Electric Field Distribution in a Non-Conducting Cylinder

What is the distribution of electric field inside and outside a solid non-conducting uniform cylinder with a total charge of -4q?

The distribution of electric field inside and outside a solid non-conducting uniform cylinder with a total charge of -4q is unique due to the nature of the cylinder and its charge distribution.

Electric Field Distribution in a Non-Conducting Cylinder

When dealing with a solid non-conducting cylinder, the electric field distribution differs from that of a conducting cylinder. In a conducting cylinder, the electric field is zero within the material, while in a non-conducting cylinder, it is not.

Inside the non-conducting cylinder, the electric field increases linearly from the center to the surface. This means that the electric field is strongest at the surface of the cylinder and weakest closer to the center.

On the other hand, outside the non-conducting cylinder, the electric field behaves similarly to the field around a point charge. It decreases as the inverse square of the distance from the center of the cylinder (1/r²). This results in a strong electric field immediately outside the surface of the cylinder, which decreases rapidly as you move further away.

In conclusion, the electric field distribution inside and outside a solid non-conducting uniform cylinder with a total charge of -4q is not uniform and varies based on the distance from the center of the cylinder.

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