EE101 HW3

EE101 HW3 - is located at z = -d. Please find the surface...

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EE 101; Homework 3: DUE OCTOBER 23 TH Thursday 2 PM; (THERE WILL BE A COLLECTION BOX IN MARIKO WALTON’S CUBICLE ON THE 6 TH FLOOR OF ENGR IV.) 1. In the figure below shows three planar dielectric slabs of equal thickness but with different dielectric constants. If E o in air makes and angle of 45 o with respect to the z-axis, find the angle of E in each of the other layers.
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2. The figure below depicts a capacitor consisting of two parallel, conducting plates separated by a distance d. The space between the plates contains two adjacent dielectrics, one with permittivity 1 and surface area A 1 , and another with 2 and A 2 . Please find the capacitance of the structure. 3. As shown in the figure, suppose that the space of z 0 is occupied by a perfect conductor body, and an infinite long line charge with charge density
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Unformatted text preview: is located at z = -d. Please find the surface charge density distribution on the perfect conductor surface at z = 0. 4. The x-y plane contains a uniform sheet of charge with charge density of 0.2(nC/m^2) and a second sheet with -0.2(nC/m^2) occupies the plane z=6m. Find VAB , VBC , and VAC for A(0,0,6m) ,B(0,0,0),and C(0,-2m,2m). 5. A spherical shell with outer radius b surrounds a charge-free cavity of radius a<b, if the shell contains a charge density given by ,where v0 is a positive constant, determine D in all regions. 6. Use the image method to find the capacitance per unit length of an infinitely long conducting cylinder of radius a situated at a distance d from a parallel conducting plane, as shown below:...
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This note was uploaded on 12/14/2008 for the course EE 101 taught by Professor Williams during the Fall '07 term at UCLA.

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EE101 HW3 - is located at z = -d. Please find the surface...

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