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M E 357 HW #6 (Due 03/21/2014) Hint: Simplify the system using block diagram algebra rules before tracing the signals though all the blocks First,

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M E 357 HW #6 (Due 03/21/2014) Hint: Simplify the system using block diagram algebra rules before tracing the signals though all the blocks First, solve for the transfer function analytically and fully simplify . Then, enter the system into MATAB. Include your MATLAB code and its outputs. Explicitly indicate what your final transfer function is. What is the difference between what you got by hand and what you got in MATLAB? Why are they different, and does this difference matter?
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M E 357 HW #6 (Due 03/21/2014) Let R 1 =2 , R 2 =3 , C 2 =0.1F. Sketch (manually) the response of e 0 after the step input. Indicate the important features of the plot: the time constant and steady state value (Hint: convert the transfer function into standard form of 1st order system) Let k 1 =4 N/m, k 2 =12 N/m, b 1 =2 N/(m/s). Sketch (manually) the response of x 0 after the step input. Indicate the important features of the plot: the time constant and steady state value (Hint: convert the transfer function into standard form of 1st order system)
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