Research shows why water acts weird.Although ubiquitous on Earth and central to the chemistry of life, water remains mysterious on the molecular level. Its elusive molecular behavior is all the more frustrating frus·trate tr.v. frus·trat·ed, frus·trat·ing, frus·trates 1. a. To prevent from accomplishing a purpose or fulfilling a desire; thwart: to chemists This is a list of famous chemists: (alphabetical order) : Top - 0–9 A B C D E F G H I J K L M N O P Q R S T U V W X Y Z A
Now, however, the mystery is unraveling. Reporting in the Jan. 18 Nature, researchers have found a precise relationship between water's structure and its unusual physical properties. The link showed up clearly when Jeffrey R. Errington and Pablo G. Debenedetti 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 combined two methods of measuring the arrangements of molecules in water. The technique put hard numbers to both the distances between and the orientations of water molecules. Unlike most liquids' constituents, which tend to form dense clusters with their neighbors, molecules of water generally arrange themselves with four neighbors in a predictable pattern orchestrated or·ches·trate tr.v. or·ches·trat·ed, or·ches·trat·ing, or·ches·trates 1. To compose or arrange (music) for performance by an orchestra. 2. by hydrogen bonds hydrogen bond n. A chemical bond in which a hydrogen atom of one molecule is attracted to an electronegative atom, especially a nitrogen, oxygen, or fluorine atom, usually of another molecule. . Computer simulations revealed that the distances and orientations of the water molecules are tightly dependent on each other over a particular range of densities and temperatures, the Princeton researchers report. Two of water's quirks occur within this range. Its density peaks at 4[degrees]C, before it freezes, and its molecular motion becomes faster when the density increases. These properties thus seem linked to water's structural order, Debenedetti says. The group plans to look for similar structural changes in other substances, such as silica silica or silicon dioxide, chemical compound, SiO2. It is insoluble in water, slightly soluble in alkalies, and soluble in dilute hydrofluoric acid. Pure silica is colorless to white. and more complicated liquids, including sugar solutions used for storing pharmaceuticals. |
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