An aerated form of sand engulfs objects instantaneously, shooting out a jet of grains.
Abstract
Sand can normally support a weight by relying on internal force chains1,2,3. Here we weaken this force-chain structure in very fine sand by allowing air to flow through it: we find that the sand can then no longer support weight, even when the air is turned off and the bed has settled — a ball sinks into the sand to a depth of about five diameters. The final depth of the ball scales linearly with its mass and, above a threshold mass, a jet is formed that shoots sand violently into the air.
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Supplementary information
Movie: surface.mpg
Sphere initially touching the surface of the bed, released by burning the wire used to suspend the ball. (MPG 2074 kb)
Movie: surface2.mpg
As above., viewed from a different angle. (MPG 1863 kb)
Movie: hand.mpg
Sphere released by hand, giving an impression of the dimensions of the experiment. (MPG 1979 kb)
Supplementary Methods & Equations
Contains background material on the experiments and the model. (PDF 692 kb)
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Lohse, D., Rauhé, R., Bergmann, R. et al. Creating a dry variety of quicksand. Nature 432, 689–690 (2004). https://doi.org/10.1038/432689a
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DOI: https://doi.org/10.1038/432689a
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