Contents 1 Overview 2 See also 3 References 4 External links


Overview[edit] The paper examines the coastline paradox: the property that the measured length of a stretch of coastline depends on the scale of measurement. Empirical evidence suggests that the smaller the increment of measurement, the longer the measured length becomes. If one were to measure a stretch of coastline with a yardstick, one would get a shorter result than if the same stretch were measured with a one-foot (30.48 cm) ruler. This is because one would be laying the ruler along a more curvilinear route than that followed by the yardstick. The empirical evidence suggests a rule which, if extrapolated, shows that the measure length increases without limit as the measurement scale decreases towards zero. This discussion implies that it is meaningless to talk about the length of a coastline; some other means of quantifying coastlines are needed. Mandelbrot discusses an empirical law discovered by Lewis Fry Richardson, who observed that the measured length L(G) of various geographic borders was a function of the measurement scale G. Collecting data from several different examples, Richardson conjectured that L(G) could be closely approximated by a function of the form L ( G ) = M G 1 − D {\displaystyle L(G)=MG^{1-D}} where M is a positive constant and D is a constant, called the dimension, greater than or equal to 1. Intuitively, if a coastline looks smooth it should have dimension close to 1; and the more irregular the coastline looks the closer its dimension should be to 2. The examples in Richardson's research have dimensions ranging from 1.02 for the coastline of South Africa to 1.25 for the West coast of Britain. Mandelbrot then describes various mathematical curves, related to the Koch snowflake, which are defined in such a way that they are strictly self-similar. Mandelbrot shows how to calculate the Hausdorff dimension of each of these curves, each of which has a dimension D between 1 and 2 (he also mentions but does not give a construction for the space-filling Peano curve, which has a dimension exactly 2). He notes that the approximation of these curves with segments of length G have lengths of the form G 1 − D {\displaystyle G^{1-D}} . The resemblance with Richardson's law is striking. The paper does not claim that any coastline or geographic border actually has fractional dimension. Instead, it notes that Richardson's empirical law is compatible with the idea that geographic curves, such as coastlines, can be modelled by random self-similar figures of fractional dimension. Near the end of the paper Mandelbrot briefly discusses how one might approach the study of fractal-like objects in nature that look random rather than regular. For this he defines statistically self-similar figures and says that these are encountered in nature. The paper is important because it is a "turning point" in Mandelbrot's early thinking on fractals.[3] It is an example of the linking of mathematical objects with natural forms that was a theme of much of his later work.


See also[edit] Coastline paradox List of countries by length of coastline


References[edit] ^ Mandelbrot, B. (1967). "How Long Is the Coast of Britain? Statistical Self-Similarity and Fractional Dimension". Science. 156 (3775): 636–638. doi:10.1126/science.156.3775.636.  ^ "Dr. Mandelbrot traced his work on fractals to a question he first encountered as a young researcher: how long is the coast of Britain?": Benoit Mandelbrot (1967). "Benoît Mandelbrot, Novel Mathematician, Dies at 85", The New York Times. ^ "What is the essence of a coastline, for example ? Mandelbrot asked this question in a paper that became a turning point for his thinking: 'How Long Is the Coast of Britain'": James Gleick (1988) Chaos: Making a New Science, p.94. ISBN 978-0747404132.


External links[edit] PDF version from Mandelbrot's home page v t e Fractals Characteristics Fractal dimensions Assouad Box-counting Correlation Hausdorff Packing Topological Recursion Self-similarity Iterated function system Barnsley fern Cantor set Dragon curve Koch snowflake Menger sponge Sierpinski carpet Sierpinski triangle Space-filling curve T-square n-flake Strange attractor Multifractal system L-system Fractal canopy Space-filling curve H tree Escape-time fractals Burning Ship fractal Julia set Filled Lyapunov fractal Mandelbrot set Newton fractal Random fractals Brownian motion Brownian tree Diffusion-limited aggregation Fractal landscape Lévy flight Percolation theory Self-avoiding walk People Georg Cantor Felix Hausdorff Gaston Julia Helge von Koch Paul Lévy Aleksandr Lyapunov Benoit Mandelbrot Lewis Fry Richardson Wacław Sierpiński Other "How Long Is the Coast of Britain?" Coastline paradox List of fractals by Hausdorff dimension The Beauty of Fractals (1986 book) Fractal art Chaos: Making a New Science (1987 book) The Fractal Geometry of Nature (1982 book) Retrieved from "https://en.wikipedia.org/w/index.php?title=How_Long_Is_the_Coast_of_Britain%3F_Statistical_Self-Similarity_and_Fractional_Dimension&oldid=787182118" Categories: FractalsMathematics papers1967 in science1967 documentsWorks originally published in Science (journal)Coasts of the United Kingdom


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Coastline Of The United KingdomEnlargeEnlargeMathematicianBenoît MandelbrotScience (journal)Self-similarityHausdorff DimensionFractalCoastline ParadoxYardstickRulerLewis Fry RichardsonSouth AfricaGreat BritainKoch SnowflakePeano CurveCoastline ParadoxList Of Countries By Length Of CoastlineBenoît MandelbrotDigital Object IdentifierChaos: Making A New ScienceInternational Standard Book NumberSpecial:BookSources/978-0747404132Template:FractalsTemplate Talk:FractalsFractalFractal DimensionAssouad DimensionMinkowski–Bouligand DimensionCorrelation DimensionHausdorff DimensionPacking DimensionLebesgue Covering DimensionRecursionSelf-similarityBarnsley FernIterated Function SystemBarnsley FernCantor SetDragon CurveKoch SnowflakeMenger SpongeSierpinski CarpetSierpinski TriangleSpace-filling CurveT-square (fractal)N-flakeStrange AttractorMultifractal SystemL-systemFractal CanopySpace-filling CurveH TreeFractalBurning Ship FractalJulia SetFilled Julia SetLyapunov FractalMandelbrot SetNewton FractalBrownian MotionBrownian TreeDiffusion-limited AggregationFractal LandscapeLévy FlightPercolation TheorySelf-avoiding WalkGeorg CantorFelix HausdorffGaston JuliaHelge Von KochPaul Lévy (mathematician)Aleksandr LyapunovBenoit MandelbrotLewis Fry RichardsonWacław SierpińskiCoastline ParadoxList Of Fractals By Hausdorff DimensionThe Beauty Of FractalsFractal ArtChaos: Making A New ScienceThe Fractal Geometry Of NatureHelp:CategoryCategory:FractalsCategory:Mathematics PapersCategory:1967 In ScienceCategory:1967 DocumentsCategory:Works Originally Published In Science (journal)Category:Coasts Of The United KingdomDiscussion About Edits From This IP Address [n]A List Of Edits Made From This IP Address [y]View The Content Page [c]Discussion About The Content Page [t]Edit This Page [e]Visit The Main Page [z]Guides To Browsing WikipediaFeatured Content – The Best Of WikipediaFind Background Information On Current EventsLoad A Random Article [x]Guidance On How To Use And Edit WikipediaFind Out About WikipediaAbout The Project, What You Can Do, Where To Find ThingsA List Of Recent Changes In The Wiki [r]List Of All English Wikipedia Pages Containing Links To This Page [j]Recent Changes In Pages Linked From This Page [k]Upload Files [u]A List Of All Special Pages [q]Wikipedia:AboutWikipedia:General Disclaimer



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