Solving series differential equation use ode45
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i need to solve the following equations in matlab:
and my codes looks like this :
%initial condition
y0=[0;0;0];
%calling ode function
BO=[0.1 0.2 0.3 0.5 0.8 1 1.5 2];
for i=1:8
bo=BO(i);
[s,y]=ode45(@(s,y) lapalce(s,y,bo),[0 3],y0);
plot(s,y(1));
hold on
end
function dydt=lapalce(s,y,bo)
dydt=[2-bo*y(2)-((sin(y(1))/y(3)));
sin(y(1));
cos(y(1))];
end
matlab is giving me answers like
NaN NaN NaN
NaN NaN NaN
NaN NaN NaN
NaN NaN NaN
NaN NaN NaN
NaN NaN NaN
NaN NaN NaN
NaN NaN NaN
NaN NaN NaN
NaN NaN NaN
NaN NaN NaN
NaN NaN NaN
NaN NaN NaN
NaN NaN NaN
can anyone tell me what went wrong?
Réponse acceptée
Star Strider
le 25 Fév 2020
Yes!
The problem is:
y0=[0;0;0];
so:
sin(y(1))/y(3)
will be NaN because sin(0)=0, and 0/0 (and Inf/Inf) result in NaN values.
Settimg ‘y0’ to very small values instead:
y0=[0;0;0]+1E-12;
may give you useful output.
2 commentaires
Abert
le 26 Fév 2020
Star Strider
le 26 Fév 2020
As always, my pleasure!
Having all zero initial conditions (or initial estimates in other contexts and applications) is likely not the best approach.
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