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<blockquote data-quote="Angel Tarragon" data-source="post: 3506605" data-attributes="member: 23733"><p>[sblock=Global warming could shorten day, report predicts]<strong>Global warming could shorten day, report predicts</strong></p><p>May 7, 2007</p><p>Special to World Science </p><p></p><p>Earth’s familiar 24-hour day may become about 12 hundred-thousandths of a second shorter due to the long-term trend of global warming, a new report contends.</p><p></p><p>Alongside various environmental disasters that scientist predict will ensue from global warming—believed to be caused by emissions of heat-trapping gases due to human activities—another effect would be a redistribution of Earth’s water. This would occur because of changes in water temperatures.</p><p></p><p>Felix W. Landerer of the Max Planck Institute for Meteorology in Hamburg, Germany, and colleagues calculated the effects of this redistribution on the Earth’s spin. This in turn determines the length of the day.</p><p></p><p>If an appreciable amount of the weight of ocean waters redistributes itself toward the poles, this reduces the extent to which the planet as a whole bulges at the equator. This then results in something similar to what happens when a spinning skater pulls her arms in toward herself: the spin speeds up.</p><p></p><p>Earth may witness an analogous effect, Landerer and colleagues reported in a paper published March 28 in the journal Geophysical Research Letters. The effect occurs because a rise in ocean temperatures would raise sea levels, the scientists explained. A considerable amount of ocean mass may transfer away from deep waters to shallower continental shelves, the seabeds that surround continents.</p><p></p><p>In addition, “the continental configuration is such that there is a lot of shelf area especially in the higher northern latitudes,” near the North pole, Landerer wrote in an email. Thus, a movement toward shelf areas means a movement toward Earth’s axis of rotation, and away from the equator.</p><p></p><p>By the end of the next century, enough water mass could shift to shorten the length of day by about 0.12 thousandths of a second, Landerer’s team predicted. They based their calculations on future ocean conditions predicted by the Intergovernmental Panel on Climate Change Fourth Assessment.[/sblock]</p><p>[sblock=“King” of star explosions seen]<strong>“King” of star explosions seen</strong></p><p>May 7, 2007</p><p>Courtesy NASA Marshall Space Flight Center</p><p>and World Science staff</p><p></p><p>Astronomers have detected the brightest stellar explosion, or supernova, on record. They say it may be a new type of supernova that may also occur before long in our own galaxy—what one researcher said would be history’s most awesome star show.</p><p>The finding comes from observations by NASA’s Chandra X ray Observatory and ground-based telescopes. It indicates violent explosions of extremely massive stars were fairly common in the early universe, scientists said.</p><p></p><p>“This was a truly monstrous explosion, a hundred times more energetic than a typical supernova,” said Nathan Smith of the University of California at Berkeley, who led a team of astronomers in the research. </p><p></p><p>“That means the star that exploded might have been as massive as a star can get, about 150 times [the weight] of our sun. We’ve never seen that before.” </p><p></p><p>Astronomers think many of the first generation of stars were this massive, and this new supernova may thus provide a rare glimpse of how the first stars died.</p><p></p><p>The supernova, known as SN 2006gy, provides evidence that the death of such massive stars is fundamentally different from theoretical predictions, researchers claimed.</p><p></p><p>“Of all exploding stars ever observed, this was the king,” said Alex Filippenko, leader of the ground-based observations at the Lick Observatory at Mt. Hamilton, Calif., and the Keck Observatory in Mauna Kea, Hawaii. </p><p></p><p>“We were astonished to see how bright it got, and how long it lasted.” The Chandra observation allowed the team to rule out the most likely alternative explanation for the supernova, the astronomers said: that a white dwarf star only slightly heavier than the sun exploded into a dense, hydrogen-rich environment. In that event, SN 2006gy should have been 1,000 times brighter in X-ray light than what Chandra detected, they said.</p><p></p><p>“This provides strong evidence that SN 2006gy was, in fact, the death of an extremely massive star,” said Dave Pooley of the University of California at Berkeley, who led the Chandra observations.</p><p></p><p>The star that produced SN 2006gy apparently blew off a large amount of mass before exploding, astronomers said. This large mass loss is similar to that seen from Eta Carinae, a massive star in our galaxy, raising suspicion that Eta Carinae may be poised to explode as a supernova. Although SN 2006gy is intrinsically the brightest supernova ever, it is in the galaxy NGC 1260, some 240 million light years away. However, Eta Carinae is only about 7,500 light years away in our own Milky Way galaxy. A light year is the distance light travels in a year.</p><p></p><p>“We don’t know for sure if Eta Carinae will explode soon, but we had better keep a close eye on it just in case,” said Mario Livio of the Space Telescope Science Institute in Baltimore, who was not involved in the research. “Eta Carinae’s explosion could be the best star-show in the history of modern civilization.” </p><p></p><p>Supernovas usually occur when massive stars exhaust their fuel and collapse under their own gravity. In the case of SN 2006gy, astronomers think something else may have triggered the blast. Under some conditions, a massive star’s core could produce so much radiation in the form of gamma rays that some of the energy from the radiation converts into matter. This takes the form of particles paired up with entities that are in a sense their evil twins, called anti-particles. This leads to a drop in energy that causes the star to collapse under its own mighty gravity.</p><p></p><p>Next, runaway thermonuclear reactions ensue and the star explodes, spewing the remains into space. The SN 2006gy data suggest that it may have been more common than previously believed for the first stars to die in spectacular supernovas, astronomers said. An alternative fate theorized for these objects is to collapse into black holes, objects so compact that their gravitational force runs out of control and they start to suck in everything nearby, including light.</p><p></p><p>“In terms of the effect on the early universe, there’s a huge difference between these two possibilities,” said Smith. “One pollutes the galaxy with large quantities of newly made elements and the other locks them up forever in a black hole.” The findings are to appear in a forthcoming issue of the research publication Astrophysical Journal.[/sblock]</p><p>Discuss.</p></blockquote><p></p>
