Wikipedia:WikiProject Golden ratio

Welcome to WikiProject Golden ratio. Some Wikipedians have formed this collaboration resource and group dedicated to improving Wikipedia's coverage of Golden ratio and the organization of information and articles on this topic. This page and its subpages contain their suggestions and various resources; it is hoped that this project will help to focus the efforts of other Wikipedians interested in the topic. If you would like to help, please join the project, inquire on the talk page and see the to-do list below.

Goals

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  • Categorize the articles about golden ratio and promote the global development of the topic.

Scope

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  • Golden ratio in the universe
  • Golden ratio in human production
  • The evolution of the use and knowledge of the golden ratio through history

Guidelines

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Open tasks

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  • Categorize the works that have been recognized by featuring golden ratio in their design.
  • Explain how these works feature golden ratio in their design in their respective articles.

Participants

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Please feel free to add yourself here, and to indicate any areas of particular interest.


  1. 20-dude (talk)
  2. Alanbly (talk · contribs) - Vandal fighting and collaboration
  3. dicklyon – make sure that claims of use of golden ratio are not made except where verifiable.
  4. Finell (Talk)
  5. Einstein95 (Talk)
  6. Aykantspel (talk) 06:20, 30 June 2009 (UTC)[reply]
  7. Tbeasley0504 (talk)--I am interested in working on applications of the Golden Ratio

Articles

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Candidates

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New articles

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Please feel free to list your new Golden Ratio-related articles here (newer articles at the top, please). Any new articles that have an interesting or unusual fact in them, are at least over 1,000 characters, don't have any dispute templates on them, and cite their sources, should be suggested for the Did you know? box on the Wikipedia Main Page.

Review and assessment

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Peer review
Assessment

Categories

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For articles dedicated to explain the properties or aspects of golden ratio.
(NOTE: Not for articles about stuff that happens to have golden proportions)
For articles dedicated to explain the properties or aspects of the Fibonacci numbers.
(NOTE: Not for articles about stuff that happens to be related to the Fibonacci numbers)
Proposals
  • Other proposed names for this category (propose here): Designs with golden proportions, works with golden proportions.
  • Category:Researchers of the golden ratio
  • Category:Organisms in published studies of the golden ratios (virtually any organism has it, but this is only for organisms that have been specifically studied in diverse publications dedicated to the golden ratio)
    Some examples of organisms in published studies of the golden ratios: The nautilus, the human body proportion, the reproduction of rabbits (Fibonacci started by observing the rabbits), the reproduction of cows (Henry E. Dudeney), the number of petals in flowers, the sunflower spirals, the pine cones, species of Radiolaria (shaped like polyhedra) and viruses (such as the herpes virus, have the shape of a regular icosahedron).
  • Category:Golden ratio in the universe (stars, orbits, planets, etc.)
    • Other proposed names for this category (propose here): Golden proportions in astronomy

Resources

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List of sources

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Here is a list of recommended sources to be used in the related articles.

Writings of the historic researchers

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  • PINGALA, Chandah-shāstra, the Art of Prosody. 450 or 200 BC.
  • FIBONACCI
    • Liber Abaci. 1202.
      The sequence was first studied by Leonardo of Pisa, known as Fibonacci, this book. He considers the growth of an idealized (biologically unrealistic) rabbit population, assuming that: a)in the first month there is just one newly-born pair, b) new-born pairs become fertile from after their second month, c)each month every fertile pair begets a new pair, and c)the rabbits never die.
    • Practica Geometriae (1220), a compendium on geometry and trigonometry.
    • Flos (1225), solutions to problems posed by Johannes of Palermo
    • Liber quadratorum, ("The Book of Squares") on Diophantine equations, devoted to Emperor Frederick II. See in particular Fibonacci's identity.
    • Di minor guisa (on commercial arithmetic; lost)
    • Commentary on Book X of Euclid's Elements (lost)
  • PACIOLI, Luca. De divina proportione. Venice, 1509.
    The architectural treaty that guided the reinassanse artists.
  • KEPLER, Johannes A New Year Gift: On Hexagonal Snow. Oxford University Press, 92. ISBN 0198581203. Strena seu de Nive Sexangula (1611)
  • GHYKA, Matyla
    • Esthétique des Proportions. 1927.
    • Le nombre d'or. 1931.
    • The Geometry of Art and Life. 1946
    • A Handbook of Practical Geometry. 1952.
  • LE CORBUSIER
    • The Modulor. 1948.
      The book in which Le Corbusier proposes a system that uses units derivated from the human body and the golden ratio.
    • The Modulor 2. 1955

Scientific journals, courses and publications

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  • KNOTT, Ron. Fibonacci's Rabbits. University of Surrey School of Electronics and Physical Sciences.
  • KNUTH, Donald. The Art of Computer Programming.
    A comprehensive monograph written by Donald Knuth that covers many kinds of programming algorithms and their analysis
  • CHANFÓN OLMOS, Carlos. Curso sobre Proporción. Procedimientos reguladors en construcción. Convenio de intercambio UNAM - UADY. México - Mérica, 1991
    This study features a series of proportional analysis of diverse geometrical figures, organisms and works of architecture and art.

Other publications

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  • VAJDA, Steven. Fibonacci and Lucas Numbers, and the Golden Section: Theory and Applications. Dover Books on Mathematics. December 26, 2007
  • MARKOWSKY, George. Book Review: The Golden Ratio, by Mario Livio. In NOTICES OF THE AMS, VOLUME 52, NUMBER 3, pp 344--347. [1]

Internet sites

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From scientific or academic organizations
Amateur
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  1. ^ a b OLDKNOW, Adrian and TAYLOR, Ron. Teaching Mathematics Using Ict. Continuum International Publishing Group. 2003. P. 235
  2. ^ a b c d e f g h i j k l Hemenway, Priya (2005). Divine Proportion: Phi In Art, Nature, and Science. New York: Sterling. pp. 20–21. ISBN 1-4027-3522-7.
  3. ^ Underwood Dudley (1999). Die Macht der Zahl: Was die Numerologie uns weismachen will. Springer. p. 245. ISBN 3764359781.
  4. ^ LIVIO, Mario. The Golden Ratio: The Story of Phi, the World's Most Astonishing Number. Random House. Copyright © 2002 Mario. ISBN: 0-7679-0815-5 (chapter one). See