You are cordially invited to join us for the
 
School of Mathematical Sciences
School Seminar
 
Wednesday, January 25, 2006
3:30 – 4:30 p.m.
Ross 2238 (Conference Room)
 
 
Speakers: Dean Allison, Ricardo Diaz, and Nathaniel Miller
“Generalized Baseball Curves: Three Symmetries and You’re In!”
 
Consider the curve traced out on the surface of a baseball by its seam.  Many different authors have tried to give mathematical equations describing this curve in many different ways.  There have been so many different descriptions of this curve, in fact, that John Conway proposed the following conjecture: No two definitions of “the correct baseball curve” will give the same answer unless their equivalence is obvious from the start.  
 
In this talk, we will take a slightly different direction than most past attempts to define baseball curves.  Rather than focusing immediately on a particular curve, we will identify several symmetry properties that any reasonable candidate for a baseball curve must have, and call the class of curves on the sphere that have these symmetries generalized baseball curves.
 
We will explore the symmetry properties of these generalized baseball curves using the concept of geodesic curvature, an idea from differential geometry which measures how much a curve on the sphere deviates locally from a great circle. We'll discuss a simple physical characterization of geodesic curvature in terms of planar ribbons which we believe deserves to be more widely known, and will show that curves whose geodesic curvature functions satisfy certain symmetries are in fact generalized baseball curves as long as they close back on themselves.  We will look at the particular family of curves whose geodesic curvature is of the form sin(c s), and will give geometric arguments showing that, perhaps surprisingly, there are many such curves that do close back on themselves and are therefore generalized baseball curves.  Along the way, we'll come up with what we think is a particularly nice, and (we think) previously undiscussed particular curve that fits the actual seam of a baseball surprisingly well.