Question Y(s) below, do the following: U(s) 3. Given the transfer function a) Find the response y(t), with the input u(t) = 5 u, ; b) Applying the final value theorem, find the steady state response using an input u(t) = 7us Y(s) 6. U(s) s² + 12s + 35 Part C- Take the transfer function from (3.) and derive a state space model using the techniques from the course.
Question Y(s) below, do the following: U(s) 3. Given the transfer function a) Find the response y(t), with the input u(t) = 5 u, ; b) Applying the final value theorem, find the steady state response using an input u(t) = 7us Y(s) 6. U(s) s² + 12s + 35 Part C- Take the transfer function from (3.) and derive a state space model using the techniques from the course.
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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Question
** REMEMBER 3 parts ( A-C) use image below
Transcribed Image Text:Question A, B &C (3 Parts) Solve carefully and label both parts (circle final
answer(s) (Use image Below)
Question
Y(s)
below, do the following:
U(s)
3. Given the transfer function
a) Find the response y(t), with the input u(t) = 5 us ;
b) Applying the final value theorem, find the steady state response using an input u(t) = 7us
Y(s)
6
%3D
U(s)
s² + 12s + 35
Part C - Take the transfer function from (3.) and derive a state space model using the
techniques from the course.
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