Printing all outputs of the function that has been solved via ode45

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Niccolo Carioli
Niccolo Carioli el 26 de Mzo. de 2024
Comentada: Niccolo Carioli el 26 de Mzo. de 2024
I have defined a function to be solved using ode45. The function is called endoFlightDeriv
function [deriv, m, h] = endoFlightDeriv(t, X, E, L,phaseCode)
Then I solve it using ode45
[time_vert,sol_vert]=ode45(@(t,x)endoFlightDeriv(t,x,E,L,PhaseCode),tspan,x0,options)
My question is, how can I output the values of m and h at each integration step?
This is the first question that I ever post, so I apologize in advance if this is not clearly stated. Obviously I can further explain my problem.
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Sam Chak
Sam Chak el 26 de Mzo. de 2024
No worries. I believe your specific technical issue in MATLAB has been resolved and closed. However, it's worth noting that there are at least six approaches available to achieve this, depending on the complexity of the output functions involved.
Niccolo Carioli
Niccolo Carioli el 26 de Mzo. de 2024
Your statement is indeed correct. This is a code for the simulation of the endoatmospheric trajectory of a launcher. However this is not written in a state space notation, the function simply defines the vectorial equation of motion to be solved. The mass is a scalar and its change it's computed using the flow rate and the time

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Stephen23
Stephen23 el 26 de Mzo. de 2024
Movida: Steven Lord el 26 de Mzo. de 2024
This questions gets asked regularly on this forum: users often imagine that there must be some easy way to get some values out of the function when it is being solved by ODE45 (or whatever solver they are using). In practice it is not that simple: ODE solvers may take arbitrarily small steps or even steps backwards... it is not a trivial task to figure out which function calls produce data which correspond to the values returned by the ODE solver... in fact this task is quite difficult.
Thus in most cases it is much simpler to just call the function after the ODE solver has finished, using the values obtained by the ODE solver. A simple loop and calling the function usually is sufficient.

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Torsten
Torsten el 26 de Mzo. de 2024
Assuming m and h are scalars, use
[time_vert,sol_vert]=ode45(@(t,x)endoFlightDeriv(t,x,E,L,PhaseCode),tspan,x0,options)
for i = 1:numel(time_vert)
[~, m(i), h(i)] = endoFlightDeriv(time_vert(i), sol_vert(i,:), E, L,phaseCode)
end
If not, change the loop appropriately.

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