Electromechanical Dynamics (Part 1).0034

Electromechanical Dynamics (Part 1).0034 - V x E = 0...

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Table 1.2 Summary of Quasi-Static Electromagnetic Equations Differential Equations Integral Equations Magnetic field system V x H = J, (1.1.1) c H.di =fJ.nda (1.1.20) V.B=0 (1.1.2) B n da = 0 (1.1.21) V. Jf = 0 (1.1.3) J. n da = 0 (1.1.22) aB dt Vx E = (1.1.5) E'. dl = -- B. n da (1.1.23) at dt where E' = E + v x B Electric field system
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Unformatted text preview: V x E = 0 (1.1.11) E . dl = 0 (1.1.24) V. D = p, (1.1.12) S Onda = f, l dV (1.1.25) V. J- = ---(1.1.14) J" n da= -pdV (1.1.26) VX H = J + (1.1.15) H'dl = J n da + D .nda (1.1.27) where J' = Jf -pv H'=H-v x D A-PDF Split DEMO : Purchase from www.A-PDF.com to remove the watermark...
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This note was uploaded on 02/10/2012 for the course MECE 4371 taught by Professor Liu during the Fall '11 term at University of Houston.

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