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Please use this identifier to cite or link to this item: http://hdl.handle.net/1813/97
Title: Nonlinear dynamics and chaos: Lab demonstrations
Authors: Strogatz, Steven H.
Keywords: Steven Strogatz
Howard Stone
John Dugundji
Irving Epstein
Kevin Cuomo
Diana Dabby
nonlinear
dynamics
chaos
oscillator
Issue Date: 1994
Publisher: Internet-First University Press
Abstract: This video shows six laboratory demonstrations of chaos and nonlinear phenomena, intended for use in a first course on nonlinear dynamics. Steven Strogatz explains the principles being illustrated and why they are important. The demonstrations are: (1) A tabletop waterwheel that is an exact mechanical analog of the Lorenz equations, one of the most famous chaotic systems; (2) A double pendulum, a paradigm of chaos in conservative systems; (3) Airplane wing vibrations and aeroelastic instabilities, as exemplars of Hopf bifurcations; (4) Self-sustained oscillations in a chemical reaction; (5) Using synchronized chaos to send secret messages; and (6) Composing musical variations with a chaotic mapping. Strogatz is joined by his colleagues Howard Stone, John Dugundji, Irving Epstein, Kevin Cuomo, and Diana Dabby.
URI: http://hdl.handle.net/1813/97
Appears in Collections:The Internet-First University Press Archive 001, 30 Apr 05
Multimedia and Videos

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File Description SizeFormat
streaming_97_3.htmlView Streaming Video Version8.19 kBHTMLView/Open
Strogatz commentary.pdfNotes on the Video217.87 kBAdobe PDFView/Open
Strogatz Demos.movDownload Video of Lab demonstrations152.76 MBVideo QuicktimeView/Open
strogatz2.jpgPicture of Steven Strogatz7.12 kBJPEGThumbnail
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