Using ODE 45 coupled ODEs

11 views (last 30 days)
Andreas Skovhøj
Andreas Skovhøj on 23 Oct 2019
Answered: Star Strider on 23 Oct 2019
Hi!
I am supposed to solve these two linear ODEs
k = 0.0440;
C_A0 = 0.3045;
epsilon = 2;
alpha = 0.001;
F_A0 = 2.5;
rho = 0.001;
ode1 = diff(y) == -(alpha/2*y)*(1+epsilon*X)*rho;
ode2 = diff(X) == k*C_A0*(1-X)/(F_A0*1+epsilon*X)*y*rho;
I cant figure out how to use ode45 but i have tried something like this by using some other answers which i dont understand..
function dz = myode2(v,z)
syms v z
alpha = 0.001;
C0 = 0.3;
esp = 2;
k = 0.044;
f0 = 2.5;
dz = zeros(2,1);
dz(1) = k*C0/f0*(1-z(1)).*z(2)./(1-esp*z(1));
dz(2) = -alpha*(1+esp*z(1))./(2*z(2));
ode45(@myode2,[0 500],[0 1])
end
This does not work tho..
Anyone knows how to solve this by ode45?

Sign in to answer this question.

Accepted Answer

Star Strider
Star Strider on 23 Oct 2019
Start with what you already have:
syms X(t) y(t) Y
k = 0.0440;
C_A0 = 0.3045;
epsilon = 2;
alpha = 0.001;
F_A0 = 2.5;
rho = 0.001;
ode1 = diff(y) == -(alpha/2*y)*(1+epsilon*X)*rho;
ode2 = diff(X) == k*C_A0*(1-X)/(F_A0*1+epsilon*X)*y*rho;
then use odeToVectorField and matlabFunction (linked to in that doeumentation) to create your ODE anonymous function.
This appears to be a homework assignment, so I leave the rest to you.

More Answers (0)

Categories

Find more on Ordinary Differential Equations in Help Center and File Exchange

Tags

Products

Community Treasure Hunt

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

Start Hunting!