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==Magnetic Circuits == |
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==Magnetic Circuits == |
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jan 6 2010
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''January 6 2010'' |
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From circuits we know that V is a function of the E field. |
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<math> V\ = \int ed\ell </math> |
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The E field moves along a closed path of length <math> \ell </math>. By integrating E along the path <math> \ell </math> we find the Voltage V as shown in the above equation. |
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integrated the e field along the path |
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<math> \vec F\ = q \vec v \times \vec B </math> |
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<math> \vec F\ = q \vec v \times \vec B </math> |
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[[Image:Magnetic_cir.JPG]] |
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[[Image:Magnetic_cir.JPG]] |
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Picture drawn by Kirk Betz based on drawing by Dr. Frohnes, lecture Jan. 6, 2010 |
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Picture drawn by Kirk Betz based on drawing by Dr. Frohnes, lecture Jan. 6, 2010 |
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==Magnetic Equations== |
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==Magnetic Equations== |
The following are the notes as interpreted by Kirk Betz from ENGR 431 taught by Dr. Rob Frohne.
Electrical Magnetic Conversion is the study of magnetic circuits in all there forms.
Notes for reviewer
Be sure all 'l' have been replaced with
EMEC Notes
January 4, 2010
Introduction to EMEC
Syllabus was handed out and an outline of the class structure what introduce. We where also briefed on what we would be talking about his quarter.
Magnetic Circuits
January 6 2010
From circuits we know that V is a function of the E field.
The E field moves along a closed path of length . By integrating E along the path we find the Voltage V as shown in the above equation.
integrated the e field along the path
Picture drawn by Kirk Betz based on drawing by Dr. Frohnes, lecture Jan. 6, 2010
Magnetic Equations
Picture drawn by Kirk Betz based on drawing by Dr. Frohnes, lecture Jan. 6, 2010
Pictures drawn by Kirk Betz based on drawing by Dr. Frohnes, lecture Jan. 6, 2010
Magnetic Circuits Examples
What about chancing currents, etc.?
Picture drawn by Kirk Betz based on drawing by Dr. Frohnes, lecture Jan. 8, 2010
Case i)
Something about this part doesn't seem right.
Graph and picture 6
,
Magnetic Circuits Continued
jan 11, 2010
some random graph here, can't really read it.
Case ii) Include non-linearity & find B in the Gap
picture 7 goes here
not sure about the -1 here
What energy is list in the hysteresis loop?
hmm check these
e is voltage