Tiling with Spidrons
Abstract
This is a great science fair project for someone who is interested in both mathematics and art. Spidrons are geometric forms made from alternating sequences of equilateral and isosceles (30°, 30°, 120°) triangles. Spidrons were discovered and named by Daniel Erdély in the early 1970's, and have since been studied by mathematicians and artists alike. This project is a great way to learn about the mathematics and art of tiling patterns.Objective
The goal of this science fair project is to find three or more different ways to tile the plane (i.e. an infinite twodimensional surface) with spidronbased shapes as the tiling elements.
Credits
Andrew Olson, PhD, Science Buddies
Sources
This science fair project was inspired by Jason's entry to the 2007 Sciencepalooza, sponsored by Synopsis.
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Introduction
Sometime in the early 1970's, Daniel Erdély was inspired to doodle a sequence of triangles inside a hexagon. He discovered that he could make a pattern of alternating equilateral and isosceles triangles, and that six of these patterns would fill the entire space inside the hexagon (Figure 1). Erdély put two of these patterns together, backtoback to make a geometric object that he named a spidron (Figure 2).
Figure 1. A single 'arm' of a spidron (blue) inscribed in a hexagon.
Figure 2. An example of the geometric figure that Erdély named a 'spidron.' The upper case letters show the four initial triangles in one 'arm' of the spidron. The lower case letters show the four initial triangles in the other 'arm.' Each arm consists of a sequence of alternating isosceles (A, a, C, c, etc.) and equilateral (B, b, D, d, etc.) triangles.
Erdély continued to experiment with spidrons. He realized, for example, that the sum of the areas of the sequence of triangles following an equilateral triangle in a spidron is equal to the area of the equilateral triangle itself. He also discovered many patterns for tiling twodimensional space with spidrons, which is what you will try to do in this project. Mathematicians have a special name for tiling: tessellation. Tesselation has important applications in the study of crystals and quasicrystals in chemistry and materials science. If you are interested in taking your study of spidrons to three dimensions, you will discover, as Erdély did, that spidrons have amazing properties when folded into three dimensional structures. This is a great project for someone with interests in either math or art.
Terms and Concepts
To do this project, you should do research that enables you to understand the following terms and concepts:
 Spidron
 Tiling (also known as tessellation)
 Symmetry
Questions
 How many ways can you find to tesselate (tile) twodimensional space with spidron arms?
Bibliography
 Erdely, Daniel. (n.d.). Spidron Workbook. Retrieved December 30, 2009, from http://edan.szinhaz.org//SpidronWorkBook/#1
 edan.szinhaz.org. (n.d.) Spidron System. Retrieved December 30, 2009, from http://edan.szinhaz.org/SpidroNew/
 Peterson, I. (2007, February). Spiraling Triangles. Muse. Retrieved December 30, 2009, from http://www.sciencenewsforkids.org/pages/puzzlezone/muse/muse0207.asp
 Peterson, Ivars. "Swirling Seas, Crystal Balls." ScienceNews. Volume 170, 26 October 2006: 266268.
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Materials and Equipment
 Several sheets of colored paper
 Origami paper is a good choice.
 Colored copy paper or construction paper could also be used.
 Ruler
 Protractor
 Pencil
 Scissors
 Lab notebook
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I Did This Project! Please log in and let us know how things went.Experimental Procedure
 Do your background research so that you are familiar with the terms, concepts, and questions, above.

Make a bunch of spidrons using various colors of paper. Here is a simple procedure for constructing single spidron arms (i.e., halfspidrons) by inscribing them in a regular hexagon.
 Draw a regular hexagon.

Connect every other vertex with a straight line (gray lines in the illustration below).
Figure A. This is an example of the wind tunnel you can make, based on the design and instructions provided in this howto guide!

The lines you draw will create a smaller regular hexagon, inside the first. Repeat the process of connecting every other vertex with a straight line (orange lines in the illustration below).
 Repeat the previous step until the inner hexagon becomes too small to continue.

You will be able to cut out six spidron arms (colored in blue in the illustration below) from each starting hexagon.
 Tip: remember to make all of your starting hexagons the same size!
 Tip: you could save time by making a spidron arm template from cardstock or cardboard, and then using this with a utility knife to cut spidron arms from colored paper. Careful with knife, and use fresh blades for best results.
 How many different ways can you find to use the halfspidron shapes to make a repeating tiling pattern that could cover a twodimensional plane? (Remember, simply changing colors doesn't count! You have to find different spatial arrangements of the tiling units.)
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I Did This Project! Please log in and let us know how things went.Variations
 Advanced. Can you prove that the sum of the areas of the sequence of spidron triangles that follow an equilateral triangle is equal to the area of the equilateral triangle itself?
 Advanced. Can you write a computer program that draws spidrons and allows the user to experiment with different spidron tiling patterns?
 Advanced. One of the amazing properties of spidrons is how they can be folded up into threedimensional shapes by making mountain and valley folds in the right places. Can you make threedimensional polyhedra based on spidrons? Can your polyhedra be used to tile in three dimensions? If you're into origami, this could be a great project for you!
 Advanced. Can you come up with an equation that describes the outline of a spidron?
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I Did This Project! Please log in and let us know how things went.Ask an Expert
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