For the Museum of Mathematics
I have been remiss. I wrote an entire column on arrangements of great circles without once mentioning Buckminster Fuller. His original designs for domes involved bracing them solely with arcs of great circles. Since, on the surface of a sphere a great circle is the shortest path, or geodesic, between two points, he dubbed his structures “geodesic domes.” Later on, even when they had different geometries, the name geodesic dome stuck. In any case, Fuller wrote a great deal about different arrangements of great circles, especially the following 25-circle and 31-circle arrangements:
Fuller also devised a delightfully simple method to fold four great circles forming the edges of a spherical cuboctahedron from four circles of paper. It took me about fifteen minutes to produce a model using this method, with a compass, four sheets of copier paper, and forty paper clips.
As a result, the web abounds with a variety of Fuller-inspired great circle constructions, such as this one consisting of 13 great circles, built by Bob Burkhardt using the classic 1960s geometrical construction toy, D-Stix.
And now Math Monday has inspired a new addition to this sphere of constructions. In that earlier column, I suggested building an arrangement of 15 great circles. Reader Martin Raynsford took up the challenge, producing the following lovely model from cardstock, laser-cut, folded, and glued:
Martin has graciously provided complete plans on his blog. Note how he has carefully divided up the cells so that each segment consists precisely of two thicknesses of the cardstock, and no two seams are back-to-back, for a very uniform finished product.
And who knows: Will the trend toward greater circles continue with a construction of either of the two designs at the beginning of this column? Send pictures to email@example.com of any worthy math-making you engage in or encounter!
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