Fractals Part 1: In which we attempt to describe what a fractal is, because people will ask (but perhaps they will not really want to know the answer).

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Presentation transcript:

Fractals Part 1: In which we attempt to describe what a fractal is, because people will ask (but perhaps they will not really want to know the answer). Then I introduce the 2 nd most photogenic fractal of the class, and attempt to convince you it is cool anyways.

About Me BS and MS in Computer Science from the University of Illinois at Urbana-Champaign (not the sort of education where you learn a lot about obscure kinds of geometry) But fractals are awesome…

By The End of the Course… You will be able to explain what fractals really are. Including how fractals touch on a lot of really interesting weird parts of math. You will be able to make some really cool pictures (even cooler pictures because you understand what’s going on) You’ll explore and understand fractal stuff on your own, and maybe a few of you will teach me some new stuff about different kind of fractals (maybe as part of your final project)

By the end of this class… 1.You’ll have a definition for what a fractal is. Though that definition will be slightly unsatisfying at this point. 2.We will talk about the Sierpinski Gasket 3.We may even get to the point of visualizing the Sierpinski Gasket on the computer

Fractal (according to Wikipedia) 1.It has a fine structure at arbitrarily small scales 2.It is too irregular to easily be described in traditional Euclidean geometric language 3.It is self-similar 4.It has a Hausdorff dimension which is greater than its topological dimension Hey, these 4 items would be a cool thing to record in your notebook…just saying

It has a fine structure at arbitrarily small scales One picture is not enough to do the Mandelbrot Set justice

It is too irregular to easily be described in traditional Euclidean geometric language

It is self- similar

It has a Hausdorff dimension which is greater than its topological dimension ?

Sierpinski Gasket (also Sierpinski Triangle)

QUESTION A. The area of the gasket is… Less than 1/10 th the area of a equally sized triangle 3.More than 1/10 th the area of a equally sized triangle 4.Infinite QUESTION B. If you were to travel every edge of the gasket. It’s “perimeter” would be… Less than 30 times the perimeter of a equally sized triangle 3.More than 30 times the perimeter of a equally sized triangle 4.Infinite

Two More Questions about the Gasket Labeling scheme Doubling an edge.