Return to the MEC page

 

Geometric Dissections

by

Mircea Pitici

September 2008

 

 

This online module presents an overview of mathematicians’ interest in geometric dissections, from ancient times to the present, as well as the main results and methods employed in geometric dissections.

A dissection of a plane geometrical figure is a partition of it by straight lines. The resulting pieces of the decomposition can be rearranged (with no overlap) in various ways to obtain a multitude of different figures, all equivalent by dissection to the initial figure and having the same area.

These definitions hold true not only in the Euclidean plane geometry but also on a sphere and on the hyperbolic plane. It can be shown that in all three geometries, any two polygons with the same area are equivalent by dissection. That is, one of the two polygons can be decomposed by straight cuts and the resulting pieces rearranged to obtain the other polygon.

Similar definitions and results can be given for solid Euclidean geometry. We will look into this subject in a separate section reserved for polyhedral dissections.

The history of geometric dissections
   Three millennia of geometric dissections
   Archimedes’s Stomachion
   Recent flourishing
Plane dissections
   Polygonal dissections
   Hinged dissections
3-dimensional (polyhedral) dissections
Non-Euclidean dissections
Resources

 

Return to the MEC page