파이겐바움 상수

노트

말뭉치

1. Other maps also reproduce this ratio, in this sense the Feigenbaum constant in bifurcation theory is analogous to π in geometry and e in calculus.^[1]
2. Unlike π, which nearly everyone is aware of, the Feigenbaum constant is far less known.^[2]
3. And the ratio between the values where the period doubles ends up approaching the Feigenbaum constant, approximately 4.669.^[2]
4. Pictures taken from the video I learnt about the Feigenbaum constant from.^[3]
5. It’s called the Feigenbaum constant, and it’s about 4.6692016.^[4]
6. For more than 30 years, Mitchell’s official position (obtained essentially on the basis of his Feigenbaum constant result) was as a professor at the Rockefeller University in New York City.^[4]
7. The Feigenbaum constant characterizes the geometric approach of the bifurcation parameter to its limiting value.^[5]
8. Amazingly, the Feigenbaum constant is ``universal (i.e., the same) for all 1-D Maps if has a single locally quadratic Maximum.^[5]
9. The Circle Map is not universal, and has a Feigenbaum constant of .^[5]
10. It is not known if the Feigenbaum constant is algebraic, or if it can be expressed in terms of other mathematical constants (Borwein and Bailey 2003, p. 53).^[6]
11. Amazingly, the Feigenbaum constant and associated reduction parameter are "universal" for all one-dimensional maps if has a single locally quadratic maximum.^[6]
12. The value of the Feigenbaum constant can be computed explicitly using functional group renormalization theory.^[6]
13. For a function of the form (1), the Feigenbaum constant for various is given in the following table (Briggs 1991, Briggs et al.^[6]
14. We can interpret from this constant that as we approach chaos each periodic region is smaller than the previous region by a factor of 4.669 (the Feigenbaum constant).^[7]
15. The plot above shows the source of the Feigenbaum constant, the red lines indicate where the logistic map bifurcates to a period 2, 4 and 8 orbit respectively.^[7]
16. As it was the first to be noticed and investigated, it was inevitably named before the second Feigenbaum constant was identified.^[8]
17. Following step-by-step its route to chaos through period doubling, Feigenbaum constant δ is calculated and its value is verified with noticeable accuracy.^[9]
18. This theory also states that the ratio of distance between two consecutive bifurcations is a constant, known as the Feigenbaum constant, found in a multitude of chaotic sys- tems.^[10]
19. The bifurcation logistic map is also plot- ted and the width of its tines is measured to calculate the second Feigenbaum constant.^[10]
20. Feigenbaum constants For definitions, see Eric Weisstein's MathWorld article: Feigenbaum Constant.^[11]
21. In my thesis (1996), I computed several of the Feigenbaum constants to 10s or even 100s of decimal places.^[11]
22. Does anyone know if there is a proof that the Feigenbaum constant is an irrational number.^[12]
23. This Feigenbaum constant is now regarded as being just as fundamental in nonlinear dynamics theory as the number Pi is to geometry (Peitgen et al., 1992).^[13]
24. Note that the ratio a n − 1 − a n − 2 a n − a n − 1 converges to the first Feigenbaum constant.^[14]
25. A mathematical constant that is one of the keystones of chaos theory has been named for him: the Feigenbaum constant.^[15]
26. In mathematics, specifically bifurcation theory, the Feigenbaum constants are two mathematical constants which both express ratios in a bifurcation diagram for a non-linear map.^[16]
27. Other maps also reproduce this ratio, in this sense the Feigenbaum constant in bifurcation theory is analogous to pi (π) in geometry and Euler's number e in calculus.^[16]
28. See Details in the Wikipedia article: Feigenbaum constant.^[17]

소스

메타데이터

위키데이터

• ID : Q673184

Spacy 패턴 목록

• [{'LOWER': 'feigenbaum'}, {'LEMMA': 'constant'}]