Not able to plot a proper graph for the equation.

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y = (1*1*((25)-(x.^2)))/((x.^4)-((x.^2)*((1*(1.78))+(25)+1))+(1*(25)));
fplot(y);
i used this code but am only getting a straight line instead of the 2 peak FRF that I want.
  7 Comments
Kartikeya
Kartikeya on 8 Jun 2024
@Torsten@Sam Chak Is it possible to get a graph like the following one for my case?

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Accepted Answer

John D'Errico
John D'Errico on 8 Jun 2024
Edited: John D'Errico on 8 Jun 2024
syms x
y = (1*1*((25)-(x.^2)))/((x.^4)-((x.^2)*((1*(1.78))+(25)+1))+(1*(25)))
y = 
First, where are the poles? A pole lives where the denominator is zero.
[N,D] = numden(y)
N = 
D = 
droot = solve(D)
droot = 
double(droot)
ans = 4x1
0.9650 5.1816 -0.9650 -5.1816
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So we need to look between -6 and 6.
fplot(y,[-6,6])
NO. It does not look the way you want it to look. But it is your function. You set the problem. If it does not look like what you want, then maybe you are starting with the wrong function.
  3 Comments
John D'Errico
John D'Errico on 8 Jun 2024
Edited: John D'Errico on 8 Jun 2024
That could be. And you could have offered that as an answer. But my mind reading abilities are sometimes lacking, only answering the question posed, instead of answering a different question. If I always tried that, I'd end up chasing into infinitely many rabbit holes.
Kartikeya
Kartikeya on 8 Jun 2024
@Sam Chak @Torsten @John D'Errico Guys I got the whole thing. Just had to use the absolute values of the y variable that I got. Thanks for your help, all of you.
x = 0:0.1:10;
y = (1*1*((25)-(x.^2)))./((x.^4)-((x.^2)*((1*(1.78))+(25)+1))+(1*(25)));
plot(y);
xlim([0 100]);
ylim([0 inf]);
xlabel('Natural Frequency Ratio');
ylabel('Amplitude x_0');
z = abs(y);
disp(z);
plot(z);

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