Presentation is loading. Please wait.

Presentation is loading. Please wait.

Fractals! Fractals are these crazy objects which stretch our understanding of shape and space, moving into the weird world of infinity. We will look at.

Published byDaniela Hudson Modified over 8 years ago

Similar presentations

Presentation on theme: "Fractals! Fractals are these crazy objects which stretch our understanding of shape and space, moving into the weird world of infinity. We will look at."— Presentation transcript:

1 Fractals! Fractals are these crazy objects which stretch our understanding of shape and space, moving into the weird world of infinity. We will look at examples of fractals such as the Koch snowflake and the Sierpinski's triangle. We will talk about making fractals, and think about the various dimensions of a fractal. Does it make sense to talk about its dimensions? Can we call it a 2-dimensional or a 3-dimensional object? Look forward to stretching your imagination and playing with mathematics! Total Notes: Fractals Title Slide Various Fractal Images What is a fractal – self-similarity, and continuous but nowhere differentiable. How do we build a fractal? (Slides 1-3, about 5 – 10 minutes) Constructing the Koch Curve and the Sierpinski’s Triangle. Questions to consider: Compute area under Koch Curve, discuss area of Sierpinski’s Triangle. Various other ways to construct Sierpinski Triangle – Cutting Triangles, Pascal’s Triangle, Chaos Game. In your groups, come up with your own fractals; can you find more ways to come up with your fractal? – if some groups finish early, have them start to think about dimension. (Slides 4-5, about 5-10 minutes) (Group work 10 minutes) Dimension: Does a fractal have a dimension? What does dimension even mean? Hausdorff – “amount of space”; Minkowski-Bouligand (box-counting) – size compared to length. Box-Counting Dimension image. Try to figure out the dimensions for the Koch Curve and Sierpinski’s Triangle. Can they compute the dimension of the fractals that they created? (Slides 6-7, about 5 – 10 minutes; w/out their group work) (Group work 10 minutes) Statement of dimensions for the Koch Curve and Sierpinski’s Triangle.

2

3 So, how do we build a fractal?
Self-Similarity Things look the “same” when you zoom in anywhere by any amount in a “non-trivial” way. Continuous, but nowhere differentiable Everything is connected, but it’s “pointy” everywhere. What is a fractal? So, how do we build a fractal? Some kind of infinitely repeating rule Some kind of rule which creates “pointy” things

4 Sierpinski’s Triangle
Koch Curve Sierpinski’s Triangle Questions to consider: Computing area under the Koch curve; talk about how much 2-dim “space” the triangle takes up – does it have area?

5 Constructing the Sierpinski’s Triangle
Cutting out triangles! Pascal’s triangle! Chaos game! In your groups, see if you can come up with your own fractals; are there more ways to construct your fractal? If some groups finish early, ask them about dimension?

6 What does dimension even mean?
Does a fractal have dimension? What does dimension even mean? Examples of dimension measures: Hausdorff dimension – how much “space” things take up. Minkowski-Bouligand dimension (box-counting dimension) – “size” compared to length.

7 Box-Counting Dimension
2 1 4 1 1 2 1 2

8 Fractal Dimensions The Koch Curve -- log 3 4
Sierpinski’s Triangle -- log 2 3

Download ppt "Fractals! Fractals are these crazy objects which stretch our understanding of shape and space, moving into the weird world of infinity. We will look at."

Similar presentations

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).

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).
FIELD DAY TOK: Mathematics and Imagination

FIELD DAY TOK: Mathematics and Imagination
MEGAMENGER Supported by Resources by MEGAMENGER is an international distributed fractal building event taking place in locations all around the globe.

MEGAMENGER Supported by Resources by MEGAMENGER is an international distributed fractal building event taking place in locations all around the globe.
Fractals everywhere ST PAUL’S GEOMETRY MASTERCLASS II.

Fractals everywhere ST PAUL’S GEOMETRY MASTERCLASS II.
A GLIMPSE ON FRACTAL GEOMETRY YUAN JIANG Department of Applied Math Oct9, 2012.

A GLIMPSE ON FRACTAL GEOMETRY YUAN JIANG Department of Applied Math Oct9, 2012.
FRACTALS. WHAT ARE FRACTALS? Fractals are geometric figures, just like rectangles, circles, and squares, but fractals have special properties that those.

FRACTALS. WHAT ARE FRACTALS? Fractals are geometric figures, just like rectangles, circles, and squares, but fractals have special properties that those.
Jochen Triesch, UC San Diego, 1 Rendering of the Mandelbrot set: perhaps the most famous fractal Fractals.

Jochen Triesch, UC San Diego, 1 Rendering of the Mandelbrot set: perhaps the most famous fractal Fractals.
West Wallsend High School Visit September 24 th 2010 West Wallsend High School Visit Presentation by Jon Borwein, Director Centre for Computer Assisted.

West Wallsend High School Visit September 24 th 2010 West Wallsend High School Visit Presentation by Jon Borwein, Director Centre for Computer Assisted.
Chapter 9: Recursive Methods and Fractals E. Angel and D. Shreiner: Interactive Computer Graphics 6E © Addison-Wesley 2012 1 Mohan Sridharan Based on Slides.

Chapter 9: Recursive Methods and Fractals E. Angel and D. Shreiner: Interactive Computer Graphics 6E © Addison-Wesley Mohan Sridharan Based on Slides.
Fractals Jennifer Trinh Benoît Mandelbrot, “father of fractal geometry”

Fractals Jennifer Trinh Benoît Mandelbrot, “father of fractal geometry”
Fractals Ed Angel Professor of Computer Science, Electrical and Computer Engineering, and Media Arts Director, Arts Technology Center University of New.

Fractals Ed Angel Professor of Computer Science, Electrical and Computer Engineering, and Media Arts Director, Arts Technology Center University of New.
Homework discussion Read pages 388 – 391 Page 400: 49 – 52, 72.

Homework discussion Read pages 388 – 391 Page 400: 49 – 52, 72.
The infinitely complex… Fractals Jennifer Chubb Dean’s Seminar November 14, 2006 Sides available at

The infinitely complex… Fractals Jennifer Chubb Dean’s Seminar November 14, 2006 Sides available at
Linear Fractal Mountains 2 step recursive process: –Subdivide chain by creating edge midpoints –Randomly perturb midpoint positions Gen 0: Gen 1: Gen 2:

Linear Fractal Mountains 2 step recursive process: –Subdivide chain by creating edge midpoints –Randomly perturb midpoint positions Gen 0: Gen 1: Gen 2:
The Wonderful World of Fractals

The Wonderful World of Fractals
CS4395: Computer Graphics 1 Fractals Mohan Sridharan Based on slides created by Edward Angel.

CS4395: Computer Graphics 1 Fractals Mohan Sridharan Based on slides created by Edward Angel.
Multifractals in Real World

Multifractals in Real World
Copyright 2013, 2010, 2007, Pearson, Education, Inc. Section 9.7 Non-Euclidean Geometry and Fractal Geometry.

Copyright 2013, 2010, 2007, Pearson, Education, Inc. Section 9.7 Non-Euclidean Geometry and Fractal Geometry.
Modelling and Simulation 2008 A brief introduction to self-similar fractals.

Modelling and Simulation 2008 A brief introduction to self-similar fractals.
Applied Mathematics Complex Systems Fractals Fractal by Zhixuan Li.

Applied Mathematics Complex Systems Fractals Fractal by Zhixuan Li.

Similar presentations

Ads by Google