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<table width="600" bgcolor="#ffffff" cellspacing="0" cellpadding="0" height="100%" border="0"> <tbody><tr> <td width="9" align="LEFT" valign="TOP" height="286"> </td> <td colspan="2" align="CENTER" valign="TOP"> <table width="99%" cellpadding="2" border="0"> <tbody><tr> <td height="30"> | | <strong><font face="Arial,Helvetica"><font color="#000099"><font size="+1">ECE 401 - Quasi-Static Electric and Magnetic Fields</font></font></font></strong> | </td> </tr> <tr> <td> --- </td> </tr> <tr align="LEFT" valign="TOP"> <td><font face="Arial,Helvetica"><font size="-1"><strong>Description:</strong> Credit 3U/4G. Static electric and magnetic fields. Material description, boundary value problems. Field energy, its conversion and scaling laws. Quasi-static fields, field diffusion, eddy currents, energy losses.</font></font> <font face="Arial,Helvetica"><font size="-1"><strong>Prerequisite:</strong> ECE 322</font></font> <font face="Arial,Helvetica"><font size="-1"><strong>Textbooks:</strong> "Electromagnetic Concepts and Applications," S.V. Marshal, R.E. DuBroff, G.G. Skitek, Prentice Hall, N.J., Fourth Edition.</font></font> <strong><font face="Arial,Helvetica"><font size="-1">Topics: </font></font></strong> <blockquote> <li> <font face="Arial,Helvetica"><font size="-1">Vector calculus (gradient, divergence, circulation, Green's theorems, determination of fields from sources)</font></font> </li> <li> <font face="Arial,Helvetica"><font size="-1">Electrostatic field in vacuum, potential and its properties, multi-pole expansion, dipoles, </font></font></li> <br /><font face="Arial,Helvetica"><font size="-1">charges at interfaces and double layer.</font></font> <li> <font face="Arial,Helvetica"><font size="-1">Electrostatic fields in material media, boundary value problems, Green's function and </font></font></li> <br /><font face="Arial,Helvetica"><font size="-1"> reciprocity.</font></font> <li> <font face="Arial,Helvetica"><font size="-1">Electrostatic energy, capacitance, scalling laws for electrostatic energy, forces, actuation, and </font></font></li> <br /><font face="Arial,Helvetica"><font size="-1">electrostatic energy conversion.</font></font> <li> <font face="Arial,Helvetica"><font size="-1">Magnetostatic fields in vacuum, magnetic scalar and vector potentials, multi-pole expansion, </font></font></li> <br /><font face="Arial,Helvetica"><font size="-1">magneticdipoles.</font></font> <li> <font face="Arial,Helvetica"><font size="-1">Magnetostatic fields in material media, boundary value problems, magnetic circuits, magnatic </font></font></li> <br /><font face="Arial,Helvetica"><font size="-1">coupling and reciprocity.</font></font> <li> <font face="Arial,Helvetica"><font size="-1">Magnetostatic energy, inductance, scaling laws, magnetic forces, actuation and energy conversion.</font></font> </li> <li> <font face="Arial,Helvetica"><font size="-1">Maxwell's equations and quasi-static electro-magnetic fields, electromagnetic induction and </font></font></li> <br /><font face="Arial,Helvetica"><font size="-1">transformers.</font></font> <li> <font face="Arial,Helvetica"><font size="-1">Diffusion of quasi-static fields into conducting medium, boundary value problems, eddy currents and proximity effects.</font></font></li> </blockquote> </td> </tr> </tbody></table> </td> </tr> </tbody></table>
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Topic revision: r1 - 2010-06-30 - 20:44:57 - Main.ala
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