How to solve spring-mass ODE in rotating frame (without symbolic toolbox)

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Hi,
I am trying to solve the ODE of a spring & mass in the rotating frame.
The equations of motion are as follows:
mx'' = -kx + 2my'w + m(x + e)w^2
my'' = -ky - 2mx'w + myw^2
here the "eccentric mass" is aligned with the x axis.
Given a set of initial conditions - what tool can i use in MATLAB to solve for x(t), y(t)?
Any help would be greatly appreciated!!!
Thanks!

Accepted Answer

Steven Lord
Steven Lord on 31 May 2018
Start off trying the ode45 function. Use the "Solve Nonstiff Equation" and "ODE with Time-Dependent Terms" examples on that documentation page as a model for writing your own ODE function and pass a function handle to that ODE function into ode45 as the first input argument.
If ode45 doesn't work or takes too long, try a stiffer solver from the table in the Basic Solver Selection section on this documentation page.
  3 Comments
James Tursa
James Tursa on 31 May 2018
It looks like you are missing a w in your odefun for the 2my'w and 2mx'w terms. Also the sign of one of the terms looks incorrect. Try this:
dydt(2) = -(k/m)*y(1) + 2*y(4)*w + (y(1)+e)*w^2;
:
dydt(4) = -(k/m)*y(3) - 2*y(2)*w + y(3)*w^2;
Tyler
Tyler on 31 May 2018
Thank you! You are right, i was missing the w, and the sign was wrong on the 2nd term of the 4th dydt eqn.

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R2010b

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