There's a lot of work yet to be done in figuring out how open systems do organize themselves. That's some of the most exciting research going on right now in non equilibrium statistical physics. And apparently fireflies are an example of this? Well, you know, I don't approach it from a physics perspective because first of all, I never took step, step back statistical mechanics. So I don't really know what I'm talking about here. But I did work at it from the perspective of someone interested in differential equations which allows to describe systems that change in time or in space or both.
One of the most important insights in the history of science is the fact that complex behavior can arise from the undirected movements of small, simple systems. Despite the fact that we know this, we’re still working to truly understand it — to uncover the mechanisms by which, and conditions under which, complexity can emerge from simplicity. (Coincidentally, a new feature in Quanta on this precise topic came out while this episode was being edited.) Steven Strogatz is a leading researcher in this field, a pioneer both in the subject of synchronization and in that of small-world networks. He’s also an avid writer and wide-ranging thinker, so we also talk about problems with the way we educate young scientists, and the importance of calculus, the subject of his new book. Support Mindscape on Patreon or Paypal. Steven Strogatz received his Ph.D. in applied mathematics from Harvard, and is currently the Jacob Gould Schurman Professor of Applied Mathematics at Cornell. His work has ranged over a wide variety of topics in mathematical biology, nonlinear dynamics, networks, and complex systems. He is the author of a number of books, including SYNC, The Joy of x, and most recently Infinite Powers. His awards include teaching prizes at MIT and Cornell, as well as major prizes from the Joint Policy Board for Mathematics, the American Association for the Advancement of Science, the Mathematical Association of America, and the Lewis Thomas Prize. Web site Cornell web page Google scholar page Amazon author page Wikipedia TED talk on synchronization Twitter
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