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Electricity and Magnetism
Physics 208 Dr. Tatiana Erukhimova Lecture 15
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An Apparent Contradiction
- + Near the surface of any conductor in electrostatics
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What have we learned about conductors?
There is no electric field inside a conductor Net charge can only reside on the surface of a conductor Any external electric field lines are perpendicular to the surface (there is no component of electric field that is tangent to the surface). The electric potential within a conductor is constant
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The conductor’s surface is an equipotential.
since inside the conductor. For any two points and inside the conductor The conductor’s surface is an equipotential.
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Equipotential Surfaces
An equipotential surface is a surface on which the electric potential V is the same at every point. Because potential energy does not change as a test charge moves over an equipotential surface, the electric field can do no work on such a charge. So, electric field must be perpendicular to the surface at every point so that the electric force is always perpendicular to the displacement of a charge moving on the surface. Field lines and equipotential surfaces are always mutually perpendicular.
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Method of images: What is a force on the point charge near a conducting plate?
- Equipotential surface - -
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The force acting on the positive charge is exactly the same as it would be with the negative image charge instead of the plate. The point charge feels a force towards the plate with a magnitude:
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Method of images: A point charge near a conducting plane.
- Equipotential surface - -
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Equilibrium in electrostatic field: Earnshaw’s theorem
There are NO points of stable equilibrium in any electrostatic field! How to prove it? Gauss’s Law will help! Imaginary surface surrounding P P If the equilibrium is to be a stable one, we require that if we move the charge away from P in any direction, there should be a restoring force directed opposite to the displacement. The electric field at all nearby points must be pointing inward – toward the point P. But that is in violation of Gauss’ law if there is no charge at P.
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Thomson’s atom 1899 If charges cannot be held stably, there cannot be matter made up of static point charges (electrons and protons) governed only by the laws of electrostatics. Such a static configuration would collapse!
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Hw quiz An infinitesimally thin, insulating, uniformly charged horizontal sheet has a small charged object “floating” above it. If the object has mass m and charge Q, find σ, the charge per unit area on the sheet. Assume the sheet is of infinite extent.
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There is a conducting spherical shell, inner radius A and outer radius B. A charge Q1 is put at the center. If you now put charge -2Q1 on the shell, find the charge density everywhere. A sphere of radius A has a charge Q uniformly spread throughout its volume. Find the difference in the electric potential, in other words, the voltage difference, between the center and a point 2A from the center.
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