Coupled ODE with ode45

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Rick
Rick on 2 Nov 2014
Commented: santosh kumar on 5 Oct 2017
Hello, I am trying to solve these two coupled differential equations, but I can't seem to get it to work. I always have difficulty using ODE45...but why isn't the variable X being recognized? The image shows the differential equations I am trying to solve using MATLAB
alpha = 0.001; % L^-1
FA0 = 2.5; % mol/min
CA0 = 0.305; % mol/L
eps = 2;
k = 0.044;
CA = @(y,X) CA0*(1-X).*y./(1+eps*X);
rA = @(y,X) -k*CA(y,X);
vSpan = [0 500]; % L
dXdV = @(V,X) -rA(y,X)/FA0;
dydV = @(V,y) -alpha*(1+eps.*X)./(2*y);
[V, Y] = ode45(dydV,vSpan,1);
[V, X] = ode45(dXdV,vSpan,0);
But this is the error I encounter
Undefined function or variable 'X'.
Error in @(V,y)-alpha*(1+eps.*X)./(2*y)
Error in odearguments (line 88)
f0 = feval(ode,t0,y0,args{:}); % ODE15I sets args{1} to yp0.
Error in ode45 (line 114)
[neq, tspan, ntspan, next, t0, tfinal, tdir, y0, f0, odeArgs, odeFcn,
...

Accepted Answer

Zoltán Csáti
Zoltán Csáti on 2 Nov 2014
I found the mistake. It was a sign. :) The correct function is
function dz = myode(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));
  5 Comments
faiz islam
faiz islam on 24 Jan 2016
@Zoltan ,i tried it but where is "z" defined?i got error.can you share full code?
faiz
santosh kumar
santosh kumar on 5 Oct 2017
to define a function, use "syms function" example: to define x y z syntax: "syms x y z"

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More Answers (2)

Zoltán Csáti
Zoltán Csáti on 2 Nov 2014
On line dydV = @(V,y) -alpha*(1+eps.*X)./(2*y); X is not included. I would solve it as a coupled system or solve it analytically by hand. I don't see the impact of C in the differential equations. Is C needed?
  1 Comment
Rick
Rick on 2 Nov 2014
the Concentration (CA) is needed for rA, which is in the dXdV differential equation

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Zoltán Csáti
Zoltán Csáti on 2 Nov 2014
Code your function as follows.
function dz = myode(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));
Then call it as
[v z] = ode45(@myode,[0 500],[0 1]);
  2 Comments
Rick
Rick on 2 Nov 2014
use plot(v,z) and you will see what the heck is going on with one of the functions. It is oscillating like crazy
Zoltán Csáti
Zoltán Csáti on 2 Nov 2014
Yes, I plotted it. It is very sensitive to the parameters. Try different parameter values.

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