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A GLIMPSE ON FRACTAL GEOMETRY YUAN JIANG Department of Applied Math Oct9, 2012.

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Presentation on theme: "A GLIMPSE ON FRACTAL GEOMETRY YUAN JIANG Department of Applied Math Oct9, 2012."— Presentation transcript:

1 A GLIMPSE ON FRACTAL GEOMETRY YUAN JIANG Department of Applied Math Oct9, 2012

2 Brief Basic picture about Fractal Geometry Illustration with patterns, graphs Applications(fractal dimensions, etc.) Examples with intuition(beyond maths) Three problems related, doable for us

3 0. History Mandelbrot(November 1924 ~ October 2010), Father of the Fractal Geometry. For his Curriculum Vitae, c.f. http://users.math.yale.edu/mandelbrot/web_docs/ VitaOnePage.doc http://users.math.yale.edu/mandelbrot/web_docs/ VitaOnePage.doc

4 1.1 Definition Fractal Geometry----- concerned with irregular patterns made of parts that are in some way similar to the whole, called self-similarity.self-similarity

5 1.2 Illustration

6 2.1 What’s behind the curve? Geometric properties---- lengths/areas/volumes/… Space descriptions---- dimensions(in what sense?)/…

7 2.2 Fractal dimensions Dimension in various sense ----concrete sense ----parameterized sense ----topological sense ----…… Fractal dimensions (for regular fractal stuffs) Hausdorff Dimension ‘MEASURING & ZOOMING’ (See the Whiteboard)

8 2.3 Formula of fractal dimension (for regular fractal geometry) Let k be the unit size of our measurement (e.g. k=1cm for a line), with the method of continuously covering the figure; let N(k) be the # of units with such a measurement method. Then, the Hausdorff dimension of fractal geometry is defined as D=lnN(k)/ln(1/k)

9 2.4 Fractal Dimensions(examples) Sierpinski Curtain (2-D) D=ln3/ln2=1.585 Menger Sponge (3-D) D=ln20/ln3=2.777  Koch Snowflake (1-D) D=ln4/ln3=1.262

10 3.1 Applications in Coastline Approximation Think about coastlines, and what’s the dimension? 1? 2? Or some number in between? (See Whiteboard) Notice: it’s no longer regular.

11 3.2 Applications (miscellaneous)

12 4. Three “exotic” problems in math Construct a function on real number that is continuous yet non-derivable everywhere. Construct a figure with bounded area yet infinite circumference, say in a paper plane. Construct a set with zero measure yet (uncountably) infinite many points.

13 5. References The Fractal Geometry of Nature, Mandelbrot (1982); Fractal Geometry as Design Aid, Carl Bovill (2000); Applications of Fractal Geometry to the Player Piano Music of Conlon Nancarrow, Julie Scrivener; Principles of Mathematical Analysis, Rudin (3 rd edition); http://www.doc.ic.ac.uk/~nd/surprise_95/journal/vol4/ykl/rep ort.html; (Brownian Motion and Fractal Geometry)http://www.doc.ic.ac.uk/~nd/surprise_95/journal/vol4/ykl/rep ort.html http://www.triplepundit.com/2011/01/like-life-sustainable- development-fractal/; (Fractal and Life, leisure taste )http://www.triplepundit.com/2011/01/like-life-sustainable- development-fractal/ http://users.math.yale.edu/mandelbrot/. (Mr. Mandelbrot)http://users.math.yale.edu/mandelbrot/

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