The Class Notes: Difference between revisions
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<math> R_g= \frac{g}{\mu_0 (\sqrt{A} + g)^2}</math> |
<math> R_g= \frac{g}{\mu_0 (\sqrt{A} + g)^2}</math> |
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<math> \phi\ = B(\sqrt{A} + g)^2 = \frac{NI}{R_g + R_c}</math> |
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<math> \B_g \frac{NI}{(R_g + R_c)(\sqrt{A}+g)^2}</math> |
Revision as of 15:40, 25 January 2010
Notes for reviewer Be sure all 'l' have been replaced with
4 jan 2010
Picture drawn by Kirk Betz based on drawing by Dr. Frohnes, lecture Jan. 4, 2010
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Magnetic Circuits
jan 6 2010
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
,
Failed to parse (unknown function "\B"): {\displaystyle \B_g \frac{NI}{(R_g + R_c)(\sqrt{A}+g)^2}}