Expedition 32 Lands Safely in Kazakhstan

Welcome home to Gennady Padalka, Joe Acaba and Sergei Revin! The trio landed safely in Kazakhstan at 02:54 UTC on Monday, September 17 (8:53 a.m. Kazakhstan time Monday, 10:53 p.m. EDT Sunday, September 16). Expedition 32 officially ended when Soyuz TMA-04M the trio undocked at 23:09 UTC Sunday from the Poisk module. The had been on the International Space Station since May 17, spending a total of 123 days on the orbital laboratory.

The Soyuz TMA-04M spacecraft is seen as it lands with the Expedition 32 crew. Credit: NASA/Carla Cioffi

Expedition 33 is now underway as Commander Suni Williams and Flight Engineers Aki Hoshide and Yuri Malenchenko continue their stay until Nov. 12

Padalka ceremonially handed the controls of the station over to Williams on Saturday afternoon. He previously commanded two International Space Station missions including Expeditions 9 and 19. His first spaceflight was aboard the Russian Mir space station in 1998 bringing his total spaceflight experience to 711 days.

Here’s the undocking video:

Williams is serving her second mission in space, her first being Expedition 14 as flight engineer. She has conducted six spacewalks, four during Expedition 14 and two on Expedition 32, for a total of 44 hours and two minutes.

A new crew is set to join Expedition 33 when Flight Engineers Kevin Ford, Oleg Novitskiy and Evgeny Tarelkin launch Oct. 15 aboard the Soyuz TMA-06M spacecraft for an Oct. 17 docking to Poisk. Ford will command Expedition 34 when Williams, Hoshide and Malenchenko complete their mission.

More landing images can be seen at NASA’s Flickr page.

Weekly SkyWatcher’s Forecast – September 17-23, 2012

Globular Cluster M15 from Hubble Space Telescope. There are likely one or more intermediate-mass black holes at its heart. Courtesy: ESA, Hubble, NASA
Globular Cluster M15 from Hubble Space Telescope. There are likely one or more intermediate-mass black holes at its heart. Courtesy: ESA, Hubble, NASA

Greetings, fellow SkyWatchers! This looks like a great week to take in some galactic star clusters and enjoy the Andromeda Galaxy! Some lucky viewers are in for a Mars occultation event and everyone wins with a meteor shower. What’s that, you say? Darn right. This week is also the time of the Autumnal Equinox! When ever you’re ready to learn more, just meet me in the back yard…

Monday, September 17 – Today in 1789, William Herschel discovered Saturn’s moon Mimas.

Tonight we’ll hunt with the “Fox” as we head to Vulpecula to try two more open star cluster studies. The first can be done easily with large binoculars or a low power scope. It’s a rich beauty that lies in the constellation of Vulpecula, but is more easily found by moving around 3 degrees southeast of Beta Cygni.

Known as Stock 1, this stellar swarm contains around 50 or so members of varying magnitudes that you will return to often. With a visual magnitude of near 5, loose associations of stars – like Stock clusters – are the subject of recent research. The latest information indicates that the members of this cluster are truly associated with one another.

A little more than a degree to the northeast is NGC 6815 (Right Ascension:19 : 40.9 – Declination: +26 : 51). While this slightly more compressed open cluster has no real status amongst deep sky objects, it is another one to add to your collection of things to do and see!

Tuesday, September 18 – Tonight we’ll start with an asterism known as the “Coat Hanger,” but it is also known as Brocchi’s Cluster, or Collinder 399. Let the colorful double star Beta Cygni – Albireo – be your guide as you move about 4 degrees to its south-southwest. You will know this cluster when you see it, because it really does look like a coat hanger! Enjoy its red stars.

First discovered by Al Sufi in 964 AD, this 3.5 magnitude collection of stars was again recorded by Hodierna. Thanks to its expansive size of more than 60 arc minutes, it escaped the catalogues of both Messier and Herschel. Only around a half dozen stars share the same proper motion, which may make it a cluster much like the Pleiades, but studies suggest it is merely an asterism…but one with two binary stars at its heart.
And for larger scopes? Fade east to the last prominent star in the cluster and power up. NGC 6802 (Right Ascension: 19 : 30.6 – Declination: +20 : 16) awaits you! At near magnitude 9, Herschel VI.14 is a well compressed open cluster of faint members. The subject of ongoing research in stellar evolution, this 100,000 year old cluster is on many observing challenge lists!

