. While Gauss' law indicates that the electric flux is zero within the cylinder due to no enclosed charge, this does not imply the absence of an electric field; rather, the contributions from different parts of the cylinder's surface cancel each other out. The participants clarify that the electric field exists but cannot be determined solely through Gauss' law in this scenario. Instead, the electric field must be calculated by summing the contributions from the individual rings that make up the cylinder. The conversation emphasizes the importance of understanding the limitations of Gauss' law in cases lacking symmetry.
yoni162
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Homework Statement


A cylinder (hollow) with radius R is charged with charge Q on its outer side. What is the electric field at a point A on its center axis (inside the cylinder)?


Homework Equations


Electric field generated by a charged ring in distance r from its center
Gauss' law



The Attempt at a Solution


I seem to have misunderstood something here..I could look at a ring of width dz and calculate its contribution to the electric field at the point A on the center axis of the cylinder. This will definitely sum up to something, meaning there will be a field at point A.
On the other hand, if I use Gauss' law, I take a cylinder surface of radius r<R surrounding the center axis. Obviously Qin=0, so by conclusion the electric field in any point where r<R is 0. where's my mistake?
 

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Alright I think I've realized my misconception..Gauss' law in this case only tells my the the electric flux will be 0, since there is no charge inside the surface I chose..this doesn't mean that there isn't an electric field there, it just means that all contributions of flux cancel each other out, no? The electric field is there, but it cannot be calculated with Gauss' law, only directly by summing all the field contributions due to the differential rings which makw up the cylinder. Am I correct?
 
You will definitely get 0 if you use Gauss's Law due to the flux being zero. I think you can use E=k*Q*r-hat/r^2
 
yoni162 said:
Alright I think I've realized my misconception..Gauss' law in this case only tells my the the electric flux will be 0, since there is no charge inside the surface I chose..this doesn't mean that there isn't an electric field there, it just means that all contributions of flux cancel each other out, no? The electric field is there, but it cannot be calculated with Gauss' law, only directly by summing all the field contributions due to the differential rings which makw up the cylinder. Am I correct?
Yes, your thinking is correct. Gauss' law always applies, but it's not always helpful. It's helpful when symmetry tells you that the field along the surface is uniform, but that's not the case here. Here the field is different near the ends of the cylinder compared to the middle.
 

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