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The Whirlpool Galaxy, like the Milky Way Galaxy, is a spiral galaxy, but it is interacting with another galaxy. In this image, the spiral arms are clearly visible, as well as prominent dust lanes.

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Archive for Earth’s atmosphere

Astronomer Sleuths Find Clues to 100-Year-Old Meteor Mystery

By alkaon on February 23, 2013 No Comments




1913 Meteor Procession in Toronto


This painting by artist and amateur astronomer Gustav Hahn depicts the meteor procession of Feb. 9, 1923 as observed in High Park, Toronto. Hahn estimated that the fireballs passed about halfway between Rigel and the Belt of Orion.
CREDIT: University of Toronto Archives/Natalie McMinn


It may be the ultimate cosmic cold case, but the 100-year-old mystery of a huge group of fireballs flying in formation through Earth’s atmosphere is finally a bit closer to being solved, scientists say.

By sifting through the archival records from the meteor procession that took place on Feb. 9, 1913, sleuthing stargazers pieced together the surprisingly large path of the rare astronomical event.

From Canada to Brazil, observers watched as hundreds of meteors streaked across the sky, but this wasn’t any ordinary annual meteor shower. Because these meteors were traveling nearly parallel to the surface of the Earth, each piece of space dust and rock stayed visible for about a minute as each burned up in Earth’s atmosphere. The procession lasted for several minutes.

“To most observers, the outstanding feature of the phenomenon was the slow, majestic motion of the bodies; and almost equally remarkable was the perfect formation which they retained,” said Clarence Chant, a University of Toronto astronomer who observed the procession in 1913.

But 100 years later, scientists were still missing a piece of the astronomical puzzle. No one knew exactly how wide-reaching the meteor procession was. [Astronomers Chase 100-Year Meteor Mystery (Photos)]

Map of 1913 Meteor Procession

The red dots mark locations where the meteor procession of February 9, 1913, was observed. The accounts from the ships at latitudes south of the S.S. Newlands were discovered during the preparation of this article. The ground track, projected onto the rotating Earth, deviates somewhat from a great circle, with the southern part of the track shifted several degrees to the west because of the rotation of the Earth during the time of flight from Canada to the shipping lanes below the equator. To travel so far around the curvature of the Earth, the members of the 1913 meteor procession apparently followed tracks similar to the gradual reentry of satellites in low Earth orbit.
CREDIT: Map courtesy Sky Telescope

Right after the procession, scientists put out a call in the journal Nature to find as many firsthand accounts of the event as possible. Reports trickled in from ships and countries around the world, but the varied logs put the line of sight for the procession stretching around 2,400 miles (3,862 km), from Saskatchewan, Canada to Bermuda.

A century later, two researchers decided to reopen the case and track down even more reports detailing the rain of fireballs.

“We have seven new accounts from ships’ meteorological log books that extend the track farther than ever before,” Don Olson, an astronomer at Texas State University, said in a statement. “This is the most complete map for this phenomenon that’s ever been compiled. The track now goes more than 7,000 miles — that’s more than a quarter of the way around the world. That’s an almost unbelievable meteor event!”

The new findings are detailed in the February issue of Sky Telescope magazine.

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False-color image of a rare early Quadrantid, captured by a NASA meteor camera in 2010.

False-color image of a rare early Quadrantid, captured by a NASA meteor camera in 2010.

The astronomers suspect that the rare event could probably be seen even farther out into the Atlantic Ocean, but those records might be impossible to find. The last report, from a ship off the coast of Brazil, explained that fireballs could still be seen shooting through the sky as the log was entered.

These new findings come in the wake of a month full of space rocks making news. On Feb. 15, an asteroid half the size of a football field buzzed by the Earth and on the same day a meteor exploded over Russia, creating a devastating airburst that injured 1,200 people and damaged thousands of buildings in the city of Chelyabinsk.

