Plato’s cube and the natural geometry of fragmentation

Időpont: 
2020. 02. 14. 10:15
Hely: 
Building F, stairway III., seminar room of the Dept. of Theoretical Physics
Előadó: 
János Török (BME)

We live on and among the byproducts of fragmentation, from nanoparticles to rock falls to glaciers to continents. Understanding and taming fragmentation is central to assessing natural hazards and extracting resources, and even for landing probes safely on other planetary bodies. In this study[1] we draw new inspiration from an unlikely and ancient source: Plato, who proposed that the element Earth is made of cubes because they may be tightly packed together. We demonstrate that this idea is essentially correct: most natural 3D fragments are topological cubes, when one averages appropriately. We use mechanical and geometric models to explain the ubiquity of Plato's cube in fragmentation, and to uniquely map distinct fragment patterns to their formative stress conditions.

 

[1]:  G Domokos, DJ Jerolmack, F Kun, J Török: arXiv:1912.04628