The materials that make up all the structures and physical systems around us, including our own bodies, are not perfect—they contain flaws in the form of tiny cracks. When one of these cracks suddenly and rapidly spreads, it can be life-threatening, but the rich, intricate patterns formed by cracks can also be spectacular and intriguing.

Until now, physicists have struggled to provide a theoretical framework explaining why cracks often branch out and deviate from their expected path, slowing down as a result.

Two recent studies from the Weizmann Institute of Science bring order to the disorderly propagation of cracks and show that, although each crack may seem unique, there are quantitative physical parameters that shape the propagation process and explain the formation of asymmetrical crack patterns.