Electromechanical Dynamics (Part 1).0078

Electromechanical Dynamics (Part 1).0078 - t> 0 when the...

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Problems displacement x is limited to the range -d < x < d. Show that the electrical terminal relations are Al = L 11 i, + L 12 i 2 , A 2 = L 1 2i1 + L 22 i 2 , where L = LO [3 - 2 - x L,=12 , = -LO 8lo[3+(4 - (x) What is L 0 in terms of the system geometry ? 2.4. (a) Write the differential equation governing the motion of mass M acted on by the force sourcef and the linear damper with coefficient B (Fig. 2P.4). (b) Calculate and make a dimensioned sketch of dx/dt and x as functions of time for
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Unformatted text preview: t > 0 when the force source is the impulse (uO = unit impulse) f = Iouo(t). (This is like hitting the mass with a hammer.) Fig. 2P.4 2.5. (a) Find the response x(t) of the system shown in Fig. 2P.5a to a driving force f(t) which is (1) an impulse f(t) = IoUo(t) , (2) a step f(t) = Fou_ 1 (t). Fig. 2P.5b Fig. 2P.5a A-PDF Split DEMO : Purchase from www.A-PDF.com to remove the watermark...
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This note was uploaded on 02/10/2012 for the course MECE 4371 taught by Professor Liu during the Fall '11 term at University of Houston.

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