A fallen vase, a crushed sugar cube, and exploding bubbles all have something in common. A new mathematical equation reveals that they break down in a similar way.
French scientists recently discovered a mathematical formula that describes the size distribution of the pieces that form when something is crushed. According to a new study published Nov. 26 in the journal Physical Review Letters, this equation applies to a variety of materials, including solids, liquids, and gas bubbles.
Although cracks often propagate in objects in unpredictable ways, research has shown that the size distribution of the resulting debris appears to be consistent regardless of its material. You can always expect a certain ratio of large and small pieces. Scientists suspected that this consistency indicated something universal about the fragmentation process.
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Rather than focusing on how the debris forms, Emmanuel Villemaux, a physicist at the University of Aix-Marseille in France, studied the debris itself. In the new study, Villermaux argued that the fragmentation of objects follows the principle of “maximum randomness.” This principle suggests that the most likely fragmentation pattern is the one that is the most disordered, that is, the one that maximizes entropy or disorder.
Ferenc Kun, a physicist at the University of Debrecen in Hungary, told New Scientist that understanding fragmentation could help scientists determine how energy is spent crushing ore in the mining industry, or how to prepare for rockfall.
Future research could include determining the smallest possible size of the fragments, Villermaux told New Scientist.
It’s also possible that the shapes of the various fragments have similar relationships, Kuhn writes in an accompanying viewpoint article.
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