Fractals and symmetry by group 3
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Fractals and Symmetry
By: Group 3ABENOJAR, GARCIA, RAVELO
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Symmetry
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Markus Reugels• A photographer who showed
that beauty can exist in places we don’t expect it to be.
• Most of his photographs are close-ups of water droplets and the water crown which features a special geometric figure called the crown is formed from splashing water.
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Etymology
• Symmetry came from the Greek word symmetría which means “measure together”
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Symmetry conveys two meanings…
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The First
• Is an imprecise sense of harmony and beauty or balance and proportion.
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The Second
• Is a well-defined concept of balance or patterned self-similarity that can be proved by geometry or through physics.
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Symmetry
Geometry
Mathematics
Science
Reflection
Rotation
Helical
Scale/Fractals
Odd and Even FunctionsInverse Functions
Music
Passage through time
Spatial relationships
Architecture
Social Interactions
Arts/Aesthetics
Religious Symbols
Knowledge
Translation
Logic
Rotoreflection Glide Reflection
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Symmetry in Geometry
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Symmetry in Geometry• “The exact correspondence of form
and constituent configuration on opposite sides of a dividing line or plane or about a center or an axis” (American Heritage® Dictionary of the English Language 4th ed., 2009)
• In simpler terms, if you draw a specific point, line or plane on an object, the first side would have the same correspondence to its respective other side.
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Reflection Symmetry
• Symmetry with respect to an axis or a line.
• A line can be drawn of the object such that when one side is flipped on the line, the object formed is congruent to the original object, vice versa.
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The location of the line matters
True Reflection Symmetry False Reflection Symmetry
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Rotational Symmetry
• Symmetry with respect to the figure’s center• An axis can be put on the object such that if the
figure is rotated on it, the original figure will appear more than once
• The number of times the figure appears in one complete rotation is called its order.
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Figures and their order
Order 2 Order 4 Order 6 Order 5
Order 8 Order 3 Order 7
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Other types of Symmetry• Translational symmetry
– looks the same after a particular translation
• Glide reflection symmetry– reflection in a line or plane combined with a translation along the line / in the plane,
results in the same object
• Rotoreflection symmetry– rotation about an axis (3D)
• Helical symmetry– rotational symmetry along with translation along the axis of rotation called the screw
axis
• Scale symmetry– the new object has the same properties as the original if an object is expanded or
reduced in size– present in most fractals
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Symmetry in Math
• Symmetry is present in even functions – they are symmetrical along the y-axis
• Symmetry is present in odd functions as well – they are symmetrical with respect to the origin. They have order 2 rotational symmetry.
cos(θ) = cos(- θ) sin(-θ) = -sin( θ)
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Symmetry in Math
• Functions and their inverses exhibit reflection wrt the line with the equation x = y
• f(f-1(x)) = f-1(f(x)) = x
ln( x) = xln() = x(1) = x
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Passage of time
Time is symmetric in the sense that if it is reversed the exact same events are happening in reverse order thus making it symmetric. Time can be reversed but it is not possible in this universe because it would violate the second law of thermodynamics.
Perception of time is different from any given object. The closer the objects travels to the speed of light, the slower the time in its system gets or he faster its perception of time would be. This means it could only be possible to have a reverse perception of time on a specific system but not a reverse perception on the entire system.
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Spatial relationship
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Knowledge
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Religious Symbols
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Music
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Fractals
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Etymology
• Fractal came from the Latin word fractus which means “interrupted”, or “irregular”
• Fractals are generally self-similar patterns and a detailed example of scale symmetry.
Julian Fractal
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History• Mathematics behind fractals
started in the early 17th cenury when Gottfried Leibniz, a mathematician and philosopher, pondered recursive self-similarity.
• His thinking was wrong since he only considered a straight line to be self-similar.
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History• In 1872, Karl Weiestrass
presented the first definition of a function with a graph that can be considered a fractal.
• Helge von Koch, in 1904, developed an accurate geometric definition by repeatedly trisecting a straight line. This was later known as the Koch curve.
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History• In 1915, Waclaw Sierpinski
costructed the Sierpinski Triangle.• By 1918, Pierre Fatou ad Gaston
Julia, described fractal behaviour associated with mapping complex numbers. This also lead to ideas about attractors and repellors an eventually to the development of the Julia Set.
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Benoît Mandelbrot• A mathematician who created
the Mandelbrot set from studying the behavior of the Julia Set.
• Coined the term “fractal”
Mandelbrot Set
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What is a fractal?
• A fractal is a mathematical set that has a fractal dimension that usually exceeds its topological dimension. And may fall between integers.
Fibonacci word by Samuel Monnier
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Iteration
• Iteration is the repetition of an algorithm to achieve a target result. Some basic fractals follow simple iterations to achieve the correct figure.
First four iterations of the Koch Snowflake
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Calculating Fractal Dimension• Let’s look at the line on the right, when
it is divided by 2, the number of self-similar pieces becomes 2. When divided by 3, the number of self-similar pieces becomes 3.
A formula is given to calculate the dimension of a given object:
where N = number of self-similar pieces = scaling factorWe can now substitute:
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Calculating Fractal Dimension• For the plane:
• For the space:
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Sierpinski Triangle
• Clue: Iteration 1 has an of 1, Iteration 2 has an of 2, Iteration 3 has an of 4 and so on.
• Answer:
That means that the Sierpinski triangle has a fractal dimension of about 1.58. How could that be? Mathematically, that is its dimension but our eyes see an infinitely complex figure.
Iteration 1 Iteration 2 Iteration 3 Iteration 4 Iteration 5
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Quadratic Koch Type 2
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Quadratic Koch Type 2 Iteration
At the second iteration, the number of self-similar pieces ()becomes 8 as the scaling factor () becomes 4 so the fractal dimension for the Quadratic Koch is:
=
This still fits the definition of a fractal having a fractal dimension between integers.
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Types of Self-Similarity
Exact Self-similarity• Identical at all scales• Example: Koch snowflake
Quasi Self-similarity• Approximates the same
pattern at different scales although the copy might be distorted or in degenerate form.
• Example: Mandelbrot’s Set
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Types of Self-Similarity
Statistical Self-Similarity• Repeats a pattern
stochastically so numerical or statistical measures are preserved across scales.
• Example: Koch Snowflake
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Mandelbrot Set
Mandelbrot Iteration Towards Infinity Self-repetition in the Mandelbrot Set
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Closely Related Fractals
Mandelbrot Set Julia Set
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Zoom into Mandelbrot Set Julia Set Plot
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Newton Fractal
p(z) = z5 − 3iz3 − (5 + 2i) ƒ:z→z3−1
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Applications of Fractals
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Video Game Mapping
Computer Generated (CG) Graphics use Fractal Mapping to render detailed and realistic maps. An example is the map of Skyrim which is excessively large and realistic.
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Meteorology
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Art
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Seismology
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Geography
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Coastline Complexity
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Sources• http://en.wikipedia.org/wiki/Symmetry• http://ethemes.missouri.edu/themes/226• http://
www.bbc.co.uk/schools/gcsebitesize/maths/shapes/symmetryrev2.shtml• http://
www.bbc.co.uk/schools/gcsebitesize/maths/shapes/symmetryrev3.shtml