Phoenix Blasts Off
August 5, 2007 on 7:25 pm | In Astronomy, Mars, Planets, Spaceflight | No Comments
The Phoenix Mars Mission blasted off Saturday, August 4th hoping to arrive on the Red Planet on May 25th 2008 to examine the northern polar region. The Phoenix Mars Mission is the first attempt by NASA to reach this water-ice region of Mars. A robotic arm will dig into ice believed to lie just below the dusty Martian surface. The purpose of the mission is to prove the history of water on Mars. The presence of ancient water would have been favorable for supporting life.
Four Star System May Contain Planets
July 25, 2007 on 3:56 am | In Astronomy, Planets, Stars | No CommentsIn this solar system it took only one Star for the Earth and other planets to develop. But recent research shows that planets can form in solar systems with up to four stars. The four star system HD 98800, 10 million years young, is located 150 light-years from Earth and may contain one or more planets. The Spitzer Space Telescope was able to give us this new insight.
Astronomers Discover ‘Blue Needle’ in Space
July 20, 2007 on 6:21 pm | In Astronomy, Stars | No CommentsA lopsided debris disk found around a distant star looks like a glowing, blue space needle - astronomers have revealed.
The finding could hint at new hidden planets in the system or other interactions with neighboring stars.
Astronomers suppose that the debris disk (around the star HD 15115) might be affected by extrasolar planets in nearby systems that have elliptical orbits. A possible culprit is HIP 12545, a star located about 10 light years away from HD 15115.
Debris disks are theorized to be made up of left over material from planet formation. Debris disks are somewhat similar to the Kuiper Belt in our own solar system - the region beyond the orbit of Neptune - that is populated with thousands of icy, rock objects (Pluto is considered one of these).
The ‘Blue Needle’ is about the same distance from its star that the Kuiper Belt is from our sun. However it extends about 10 times further to at least 550 times the distance between Earth and the sun.
Debris disks are believed to be replenished by dust created during collisions between celestial objects. In the same way that Neptune’s gravity can sometimes affect the Kuiper Belt Objects, planets close to HD 15115 can affect the shape of the debris disk.
According to one theory, Neptune formed between Saturn and Uranus but was shot out into the farther reaches of the solar system as a direct result of gravitational forces between Saturn and Jupiter. If a similar planetary upheaval was occurring around HD 15115 it might explain the highly asymmetric disk. But the debris disk around HD 15115 is more asymmetric than those around other stars and contains significantly less dust. It is possible that the mechanism which perturbed the disk into its current shape also cut away a significant portion of the mass.
It is not known if the needle-shape of the debris disk is permanent or whether it might flatten out into a more conventional shape at a later time.
Welcome to Star Astronomy
July 19, 2007 on 8:32 am | In Astronomy | No CommentsWelcome to Star Astronomy - the best star watching and astronomy site on the internet. We provide information on astronomy, observing, buying and using telescopes, accessories, and photography. We also provide all the latest astronomy updates. Enjoy your stay.
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