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Numerical instability of spherical pendulum

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Bas Siebers
Bas Siebers el 25 de Feb. de 2015
Comentada: Mischa Kim el 26 de Feb. de 2015
Hi,
I am trying to simulate a spherical pendulum. The equation of motion of the spherical pendulum are:
So far, I was able to simulate the equation of motion with a ode45 solver. However I experiencing numerical instabilities when the phi angle approach zero.
Does any one have an idea to get rid off these numerical instabilities?
Thank you in advance,
Bas

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Mischa Kim
Mischa Kim el 25 de Feb. de 2015
Bas, the plus sign in your equation does look a bit strange. Shouldn't that be a minus instead?
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Bas Siebers
Bas Siebers el 26 de Feb. de 2015
Editada: Bas Siebers el 26 de Feb. de 2015
Thank you, I have still one question: Why is the line of the azimuth angle not straight? With other words, why is the velocity of the azimuth angle not constant? Because the initial value of the azimuth angle velocity is constant.
Mischa Kim
Mischa Kim el 26 de Feb. de 2015
Angular momentum is conserved (constant), not azimuth rate. The equation for the angular momentum is
m*l^2*sin(phi)^2*thetadot = const.
Therefore, when phi decreases, thetadot increases, just like described above.

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