solve a complex second order differential equation

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嘉杰程 el 20 de Oct. de 2021

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Comentada: 嘉杰程 el 22 de Oct. de 2021

Respuesta aceptada: Bjorn Gustavsson

the ode has a form:

（

）

and for

, given

, how could I use ode45 to solve it with plot? thx

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Bjorn Gustavsson el 20 de Oct. de 2021

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Editada: Bjorn Gustavsson el 20 de Oct. de 2021

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The first step is to convert your second-order ODE to two coupled first-order ODEs:

Then you should write that ODE-system as a matlab-function:

function [dphidt_domegadt] = yourODEs(t,phi_w)
phi = phi_w(1);
w = phi_w(2);
dphidt = w;
if t == 0 % Here I assume that domegadt/t goes to zero as t -> 0+, perhaps there are solutions for other finite values of that ratio...
  domegadt = phi^3;
else
  domegadt = -2/t*dphidt - phi^3;
end
dphidt_domegadt = [dphidt;
                   domegadt];

This should be possible to integrate with ode45:

phi0w0 = [1 0];
t_span = [0 exp(2)]; % some limits of yours
[t,phi_w] = ode45(@(t,phi_w) yourODEs(t,phi_w),t_span,phi0w0);

HTH

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嘉杰程 el 21 de Oct. de 2021

every t determine certain curvature of phi and eta, when eta=0, phi(eta)=1, phi'(eta)=0, that's one side, another side is determined by t

嘉杰程 el 22 de Oct. de 2021

actually this is only a specific function when n=3

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Walter Roberson el 20 de Oct. de 2021

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You cannot use any numeric solver for that. You have initial conditions at η = 0, but at 0 you have a division by 0 which gets you a numeric infinity. That numeric infinity is multiplied by the boundary condition of 0, but numeric infinity times numeric 0 gives you NaN, not 0.

If you work symbolically you might think that the infinity and the 0 cancel out, but that only works if the φ' approaches 0 faster than 1/η approaches infinity, which is something that we do not immediately know to be true.

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嘉杰程 el 20 de Oct. de 2021

If I let

to be a quite small number?

Bjorn Gustavsson el 20 de Oct. de 2021

That is not enough. The ratio of 1/t*dphi/dt has to behave well for t = 0.

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