How to solve ODE

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John Miller
John Miller el 27 de Jul. de 2012
Hello,
I have following nonlinear ODE-System: G(x)*x'=0
How can I solve this ODE-System with respect to x'=f(x)
so I need f(x)...
Thank you!
  4 comentarios
Star Strider
Star Strider el 29 de Jul. de 2012
Editada: Star Strider el 29 de Jul. de 2012
The ODE solvers don't have to have a square matrix argument, but the matrix argument does have to have as many rows as it has orders of derivatives, so that it is set up as a system of first-order ODEs. So if it's a second-degree ODE it has to have two rows, third-degree, three, etc. It definitely doesn't have to be square. For instance, the spring-mass-damper system:
mx" = u - k*x' - k2*x, where: x' = dx/dt, x" = d^2x/(dt^2)
is defined for ode45 as:
xdot(1) = x(2);
xdot(2) = -x(1)*k(2)/m -x(2)*k(1)/m + u(t)/m;
and works fine. I don't know if the Symbolic Math Toolbox can format your equations for you (you can ask it and find out), but I suggest it because it avoids algebra errors. If not, you can do it with pencil and paper.
John Miller
John Miller el 29 de Jul. de 2012
" I don't know if the Symbolic Math Toolbox can format your equations for you (you can ask it and find out), "
How can I ask it? I have not much experience in MATLAB

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Star Strider
Star Strider el 29 de Jul. de 2012
Editada: Star Strider el 29 de Jul. de 2012
I asked the Symbolic Math Toolbox and it suggested that I refer you to the odeToVectorField function: http://www.mathworks.com/help/toolbox/symbolic/odetovectorfield.html.
When I gave it this code for the ODE I listed above:
syms m x(t) u k1 k2
% Differential Equation: mx" = u - k1*x' - k2*x
[V,Y] = odeToVectorField(m*diff(x,2) == u - k1*diff(x,1) - k2*x)
it returned:
V =
Y[2]
-(k1*Y[2] - u + k2*Y[1])/m
Y =
x
Dx
The ‘V’ output is the argument you will give to your ODE function, and the ‘Y’ ouput are the substitutions it made. It assumes you know that on the left side of ‘V’ to put the vector:
Ydot(1)
Ydot(2)
if necessary, depending on how your format the equation you use as one of your ODE arguments. You don't have to, though. You can just give it the matrix. The ODE functions assume the rest.
  4 comentarios
John Miller
John Miller el 30 de Jul. de 2012
Editada: John Miller el 30 de Jul. de 2012
"Did your matrix start out as a third-degree differential equation?" No
"but I cannot figure out where the y-vector came from or what it represents." y=[y(1); y(2); y(3)] are just the unknown variables like y1,y2,y3 or x,y,z or x1,x2,x3 y' is the first time derivative like y'=[dy1/dt; dy2/dt; dy3/dt]
Like I sad, I just want to bring the equation M*y'=0 ans M is like you sad: " You have a [2 x 3] matrix in nonlinear functions of [y(1), y(2), y(3)] " . And I want to bring this simple equation to the form y'=f(y) where f(y) is a vectorfield. Thats all I want to do.
Star Strider
Star Strider el 30 de Jul. de 2012
The fundamental problem is that because your ‘M’ matrix is [2 x 3] and you have three unknowns, you have an under-determined system. There is no unique solution. That is the reason I suggested that you go back to the Symbolic Math Toolbox and start over.
I suggest that to you again.

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