Runge Kutta 4 method to solve second order ODE

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Alina Li
Alina Li 2020년 11월 14일
댓글: Bruce Taylor 2023년 10월 22일
Please help. I have been stuck at it for a while:
I am trying to solve a second order differential equation where U_dot= V and V_dot = d*U-c*U^3-b*V+a*sin(w*t)
Now I made the code (analytical part is meant for double checking myself, ignore it). My code gives an error saying "index exceeds array bounds". The loop refuses to accept anything other than for i = 1:1. How can I run this loop with Runge Kutta calculations?
Thank you!
w = 1.3;
dt = 2*pi/(w*100);
a= 0.25;
b=0.1;
c=1;
d = 1;
x0=1;
y0=0;
t=0:dt:5000;
transient = 4250;
tran_str= 300;
% %analytical
% w0=sqrt(-d);
% A=sqrt(x0^2+(y0/w0)^2);
% phi = atan(x0*w0/y0);
% xan = A*sin(w0*t+phi);
% yan = A*w0*cos(w0*t+phi);
%RK4
f1 = @(t,x,y) y;
f2 = @(t,x,y) d*x-c*x^3-b*y+a*sin(w*t);
h=dt
for i=1:length(t-1)
t(i+1) = t(i)+i*h;
k1x = f1(t(i),x0(i),y0(i));
k2x = f2(t(i)+0.5*h,x0(i)+0.5*k1y*h, y0(i)+0.5*k1y*h);
k3x = f2(t(i)+0.5*h,x0(i)+0.5*k2y*h, y0(i)+0.5*k2y*h);
k4x = f2(t(i)+0.5*h,x0(i)+0.5*k3y*h, y0(i)+0.5*k3y*h);
k1y = f2(t(i),x0(i),y0(i));
k2y = f2(t(i)+0.5*h,x0(i)+0.5*k1y*h, y0(i)+0.5*k1y*h);
k3y = f2(t(i)+0.5*h,x0(i)+0.5*k2y*h, y0(i)+0.5*k2y*h);
k4y = f2(t(i)+0.5*h,x0(i)+0.5*k3y*h, y0(i)+0.5*k3y*h);
y(i+1) = y0(i)+1/6*(k1y+2*k2y+2*k3y+k4y);
end
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Alina Li
Alina Li 2020년 11월 14일
Thank you for the question, it actually made me realize that I should have included it. I edited the code above. Unfrotunately, the same error persists.
Haya M
Haya M 2020년 11월 15일
What do you mean by k1y in k2x and check the rest as well.

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답변 (1개)

Alan Stevens
Alan Stevens 2020년 11월 15일
편집: Alan Stevens 2020년 11월 15일
Your integration loop is mightily scrambled. It should be like this
x(1) = x0;
y(1) = y0;
for i=1:length(t)-1
t(i+1) = i*h;
k1x = f1(t(i),x(i),y(i));
k1y = f2(t(i),x(i),y(i));
k2x = f1(t(i)+0.5*h,x(i)+0.5*k1x*h, y(i)+0.5*k1y*h);
k2y = f2(t(i)+0.5*h,x(i)+0.5*k1x*h, y(i)+0.5*k1y*h);
k3x = f1(t(i)+0.5*h,x(i)+0.5*k2x*h, y(i)+0.5*k2y*h);
k3y = f2(t(i)+0.5*h,x(i)+0.5*k2x*h, y(i)+0.5*k2y*h);
k4x = f1(t(i)+h,x(i)+k3x*h, y(i)+k3y*h);
k4y = f2(t(i)+h,x(i)+k3x*h, y(i)+k3y*h);
x(i+1) = x(i)+1/6*(k1x+2*k2x+2*k3x+k4x)*h;
y(i+1) = y(i)+1/6*(k1y+2*k2y+2*k3y+k4y)*h;
end
(However, I don't think your analytical solution is the solution to your equations.)
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Bruce Taylor
Bruce Taylor 2023년 10월 22일
This is a beautiful solution. I modified it to analyze a series R-L-C circuit and compared the result to the exact solution...perfect match.
Bruce Taylor

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