MATLAB: solving a 2nd order ODE which has a parameter which evolves in time
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Hi, I'm trying to solve the equation: y'' + k(t)y = 0 where k(t) is an array of values and y(0) = 1/2 and y'(0) = 1 in the range t = 0 to 20.
I understand it is possible to solve this as 2 coupled first order differential equations using ode45 as follows when k is constant:
k = 2
syms y(t)
[System] = odeToVectorField(diff(y, 2) == -(k).*y);
M = matlabFunction(System,'vars', {'t','Y'});
sol = ode45(M,[0 20],[1/2 1]);
fplot(@(x)deval(sol,x,1), [0, 20])
Please will you help me introduce the dependance on t of k(t), thanks!
1 comentario
darova
el 24 de Feb. de 2020
- Please will you help me introduce the dependance on t of k(t), thanks!
Can you be more specific? What is it? Where is dependance?
Respuesta aceptada
Star Strider
el 24 de Feb. de 2020
Try this:
syms k(t) y(t) % Declare ‘k(t)’ Here
[System,Subs] = odeToVectorField(diff(y, 2) == -(k).*y); % Note ‘k(t)’ Included In Code
M = matlabFunction(System,'vars', {'t','Y'})
kv = rand(1,20); % ‘k’ Vector
tv = linspace(0, 20, numel(kv)); % Time Vector Matching ‘k’
k = @(t) interp1(tv, kv, t, 'linear', 'extrap'); % Function Interpolating ‘k’ To Specific Time
M = @(t,Y)[Y(2);-k(t).*Y(1)]; % Output Of 'matlabFunction’ (Needs To Be Copied, And Pasted In The Code After The 'k' Function Is Defined)
[T,Y] = ode45(M,[0 20],[1/2 1]);
figure
plot(T, Y)
grid
xlabel('T')
ylabel('Amplitude')
legend(string(Subs))
Use your own ‘kv’ vector. The rest of the code should adapt to it, whatever it is.
6 comentarios
Mark Anslow
el 24 de Feb. de 2020
Star Strider
el 24 de Feb. de 2020
As always, my pleasure!
J. Alex Lee
el 24 de Feb. de 2020
As long as you are allowed to make k a function handle, can you simply encode the equation that generates kv and tv?
k = @(t)(exp(t))
For example, would be better than
tv = linspace(0,10,100);
kv = exp(tv);
k = @(t) interp1(tv, kv, t, 'linear', 'extrap'); % Function Interpolating ‘k’ To Specific Time
Or is there something about symbolic toolbox that it won't work this way?
Star Strider
el 24 de Feb. de 2020
@J. Alex Lee —
‘... where k(t) is an array of values ...’
So your idea is not appropriate here.
J. Alex Lee
el 24 de Feb. de 2020
oops guess i need help with reading skills. i saw a similar question before, where "k(t)" in the function sense was being confused with "k(t)" in the index sense. Hope this isn't one of those cases and one really needs the discretized time-dependence.
Star Strider
el 24 de Feb. de 2020
Noted.
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