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[Texts]## 52: Convex and discrete geometry |

- 52A: General convexity, especially 52A55: Spherical geometry.
- 52B: Polytopes and polyhedra
- 52C: Discrete geometry

Browse all (old) classifications for this area at the AMS.

Klee, Victor: "What is a convex set?", Amer. Math. Monthly 78 1971 616--631. MR44#3202

Miyazaki, Koji: "An adventure in multidimensional space. The art and geometry of polygons, polyhedra, and polytopes", John Wiley & Sons, Inc., New York, 1986. 112 pp. ISBN 0-471-81648-5 MR87m:00001

Tilings: There are two books by Grünbaum, Branko and Shephard, G. C. entitled "Tilings and patterns", both published by W. H. Freeman and Company, New York: the first (1987. 700 pp. ISBN 0-7167-1193-1) followed by one subtitled "An introduction" (1989. 446 pp. ISBN 0-7167-1998-3) (The two authors have a long history of collaboration in this area.)

- UTK archives page.
- Here are the AMS and Goettingen resource pages for area 52.

- What is the Brouwer Fixed-Point Theorem?
- Helley's theorem: If several given convex sets cover R^n then n+1 convex sets cover R^n
- Loewner's theorem: there is a unique minimal-volume ellipsoid containing any given bounded set in R^n
- What is the maximum number of pieces formed with N slices of the cake?
- Number of regions formed joining chords of equidistant points on a circle.
- How many shapes formed from glueing N squares edge-to-edge? (n-ominos)
- How many shapes formed from glueing N blocks face-to-face?
- Kepler's conjecture: the densest packing of balls in R^3 is the one used to stack fruit.
- Densest sphere packings relation to distributing points on spheres
- How many spheres can be packed into a rectangular box?
- Optimal packings of {circles, squares,...} in {squares, ...} [Dave Boll]
- Optimal distribution of points in a box?
- Tiling 3-space using tetrahedra and square pyramids
- Some discussions about the Penrose tilings of the plane (aperiodic tilings with as few as 2 distinct shapes).
- Penrose tilings and others.
- Quasiperiodic tilings of Euclidean space (e.g. Penrose tiles) [Chris Hillman]
- Quick proof of the isoperimetric inequality (that other closed curves enclose less area than a circle of the same length).
- The isoperimetric quotient: area versus circumference
- Literature survey on Reauleaux triangles.
- What's the volume of the cone on a region?
- What is the largest box contained in a general 3-dimensional shape?
- Decomposing a square as a union of distinct squares [See also Guy's Unsolved Problems in Number Theory for a picture.]

Last modified 1999/05/12 by Dave Rusin. Mail: feedback@math-atlas.org