Follow Miriam Kramer on Twitter @mirikramer or SPACE.com @Spacedotcom. We’re also on Facebook  Google+

Article source: http://www.space.com/19910-meteor-fireball-astronomy-mystery.html

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Clues to 100-year-old meteor mystery found

By alkaon on February 23, 2013 No Comments

It may be the ultimate cosmic cold case, but the 100-year-old mystery of a huge group of fireballs flying in formation through Earth's atmosphere is finally closer to being solved.It may be the ultimate cosmic cold case, but the 100-year-old mystery of a huge group of fireballs flying in formation through Earth’s atmosphere is finally closer to being solved.

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NASA scrambles for better asteroid detection

By alkaon on February 19, 2013 No Comments

By Jean-Louis Santini (AFP)

11 hours ago 

WASHINGTON — NASA, universities and private groups in the US are working on asteroid warning systems that can detect objects from space like the one that struck Russia last week with a blinding flash and mighty boom.

But the US space agency reiterated that events like the one in the Urals, which shattered windows and injured nearly 1,000 people, are rare.

“We would expect an event of this magnitude to occur once every 100 years on average,” said Paul Chodas of NASA’s Near-Earth Object Program Office at the Jet Propulsion Laboratory in Pasadena, California.

NASA estimates that before entering the Earth’s atmosphere above Russia, the asteroid measured 17 meters (56 feet) in diameter and weighed 10 tons.

Fragments of the asteroid caused an explosion equivalent to 500,000 tons of TNT when they hit.

The same day, a 45-meter in diameter asteroid known as 2012 14 whizzed harmlessly past the Earth, its passage overshadowed by the bright arc drawn across the Russian sky that same day.

But had it hit ground, 2012 DA14 could have obliterated a large city.

Ten years ago, NASA would not have been able to detect 2012 DA14, said Lindsey Johnson, near earth object (NEO) project manager at NASA said recently.

But he said NASA has made progress on learning how to detect small asteroids.

Johnson said there are many of these objects flying around near the Earth — say, half a million — and they are hard to track because of their small size.

In line with a goal set by Congress in 1998, NASA has already discovered and catalogued around 95 percent of the asteroids of a kilometer or more in diameter that are in the Earth’s orbit around the sun and capable of causing mega-destruction.

The NEO program at NASA currently detects and tracks Earth-approaching asteroids and comets with land-based and orbiting telescopes. Scientists estimate their mass and orbit to gauge whether they pose a danger.

With this system, the Arecibo radio telescope in Puerto Rico, which has an antenna 305 meters in diameter, can observe with great sensitivity a third of the night sky and detect asteroids that are on the large side.

All asteroid observations made anywhere in the world by telescopes, even by amateur star gazers, must be passed on to the Minor Planet Center, which is financed by NASA and run by the Smithsonian Astrophysical Observatory for the Paris-based International Astronomical Union.

But in times of tight budgets like these, NASA is trying to develop other systems specifically capable of tracking small objects in space.

It is financing to the tune of $5 million a project at the University of Hawaii called Atlas, or Asteroid Terrestrial-Impact Alert System.

Researchers say ATLAS, which will monitor the entire visible sky every night, will be able to detect objects 45 meters (yards) in diameter a week before they hit our planet.

For those measuring 150 meters (yards) in diameter, the system — which could be operational in late 2015 — will give a three week heads up.

The goal is to find the objects and give enough advance warning for measures to be taken to protect people, said John Tonry, the principal investigator at ATLAS.

The system has enough sensitivity to detect a match flame in New York City when viewed from San Francisco, for instance.

“That’s enough time to evacuate the area of people, take measures to protect buildings and other infrastructures and be alert to a tsunami danger generated by ocean impacts,” according to the ATLAS website.

But NASA’s efforts are deemed insufficient by former agency astronauts and scientists who last year launched a project designed to finance, build and launch the first private space telescope to track asteroids and protect humanity.

