Showing posts with label VENUS. Show all posts
Showing posts with label VENUS. Show all posts

Monday, April 22, 2013

SUPERNOVA REMNANT SN 1006



Credits: NASA/CXC/Middlebury College/F.Winklerch

FROM: NASA

This year, astronomers around the world have been celebrating the 50th anniversary of X-ray astronomy. Few objects better illustrate the progress of the field in the past half-century than the supernova remnant known as SN 1006.

When the object we now call SN 1006 first appeared on May 1, 1006 A.D., it was far brighter than Venus and visible during the daytime for weeks. Astronomers in China, Japan, Europe, and the Arab world all documented this spectacular sight. With the advent of the Space Age in the 1960s, scientists were able to launch instruments and detectors above Earth's atmosphere to observe the universe in wavelengths that are blocked from the ground, including X-rays. SN 1006 was one of the faintest X-ray sources detected by the first generation of X-ray satellites.

A new image of SN 1006 from NASA's Chandra X-ray Observatory reveals this supernova remnant in exquisite detail. By overlapping ten different pointings of Chandra's field-of-view, astronomers have stitched together a cosmic tapestry of the debris field that was created when a white dwarf star exploded, sending its material hurtling into space. In this new Chandra image, low, medium, and higher-energy X-rays are colored red, green, and blue respectively.

The new Chandra image provides new insight into the nature of SN 1006, which is the remnant of a so-called Type Ia supernova. This class of supernova is caused when a white dwarf pulls too much mass from a companion star and explodes, or when two white dwarfs merge and explode. Understanding Type Ia supernovas is especially important because astronomers use observations of these explosions in distant galaxies as mileposts to mark the expansion of the universe.

The new SN 1006 image represents the most spatially detailed map yet of the material ejected during a Type Ia supernova. By examining the different elements in the debris field -- such as silicon, oxygen, and magnesium -- the researchers may be able to piece together how the star looked before it exploded and the order that the layers of the star were ejected, and constrain theoretical models for the explosion.

Scientists are also able to study just how fast specific knots of material are moving away from the original explosion. The fastest knots are moving outward at almost eleven million miles per hour, while those in other areas are moving at a more leisurely seven million miles per hour. SN 1006 is located about 7,000 light years from Earth. The new Chandra image of SN 1006 contains over eight days worth of observing time by the telescope. These results were presented at a meeting of High Energy Astrophysics Division of the American Astronomical Society in Monterey, CA.

NASA's Marshall Space Flight Center in Huntsville, Ala., manages the Chandra program for NASA's Science Mission Directorate in Washington. The Smithsonian Astrophysical Observatory controls Chandra's science and flight operations from Cambridge, Mass.



Tuesday, February 5, 2013

MARINER 10 SHOWS A CLOUDY VENUS



FROM:  NASA
Mariner 10's Portrait of Venus
On Feb. 5, 1974, Mariner 10 took this first close-up photo of Venus.
Made using an ultraviolet filter in its imaging system, the photo has been color-enhanced to bring out Venus's cloudy atmosphere as the human eye would see it. Venus is perpetually blanketed by a thick veil of clouds high in carbon dioxide and its surface temperature approaches 900 degrees Fahrenheit.

Launched on Nov. 3, 1973 atop an Atlas-Centaur rocket, Mariner 10 flew by Venus in 1974. Image Credit-NASA

Tuesday, January 1, 2013

NASA VIDEO: WHAT'S UP FOR JANUARY 2013




What's Up for January 2013

Spy Saturn, Jupiter, Venus and Mars as they make appearances next to the moon this month, making them easy and fun to spot in the sky.  Credit:  NASA.

Monday, November 26, 2012

A PLANETARY GEODYNAMICS SCIENTIST

FROM: NASA



Planetary Scientist Profile: Lynn Carter

The dry, ancient surfaces of the moon, Venus, and Mars look nothing like the dynamic planet we live on, but the same forces that shape our world have also driven the evolution of our closest neighbors. As part of NASA’s Planetary Geodynamics Laboratory, scientist Lynn Carter discusses her passion for volcanoes, impact cratering, and tectonic activity throughout the solar system.

Credit: NASA's Goddard Space Flight Center

Friday, August 31, 2012

MARINER 2 LAUNCHED TO STUDY VENUS 50 YEARS AGO


FROM: NASA, NASA HISTORY
Kennedy Receives Mariner 2 Model

This 1961 photo shows Dr. William H. Pickering, (center) JPL Director, presenting a Mariner spacecraft model to President John F. Kennedy, (right). NASA Administrator James Webb is standing directly behind the Mariner model.

Mariner 2 launched 50 years ago on Aug. 27, 1962.

The Mariner 2 probe flew by Venus in 1962, sending back data on its atmosphere, mass, and weather patterns. It stopped transmitting in 1963 after delivering a wealth of scientific information.

Image Credit: NASA

Friday, June 8, 2012

VENUS PASSES BY THE SUN



FROM:  NASA
This image from NASA’s Solar Dynamics Observatory shows Venus as it nears the disk of
The sun on June 5, 2012.  Venus’s 2012 transit will be the last such event until 2117. Photo:  NASA Solar Dynamics Observatory.

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