Metronome with Driving Force

Version 1.0.0.0 (12 KB) by Thomas Steffen

Demonstrate synchronisation of five metronomes

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Updated 14 Oct 2008

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Ok, my approach is very different from the ones I have seen. I followed four premises:

a) The pendulum is essential linear, and the nonlinearity of the angle is not relevant. (This is an assumption, and I make no attempt to verify it.)

b) Any coupling between n resonators creates n resonance frequencies that are diverging with increasing coupling, so no synchronisation here.

c) A metronome is driven by a spring to compensate for the friction, and the direction of the force switches a bit after the metronome has passed angle 0.

d) Synchronisation happens because the shared based shifts this switching point to earlier or later (the angle remains the same).

Just run the file, and you will see it happening pretty soon. This model is based on the Simulink model of xianfa zeng, which is a really nice framework. The pendulum model is very different, though. Both are inspired by "Challenge: Metronome and Cart Equations of Motion" on Seth's blog.

Cite As

Thomas Steffen (2025). Metronome with Driving Force (https://www.mathworks.com/matlabcentral/fileexchange/21742-metronome-with-driving-force), MATLAB Central File Exchange. Retrieved April 23, 2025.

MATLAB Release Compatibility

Created with R2007b

Compatible with any release

Platform Compatibility

Windows macOS Linux

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Acknowledgements

Inspired by: Metronome Synchronization

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MetronomeAnimation1(t,x,u,flag,pausetime)

metronome_ts.mdl

Version	Published	Release Notes
1.0.0.0	14 Oct 2008		Download