Fractals - PowerPoint PPT Presentation

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Fractals

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Alan CHEE Ka Ho Justina LAI Siu Kwan Gloria WONG Wing Yan – PowerPoint PPT presentation

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Title: Fractals


1
Fractals
  • Alan CHEE Ka Ho
  • Justina LAI Siu Kwan
  • Gloria WONG Wing Yan

2
Outline
  • What fractals are
  • Properties of fractals
  • How to create fractals
  • Math concepts
  • Appreciations and applications

3
Observation
What are the similarities among these photos??
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Characteristics
  • Scaling ( lt1)
  • Self-similar

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Fractal is
  • Latin fractus broken or fractured
  • Mathematically, based on an equation that
    undergoes iteration(??)
  • A fractal is "a rough or fragmented geometric
    shape that can be split into parts, each of which
    is (at least approximately) a reduced-size copy
    of the whole."

9
Properties
  • Reduced scale
  • Self similar
  • Area?
  • Perimeter?
  • http//fractalfoundation.org/resources/what-are-fr
    actals/

10
How to create fractals?
11
Fractals Line Segment Generator
  • Koch curve
  • The middle one-third of the line segment is
    replaced by another two line segment formed as an
    equilateral triangle.
  • The triangles have length as the original
    one-third of the line segment.

12
Fractals Line Segment Generator
  • Minkowski Sausage

13
Fractals Line Segment Generator
  • Create your own Fractals
  • http//www.dangries.com/Flash/FractalMaker.html

14
Math concepts
15
Calculation Time
  • Sierpinski Gasket (Triangle)

http//www.csua.berkeley.edu/raytrace/java/sierpi
nski/gasket.html
16
Rules Sierpinski Triangle
  • 1) Recognize the midpoints on each side of the
    equilateral triangles.
  • 2) Connect the midpoints internally to form the
    next level's fractal
  • 3) Remove the middle triangle

17
Rules Sierpinski Triangle
  • Keep repeating this process, we will eventually
    have something like this
  • http//math.bu.edu/DYSYS/applets/fractalina.html

18
Change in Area
  • Originally

 
 

S
OR
 
 
 


19
Change in Area
  • After 1st iteration,
  • After 2nd iteration,

 
 
20
Change in Area
  • After nth iteration,
  • As the number of iteration tends to infinity,

 
 
http//www.csua.berkeley.edu/raytrace/java/sierpi
nski/gasket.html
21
Change in Perimeter
  • Originally
  • After 1st iteration,

 
S
 
22
Change in Perimeter
  • After 2nd iteration,
  • After 3rd iteration,

 
 
23
Change in Perimeter
  • After nth iteration,
  • As the number of iteration tends to infinity,

 
 
http//www.csua.berkeley.edu/raytrace/java/sierpi
nski/gasket.html
24
More Examples
  • KOCH Snowflakes

25
More Examples
  • Sierpinski Carpet

http//www.csua.berkeley.edu/raytrace/java/sierpi
nski/carpet.html
26
Conclusion about Fractal Properties
  • 1) Scaling
  • 2)Self-similarity
  • 3) Area usually converges to certain value as
    iteration level increases
  • 4) Perimeter usually increases even up to
    infinity as iteration level increases

27
Appreciation
  • Human body

28
AppreciationHuman Body
  • Aorta -gt Arteries -gt Arterioles -gt Capillaries
  • Capillaries are 1 cell thick.
  • Humans have about 150,000 km of blood vessels -
    enough to go around the world several times!

29
AppreciationHuman Body
30
AppreciationHuman Body
31
Appreciation
  • Nature

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Appreciation--nature
  • Nature is somehow complicated and irregular for
    us to understand.
  • However, after learning fractals, it seems that
    the nature is following some rules.

For since the creation of the world Gods
invisible qualities his eternal power and divine
naturehave been clearly seen, being understood
from what has been made, so that people are
without excuse. (Romans 120)
47
Application
48
ApplicationArts
  • http//hk.myblog.yahoo.com/jw!vjC_crWaHwNGi_.lEaAt
    KIIfZPg-/article?mid2180
  • http//fractalfoundation.org/images/

49
Application--Music
  • Method of creating the self-similarity of
    fractals (L-Systems)
  • starting with a short string of symbols
  • replacing the symbols with corresponding rules
    (The symbols are then interpreted as notes,
    chords, and several other things.)

50
Application--Music
  • C D
  • F E D C E F
  • D E F D C E F F E D F D D E
  • Example
  • Start C D
  • Rules
  • C -gt F E D
  • D -gt C E F
  • F -gt D E
  • E -gt F D

51
Other Applications
  • Find out yourself and share in the online
    discussion

52
Extra and Homework
53
Extra(fun)
  • Fractal Maker
  • http//www.dangries.com/Flash/FractalMaker.html
  • http//fractalfoundation.org/OFC/OFC-index.htm
  • GIMP
  • http//www.ehow.com/how_2196594_original-images
    -using-fractals.html

54
Homework
  1. Create a Fractal on your own and print it out.
    (You can use the links that shown in Extra(fun)
    slide.)
  2. The following fractal is formed by reducing the
    unit square by the factor one-third and placing
    the images in form of a cross. Calculate the area
    for this Fractal for step nth.

2nd
1st
Originally
3rd
55
Homework
  • 3. Extra In Fractal geometry, it introduces
    that dimensions could be in fractions. Could
    you find out the fractal dimension for the Koch
    Snowflake? Explain your answer briefly if
    possible.

56
Online discussion
  • Search a Fractal Art in the internet and share
    the link with us.
  • Search another Fractals application in the
    internet and explain a little bit with it.
  • Can you think of other applications or topics
    involving scaling or self-similarities?

57
Summary
  • What fractals are
  • Properties of fractals
  • How to create fractals
  • Math concepts
  • Appreciations and applications

58
References
  • http//fractalfoundation.org/OFC/OFC-index.htm
  • http//fractalfoundation.org/images/
  • http//library.thinkquest.org/26242/full/
  • http//www.tursiops.cc/fm/
  • http//webecoist.com/2008/09/07/17-amazing-example
    s-of-fractals-in-nature/
  • http//www.miqel.com/fractals_math_patterns/visual
    -math-natural-fractals.html
  • http//library.thinkquest.org/26242/full/

59
References
  • http//hk.myblog.yahoo.com/jw!vjC_crWaHwNGi_.lEaAt
    KIIfZPg-/article?mid2180
  • http//kitoba.com/pedia/Fractal20Shell.html
  • http//gut.bmj.com/content/57/7.cover-expansion
  • http//www.homepages.ucl.ac.uk/sjjgnle/
  • http//www.nutralegacy.com/blog/general-healthcare
    /the-basics-of-the-circulatory-system/
  • http//nerdnirvana.org/wp-content/uploads/2010/08/
    4391-Amazing-Recursive-Painting.jpg

60
Thankyou
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