OK...needing to let my geek out...
http://youtu.be/Aaxw4zbULMsFive metronomes are set to 176 bpm and placed on a Foam Core board. When empty cans are placed underneath, the board is free to move from side to side and the metronomes are able to influence each other into synchronization. When the cans are removed the metronomes are no longer physically coupled and some of them begin to fall out of step.
Our demonstration is a copy of one that Bryan Daniels (Ohio Wesleyan University) made for his student research work:
http://go.owu.edu/~physics/StudentResearch/2005/BryanDaniels/index.html~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
http://www.math.pitt.edu/~bard/classes/mth3380/syncpapers/metronome.pdfSynchronization of metronomes
James Pantaleone
Department of Physics, University of Alaska, Anchorage, Alaska 99508
(Received 1 April 2002; accepted 24 June 2002)
Synchronization is a common phenomenon in physical and biological systems. We examine the
synchronization of two (and more) metronomes placed on a freely moving base. The small motion
of the base couples the pendulums causing synchronization. The synchronization is generally
in-phase, with antiphase synchronization occurring only under special conditions. The metronome
system provides a mechanical realization of the popular Kuramoto model for synchronization of
biological oscillators, and is excellent for classroom demonstrations and an undergraduate physics
lab. © 2002 American Association of Physics Teachers.
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OK...I feel better now!
