How do you solve a coupled ODE when one of the ODE results in a vector of length 3 and the other results in a scalar of length 1?

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L'O.G. el 5 de Oct. de 2023

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https://es.mathworks.com/matlabcentral/answers/2029779-how-do-you-solve-a-coupled-ode-when-one-of-the-ode-results-in-a-vector-of-length-3-and-the-other-res

Editada: Torsten el 5 de Oct. de 2023

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For instance, in the following example that I found online, if dz(2) were actually a vector, how would you modify this?

[v z] = ode45(@myode,[0 500],[0 1]);
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));
end

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Torsten el 5 de Oct. de 2023

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https://es.mathworks.com/matlabcentral/answers/2029779-how-do-you-solve-a-coupled-ode-when-one-of-the-ode-results-in-a-vector-of-length-3-and-the-other-res#answer_1326949

Editada: Torsten el 5 de Oct. de 2023

All solution components have to be aggregated in one big vector z, and also the derivatives have to be supplied in this vector form. E.g. if the unknows were composed of a vector x of length 4 and a vector y of length 7, you had to work with vectors z and dz of length 4 + 7 = 11.