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(c) A feedback system is shown in Figure Q1(c) below. y(s) u(s) G(s) Figure Q1(c), Block diagram (i) Find the closed-loop transfer function: y(s) when G(s)= u(s) T(s) = s(10+0.5s)

(c) A feedback system is shown in Figure Q1(c) below. y(s) u(s) G(s) Figure Q1(c), Block diagram (i) Find the closed-loop transfer function: y(s) when G(s)= u(s) T(s) = s(10+0.5s)

Introductory Circuit Analysis (13th Edition)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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(ii) Calculate the values of the system poles. (iii) Using the final value theorem with unit step input, determine the steady- state value of y(t). (iv) Determine the overshoot, the rise time and the settling time of the response for unit step input. 2.
Transcribed Image Text:(ii) Calculate the values of the system poles. (iii) Using the final value theorem with unit step input, determine the steady- state value of y(t). (iv) Determine the overshoot, the rise time and the settling time of the response for unit step input. 2.
(c) A feedback system is shown in Figure Q1(c) below. y(s) - u(s) G(s) Figure Q1(c), Block diagram (i) Find the closed-loop transfer function: y(s) when G(s)= u(s) 8. T(s) = s(10+0.5s)
Transcribed Image Text:(c) A feedback system is shown in Figure Q1(c) below. y(s) - u(s) G(s) Figure Q1(c), Block diagram (i) Find the closed-loop transfer function: y(s) when G(s)= u(s) 8. T(s) = s(10+0.5s)
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