[QUOTE="Angel Tarragon, post: 3506605, member: 23733"] [sblock=Global warming could shorten day, report predicts][B]Global warming could shorten day, report predicts[/B] May 7, 2007 Special to World Science Earth’s familiar 24-hour day may become about 12 hundred-thousandths of a second shorter due to the long-term trend of global warming, a new report contends. Alongside various environmental disasters that scientist predict will ensue from global warming—believed to be caused by emissions of heat-trapping gases due to human activities—another effect would be a redistribution of Earth’s water. This would occur because of changes in water temperatures. Felix W. Landerer of the Max Planck Institute for Meteorology in Hamburg, Germany, and colleagues calculated the effects of this redistribution on the Earth’s spin. This in turn determines the length of the day. If an appreciable amount of the weight of ocean waters redistributes itself toward the poles, this reduces the extent to which the planet as a whole bulges at the equator. This then results in something similar to what happens when a spinning skater pulls her arms in toward herself: the spin speeds up. Earth may witness an analogous effect, Landerer and colleagues reported in a paper published March 28 in the journal Geophysical Research Letters. The effect occurs because a rise in ocean temperatures would raise sea levels, the scientists explained. A considerable amount of ocean mass may transfer away from deep waters to shallower continental shelves, the seabeds that surround continents. In addition, “the continental configuration is such that there is a lot of shelf area especially in the higher northern latitudes,” near the North pole, Landerer wrote in an email. Thus, a movement toward shelf areas means a movement toward Earth’s axis of rotation, and away from the equator. By the end of the next century, enough water mass could shift to shorten the length of day by about 0.12 thousandths of a second, Landerer’s team predicted. They based their calculations on future ocean conditions predicted by the Intergovernmental Panel on Climate Change Fourth Assessment.[/sblock] [sblock=“King” of star explosions seen][B]“King” of star explosions seen[/B] May 7, 2007 Courtesy NASA Marshall Space Flight Center and World Science staff Astronomers have detected the brightest stellar explosion, or supernova, on record. They say it may be a new type of supernova that may also occur before long in our own galaxy—what one researcher said would be history’s most awesome star show. The finding comes from observations by NASA’s Chandra X ray Observatory and ground-based telescopes. It indicates violent explosions of extremely massive stars were fairly common in the early universe, scientists said. “This was a truly monstrous explosion, a hundred times more energetic than a typical supernova,” said Nathan Smith of the University of California at Berkeley, who led a team of astronomers in the research. “That means the star that exploded might have been as massive as a star can get, about 150 times [the weight] of our sun. We’ve never seen that before.” Astronomers think many of the first generation of stars were this massive, and this new supernova may thus provide a rare glimpse of how the first stars died. The supernova, known as SN 2006gy, provides evidence that the death of such massive stars is fundamentally different from theoretical predictions, researchers claimed. “Of all exploding stars ever observed, this was the king,” said Alex Filippenko, leader of the ground-based observations at the Lick Observatory at Mt. Hamilton, Calif., and the Keck Observatory in Mauna Kea, Hawaii. “We were astonished to see how bright it got, and how long it lasted.” The Chandra observation allowed the team to rule out the most likely alternative explanation for the supernova, the astronomers said: that a white dwarf star only slightly heavier than the sun exploded into a dense, hydrogen-rich environment. In that event, SN 2006gy should have been 1,000 times brighter in X-ray light than what Chandra detected, they said. “This provides strong evidence that SN 2006gy was, in fact, the death of an extremely massive star,” said Dave Pooley of the University of California at Berkeley, who led the Chandra observations. The star that produced SN 2006gy apparently blew off a large amount of mass before exploding, astronomers said. This large mass loss is similar to that seen from Eta Carinae, a massive star in our galaxy, raising suspicion that Eta Carinae may be poised to explode as a supernova. Although SN 2006gy is intrinsically the brightest supernova ever, it is in the galaxy NGC 1260, some 240 million light years away. However, Eta Carinae is only about 7,500 light years away in our own Milky Way galaxy. A light year is the distance light travels in a year. “We don’t know for sure if Eta Carinae will explode soon, but we had better keep a close eye on it just in case,” said Mario Livio of the Space Telescope Science Institute in Baltimore, who was not involved in the research. “Eta Carinae’s explosion could be the best star-show in the history of modern civilization.” Supernovas usually occur when massive stars exhaust their fuel and collapse under their own gravity. In the case of SN 2006gy, astronomers think something else may have triggered the blast. Under some conditions, a massive star’s core could produce so much radiation in the form of gamma rays that some of the energy from the radiation converts into matter. This takes the form of particles paired up with entities that are in a sense their evil twins, called anti-particles. This leads to a drop in energy that causes the star to collapse under its own mighty gravity. Next, runaway thermonuclear reactions ensue and the star explodes, spewing the remains into space. The SN 2006gy data suggest that it may have been more common than previously believed for the first stars to die in spectacular supernovas, astronomers said. An alternative fate theorized for these objects is to collapse into black holes, objects so compact that their gravitational force runs out of control and they start to suck in everything nearby, including light. “In terms of the effect on the early universe, there’s a huge difference between these two possibilities,” said Smith. “One pollutes the galaxy with large quantities of newly made elements and the other locks them up forever in a black hole.” The findings are to appear in a forthcoming issue of the research publication Astrophysical Journal.[/sblock] Discuss. [/QUOTE]
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