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Gauss’s Law.

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Presentation on theme: "Gauss’s Law."— Presentation transcript:

1 Gauss’s Law

2 Electric Flux Measure of the number of electric field lines passing through a surface. For a uniform electric field Non-uniform electric field

3 Calculate Flux A square with an area of 5 m² has a surface normal of What is the flux through this surface if the square is embedded in a uniform electric field of ?

4 Closed Surface Consider the flux on a closed surface. Tp Bk Lf Rt Fr
Bt

5 Gauss’ Law Net electric flux through any closed gaussian surface is equal to the net charge inside divided by e0.

6 Point Charge Choose a sphere as your gaussian surface.
Electric field is perpendicular to the surface and of uniform strength at the surface. q

7 Line Charge Choose a cylinder as your gaussian surface.
Electric field is perpendicular to the walls and parallel to the end caps.

8 Sheet Charge Choose a box as your gaussian surface.
Electric field is perpendicular to the top & bottom, but parallel to the sides.

9 Volume Charge Choose a sphere as your gaussian surface.
Gaussian surface may be inside the volume. q

10 Conductors Electric field is zero inside a conductor
Any excess charge must be on the surface Electric field leaves perpendicular to the surface. Irregular shapes: more charge accumulates where the radius of curvature is smallest. Near the surface

11 Irregular Conductors How would you draw the electric field on the following conductors?

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