Plot function to graph differential equations

1 view (last 30 days)
Aleem Andrew
Aleem Andrew on 5 Feb 2020
Commented: Star Strider on 6 Feb 2020
I am trying to plot the solution to the following system but the code below plots a small circle instead of a parabola, which is the solution to the system. Can anyone explain how to plot the solution (y= f(x)) or point out any errors in the code? Thank you
tspan = [0 3 5 6];
y0 = [0 4 5 6];
[x,y] = ode45(@(x,y) odefcn(x,y,A,B), tspan,y0);
plot(x,y(:,1),'-o',x,y(:,2),'-.')
function dydx = odefcn(x,y,A,B)
dydx = zeros(4,1);
dydx(1) = y(2);
dydx(3)= y(4);
dydx(2) = y(2)*sqrt(y(1)*y(1)+ (y(3)*y(3))); %this is a system of two second order differential equations
dydx(4) = y(3)*sqrt((y(1)*y(1)+ (y(3)*y(3))-9.81;
end
  2 Comments
Aleem Andrew
Aleem Andrew on 6 Feb 2020
The original equations are: x"=x'*sqrt(x'^2+y'^2); y"=y'*sqrt(x'^2+y'^2)-9.81;

Sign in to comment.

Sign in to answer this question.

Accepted Answer

Star Strider
Star Strider on 6 Feb 2020
Use a different tspan vector.
When I run your code (using random values for ‘A’ and ‘B’, since they are not supplied), I get:
Warning: Failure at t=5.659410e-01. Unable to meet integration tolerances without reducing the
step size below the smallest value allowed (1.776357e-15) at time t.
With:
tspan = [0 0.5];
I get a plot.
Also, ‘dx(4)’ as posted is missing a couple parentheses. This corrected version works:
dydx(4) = y(3)*sqrt((y(1)*y(1))+ (y(3)*y(3)))-9.81;
Be sure that is the syntax you intended.
  4 Comments
Show 2 older comments
Aleem Andrew
Aleem Andrew on 6 Feb 2020
Ok I will look into that for further details such as why the order of the values needs to be ascending Thank you
Star Strider
Star Strider on 6 Feb 2020
As always, my pleasure!
See the documentation section on tspan. Note that: ‘The elements in tspan must be all increasing or all decreasing.’ So they only need to be monotonic.

Sign in to comment.

More Answers (0)

Categories

Find more on Function Creation in Help Center and File Exchange

Tags

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!