A point particle of charge q = 10 µc is at the center of an uncharged conducting spherical shell of inner radius a = 4 cm and outer radius = 10 cm . Find: a. The surface charge density at the outer surface of the shell. b. The electric field at r = 20 cm from center. c. The electric flux through a spherical surface of radius 6 cm with its center at the center of the shell.
A point particle of charge q = 10 µc is at the center of an uncharged conducting spherical shell of inner radius a = 4 cm and outer radius = 10 cm . Find: a. The surface charge density at the outer surface of the shell. b. The electric field at r = 20 cm from center. c. The electric flux through a spherical surface of radius 6 cm with its center at the center of the shell.
Chapter6: Gauss's Law
Section: Chapter Questions
Problem 70P: A point charge q=5.01012 C is placed at the center of a spherical conducting shell of inner radius...
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![O 3G ll.
4:06
moodle.najah.edu a
A point particle of charge q = 10 µc is at the center of an uncharged conducting
spherical shell of inner radius a = 4 cm and outer radius = 10 cm . Find:
a. The surface charge density at the outer surface of the shell.
b. The electric field at r = 20 cm from center.
c. The electric flux through a spherical surface of radius 6 cm with its center at
the center of the shell.
use k= 9 X 109 N.m²/ C²
outer radius b = 10 cm and the inner
radius a = 4 cm
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Transcribed Image Text:O 3G ll.
4:06
moodle.najah.edu a
A point particle of charge q = 10 µc is at the center of an uncharged conducting
spherical shell of inner radius a = 4 cm and outer radius = 10 cm . Find:
a. The surface charge density at the outer surface of the shell.
b. The electric field at r = 20 cm from center.
c. The electric flux through a spherical surface of radius 6 cm with its center at
the center of the shell.
use k= 9 X 109 N.m²/ C²
outer radius b = 10 cm and the inner
radius a = 4 cm
Maximum size for new files: 50N
Files
You can drag and drop files here to add
them.
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