标题: 每日科技报告 第23期 With a little help, water can freeze as it heats up [打印本页] 作者: sea_star666 时间: 2010-2-7 19:14 标题: 每日科技报告 第23期 With a little help, water can freeze as it heats up The Celsius scale is an elegant, ** system of measurement: water freezes at 0 degree Celsius and boils at 100 degrees C. (The actual definition of the scale is a bit more complex, involving the so-called triple point of water, but that's the general idea.) But chefs at high altitudes know that the simplicity of Celsius doesn't always hold—the higher your kitchen, the lower the boiling point of water. Similarly, water's freezing point is negotiable, with "supercooled" water able to remain liquid down to around –40 degrees, and even colder at extreme pressures. Supercooling can occur if water is so pure and is kept in such uncontaminated conditions that the molecules have nothing to interact with and crystallize around.
2010-2-7 19:14 上传
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It has long been known that electrically charged su**ces can affect supercooled water's ability to freeze, a fact unsurprising given that water is a polar molecule whose orientation and hence ability to crystallize can be controlled by electric fields. A study in the February 5 issue of Science explores the interaction between electric fields and supercooled water's freezing point, even producing the counterintuitive phenomenon of water freezing as its temperature increases. The researchers, from the Weizmann Institute of Science in Rehovot, Israel, experimented with supercooled water on pyroelectric su**ces, materials that develop transient electric charges during temperature changes, either positive or negative depending on whether the pyroelectric is heated or cooled.
By using opposite sides of the same pyroelectric lithium tantalate crystal, the Weizmann team produced two su**ces with opposite charges during cooling—one su**ce developed a positive charge as the temperature decreased, the other a negative charge.
On an uncharged lithium tantalate su**ce, the water remained a supercooled liquid down to –12.5 degrees C. But when the pyroelectric su**ce had a positive charge, the team found that water froze at –7 degrees C; the positive charge somehow promoted the ice-forming process. Conversely, when the su**ce was negatively charged, the water did not freeze until –18 degrees C.
Even after the negative charge had worn off, the water remained in supercooled liquid form. But when the pyroelectric was heated from –11 degrees to –8 degrees C, thereby generating a positive charge on the su**ce, the water coalesced into a solid—freezing even as its temperature increased. 作者: fqlovemadio 时间: 2010-2-20 19:52
好东西 O(∩_∩)O谢谢分享!!!!!!!!!!作者: fqlovemadio 时间: 2010-2-21 13:02
好东西 O(∩_∩)O谢谢分享!!!!!!!!作者: ljiangbig 时间: 2010-2-21 20:21
好东西 O(∩_∩)O谢谢分享!!!!!!!!!!作者: ljiangbig 时间: 2010-3-2 12:49
楼主在吗?那几个打**的是什么单词
