How to plot a Damped and driven oscillation
Afficher commentaires plus anciens
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)
1 commentaire
suman shah
le 28 Déc 2021
for dot product use .* together
Réponses (1)
Chad Greene
le 19 Juil 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)
4 commentaires
Lukas Goldschmied
le 19 Juil 2017
Chad Greene
le 20 Juil 2017
What's the mathematical expression for the signal you're trying to plot?
Lukas Goldschmied
le 20 Juil 2017
Chad Greene
le 20 Juil 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)
Catégories
En savoir plus sur Programming dans Centre d'aide et File Exchange
le 19 Juil 2017
le 28 Déc 2021
Community Treasure Hunt
Find the treasures in MATLAB Central and discover how the community can help you!
Start Hunting!
Translated by 
