7) A charge q = 2.00 µC is placed at the origin in a region where there is already a uniform electric field É = (100 N/C) i . Calculate the flux of the net electric field through a Gaussian sphere of radius R = 10.0 cm centered at the origin. (Ɛo = 8.85 × 1o-12 C2/N · m²) A) 2.26 x 105 N · m2/C C) 1.13 x 105 N · m2/C B) 5.52 x 105 N · m2/C D) zero
7) A charge q = 2.00 µC is placed at the origin in a region where there is already a uniform electric field É = (100 N/C) i . Calculate the flux of the net electric field through a Gaussian sphere of radius R = 10.0 cm centered at the origin. (Ɛo = 8.85 × 1o-12 C2/N · m²) A) 2.26 x 105 N · m2/C C) 1.13 x 105 N · m2/C B) 5.52 x 105 N · m2/C D) zero
Physics for Scientists and Engineers, Technology Update (No access codes included)
9th Edition
ISBN:9781305116399
Author:Raymond A. Serway, John W. Jewett
Publisher:Raymond A. Serway, John W. Jewett
Chapter24: Gauss’s Law
Section: Chapter Questions
Problem 24.63CP: A dosed surface with dimensions a = b= 0.400 111 and c = 0.600 in is located as shown in Figure...
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Since a Gaussian surface in the form of a sphere at radius r, the electric field has a similar magnitude at every point of the sphere and is focused outward. The electric flux is the electric field multiplied by the area of the sphere.
The flux of the net electric field,
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