The foundation called B612 is trying to raise $450 million to build and deploy a space telescope that would be called Sentinel and placed in orbit around the sun, at a distance of 273 million kilometers from the Earth to detect most objects that are otherwise not visible.

Copyright © 2013 AFP. All rights reserved.
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Article source: http://www.google.com/hostednews/afp/article/ALeqM5iSPY8-NX-1D_1_ub_E-GJYxRPekw?docId=CNG.a50364b65c61228908d151ee287acac4.121

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NASA-backed meteor tracking system on horizon

By alkaon on February 16, 2013 No Comments

In the wake of the meteorite explosion over Russia’s Ural Mountains on Friday, a meteor tracking system could be on its way.

KHON in Honolulu reports that a professor at the University of Hawaii’s Institute for Astronomy is developing what he calls an Asteroid Terrestrial-impact Last Alert System.

“It struck me that there was this kind of hole, that this imminent impacter risk is real and it comes from very small things,” said Dr. John Tonry said to the Fox affiliate. “It’s gonna involve small telescopes about the size of a good garbage can, but very wide fields of view and the intent is to basically scan the whole sky a couple times a night and that makes it possible for things to sneak through.”

Tonry’s ATLAS project has also recently received funding to the tune of $5 million from NASA and will be developed to precisely detect when and where a meteorite would hit.

“We can say it will be exactly such and so a position to within a mile and it’ll happen at exactly such and such a time within a second,” Dr. Tonry said.

The meteorite that streaked across the Russian sky had exploded with the power of an atomic bomb with the sonic blast shattering countless windows and injuring over a 1,000 people.

The massive space rock was estimated to be about 10 tons and 49 feet wide and entered the Earth’s atmosphere at a hypersonic speed of at least 33,000 mph before shattering into pieces about 18-32 miles above the ground, the Russian Academy of Sciences said in a statement on Friday.

CLICK HERE FOR MORE FROM KHON2

Article source: http://www.foxnews.com/science/2013/02/16/nasa-backed-meteor-tracking-system-on-horizon/

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NASA approves $5 million for Hawaii asteroid detection project

By alkaon on February 16, 2013 No Comments

Meteors are entering the Earth’s atmosphere all the time, in the form of what we know as shooting stars. But Friday’s meteor over Russia was a little too large and too close for comfort.

“The shooting stars that you see in the sky are caused by tiny bits of space debris about the size of a grain of sand, so compared to that yes, a 40-foot space dome is ginormous,” Bishop Museum Education Director Mike Shanahan said.

Scientists say meteors that size fall to earth about once a year. We just don’t always see them.

While they don’t usually cause widespread destruction, they’re still a concern.

“It struck me that there was this kind of hole, that this imminent impacter risk is real and it comes from very small things,” said Dr. John Tonry, Professor at the University of Hawaii Institute for Astronomy.

“As these observation methods get more precise, we’ll get more and more ability to catch the smaller and smaller space rocks before they surprise us,” Shanahan said.

Which is exactly what Dr. Tonry’s Asteroid Terrestrial-impact Last Alert System would do.

“It’s gonna involve small telescopes about the size of a good garbage can, but very wide fields of view and the intent is to basically scan the whole sky a couple times a night and that makes it possible for things to sneak through,” Dr. Tonry said.

The $5 million ATLAS project recently received funding from NASA and will be able to detect exactly when and where a meteor would hit.

“We can say it will be exactly such and so a position to within a mile and it’ll happen at exactly such and such a time within a second,” Dr. Tonry said.

This, all happening right here in the middle of the Pacific.

“We have some of the best research in the world being done right here in the Hawaiian islands,” Dr. Tonry said.

Dr. Tonry says that if ATLAS were up and running before the arrival of the meteor over Russia, it could have provided about a day’s warning.

