Squashed spheres set a record for filling space.

As is clear to anyone who has played with blocks, piles piles: see hemorrhoids. of cubes cubes

See QQQ. can occupy every last niche of a space. As for other objects that can't be arranged to fill a space completely, such as cylinders and spheres, scientists have long pondered what their densest packings might be.

Now, computer simulations indicate an unexpected result: Certain arrangements of modestly deformed de·formed
adj.
Distorted in form. spheres, called ellipsoids, exceed the maximum packing density of spheres.

In 1611, astronomer Johannes Kepler hypothesized that spheres stacked like oranges in a grocery bin are at their dens est. That neat arrangement, recently proved mathematically to be the most compact for spheres(SN: 8/15/98, p. 103), fills 74 percent of a space. By replacing each sphere in a grocery stack with two ellipsoids, Salvatore Torquato, Paul M. Chaikin, and their colleagues of Princeton University Princeton University, at Princeton, N.J.; coeducational; chartered 1746, opened 1747, rechartered 1748, called the College of New Jersey until 1896. Schools and Research Facilities
compute To perform mathematical operations or general computer processing. For an explanation of "The 3 C's," or how the computer processes data, see computer. that the ellipsoids can fill up to 77 percent of a space. The team reports its findings in an upcoming Physical Review Letters Physical Review Letters is one of the most prestigious journals in physics.^[1] Since 1958, it has been published by the American Physical Society as an outgrowth of The Physical Review. .

Until now, researchers had thought that pushing beyond the spheres' packing density would require major deformations of those objects--for instance, drawing them out into shapes like needles.

Earlier this year, however, the Princeton group reported that disorderly arrangements of ellipsoids such as M&M candies, poured into a container, can fill space almost as thoroughly as neatly stacked spheres do (SN: 2/14/04, p. 102). That result inspired the researchers to compute the densities of ellipsoids packed in orderly fashions, and that's when they found an entire family of arrangements with densities that exceed 74 percent. The researchers now plan to verify their simulations in experiments using ellipsoid particles suspended in fluid.--P.W

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Title Annotation:	Physics
Publication:	Science News
Article Type:	Brief Article
Date:	Jun 19, 2004
Words:	277
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