Durchschnittliche Expertenbewertung: 80/100, und durchschnittliche Verbrauchermeinungen: 90/100. Die Menge der bewerteten Testberichte für dieses Produkt ist zu niedrig, um einen zuverlässigen alaScore zu errechnen.
Teaser Trailer for "System Shock 3 - Ascendance" Release Date: November 2010 In 2072, a rogue artificial intelligence created a massacre on Citadel Station. In 2114, it infiltrated the Von Braun in order to merge real space and cyber space. 3 years later, it will turn Earth.... into a living hell. From JAMES CAMERON Director of Terminator 2, Titanic, and Avatar and DYLAN PENEV director of The Attraction Code TWENTIETH CENTURY FOX presents in association with LIGHTSTORM ENTERTAINMENT and DYLAN PENEV PICTURES a DYLAN PENEV film SAM WORTHINGTON "SYSTEM SHOCK 3 - ASCENDANCE" MICHAEL BIEHN EDWARD NORTON SIGOURNEY WEAVER ED HARRIS and TERRI BROSIUS as the voice of SHODAN music by ERIC BROSIUS title music by CHICAJO special visual effects and animation INDUSTRIAL LIGHT & MAGIC edited by PIETRO SCALIA, ACE production designer PETER LAMONT director of photography BILL POPE, ASC executive producer MARTIN PENEV produced by JAMES CAMERON & DYLAN PENEV screenplay by JAMES CAMERON & DYLAN PENEV directed by DYLAN PENEV
90377 Sedna is a trans-Neptunian object and a likely dwarf planet discovered by Michael Brown (Caltech), Chad Trujillo (Gemini Observatory) and David Rabinowitz (Yale University) on November 14, 2003. It is currently 88 AU from the Sun, about three times as distant as Neptune. For most of its orbit Sedna is farther from the Sun than any other known dwarf planet candidate. Sedna has a highly elliptical orbit, with its aphelion estimated at 975 AU and its perihelion at about 76.16 AU. At its discovery it was approaching perihelion and about 89.6 AU from the Sun. At the time of its discovery it was the most distant object in the solar system yet observed; although the orbits of some objects—like long-period comets—extend farther than that of Sedna, they are basically too dim to be observed except near perihelion. Eris was later detected at 97 AU. Sedna's precise orbital period is not yet known, but it is calculated at between 10.5 and 12.0 thousand years. It should reach perihelion in late 2075 to mid 2076. Sedna will overtake Eris as the farthest known spheroid orbiting the Sun in 2114. When first discovered, Sedna was believed to have an unusually long rotational period (20 to 50 days). A search was thus made for a natural satellite, the most likely cause for such a long rotation, but investigation by the Hubble Space Telescope in March 2004 observed no such object orbiting the planetoid. New measurements from the MMT telescope suggest a much shorter rotation period, only <b>...</b>
