Rosetta Mission Comet Landing Up To Lander Separation

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http://www.youtube.com/watch?v=9qpZ2sqCRyg

[timmy]

HOW THEY DID IT

 

Target Spot

 

On Nov. 12, the Rosetta spacecraft landed Philae on the surface of comet 67P.

 

It was no small feat: The comet is traveling nearly 40,000 mph, and Rosetta, which is speeding alongside, dropped the lander on a site known as "Agilkia," located on the smaller "head" lobe of the comet, which is kind of shaped like a duck.

 

Just days before the landing, Rosetta's navigation camera took a photo of the landing site. The image below was captured from about 19 miles away.

 

 

 

The landing site, which is a little less than one square mile, is made up of large, jagged boulders, making the landing very risky. 

 

[timmy]

6 BIZARRE FACTS ABOUT THE MISSION

1. GoT's Lord Baelish and Rosetta have something in common.

To promote the Rosetta mission ESA made a fantastical, highly produced short film starring Aidan Gillen, the actor who plays Littlefinger in Game of Thrones. The video, called "Ambition," features a post-apocalyptic planet in which humans have magical powers to create solar systems. ESA said the film is "a larger tribute to how contemporary space exploration is crucial to searching for clues to our own origins.

"https://www.youtube.com/watch?v=H08tGjXNHO4

2. Scientists have an inside joke about a rubber duck.

Scientists have jokingly dubbed Comet 67P/Churyumov-Gerasimenko a “rubber duck” in space due to its irregular shape. Others say it would be more accurately described as a “black swan” due to the deep black color caused by its non-reflective surface. Explanations for the comet’s unique shape vary. Some experts believe it is a true “contact binary,” meaning it is made of two objects that melded together after impact. Alternatively, it could have been molded into its irregular form through impact with other objects.

3. Rosetta's comet stinks — literally.

According to researchers at the University of Bern in Switzerland, the cloud of gas surrounding comet 67P smells like rotten eggs, horse urine, methanol and formaldehyde — odors not uncommon for comets like this. As the comet nears the sun, it will release more gases and smell even worse, the Los Angeles Times reported.

4. Of course William Shatner is involved.

It only makes sense, right? In a video released by ESA, actor William Shatner sent well wishes to the Rosetta Mission. "I am so excited and I wish you such good luck," the Star Trek actor said. 

https://www.youtube.com/watch?v=yY2SGPtRmnA

5. The comet is singing.

As the Rosetta spacecraft neared comet 67P, researchers were taken by surprise by a low, songlike hum coming from the comet. It turns out, the “singing” is caused by the release of electrically charged particles, a phenomenon scientists still don't fully understand.

 

ESA has uploaded the comet’s song on a Soundcloud page using the hashtag #cometlanding for your listening pleasure.

6. Rosetta has been taking selfies.

The Comet Infrared and Visible Analyser (CIVA) on Philae is comprised of seven cameras that are capable of taking 360 degree photos of the comet's landscape once the spacecraft lands. CIVA can also take selfies from its place on the Rosetta spacecraft. This image shows the side of the Rosetta spacecraft with the comet in the background. 

ESA/Rosetta/Philae/CIVA

 

TIMELINE OF THE 10-YEAR JOURNEY

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[timmy]

THE COMET

Nov. 6, 2014

The Agilkia landing site is seen on this image of comet 67P.

 

Nov. 4, 2014

The center of the comet, as seen from about 20 miles away.

 

Oct. 26, 2014

An up-close look at the comet 67P, taken from 6 miles away.

 

Sept. 10, 2014

A wide-angle image of 67P, showing jets of cometary activity along almost the entire body of the comet.

 

Sept. 12, 2014

An up-close shot of Philae's backup landing site.

 

Aug. 3, 2014

Comet 67P as seen from 186 miles away.

 

[timmy]

The Comet's Size (in Earthling Terms)

The Comet's Size (in Earthling Terms)

 

[timmy]

6 QUESTIONS, ANSWERED

• What took Rosetta so long to get to the comet?

