Implementation of 4-step Runge-Kutta

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Payson
Payson le 7 Mai 2023
Réponse apportée : Steven Lord le 7 Mai 2023
I am trying to use a runge-kutta function that I wrote previously on a new example.
function [y, t] = rungekutta(f, a, b, y0, h)
t = a:h:b;
y = zeros(size(t));
y(1) = y0;
for i = 1:length(t)-1
k1 = f(t(i), y(i));
k2 = f(t(i) + h/2, y(i) + (h/2)*k1);
k3 = f(t(i) + h/2, y(i) + (h/2)*k2);
k4 = f(t(i) + h, y(i) + h*k3);
y(i+1) = y(i) + h/6*(k1 + 2*k2 + 2*k3 + k4);
end
end
The function takes the function we want to evaluate, the bounds(a, b), the starting point, and the mesh size,
f = @(y,t) -t*y + 4*t/y;
a = 0;
b = 2.5;
h = .1;
y0 = 1;
[answer_rk, t_rk] = rungekutta(f, a, b, y0, h)
The result is a matrix filled with NaN values, this is because the first iteration evaluates k1 as zero. I can't tell if my error is a coding error or a misunderstanding of the Runge-Kutta implementation, could someone help?

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Réponse acceptée

Torsten
Torsten le 7 Mai 2023
Déplacé(e) : Torsten le 7 Mai 2023
Change the order of the input arguments for f:
f = @(t,y) ...
instead of
f = @(y,t) ...

Plus de réponses (1)

Steven Lord
Steven Lord le 7 Mai 2023
You define f as:
f = @(y,t) -t*y + 4*t/y;
You call f as:
k1 = f(t(i), y(i));
Note the order of inputs in your definition and your call. Do you want f to be a function of y then t (as per the definition) or a function of t then y (as per the call)?

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