Can someone explain this problem step by step? 3. For each of the transfer functions shown below:(a) plot the locations of the poles and zeros on the s-plane,(b) write an expression for the general form of the step response,(c) calculate the exact step response of each system,(d) State the nature of each response (undamped, underdamped, and so on)21. T(s)=-2. T(s)=-S+2'4. T(s)=202s² +6s+144'5(s+3)(s+6)2S+2$² +9³5. T(s)=-10(s+7)(s+10)(s+20)3. T(s).s+5(s+10)²6. T(s) - 3. For each of the transfer functions shown below:(a) plot the locations of the poles and zeros on the s-plane,(b) write an expression for the general form of the step response,(c) calculate the exact step response of each system,(d) State the nature of each response (undamped, underdamped, and so on)21. T(s)=-2. T(s)=3. T(s)=S+24. T(S)=20s² +6s+1445(s+3)(s+6)'S+2s² +95. T(s)=-"10(s+7)(s+10)(s+20)s+5(s+10)²6. T(s)=-

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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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Can someone explain this problem step by step?

3. For each of the transfer functions shown below:
(a) plot the locations of the poles and zeros on the s-plane,
(b) write an expression for the general form of the step response,
(c) calculate the exact step response of each system,
(d) State the nature of each response (undamped, underdamped, and so on)
2
1. T(s)=-
2. T(s)=-
S+2'
4. T(s)=
20
2
s² +6s+144'
5
(s+3)(s+6)
2
S+2
$² +9³
5. T(s)=-
10(s+7)
(s+10)(s+20)
3. T(s).
s+5
(s+10)²
6. T(s) -

Expert Solution

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Since you have posted multiple questions with multiple sub parts, we will provide the solution only to the first three sub parts of the first question as per Q&A guidelines. Please re post the remaining question by specifying the sub parts need to be answered.

Given:

System function,

$T (s) = \frac{2}{s + 2},$

To find:

a) Plot the location of poles and zeros on the s-plane.

b) Expression for the general form of step response.

c) Exact step response of the system.

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