An insulating sphere of radius R = 2 mm has a net charge Q = 33 pC- A concentric Gaussian sphere S has a radius r = 13 mm. We consider also a line of charge with charge density 1 = 4 nC/m passing by the center of the spheres as shown in the figure. Calculate the net electric flux through Gaussian sphere S.
An insulating sphere of radius R = 2 mm has a net charge Q = 33 pC- A concentric Gaussian sphere S has a radius r = 13 mm. We consider also a line of charge with charge density 1 = 4 nC/m passing by the center of the spheres as shown in the figure. Calculate the net electric flux through Gaussian sphere S.
Chapter6: Gauss's Law
Section: Chapter Questions
Problem 71P: A solid cylindrical conductor of radius a is surrounded by a concentric cylindrical shell of inner...
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