Article source: http://www.khon2.com/content/news/editorschoice/story/NASA-approves-5-million-for-Hawaii-asteroid/ADFb_2jCqkWtekvUJ_SGNQ.cspx

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Tulsa Astronomy Club Gives Insight Into Near Earth Objects

By alkaon on February 16, 2013 No Comments

TULSA, Oklahoma -

The meteorite that crashed Friday morning in Russia had the world talking, including Tulsa.

The Astronomy Club of Tulsa said it’s a rare event to have such good video footage of a meteorite strike.

We wanted to learn more about it and the asteroid that passed through its nearest distance from Earth Friday afternoon.

Astronomers say it usually takes high profile events like this to grab the public’s attention. But they hope this fascination leads others to learn more about near Earth objects.

The meteor exploded with a blinding light over the Russian sky Friday morning, as it entered the Earth’s atmosphere. The shock wave was deafening and was followed immediately by breaking glass and car alarms.

“Something like this will surprise the pants off you,” said Lee Bickle, of the Astronomy Club of Tulsa.

He was up early watching the coverage closely when the meteor exploded over the Russian city of Chelybinsk.

2/14/2013 Related Story: Hundreds Injured As Meteorite Falls On Central Russia

He said it was traveling close to 20 miles per second.

“So, if you could imagine, if that had started over Oklahoma City, it’d be in Tulsa by the time I just said that sentence,” Bickle said.

Late Friday afternoon, Russian news released pictures of one of the impact points You can see the 33-foot diameter hole it made in the ice, covering a lake. The black dots seen in the picture are actually bits of the meteorite as it broke apart.

The question many have is, is this Russia meteorite connected to Asteroid 2012 DA14?

2/15/2013 Related Story: Watch Live: Asteroid Buzzes Earth, Missing By 17,150 Miles

The asteroid came within 17,000 miles of Earth Friday afternoon, but Bickle said it’s not related to the Russian meteor as its coming from a different direction.

“It’s actually traveling toward the north and it’ll be coming out of the north-northwest,” Bickle said. “It’s coming over Asia, then Europe, and finally we’ll be able to be in that path.”

Bickle said these two events can be a rallying point for astronomy, a chance to introduce the science to those who might not normally pay close attention.

“This is the kind of thing that connects astronomy to the just everyday guy, who doesn’t care much about astronomy or whatever. You realize, ‘Oh, I want to know what that is,’” Bickle said.

The Astronomy Club of Tulsa will have its telescope up and running Friday night, just after sunset at the Mounds Observatory.

There’s not much room, but if you’re interested, it’s 8 miles west of Highway 75 on 241st Street.

Article source: http://www.newson6.com/story/21220461/tulsa-astonomer

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Columbia anniversary: Nasa managers struggled with telling crew of danger

By alkaon on February 2, 2013 No Comments

Nasa managers discussed their obligation to inform the Columbia space shuttle crew of damage to the craft and the risks of returning it to Earth just days before it blew apart over Texas in 2003, a former project leader has revealed.

Speaking candidly to mark the 10th anniversary of the disaster that almost ended the agency’s manned spaceflight programme, former shuttle project manager Wayne Hale revealed the depths of the moral debate that took place in Houston after the orbiter was struck by falling insulation foam on its launch from Florida 16 days earlier.

Hale wrote on his blog that he was told by Jon Harpold, then Nasa’s director of mission operations: “You know, there is nothing we can do about damage to the thermal protection system. If it has been damaged it’s probably better not to know. I think the crew would rather not know.

“Don’t you think it would be better for them to have a happy successful flight and die unexpectedly during entry than to stay on orbit, knowing that there was nothing to be done, until the air ran out?”

At the time, Hale stressed, Harpold’s words were purely hypothetical because the space agency’s engineers were working on what he called “the wrong problem”. They were looking at whether the briefcase-sized piece of foam, which knocked a hole in the leading edge of the orbiter’s left wing, had instead damaged the softer thermal protection tiles on the wing’s underside.

