2. An insulating spherical shell has inner radius r₁ and outer radius 12, and is uniformly charged with _charge density p. (a) What is the total charge Q in the shell? (b) Using Gauss's law, find the electric field inside (A), within (B), and outside (C) of the shell. (Hint: Draw 3 Gaussian surfaces and apply Gauss's law to each.) (c) Find potential difference V(0)-V(2r2). (Hint: Break the integral into 3 pieces). C B To
2. An insulating spherical shell has inner radius r₁ and outer radius 12, and is uniformly charged with _charge density p. (a) What is the total charge Q in the shell? (b) Using Gauss's law, find the electric field inside (A), within (B), and outside (C) of the shell. (Hint: Draw 3 Gaussian surfaces and apply Gauss's law to each.) (c) Find potential difference V(0)-V(2r2). (Hint: Break the integral into 3 pieces). C B To
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Transcribed Image Text:2. An insulating spherical shell has inner radius r₁ and outer radius 12, and is uniformly charged with
_charge density p. (a) What is the total charge Q in the shell? (b) Using Gauss's law, find the electric field
inside (A), within (B), and outside (C) of the shell. (Hint: Draw 3 Gaussian surfaces and apply Gauss's
law to each.) (c) Find potential difference V(0)-V(2r2). (Hint: Break the integral into 3 pieces).
C
B
To
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