Soap-film shots tell more about swirls.In the iridescent ir·i·des·cent adj. 1. Producing a display of lustrous, rainbowlike colors: an iridescent oil slick; iridescent plumage. 2. eddies of a soap film Noun 1. soap film - a film left on objects after they have been washed in soap film - a thin coating or layer; "the table was covered with a film of dust" , scientists see a parallel to the whirling flows of Earth's thin coating of atmosphere and oceans. The analogy also extends to sister planets, whose turbulent phenomena befuddle be·fud·dle tr.v. be·fud·dled, be·fud·dling, be·fud·dles 1. To confuse; perplex. See Synonyms at confuse. 2. To stupefy with or as if with alcoholic drink. Verb 1. fluid-flow experts. Past laboratory studies of soap-film turbulence have generated wishy-washy results because experimenters have been limited to recording the velocity of flowing films at a single point. Now, a research team at Los Alamos National Laboratory Los Alamos National Laboratory (LANL) (previously known at various times as Site Y, Los Alamos Laboratory, and Los Alamos Scientific Laboratory) is a United States Department of Energy (DOE) national laboratory, managed and operated by Los Alamos National has leaped that hurdle with an apparatus that simultaneously measures velocities at thousands of points in a patch of cascading film. "They're pushing the instrumentation about as hard as you could," says John Sommerer at Johns Hopkins University Johns Hopkins University, mainly at Baltimore, Md. Johns Hopkins in 1867 had a group of his associates incorporated as the trustees of a university and a hospital, endowing each with $3.5 million. Daniel C. . In the latest version of the experiment, a continuously replenished film of soapy water races more than a meter down two nylon wires strung 6 centimeters apart. A comb inserted through the film induces swirling eddies downstream, which a digital camera records through a 5-centimeter-square window. Mixed into the water, microscopic spheres of titanium dioxide, the reflective substance in white paint, render the eddies visible. By flashing strobe lights twice per camera exposure, the researchers create images that show the change in position of each of the thousands of marker particles. Computer analysis transforms the stop-action frames into velocities yielding, for the first time, a quantitative portrait of a soap film's swirls, report Michael Rivera Michael Antonio Rivera (born May 13, 1985 in Managua, Nicaragua is an infielder in minor league baseball who plays for the Las Vegas 51s in the Los Angeles Dodgers system. of the University of Pittsburgh and Peter Vorobieff and Robert E. Ecke of Los Alamos Los Alamos (lôs ăl`əmōs', lŏs), uninc. town (1990 pop. 11,455), seat of Los Alamos co., N central N.Mex. It is on a long mesa extending from the Jemez Mts. The U.S. in the August 17 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. . The velocity data is sufficiently detailed for unprecedented mathematical examination of the turbulence, says Vorobieff. "This analysis allows us to explicitly compare our data to existing theories and provide benchmarks for people who do numerical calculations." From their investigation, the researchers conclude that the observed turbulence is "roughly consistent" with two-dimensional turbulence theory. That model, however, assumes a uniform thickness of the film, which the researchers did not find. The camera detected plumping-up at the fringes of eddies, where more light was scattered by the increased number of marker particles. Fluid dynamics fluid dynamics n. (used with a sing. verb) The branch of applied science that is concerned with the movement of gases and liquids. researchers have had some doubts about soap films as a model for two-dimensional turbulence, Sommerer says, because they suspected that such films might have significant flow in the third dimension, evident as thickness variations. The finding that the film has ripples but still can be described by existing theory suggests that the flow in the third dimension is suitably small. That should inspire "increased confidence" in the results derived from soap-film turbulence studies, he says. Given the striking images possible from their easy-to-build, inexpensive apparatus, Vorobieff and Ecke, are promoting it as a classroom tool for physics teachers. |
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