Chapter 22 Problem 30
From 105/106 Lecture Notes by OBM
Problem
A nonconducting sphere has a spherical cavity of radius centered at the sphere’s center. Assuming the charge is distributed uniformly in the “shell” (between and ), determine the electric field as a function of for
(a)
(b)
(c)
Solution
Superposition principle
Failed to parse (unknown function "\r"): {\displaystyle E_q=\frac{q}{4\pi\epsilon_0r^2}<math> (radially pointing from the charge) <math>E_\textrm{sphere}\rightarrow \oint \vec{E} \cdot d\vec{A}=E(4\pi\r^2)=\frac{Q_\textrm{encl}}{\epsilon_0}} (radial direction)
so the question is about finding the