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Charles Allison © 2000 Chapter 22 Gauss’s Law HW# 5 : Chap.22: Pb.1, Pb.6, Pb.24, Pb.27, Pb.35, Pb.46 Due Friday: Friday, Feb 27.

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Presentation on theme: "Charles Allison © 2000 Chapter 22 Gauss’s Law HW# 5 : Chap.22: Pb.1, Pb.6, Pb.24, Pb.27, Pb.35, Pb.46 Due Friday: Friday, Feb 27."— Presentation transcript:

1 Charles Allison © 2000 Chapter 22 Gauss’s Law HW# 5 : Chap.22: Pb.1, Pb.6, Pb.24, Pb.27, Pb.35, Pb.46 Due Friday: Friday, Feb 27

2 Charles Allison © 2000 22-3 Applications of Gauss’s Law Example 22-5: Nonuniformly charged solid sphere. Suppose the charge density of a solid sphere is given by ρ E = αr 2, where α is a constant. (a) Find α in terms of the total charge Q on the sphere and its radius r 0. (b) Find the electric field as a function of r inside the sphere.

3 Charles Allison © 2000 22-3 Applications of Gauss’s Law Example 22-6: Long uniform line of charge. A very long straight wire possesses a uniform positive charge per unit length, λ. Calculate the electric field at points near (but outside) the wire, far from the ends.

4 Charles Allison © 2000 22-3 Applications of Gauss’s Law Example 22-7: Infinite plane of charge. Charge is distributed uniformly, with a surface charge density σ (σ = charge per unit area = dQ/dA) over a very large but very thin nonconducting flat plane surface. Determine the electric field at points near the plane.

5 Charles Allison © 2000 22-3 Applications of Gauss’s Law Example 22-8: Electric field near any conducting surface. Show that the electric field just outside the surface of any good conductor of arbitrary shape is given by E = σ/ε 0 where σ is the surface charge density on the conductor’s surface at that point.

6 Charles Allison © 2000 22-3 Applications of Gauss’s Law The difference between the electric field outside a conducting plane of charge and outside a nonconducting plane of charge can be thought of in two ways: 1. The field inside the conductor is zero, so the flux is all through one end of the cylinder. 2. The nonconducting plane has a total charge density σ, whereas the conducting plane has a charge density σ on each side, effectively giving it twice the charge density.

7 Charles Allison © 2000 22-3 Applications of Gauss’s Law Procedure for Gauss’s law problems: 1. Identify the symmetry, and choose a gaussian surface that takes advantage of it (with surfaces along surfaces of constant field). 2. Draw the surface. 3. Use the symmetry to find the direction of E. 4. Evaluate the flux by integrating. 5. Calculate the enclosed charge. 6. Solve for the field.

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