3. A particle with an unknown amount of positive charge is placed at the center of an evacuated, metal, spherical shell. A cross-sectional view is shown in the diagram below. Separate from this, the shell is charged with -8.0 nC. The equation for the electric field at a radius r > bis +108 N/C. Use 9.0 x 109 for Coulomb's constant. a. Apply Gauss' Law for the electric field for r> b. Then, determine the charge on the particle. Give a number for an answer. Don't forget units. b. How is the -8.0 nC distributed on the inner and outer surfaces of the metal shell? What is the magnitude of the electric field for a
3. A particle with an unknown amount of positive charge is placed at the center of an evacuated, metal, spherical shell. A cross-sectional view is shown in the diagram below. Separate from this, the shell is charged with -8.0 nC. The equation for the electric field at a radius r > bis +108 N/C. Use 9.0 x 109 for Coulomb's constant. a. Apply Gauss' Law for the electric field for r> b. Then, determine the charge on the particle. Give a number for an answer. Don't forget units. b. How is the -8.0 nC distributed on the inner and outer surfaces of the metal shell? What is the magnitude of the electric field for a
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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Transcribed Image Text:3. A particle with an unknown amount of positive charge is placed at the center of an evacuated,
metal, spherical shell. A cross-sectional view is shown in the diagram below. Separate from
this, the shell is charged with -8.0 nC. The equation for the electric field at a radius r > bis
+108
N/C. Use 9.0 x 109 for Coulomb's constant.
a. Apply Gauss' Law for the electric field for r> b. Then, determine the charge on the
particle. Give a number for an answer. Don't forget units.
b. How is the -8.0 nC distributed on the inner and outer surfaces of the metal shell?
What is the magnitude of the electric field for a <r<b? Explain your answer by again
using Gauss' Law.
C.
a
b
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