8. What is the electric flux density in free space if the electric field intensity is 1V/m? 7.76 X 10^-12 C/m^2 8.85 X 10^-12 C/ m^2 1.23 X 10^-12 C/ m^2 3.43 X 10^-12 C/ m^2 9. The diagram below shows some of the lines of electrical force around a positive point charge. Point A is nearest to the charge, point B is farther away, and point Cis the farthest. (second picture) greatest at point A greatest at point B greatest at point C equal at points A,B, and C 10. A solid conducting sphere is given a positive charge Q. How is the charge Q distributed in or on the sphere? It is concentrated at the center of the sphere It is uniformly distributed throughout the sphere. Its density decreases radially outward from the center. It is uniformly distributed on the surface of the sphere only.
8. What is the electric flux density in free space if the electric field intensity is 1V/m? 7.76 X 10^-12 C/m^2 8.85 X 10^-12 C/ m^2 1.23 X 10^-12 C/ m^2 3.43 X 10^-12 C/ m^2 9. The diagram below shows some of the lines of electrical force around a positive point charge. Point A is nearest to the charge, point B is farther away, and point Cis the farthest. (second picture) greatest at point A greatest at point B greatest at point C equal at points A,B, and C 10. A solid conducting sphere is given a positive charge Q. How is the charge Q distributed in or on the sphere? It is concentrated at the center of the sphere It is uniformly distributed throughout the sphere. Its density decreases radially outward from the center. It is uniformly distributed on the surface of the sphere only.
Physics for Scientists and Engineers: Foundations and Connections
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Chapter24: Electric Fields
Section: Chapter Questions
Problem 28PQ: The electric field at a point on the perpendicular bisector of a charged rod was calculated as the...
Related questions
Question
![8. What is the electric flux density in free space if
the electric field intensity is 1V/m?
7.76 X 10^-12 C/ m^2
8.85 X 10^-12 C/ m^2
1.23 X 10^-12 C/ m^2
3.43 X 10^-12 C/ m^2
9. The diagram below shows some of the lines of
electrical force around a positive point charge.
Point A is nearest to the charge, point B is farther
away, and point Cis the farthest.
<image> (second picture)
greatest at point A
greatest at point B
greatest at point
equal at points A,B, and C
10. A solid conducting sphere is given a positive
charge Q. How is the charge Q distributed in or on
the sphere?
It is concentrated at the center of the sphere
It is uniformly distributed throughout the sphere.
Its density decreases radially outward from the
center.
It is uniformly distributed on the surface of the
sphere only.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fc615b5f5-5660-4299-b055-981f42db5ae3%2Fa11d677b-0594-4b2d-809f-de45356fe117%2F6mozoby_processed.jpeg&w=3840&q=75)
Transcribed Image Text:8. What is the electric flux density in free space if
the electric field intensity is 1V/m?
7.76 X 10^-12 C/ m^2
8.85 X 10^-12 C/ m^2
1.23 X 10^-12 C/ m^2
3.43 X 10^-12 C/ m^2
9. The diagram below shows some of the lines of
electrical force around a positive point charge.
Point A is nearest to the charge, point B is farther
away, and point Cis the farthest.
<image> (second picture)
greatest at point A
greatest at point B
greatest at point
equal at points A,B, and C
10. A solid conducting sphere is given a positive
charge Q. How is the charge Q distributed in or on
the sphere?
It is concentrated at the center of the sphere
It is uniformly distributed throughout the sphere.
Its density decreases radially outward from the
center.
It is uniformly distributed on the surface of the
sphere only.
![A
B](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fc615b5f5-5660-4299-b055-981f42db5ae3%2Fa11d677b-0594-4b2d-809f-de45356fe117%2Fe9xzdy_processed.jpeg&w=3840&q=75)
Transcribed Image Text:A
B
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