He created a Hamiltonian Physics Solver in @TensorFlow to make these visualizations, pretty neat.https://jnafzig.github.io/2018/01/25/hamiltonian-solver.html …
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Here's a zoomable gigapan image of this as a fractal (color = time until first flip, x/y different conditions) by Jeremy Heyl http://www.gigapan.com/gigapans/98076 pic.twitter.com/zpUn9zCavm
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This makes me uncomfortable
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Propagation of chaos...
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Name of the movie: Dance of the deterministic non-linear chaos
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This might be a fun exercise for your Dead Poets Society cc:
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If this was physically built for real, would they tend to synchronise as metronomes on a table do?
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Back of the envelope says if the table can move parallel to each pendulum's motion, (dampening) then the vector sum of that damping will tend to synchronize the pendulums. Perpendicular pendulum motion will take longer to synch because the vector sum of those motions is small.
End of conversation
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Very nice visualisation !
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Gorgeous!
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