solve the mass spring system where the mass matrix depends explicitly on time
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Hello everyone,
I was wondering how to solve a system of two ODEs where the mass matrix is time dependent. The system of differential equation is in the following form:
[M]*X_double_dot +K*X=0;
where K=[2 1;5 8] and [M]=[t 0; 0 t], t is the time.
My question is : is it possible to solve this kind of ODEs with ode functions (ode45, ode15s,...) or one should evaluate the mass matrix at each time step ?
Best Regards,
Nado
1 Comment
Sam Chak
on 12 Apr 2023
Yes, possible. The total rocket mass also decreases as the acceleration of the rocket increases due to fuel mass burns away.
Accepted Answer
Torsten
on 12 Apr 2023
Setting y1' = y3 and y2' = y4, you arrive at the following code:
M = @(t) [t 0; 0 t];
K = [2 1;5 8];
MM = @(t)[eye(2),zeros(2);zeros(2),M(t)];
KK = [zeros(2),-eye(2);K,zeros(2)];
fun = @(t,y) -KK*y;
options = odeset('Mass',MM,'MStateDependence','none');
y0 = [0 0 1 1];
[T,Y] = ode45(fun,[0 1],y0);
plot(T,Y)
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