Problems in solving Taylor-Maccoll Equation via ode45

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Hello everyone,
For a study project, I have to solve the Taylor-Maccoll Equation that describes the hypersonic filed around a cone.
My textbook provides the system of ODEs in this fashion
The γ and the are constants. Now I have tried to implement the ode45 via writing a function that codes the second members of the system. In particular, I have substituted
I don't know if this make sense, but then I have solved for x and y in this way
This is how I have implemented
function f = TaylorMaccoll(omega, V)
global gamma V_lim
Vr = V(1);
Vomega = V(2);
% a building
tris = ((V_lim*V_lim) - (Vomega*Vomega) - (Vr*Vr));
den = (gamma - 1)*(tris);
rap = (2*Vomega*Vomega)/(den);
a = 1 - rap;
% b building
b = (2*Vomega*Vr)/den;
% Fs building
F1 = Vomega;
F2 = -((Vomega*cotd(omega))+(2*Vr));
Fq = (b/a)*F1 + (1/a)*F2;
f = [F1; Fq];
end
Then, in the main, I have called the ode45 in this way
V0 = [V_inf*cosd(beta_c), epsilon*V_inf*sind(beta_c)];
[omega,V] = ode45(@TaylorMaccol,[beta_c:-0.001:eps],V0);
The stepsize is negative because I have to integrate from the shock angle to the body wall. The problem is that the solution is not stable
I have seen on the internet several other attempts that actually work, but I would like to follow my class and my textbook. I am pretty sure that the error is in the way I implement the ODEs but I have never seen this kind of problem so far. If some one can provide me some help I would be very grateful, also with some hints I don't want the entire code.
  13 Commenti
Torsten
Torsten il 24 Gen 2023
The event function makes the solver stop when y(2) = Vomega = 0.
Leonardo Molino
Leonardo Molino il 24 Gen 2023
I have decided to completely rewrite the ODEs.
The idea I came up with is basically to wrote everthing in terms of , so in this way I can easly explicit the . Starting from this, I simply have wrote the system of ODEs via substituting and
function dy = TyMc (omega, y)
global Vlim gamma
dy = zeros(2,1);
A = 2/(gamma - 1);
a = 1 - ((A)*(y(2)^2/(Vlim^2-y(2)^2-y(1)^2)));
b = (A)*((y(2)*y(1))/(Vlim^2-y(2)^2-y(1)^2));
dy(1) = y(2);
dy(2) = (b/a)*y(2) - (1/a)*((y(2)*cot(omega))+(2*y(1)));
end
Thanks to your help, I know how to stop the iteration. The BC can be negative (the ) with a positive step size or positive with a negative one (I have chosen the first one).
With huge surprise, the whole thing works and I have solved the hypersonic field around the cone!
Thank you very much for your help!

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