2345678 9 10 11 12 13 14 15 16 17 18 19 % % Compute impulse response for a second-order system % Duplicate Figure 5.5 % t=[0:0.1:10]; num= [1]; sys2=tf(num, den2); zeta1=0.1; den1= [1 2*zetal 1]; sys1=tf(num, den1); zeta2=0.25; den2= [1 2*zeta2 1]; zeta3=0.5; den3= [1 2*zeta3 1]; zeta4=1.0; den4=[1 2*zeta4 1]; sys3=tf(num, den3); sys4=tf(num, den4); % [y1, T1]=impulse (sys1,t); [y2, T2]=impulse (sys2, t); [y3, T3]=impulse (sys3, t); [y4, T4]=impulse (sys4, t); % plot(t, yl,t,y2, t, y3, t, y4) xlabel('\omega_n t'), ylabel('y(t)/\omega_n') title('\zeta = 0.1, 0.25, 0.5,1.0'), grid
2345678 9 10 11 12 13 14 15 16 17 18 19 % % Compute impulse response for a second-order system % Duplicate Figure 5.5 % t=[0:0.1:10]; num= [1]; sys2=tf(num, den2); zeta1=0.1; den1= [1 2*zetal 1]; sys1=tf(num, den1); zeta2=0.25; den2= [1 2*zeta2 1]; zeta3=0.5; den3= [1 2*zeta3 1]; zeta4=1.0; den4=[1 2*zeta4 1]; sys3=tf(num, den3); sys4=tf(num, den4); % [y1, T1]=impulse (sys1,t); [y2, T2]=impulse (sys2, t); [y3, T3]=impulse (sys3, t); [y4, T4]=impulse (sys4, t); % plot(t, yl,t,y2, t, y3, t, y4) xlabel('\omega_n t'), ylabel('y(t)/\omega_n') title('\zeta = 0.1, 0.25, 0.5,1.0'), grid
Database System Concepts
7th Edition
ISBN:9780078022159
Author:Abraham Silberschatz Professor, Henry F. Korth, S. Sudarshan
Publisher:Abraham Silberschatz Professor, Henry F. Korth, S. Sudarshan
Chapter1: Introduction
Section: Chapter Questions
Problem 1PE
Related questions
Question
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Could you please explain what this matlab code means and does in detail. Thank you
![2345678
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%
% Compute impulse response for a second-order system
% Duplicate Figure 5.5
%
t=[0:0.1:10]; num= [1];
sys2=tf(num, den2);
zeta1=0.1; den1= [1 2*zetal 1]; sys1=tf(num, den1);
zeta2=0.25; den2= [1 2*zeta2 1];
zeta3=0.5; den3= [1 2*zeta3 1];
zeta4=1.0; den4=[1 2*zeta4 1];
sys3=tf(num, den3);
sys4=tf(num, den4);
%
[y1, T1]=impulse (sys1,t);
[y2, T2]=impulse (sys2, t);
[y3, T3]=impulse (sys3, t);
[y4, T4]=impulse (sys4, t);
%
plot(t, yl,t,y2, t, y3, t, y4)
xlabel('\omega_n t'), ylabel('y(t)/\omega_n')
title('\zeta = 0.1, 0.25, 0.5,1.0'), grid](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Ff03f8eaa-7224-4d1a-998e-bbaa5add64e6%2F4bb2cced-41ea-4e08-aa20-7b6d7b3fda99%2F6ds2wun_processed.png&w=3840&q=75)
Transcribed Image Text:2345678
9
10
11
12
13
14
15
16
17
18
19
%
% Compute impulse response for a second-order system
% Duplicate Figure 5.5
%
t=[0:0.1:10]; num= [1];
sys2=tf(num, den2);
zeta1=0.1; den1= [1 2*zetal 1]; sys1=tf(num, den1);
zeta2=0.25; den2= [1 2*zeta2 1];
zeta3=0.5; den3= [1 2*zeta3 1];
zeta4=1.0; den4=[1 2*zeta4 1];
sys3=tf(num, den3);
sys4=tf(num, den4);
%
[y1, T1]=impulse (sys1,t);
[y2, T2]=impulse (sys2, t);
[y3, T3]=impulse (sys3, t);
[y4, T4]=impulse (sys4, t);
%
plot(t, yl,t,y2, t, y3, t, y4)
xlabel('\omega_n t'), ylabel('y(t)/\omega_n')
title('\zeta = 0.1, 0.25, 0.5,1.0'), grid
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