Matlab Solving Differential Equation using Runge Kutta

2 vues (au cours des 30 derniers jours)
Jasjot Kaur
Jasjot Kaur le 25 Oct 2019
clc;
h = 50;
x = 0: h: 0.025;
w = 3553.6312;
M = 110.361;
f = 0.02;
A = 24;
Cd = 0.32;
P = 1925.637;
F = 16.80444124;
x(1) = 700; % initial condition
F_yx = @(y, x)(P - f.*w - 0.00118.*Cd * A * y ^ 2) / (M); % function
for i = 1: (length(x) - 1) % calculation loop
k_1 = F_xy(x(i), xy(i));
k_2 = F_xy(x(i) + 0.5 * h, y(i) + 0.5 * h * k_1);
k_3 = F_xy((x(i) + 0.5 * h), (y(i) + 0.5 * h * k_2));
k_4 = F_xy((x(i) + h), (y(i) + k_3 * h));
y(i + 1) = y(i) + (1 / 6) * (k_1 + 2 * k_2 + 2 * k_3 + k_4) * h; % main equation
end
syms y(x)
ode = diff(y, x) - F * y == 0;
ySol(x) = dsolve(ode);
fimplicit(y(x))

Réponses (1)

James Tursa
James Tursa le 25 Oct 2019
In this line:
k_1 = F_xy(x(i), xy(i));
You've got xy(i) as an argument, but there is no xy variable. I think you meant y(i) here.
In this line:
F_yx = @(y, x)(P - f.*w - 0.00118.*Cd * A * y ^ 2) / (M); % function
You've got the order of the inputs as (y,x), but in your downstream code you have the order of the inputs as (x,y). Change your function to use the (x,y) order.
This initial condition:
x(1) = 700; % initial condition
I suspect should apply to y(1), not x(1). You already have the x vector defined above.

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