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Lorenz attractor
The Lorenz attractor, introduced by Edward Lorenz in 1963, is a non-linear three-dimensional deterministic dynamical system derived from the simplified equations of convection-rolls arising in the dynamical equations of the atmosphere. For a certain set of parameters the system exhibits chaos and displays what is today called a strange attractor; this was proven by W. Tucker in 2001. The strange attractor in this case is a fractal of Hausdorff dimension between 2 and 3. The system arises in lasers, dynamos and specific waterwheels.
where σ is called the Prandtl number and r is called the Reynolds number. σ,r,b > 0, but usually σ = 10, b = 8 / 3 and r is varied. The system exhibits chaos for r = 28, but displays knotted periodic orbits for other values of r, ie for r = 99.96 it becomes a T(3,2) torus knot.
See also Takens' theorem.
References
- Steven H. Strogatz, Nonlinear Systems and Chaos, Perseus publishing 1994.
- Jonas Bergman, Knots in the Lorentz system, Undergraduate thesis, Uppsala University 2004.
External links
- Lorentz Attractor
- Plot of the Lorenz attractor
- planetmath.org: Lorenz Equation
- Levitated.net: computational art and design
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