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ode45 for Higher Order Differential Equations

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d
d am 18 Jun. 2022
Kommentiert: Sam Chak am 18 Jun. 2022
I'm learning Matlab and as an exercise I have following:
+ 6 = 1 -
on the time interval [0 20]and with integration step < 0.01. Initial conditions are x(0) = 0.44; = 0.13; = 0.42; = -1.29
To solve it I wrote the code:
f = @(t, y) [y(4); y(3); y(2); 1 - y(1)^2 - 6*y(3)];
t = [0 100];
f0 = [-0.44; 0.13; 0.42; -1.29];
[x, y] = ode45(f, t, f0);
plot(x,y, '-');
grid on
However I'm not really sure that it's correct even it launches and gives some output. Could someone please have a look and correct it if it's wrong. Also where is integration step here?
  1 Kommentar
Star Strider
Star Strider am 18 Jun. 2022
Bearbeitet: Star Strider am 18 Jun. 2022
The integration is performed within the ode45 function. To understand how it works to do the integration, see Algorithms and the Wikipedia article on Runge-Kutta methods.

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Sam Chak
Sam Chak am 18 Jun. 2022
Bearbeitet: Sam Chak am 18 Jun. 2022
Ran in:
Hi @d
A little fix on the system of 1st-order ODEs.
f = @(t, x) [x(2); x(3); x(4); 1 - x(1)^2 - 6*x(3)];
tspan = 0:0.01:20;
x0 = [0.44; 0.13; 0.42; -1.29];
[t, x] = ode45(f, tspan, x0);
plot(t, x, 'linewidth', 1.5)
grid on, xlabel('t'), ylabel('\bf{x}'), legend('x_{1}', 'x_{2}', 'x_{3}', 'x_{4}', 'location', 'best')
  2 Kommentare
d
d am 18 Jun. 2022
Thank you!
Sam Chak
Sam Chak am 18 Jun. 2022
You are welcome, @d. The link suggested by @Star Strider has many good examples and 'tricks' to learn.

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