Solve All parts or will dislike answer A. Find the open-loop transfer function . Y(S) / R(S) B. Find ?(?) when the input ?(?) is a step function (use expansion of partial fractions). C. State the damping factor ?. D. Indicate whether the system is overdamped, underdamped, or critically damped. E. Indicate the natural frequency of the system ??. F. Indicate the poles and zeros of the system.
Solve All parts or will dislike answer
A. Find the open-loop transfer function .
Y(S) / R(S)
B. Find ?(?) when the input ?(?) is a step function (use expansion of partial fractions).
C. State the damping factor ?.
D. Indicate whether the system is overdamped, underdamped, or critically damped.
E. Indicate the natural frequency of the system ??.
F. Indicate the poles and zeros of the system.
G. Use the end theorem to find the steady-state value.
H. Find ?(?) (use inverse Laplace transform).
I. Plot the time response of the system.
We are authorized to answer three subparts at a time, since you have not mentioned which part you are looking for, so we are answering the first three subparts, please repost your question separately for the remaining subpart.
Note: Second part is incomplete so we are solving part d.
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