Mathematics – Metric Geometry
Scientific paper
2008-11-26
Mathematics
Metric Geometry
three figures, one computer program listing, for Appendix B
Scientific paper
It is well known that to determine a triangle up to congruence requires three measurements: three sides, two sides and the included angle, or one side and two angles. We consider various generalizations of this fact to two and three dimensions. In particular we consider the following question: given a convex polyhedron $P$, how many measurements are required to determine $P$ up to congruence? We show that in general the answer is that the number of measurements required is equal to the number of edges of the polyhedron. However, for many polyhedra fewer measurements suffice; in the case of the unit cube we show that nine carefully chosen measurements are enough. We also prove a number of analogous results for planar polygons. In particular we describe a variety of quadrilaterals, including all rhombi and all rectangles, that can be determined up to congruence with only four measurements, and we prove the existence of $n$-gons requiring only $n$ measurements. Finally, we show that one cannot do better: for any sequence of $n$ distinct points in the plane one needs at least $n$ measurements to determine it up to congruence.
Borisov Alexander
Dickinson Mark
Hastings Stuart
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