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Faraday's Law
https://www.youtube.com/watch?v=O5jo9P4-gH4 -- Reply in group, but if emailing add one more zero, and remove the last word. |
Faraday's Law
On Sat, 24 Nov 2012 02:17:44 -0500, "Tom Del Rosso"
wrote: https://www.youtube.com/watch?v=O5jo9P4-gH4 It will be interesting to see what everyone says. |
Faraday's Law
Basically semantics about where the "winding" is. Note that he indicates
0.9V - (-0.1V) = 1V for the total loop voltage; Kirchoff isn't violated if the EMF is placed symbolically somewhere in the loop. Where doesn't matter, and in reality, it will be evenly distributed (of course, we don't have non-Laplacian fields, either, so there will be a nonzero amount in the voltmeter loops as well). Calling it "nonintuitive" is silly. There is nothing nonintuitive about Maxwell's equations (at least until you start throwing nonlinear materials around). E&M is *easy*. The people I really feel bad for are the people involved in any fluids: aerodynamics, fluid mechanics, hydraulics, etc. The Navier-Stokes equations can be linearly approximated in only a limited set of cases -- small Reynolds number. Any real, interesting and useful application is hopelessly difficult to analyze, and, until recently, was mostly confined to empirical data (this flow through this roughness of pipe requires so-and-so pressure drop) and trial-and-error experiments. They tried, what, hundreds of combustion chamber designs on the Saturn V rocket before they found one that didn't KATO? Nowadays, these systems can be simulated, at huge computational expense, still involving many turbulence and scale-related approximations to try to optimize the process, but the development of models is still largely dependent on the user. Tim -- Deep Friar: a very philosophical monk. Website: http://webpages.charter.net/dawill/tmoranwms "Tom Del Rosso" wrote in message ... https://www.youtube.com/watch?v=O5jo9P4-gH4 -- Reply in group, but if emailing add one more zero, and remove the last word. |
Faraday's Law
On 11/24/2012 12:45 PM, Tim Williams wrote:
Calling it "nonintuitive" is silly. There is nothing nonintuitive about Maxwell's equations (at least until you start throwing nonlinear materials around). E&M is *easy*. Tim Sometimes profs like to hype their lessons so the students don't drift off :-) |
Faraday's Law
Tom Del Rosso wrote:
https://www.youtube.com/watch?v=O5jo9P4-gH4 Assume that there is a loop with R1, R2 in a uniform increasing magnetic field. And assume that points A and D are selected on either side of the loop such that the integral(dL) through each half of the loop are the same. I think you will see 0.4V on each voltmeter. Kirchoff's Law still holds if you model the induced E in the loop as distributed voltage sources depending on integral(dL). -- Paul Hovnanian ------------------------------------------------------------------ Smoking is one of the leading causes of statistics. -- Fletcher Knebel |
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