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Jay Kadis wrote:
In article , Logan Shaw wrote: Physics seems to tell me that pressure will be proportional to force, and force is what accelerates the diaphgram. Therefore, shouldn't the pressure and the diaphgram's instantaneous acceleration be proportional? If so, then the diaphragm's velocity is the integral of the pressure over time. You seem to be ignoring the restoring force, since the diaphragm is restrained and not free to move in response to the pressure exerted. Hmm, I am starting to learn that all this stuff is way more complicated than I thought it was. Thought I understood it, but apparently only in a very shallow sense. How big is the restoring force compared to the force due to pressure? I'm assuming significantly smaller, so that ignoring it can still give you a workable first-order approximation. Or is that not true? - Logan |
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