Gauss\' Law states that the electric field inside a closed conductor is zero. Th
ID: 1900517 • Letter: G
Question
Gauss' Law states that the electric field inside a closed conductor is zero.The electric field must be perpendicular to the surface of a conductor.For a charged hollow metal sphere with total charge Q and radius R centered on the origin:
? inside the metal the field is strongest.
? the charge is on the inside surface.
? the field inside the shell is zero.
? only positive charges can be on the outside surface.
? the field on the outside is perpendicular to the surface.
? the field for r > R will be the same as the field of a point charge, Q, at the origin.
Explanation / Answer
A driver is characterized by the charge carriers can move freely within it. If the charges in a conductor in equilibrium at rest, the electric field intensity in all interior points of the same must be zero, otherwise, would move the loads caused an electric current. Within a conductor arbitrarily draw a closed surface S, and it follows that: The electric field is zero, E=0 on all points of said surface. The flow through the closed surface S is zero. The net charge q on the inside of said surface is zero. As the closed surface S we can make it as small as we conclude that at any point P inside a conductor there is no excess burden, so this should be placed on the surface of the conductor. this should answer your question.
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