After showing the astronauts in orbit a video of the foam strike and discussing with them what they thought they knew, mission managers concluded that it was a non-issue and posed no threat to the crew’s safe return.

They were proved wrong when hot gases seeped into the wing as Columbia attempted re-entry to Earth’s atmosphere and caused the 17,5000mph explosion that sent chunks of the spacecraft raining down over eastern Texas.

Although the circumstances of the tragedy have been well documented, and Hale insists there was “never any debate about what to tell the crew”, his revelation brings new insight to the mindset of some Nasa employees at the time.

The agency was heavily criticised by the report of the Columbia accident investigation board, published six months after the explosion, for “a culture of complacency” that led to the cutting of corners and the legitimate concerns of low-level employees being ignored. It was established that junior engineers had asked eight times for military satellite images to be studied to determine damage to the shuttle but were rebuffed by superiors.

Hale, now retired from Nasa after serving as flight director for 40 of the shuttle programme’s 135 missions, said he did not agree with his manager’s assessment that nothing could have been done for the astronauts.

“We would have pulled out all the stops. There would have been no stone left unturned. We would have had the entire nation working on it,” he said, even though he realised such efforts would probably have been futile.

On his personal blog, he writes: “If there were some magical way to find out Columbia’s status, a week after launch it was too late. The best case scenario, which had virtually no chance of succeeding, would only have worked if action had been taken on the second or third day of the flight; by the sixth day it was too late.”

The three surviving shuttles, Endeavour, Discovery and Atlantis, were grounded for two and a half years after the disaster. For every mission after their 2005 return to flight until the fleet’s eventual retirement in 2011, Nasa always kept another orbiter in an advanced state of readiness for a launch-on-need rescue mission.

The seven astronauts who died aboard Columbia were honoured Friday morning at a ceremony at Florida’s Kennedy Space Center, attended by mission commander Rick Husband’s widow Evelyn and family members of the other victims.

Nasa officials also paid tribute to the seven shuttle astronauts who perished in the 1986 Challenger disaster and the three killed in the 1967 Apollo 1 launchpad fire, and acknowledged the agency’s failings a decade ago.

“The accident wasn’t caused by a single event or a single person but by a series of technical and cultural missteps stemming all the way back to the first shuttle launch in 1981,” said Bill Gerstenmaier, associate administrator for human exploration and operations.

“We continued to lose foam on many missions and this reinforced the idea that all was well. We did not stay hungry and we didn’t deeply analyse the implications of foam being released at precisely the wrong moment.

“We need to stay vigilant and recognise that even the smallest potential flaw can become a big problem. Even small problems can serve as major failures.”

Article source: http://www.guardian.co.uk/world/2013/feb/01/columbia-space-shuttle-anniversary-nasa

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NASA’s Cassini Watches Storm Choke on Its Own Tail

By alkaon on February 1, 2013 No Comments

January 31, 2013

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Call it a Saturnian version of the Ouroboros, the mythical serpent that bites its own tail. In a new paper that provides the most detail yet about the life and death of a monstrous thunder-and-lightning storm on Saturn, scientists from NASA’s Cassini mission describe how the massive storm churned around the planet until it encountered its own tail and sputtered out. It is the first time scientists have observed a storm consume itself in this way anywhere in the solar system.

“This Saturn storm behaved like a terrestrial hurricane – but with a twist unique to Saturn,” said Andrew Ingersoll, a Cassini imaging team member based at the California Institute of Technology, Pasadena, who is a co-author on the new paper in the journal Icarus. “Even the giant storms at Jupiter don’t consume themselves like this, which goes to show that nature can play many awe-inspiring variations on a theme and surprise us again and again.”

