Solar system record breaker.Lurking more than 13 billion kilometers from Earth in the coldest, remotest part of the solar system, a newly discovered body lies three times farther from the sun than Pluto does. It's the most distant object ever found to orbit the sun and the largest denizen An inhabitant of a particular place. A "denizen of the Internet" is a person who frequently uses the Web or other Internet facilities. of the solar system discovered since Pluto in 1930. Almost as red as Mars, the body may also be unchanged since shortly after the sun's birth and so may provide rare clues about the solar system's earliest history, says codiscoverer Michael E. Brown The International Astronomical Union (IAU) unites national astronomical societies from around the world. . "Awesome !" exclaims planetary scientist David Jewitt of the University of Hawaii (body, education) University of Hawaii - A University spread over 10 campuses on 4 islands throughout the state. http://hawaii.edu/uhinfo.html. See also Aloha, Aloha Net. in Honolulu. Brown and his colleagues found the so-called planetoid planetoid: see asteroid. by using a small telescope at Palomar Observatory in Escondido, Calif. In a sequence of images taken on Nov. 14, 2003, the astronomers spied "the slowest-moving object we have ever seen," says Brown. The motion indicated that the body is part of the solar system, rather than the fixed background of stars and galaxies, and its slowness showed that the planetoid resides at the solar system's edge. After culling additional data from several telescopes, Brown and his colleagues estimated that the body is about three-quarters the size of Pluto, but it's larger than the planetoid Quaoar, which Brown's team found in 2002. Until now, Quaoar had been the solar system's largest known object beyond Pluto (SN: 10/12/02, p. 228). The new object appears to rotate slowly, suggesting that it has a moon. The planetoid's discoverers have dubbed it Sedna after the Inuit goddess who lives in an icy cave at the bottom of the Arctic Ocean, and the distant object is already proving puzzling. Although Sedna appears to be unusually reflective, its surface does not contain ices, which tender other bodies of the solar system highly reflective in sunlight. Moreover, Sedna's extreme redness is perplexing per·plex tr.v. per·plexed, per·plex·ing, per·plex·es 1. To confuse or trouble with uncertainty or doubt. See Synonyms at puzzle. 2. To make confusedly intricate; complicate. . "We're completely baffled" about the composition of the planetoid's surface, says Brown. Sedna's orbit poses yet another riddle. Using archival images to trace the path of Sedna back to 2001, Brown's team found that the body, now 120 times more distant from the sun than Earth is, has the most elongated e·lon·gate tr. & intr.v. e·lon·gat·ed, e·lon·gat·ing, e·lon·gates To make or grow longer. adj. or elongated 1. Made longer; extended. 2. Having more length than width; slender. orbit known in the solar system. The group calculates that Sedna's 10,000-year orbit takes it as far from the sun as 900 times the Earth-sun distance and as close as 76 times that distance. "The question is, 'How the hell did [Sedna] end up in this orbit?'" says Brian G. Marsden Brian G. Marsden (born August 5,1937) is a British astronomer, the longtime director of the Minor Planet Center(MPC). He specializes in celestial mechanics and astrometry, collecting data on the positions of asteroids and comets and computing their orbits, often from minimal of the Harvard-Smithsonian Center for Astrophysics The Harvard-Smithsonian Center for Astrophysics (CfA) is located in Cambridge, Massachusetts. It consists of the Harvard College Observatory and the Smithsonian Astrophysical Observatory. The Center is located at 60 Garden Street. in Cambridge, Mass. Brown's team suggests that Sedna is part of the cloud of frigid debris that the Dutch astronomer Jan Oort predicted 54 years ago to be a source of long-period comets with orbits that span millennia. However, the hypothetical Oort cloud (SN: 7/29/00, p. 72) is situated about 10 times as far out as Sedna's greatest distance from the sun. To reconcile that apparent discrepancy, Brown and his colleagues speculate that the sun was born among a cluster of stars, one of which passed close enough to tug on Sedna early in the history of the solar system. Such a tug could have deflected Sedna, along with a group of similar, as yet unseen bodies, into orbits closer to the sun. Some planetary scientists call this proposed assemblage the inner Oort cloud. Sedna may be its first known inhabitant. |
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