solution_hw2

solution_hw2 - In fact, the steady state value of the...

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Problem # 4( i )
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Problem # 4( ii )
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iii) As τ increases, the poles get closer to the imaginary axis. So, the response of the system becomes slower, i.e. the time to asymptotically reach the steady-state (for step response) increases, and the time to asymptotically decay to zero (for impulse response) also increases. As DC gain increases, the steady state value of step response increases.
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Unformatted text preview: In fact, the steady state value of the response to a unit step is the DC gain. Initial jump of the impulse response depends on the ratio K . That is, if DC gain increases, the jump becomes bigger, but if increases, the jump becomes smaller....
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This note was uploaded on 06/15/2009 for the course MAE 4310 taught by Professor Staff during the Fall '08 term at UT Arlington.

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solution_hw2 - In fact, the steady state value of the...

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