Earth’s hurricanes feed off the energy of warm water and leave a cold-water wake. This storm in Saturn’s northern hemisphere also feasted off warm “air” in the gas giant’s atmosphere. The storm, first detected on Dec. 5, 2010, and tracked by Cassini’s radio and plasma wave subsystem and imaging cameras, erupted around 33 degrees north latitude. Shortly after the bright, turbulent head of the storm emerged and started moving west, it spawned a clockwise-spinning vortex that drifted much more slowly. Within months, the storm wrapped around the planet at that latitude, stretching about 190,000 miles (300,000 kilometers) in circumference, thundering and throwing lightning along the way.

Terrestrial storms have never run into their own wakes – they encounter topographic features like mountains first and expend themselves. But Saturn has no land to stop its hurricanes. The bright, turbulent storm head was able to chomp all the way around the planet. It was only when the head of the storm ran into the vortex in June 2011 that the massive, convective storm faded away. Why the encounter would shut down the storm is still a mystery.

By Aug. 28, after 267 days, the Saturn storm stopped thundering for good. While Cassini’s infrared detectors continue to track some lingering effects in higher layers of Saturn’s atmosphere, the troposphere — which is the weather-producing layer, lower in the atmosphere – has been quiet at that latitude.

“This thunder-and-lightning storm on Saturn was a beast,” said Kunio Sayanagi, the paper’s lead author and a Cassini imaging team associate at Hampton University in Virginia. “The storm maintained its intensity for an unusually long time. The storm head itself thrashed for 201 days, and its updraft erupted with an intensity that would have sucked out the entire volume of Earth’s atmosphere in 150 days. And it also created the largest vortex ever observed in the troposphere of Saturn, expanding up to 7,500 miles [12,000 kilometers] across.”

The vortex grew to be as large as the giant storm known as Oval BA on Jupiter. But Oval BA and Jupiter’s more famous storm – the Great Red Spot – are not thunder-and-lightning storms. Jupiter’s storms also have a quiet center, unlike the violence at the center of Saturn’s storms.

“Cassini’s stay in the Saturn system has enabled us to marvel at the power of this storm,” said Scott Edgington, Cassini’s deputy project scientist at NASA’s Jet Propulsion Laboratory in Pasadena, Calif. “We had front-row seats to a wonderful adventure movie and got to watch the whole plot from start to finish. These kinds of data help scientists compare weather patterns around our solar system and learn what sustains and extinguishes them.”

This storm was the longest running of the massive storms that appear to break out in Saturn’s northern hemisphere once every Saturn year (30 Earth years). The longest storm of any size ever detected on Saturn actually unfolded over 334 days in 2009 in an area known as “Storm Alley” in the southern hemisphere, but it was about 100 times smaller in area than the latest northern storm.

The Cassini-Huygens mission is a cooperative project of NASA, the European Space Agency and the Italian Space Agency. JPL manages the mission for NASA’s Science Mission Directorate, Washington. The Cassini orbiter and its two onboard cameras were designed, developed and assembled at JPL. The imaging team consists of scientists from the U.S., England, France and Germany. The imaging operations center is based at the Space Science Institute in Boulder, Colo.

For more information, visit: http://www.nasa.gov/cassini and http://saturn.jpl.nasa.gov .

Jia-Rui C. Cook 818-354-0850
Jet Propulsion Laboratory, Pasadena, Calif.
jccook@jpl.nasa.gov

2013-040

Article source: http://www.jpl.nasa.gov/news/news.php?release=2013-040

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NASA’s Space Food Systems lab shows what astronauts really eat in orbit

By alkaon on January 28, 2013 No Comments

NASA’s Space Food Systems Laboratory is where the agency researches, tests, and produces food fit for consumption outside of the Earth’s atmosphere. Everything from the packaging to the menu has to be meticulously evaluated; the food must balance nutrition, flavor, and safety with more practical concerns such as preparation time, size, and a shelf life of three to five years.

Space food plays another role, too — according to NASA, it “not only provides nutrition for astronauts, but also enhances the psychological well-being of the crew by establishing a familiar element in an unfamiliar and hostile environment.”

