Nebulas, or clouds of interstellar gas and dust, form following massive stellar explosions in turn, this interstellar material gives life to new stars. The Prawn Nebula, formally known as IC 4628, is an emission nebula located 6,000 light-years from Earth, in the constellation Scorpius. The Hubble Space Telescope has captured a stunning view of the Prawn Nebula floating through deep space. Tan (Chalmers University of Technology) Processing Gladys Kober (NASA/Catholic University of America)) Prawn nebula Related: This galaxy pic from Hubble shows how astronauts fixed its vision Prev of 60 Next Prev of 60 Next "Even accounting for the aberration in Hubble's mirror, the space telescope's image (right) offers more clarity than what was generally possible with ground-based observations," NASA said in a statement. It was also intended to help with focusing the telescope. The image, taken using Hubble's Wide Field Planetary Camera and released May 20, 1990, demonstrate Hubble's improved visibility compared with observatories on Earth, where the atmosphere can obstruct the view. On the left is an image of the same patch of the sky taken by a ground-based telescope. On the right is the first image Hubble ever took, which focused on the 8.2-magnitude star HD96755 in the star cluster NGC 3532. Persson/Las Campanas Observatory/Observatories of the Carnegie Institution of Washington Right: NASA/ESA/STScI) First Lightīefore Hubble could start capturing incredible pictures of the universe, the telescope's first order of business was to test out its instruments and make sure everything was in working order. NAI NASA Ames Research Center Team Co-I’s Uma Gorti and David Hollenbach are investigating basic protoplanetary disk physics and disk dissipation theories using Hubble Telescope data.(Image credit: Left: E. This includes areas such as the search for extrasolar planets, the study of habitable planet formation in protoplanetary disks, and research concerning the environments of astrobiology-relevant targets like Mars. The Astrobiology Program supports astrobiologists who are working with Hubble data. Hubble has provided invaluable insight into life’s potential in the Solar System. Hubble has also been used to observe bodies within the Solar System, including (but not limited to) comets, Uranus, Saturn, Jupiter, Mars, and the dwarf planet Ceres. Not all of Hubble’s contributions involve distant targets. Hubble data has also been used to identify extrasolar planets, adding to the catalog of known worlds in the Universe. Hubble observations are bringing us closer to identifying habitable worlds beyond our solar system by providing clues about how planets form from dust and debris around stars. Hubble’s contribution to astrobiology is immense, and data from the mission has been used in wide-reaching topics relevant to the Astrobiology Program. Hubble data has been used to study objects both near and far from Earth, and has helped solve mysteries surrounding the existence of dark energy and the age of the Universe. The hugely successful Hubble telescope has paved the way for numerous advancements in astronomy and astrobiology.
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