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ENE/EIE 325 Electromagnetic Fields and Waves
Lecture 7 Boundary Conditions and Capacitance
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Ex1 The isotropic dielectric medium with r1 = 3 and r2 = 2 is connected as shown. Given V/m, determine and its magnitude, and its magnitude, 1, and 2.
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Solution: Use Boundary Conditions. Since boundary is X-Y plane
Therefore, any vector that lies parallel to this plane is considered “tangential”. Since: Apply BC’s: Hence: Apply BC’s: or and so
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Therefore Next C/m2 where o = x F/m
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Ex2 Between a dielectric-conductor interface has a surface charge density of s = 2x109 C/m2. Given V/m, determine
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Capacitance Capacitance depends on the shape of conductor and the permittivity of the medium. Capacitance has a unit of Farad or F. From then
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Capacitance for parallel plate configuration
At lower plate, then The potential difference Let A = the plate area then Q = sA then
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Total energy stored in the capacitance
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Ex3 Determine the relative permittivity of the dielectric material inserted between a parallel plate capacitor if C = 40 nF, d = 0.1 mm, and A = 0.15 m2 d = 0.2 mm, E = 500 kV/m, and s = 10 C/m2
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Capacitance in various charge distribution configurations (1)
Coaxial cable Use Gauss’s law, …and the right hand side becomes:
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Farads
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Capacitance in various charge distribution configurations (2)
Sphere Use Gauss’s law,
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Farads
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Capacitance in various charge distribution configurations (3)
A parallel plate capacitor with horizontal dielectric layers Solution: suppose we assume a potential difference Vo between the plates. The electric field intensities between the two regions: E2 and E1 are both uniform and At the dielectric interface: Eliminate E2 in our Vo relation:
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And the surface charge density on the lower plate therefore has the magnitude:
Because D1 = D2, the magnitude of the surface charge is the same on each plate. The capacitance is then The two capacitors are connected in series!
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Capacitance in various charge distribution configurations (4)
A parallel plate capacitor with vertical dielectric layers Assume a potential difference Vo would produce field strength E1 = E2 = Vo/d. These are tangential fields at the interface, and they must be equal.
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The two capacitors are in parallel.
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Ex4 From the parallel capacitor shown, find the total capacitance.
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