Difference between revisions of "Lecture 3."
From Maxwell
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| − | == | + | == Quasistatic Electromagnetic Field == |
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| − | + | The most important case for electromagnetic equipment (sensors, actuators, motors, etc.) is the quasistatic case often referred to as the eddy current or magnetodynamic case. For quasistatic electromagnetic field we can neglect the displacement current density term <math>\partial \vec{D}/\partial t</math>, which gives Maxwell's equations to the following form | |
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Revision as of 21:34, 12 March 2019
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Coupled Finite Element Method / Time-Dependent Magnetic Field | |
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Instructor
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Teaching Assistants:
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Csatolt végeselem-módszer (FEM)
Quasistatic Electromagnetic Field
The most important case for electromagnetic equipment (sensors, actuators, motors, etc.) is the quasistatic case often referred to as the eddy current or magnetodynamic case. For quasistatic electromagnetic field we can neglect the displacement current density term [math]\partial \vec{D}/\partial t[/math], which gives Maxwell's equations to the following form
