Chaos: Making a New ScienceThe author describes how scientists studying the growth of complexity in nature are discovering order and pattern in chaos. He explains concepts such as nonlinearity, the Butterfly Effect, universal constants, fractals, and strange attractors, and examines the work of scientists such as Mitchell J. Feigenbaum, Edward Lorenz, and Benoit Mandelbrot. 
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LibraryThing Review
User Review  librisissimo  LibraryThingRead some time ago as part of my "physics book of the year" goal. It was interesting at the time, but I didn't invest a lot of brainpower in remembering details. Need to get an uptodate book on the subject. Read full review
LibraryThing Review
User Review  keylawk  LibraryThingChaos studied here. The author makes the new way of understanding, well, everything, remarkably transparent. In the sense that I can see it, but still, I don't understand it. (!) This is not like ... Read full review
Contents
Prologue  1 
Revolution  33 
A revolution in seeing Pendulum clocks space balls and playground  53 
Copyright  
9 other sections not shown
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Alamos Barnsley began behavior Benoit Mandelbrot bifurcation biologists biology boundary calculations cell chaos chaotic colleagues color complex complicated convection Crutchfield cycle David Ruelle deterministic dimension disorder Doyne Farmer dynamical systems ecologists Edward Lorenz energy equations equilibrium experiment experimental exploring Feigenbaum flow fluid Fractal Geometry Gollub Harry Swinney heart Henon Hubbard Huberman ideas imagine infinite intuition Julia sets kind knew laboratory Libchaber linear liquid look Lorenz Lorenz attractor Mandelbrot set math mathematicians mathematics Mitchell Feigenbaum motion nature never Newton's method nonlinear numbers orbits oscillations paper parameter particle patterns Peitgen pendulum perioddoubling phase space physicists physics Poincare population predict problem produce random rhythms Ruelle Santa Cruz scale scientists seemed shape Shaw simple Smale steady Steve Smale strange attractor structure surface Swinney technique temperature theory things tion turbulence turned understand University weather Winfree Yorke