An imaginary cubical surface of side LL has its edges parallel to the x-, y- and z-axes, one corner at the point x=0, y=0, z=0 and the opposite corner at the point x=L, y=L ,z=L. The cube is in a region of uniform electric field E⃗ =E1iˆ+E2jˆ, where E1E1 and E2E2 are positive constants. Calculate the electric flux through (a) the cube face in the plane z=0, (b) the cube face in the plane z=L, and (c) the entire cubical surface. For each face the normal points out of the cube.
An imaginary cubical surface of side LL has its edges parallel to the x-, y- and z-axes, one corner at the point x=0, y=0, z=0 and the opposite corner at the point x=L, y=L ,z=L. The cube is in a region of uniform electric field E⃗ =E1iˆ+E2jˆ, where E1E1 and E2E2 are positive constants. Calculate the electric flux through (a) the cube face in the plane z=0, (b) the cube face in the plane z=L, and (c) the entire cubical surface. For each face the normal points out of the cube.
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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An imaginary cubical surface of side LL has its edges parallel to the x-, y- and z-axes, one corner at the point x=0, y=0, z=0 and the opposite corner at the point x=L, y=L ,z=L. The cube is in a region of uniform electric field E⃗ =E1iˆ+E2jˆ, where E1E1 and E2E2 are positive constants. Calculate the electric flux through (a) the cube face in the plane z=0, (b) the cube face in the plane z=L, and (c) the entire cubical surface. For each face the normal points out of the cube.
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