  Rosetta had quite a ways to travel for its date with fate. Comet 67P hangs out somewhere between the orbits of Jupiter and Earth at a range of about 186 million to 800 million kilometers from the Sun.

  Since no rocket launcher was able to get Rosetta all the way out there, rocket engineers had to use the gravity of Mars and Earth to essentially sling it into orbit. The total trip spanned 6.4 billion kilometers (nearly 4 billion miles) and took 10 years.

• Why this comet?

  The selection of 67P/Churyumov-Gerasimenko is a classic case of right place, right time.

  For starters, it comes around somewhat frequently. Comet 67P has a pretty short orbital period, meaning scientists were able to predict when it was coming and where they could find it when it was time to launch Rosetta. Other factors included technical risk to the spacecraft—like how much dust the comet produces—and funding.

• How much did the mission cost?

  The total mission cost of Rosetta, according to ESA, is close to 1.4 billion euros ($1.7 billion), with the total cost of Philae amounting to 220 million euros. This includes the costs of a one-year launch delay. This also includes the entire 20-year span of the mission, from the start of planning in 1996 to the end of the mission next year. According to NASA, the total cost of the mission was about $900 million before the one-year launch delay, which occurred in 2003 after problems arose with the Ariane rocket. The delay added another $70 to $80 million to the total mission cost.

• What if we fail?

  If Rosetta somehow fails—say, crash lands or gets pulverized by dust—and the mission is a bust, it's not actually a total loss.

  The orbiter will still undergo nearly a dozen experiments and observations that will allow scientists to map the nucleus and gain a better understanding into the processes that occur near, on and inside a comet as it is warmed by the Sun.

• What is the different between comets and asteroids?

  Both asteroids and comets are thought to be ancient remnants of the early years of our solar system, more than 4 billion years ago.

  Comets can be several miles wide, and contain ice, rock, and organic compounds. According to NASA, most comets may be traced to a region beyond the orbits of the outermost planets.

  Comets undergo major changes when they move into areas with more intense sunlight, within the inner solar system. When this occurs, the different types of ice in the inner sections of the comet can vaporize and fall away, while gas wraps around the center of the comet, creating a fragile atmosphere known as a coma.

  The dust that had been in the nucleus of the comet forms a tail that is sometimes visible from Earth, and can stretch for a thousand miles or longer. Comets striking the Earth are thought to have helped kick-start crucial processes that led to life on the planet, from the early oceans to the atmosphere. Comets may have brought the first carbon-based molecules to Earth, a key building block to life.

  In other words, you may owe your life, at least in part, to ancient comets.

  In contrast to comets, most asteroids lack the complex inner structure that comets have. Instead, they're comprised of rocks or metals, and are much smaller than comets. Asteroids can be between the size of small boulders to objects that are hundreds of miles wide.

  Some asteroids may be the leftovers of past comets, after all their ice and organic compounds have escaped into space. Rather than originating outside the orbits of the outermost planets, asteroids are thought to be part of the Main Asteroid Belt, with orbits between Mars and Jupiter.

  Some asteroids have orbits that come very close to Earth, and evidence of near-misses with asteroids that could survive a trip through Earth's atmosphere has increased in recent years. However, most asteroids that encounter Earth's atmosphere burn up as they descend, and break up into smaller debris, known as meteorites.

• How long will Rosetta operate?

  The first phase of the mission will last two-and-a-half days. The lander, Philae, will be on primary battery power and taking a handful of scientific measurements. After that, the lander will transition into phase two, which will use solar power for approximately three months to take a second set of observations.

  Scientists aren't really sure how long the lander will last, though, and chalk up the timeframe's factors to unpredictable "solar illumination conditions"—and dust.

  Rosetta, meanwhile, will keep on keepin' on. Its near-term goal is to stick with the comet until it passes the sun in August 2015.

  Long term? It's up in the air. (Well, in this case, it's up in the vacuum of space.)

 

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bye1

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