How to plot a Damped and driven oscillation

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Lukas Goldschmied
Lukas Goldschmied on 19 Jul 2017
Commented: suman shah on 28 Dec 2021
I try to compute a simple damped and driven oscillation but it just won't work out. Is there anybody who can help me? This is my code:
q = [0:10];
q = q(:);
for(x=1:10)
q(x);
for(t=0:0.1:1)
q(x)= exp(-t)*(exp(2*t)-exp(-2*t));
end
end
plot(q)

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Answers (1)

Chad Greene
Chad Greene on 19 Jul 2017
Hi Lukas,
For starters, it looks like you're doing a lot of unnecessary steps. I think the code above can be rewritten simply as
t = 0:0.1:1;
q = exp(-t).*(exp(2*t)-exp(-2*t));
plot(t,q)
However, that's not going to give you a damped oscillation. Maybe you want something more like this?
t = 0:0.1:100;
q = exp(-t/10).*sin(2*t);
plot(t,q)
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Lukas Goldschmied
Lukas Goldschmied on 20 Jul 2017
a*exp(-gt)*sinh(a*t) with and g are const.
Chad Greene
Chad Greene on 20 Jul 2017
This should do the trick:
a = 5;
g = 7;
t = 0:0.01:1;
q = a*exp(-g*t).*sinh(a*t);
plot(t,q)

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