Consider two imaginary spherical surfaces surrounding a point charge +Q. One is a sphere of radius 10 cm and the other is a sphere of radius 20 cm. Which statement about the net flux through these surfaces is correct? correct? The net flux through the larger sphere is the same as the net flux through the smaller sphere. The net flux through the larger sphere is half the net flux through the smaller sphere. The net flux through the larger sphere is four times the net flux through the smaller sphere. The net flux through the larger sphere is one fourth the net flux through the smaller sphere. The net flux through the larger sphere is twice the net flux through the smaller sphere.
Consider two imaginary spherical surfaces surrounding a point charge +Q. One is a sphere of radius 10 cm and the other is a sphere of radius 20 cm. Which statement about the net flux through these surfaces is correct? correct? The net flux through the larger sphere is the same as the net flux through the smaller sphere. The net flux through the larger sphere is half the net flux through the smaller sphere. The net flux through the larger sphere is four times the net flux through the smaller sphere. The net flux through the larger sphere is one fourth the net flux through the smaller sphere. The net flux through the larger sphere is twice the net flux through the smaller sphere.
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Consider two imaginary spherical surfaces surrounding a point charge +Q. One is a sphere of radius 10 cm and the other is a sphere of radius 20 cm. Which statement about the net flux through these surfaces is correct?
correct?
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The net flux through the larger sphere is the same as the net flux through the smaller sphere. |
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The net flux through the larger sphere is half the net flux through the smaller sphere.
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The net flux through the larger sphere is four times the net flux through the smaller sphere.
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The net flux through the larger sphere is one fourth the net flux through the smaller sphere.
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The net flux through the larger sphere is twice the net flux through the smaller sphere. |
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