The agency has posted a series of photos on its website that track the development of space food through recent decades, as well as further details on the laboratory’s work.

Article source: http://www.theverge.com/2013/1/27/3922806/nasa-space-food-photos

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NASA uses different wavelengths of light to create solar patchwork

By alkaon on January 25, 2013 No Comments

This quilt will keep you warm — it’s about 11 million degrees Fahrenheit.

The space agency’s colorful images of the sun rarely resemble the yellowish, featureless disks that we see in our own pictures — sometimes colored a bit more red when near the horizon since the light must travel through more of Earth’s atmosphere and consequently loses blue wavelengths before getting to the camera’s lens.

NASA’s Specialized ground-based or space-based telescopes can observe a colorful array of light far beyond the ranges visible to the naked eye. And NASA pores over those pictures, each of which conveys a different piece of information about different components of the sun’s surface and atmosphere, the agency recently said.

To demonstrate the wide array of spectrums that NASA studies, the space agency put out a colorful tapestry image that resembles a solar quilt, with red, blue, green, purple, orange and other colored images of the sun.

“Yellow-green light of 5,500 Angstroms, for example, generally emanates from material of about 10,000 degrees F, which represents the surface of the sun. Extreme ultraviolet light of 94 Angstroms, on the other hand, comes from atoms that are about 11 million degrees F and is a good wavelength for looking at solar flares, which can reach such high temperatures,” Karen C. Fox from NASA Goddard Space Flight Center wrote on the agency website recently.

“By examining pictures of the sun in a variety of wavelengths – as is done through such telescopes as NASA’s Solar Dynamics Observatory (SDO), NASA’s Solar Terrestrial Relations Observatory (STEREO) and the ESA/NASA Solar and Heliospheric Observatory (SOHO) — scientists can track how particles and heat move through the sun’s atmosphere.”

From the sun’s surface on out, the wavelengths NASA studies, measured in Angstroms, are:

  • 4500: Showing the sun’s surface or photosphere.
  • 1700: Shows surface of the sun, as well as a layer of the sun’s atmosphere called the chromosphere, which lies just above the photosphere and is where the temperature begins rising.
  • 1600: Shows a mixture between the upper photosphere and what’s called the transition region, a region between the chromosphere and the upper most layer of the sun’s atmosphere called the corona. The transition region is where the temperature rapidly rises.
  • 304: This light is emitted from the chromosphere and transition region.
  • 171: This wavelength shows the sun’s atmosphere, or corona, when it’s quiet. It also shows giant magnetic arcs known as coronal loops.
  • 193: Shows a slightly hotter region of the corona, and also the much hotter material of a solar flare.
  • 211: This wavelength shows hotter, magnetically active regions in the sun’s corona.
  • 335: This wavelength also shows hotter, magnetically active regions in the corona.
  • 94: This highlights regions of the corona during a solar flare.
  • 131: The hottest material in a flare.

Article source: http://www.foxnews.com/science/2013/01/25/nasa-uses-different-wavelengths-light-to-create-solar-patchwork/

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NASA Image of the day

Curiosity at 'Cumberland'

 
NASA's Mars rover Curiosity used its front left Hazard-Avoidance Camera for this image of the rover's arm over the drilling target "Cumberland" during the 275th Martian day, or sol, of the rover's work on Mars (May 15, 2013). The rover team plans to use Curiosity's drill to collect a powdered sample from the interior of the rock for analysis by laboratory instruments inside the rover. This is the mission's second rock-drilling target. The rover drove from its position beside the first drilling target, "John Klein," to its position beside Cumberland with drives of 121 inches (308 centimeters) on Sol 273 (May 13) and 26.6 inches (67.5 centimeters) on Sol 275. Curiosity's total odometry on Mars is now 2,385 feet (727 meters). Image credit: NASA/JPL-Caltech
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