Von Neumann's elephant

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Short description: Problem in recreational mathematics

Von Neumann's elephant is a problem in recreational mathematics, consisting of constructing a planar curve in the shape of an elephant from only four fixed parameters. It originated from a discussion between physicists John von Neumann and Enrico Fermi.

History

In a 2004 article in the journal Nature, Freeman Dyson recounts his meeting with Fermi in 1953. Fermi evokes his friend von Neumann who, when asking him how many arbitrary parameters he used for his calculations, replied, "With four parameters I can fit an elephant, and with five I can make him wiggle his trunk." By this he meant that the Fermi simulations relied on too many input parameters, presupposing an overfitting phenomenon.[1]

Solving the problem (defining four complex numbers to draw an elephantine shape) subsequently became an active research subject of recreational mathematics. A 1975 attempt through least-squares function approximation required dozens of terms.[2] The best approximation was found by three physicists in 2010.[3]

Construction

The construction is based on complex Fourier analysis.

Fermi-Neumann elephant

The curve found in 2010 is parameterized by:

[math]\displaystyle{ \left\lbrace \begin{array}{lcccccc} x(t) & = &-60 \cos(t) & + 30 \sin(t) & -8\sin(2t) & +10\sin(3t)\\ y(t) & = &50 \sin(t) & + 18 \sin(2t) & -12\cos(3t) & +14\cos(5t) \end{array} \right. }[/math]

The four fixed parameters used are complex, with affixes z1 = 50 - 30i, z2 = 18 + 8i, z3 = 12 - 10i, z4 = -14 - 60i. The affix point z5 = 40 + 20i is added to make the eye of the elephant and this value serves as a parameter for the movement of the "trunk".[3]

See also

References

  1. Dyson, Freeman (January 22, 2004). "A meeting with Enrico Fermi". Nature 427 (6972). doi:10.1038/427297a. 
  2. Wei, James (1975). "Least Square Fitting of an Elephant". Chemtech 5 (2): 128–129. 
  3. 3.0 3.1 Mayer, Jurgen; Khairy, Khaled; Howard, Jonathon (May 12, 2010). "Drawing an elephant with four complex parameters". American Journal of Physics 78 (6). doi:10.1119/1.3254017. 

External links