Wednesday, September 19 – On this day in 1848, William Boyd was watching Saturn – and discovered its moon Hyperion. On this date a moon will be on everyone’s mind as our Moon occults Mars (Pacific, South America, SW Atlantic). Be sure to check information such as the International Occultation Timing Assoication (IOTA) for specific details in your area. Even if you aren’t in a position to catch the occultation, it will still make a splendid scene! Also today in 1988, Israel launched its first satellite. How long has it been since you’ve watched an ISS pass or an iridium flare? Both are terrific events that don’t require any special equipment to be seen. Be sure to check with Heavens Above for accurate times and passes in your location and enjoy!

Tonight we again visit the M15 (Right Ascension: 21 : 30.0 – Declination: +12 : 10) globular and learn more about the scale of the Universe – circa 1900. On a decent night, a modest telescope will resolve about a dozen 13th magnitude stars outside M15?s core region. Most of these stars are red giants with absolute magnitudes of -2. Such stars appear 15 magnitudes fainter than they would be if they were at an astronomically standardized distance. Based on this 15 magnitude loss in intensity, we should be able to figure out how far away M15 is, but this is circular reasoning. In the early 1900s, astronomers didn’t know that the brightest stars in M15 were absolute magnitude -2. They first needed to know how far away the globular was to make sense of that.

Here’s where the H-R diagram helps out.

The most massive and swollen red giants (those nearing the end of their lives such as Betelgeuse and Antares) can be as luminous as absolute magnitude -6, but you can’t assume that the brightest red giants in a globular cluster are as bright as Antares and Betelgeuse. Why? Because we later discovered that all stars in a globular cluster entered the main sequence about the same time – some 12 billion years ago. Meanwhile, the very brightest ones – the Denebs – are no longer around. They exited the main sequence, became red giants and exploded a long, time ago, and possibly in a dwarf galaxy far, far away!

Now let’s take a a stellar tour of Lyra! First we’ll look at a double which has a close separation – Epsilon Lyrae. Known to most of us as the “Double Double,” look about a finger width northeast of Vega. Even the slightest optical aid will reveal this tiny star as a pair, but the real treat is with a telescope – for each component is a double star! Both sets of stars appear as primarily white and both are very close to each other in magnitude. What is the lowest power that you can use to split them?

Now let’s head for the northeast corner of the little parallelogram that is part of Lyra for easy unaided eye and binocular double Delta 1 and 2 Lyrae.

The westernmost Delta 1 is about 1100 light-years away and is a class B dwarf, but take a closer look at brighter Delta 2. This M-class giant is only 900 light-years away. Perhaps 75 million years ago, it, too, was a B class star, but it now has a dead helium core and it keeps on growing. While it is now a slight variable, it may in the future become a Mira-type. A closer look will show that it also has a true binary system nearby – a tightly matched 11th magnitude system. Oddly enough they are the same distance away as Delta-2 and are believed to be physically related.

Thursday, September 20 – Now let the Moon head west, because on this night in 1948, the 48? Schmidt telescope at Mt. Palomar was busy taking pictures. The first photographic plate was being exposed on a galaxy by the same man who ground and polished the corrector plate for this scope – Hendricks. His object of choice was reproduced as panel 18 in the Hubble Atlas of Galaxies and tonight we’ll join his vision as we take a look at the fantastic M31 – the Andromeda Galaxy.

Seasoned amateur astronomers can literally point to the sky and show you the location of M31 (Right Ascension: 0 : 42.7 – Declination: +41 : 16), but perhaps you have never tried. Believe it or not, this is an easy galaxy to spot even under the moonlight. Simply identify the large diamond-shaped pattern of stars that is the “Great Square of Pegasus.” The northernmost star is Alpha, and it is here we will begin our hop. Stay with the north chain of stars and look four finger-widths away for an easily seen star. The next along the chain is about three finger-widths away… And we’re almost there. Two more finger-widths to the north and you will see a dimmer star that looks like it has something smudgy nearby. Point your binoculars there, because that’s no cloud – it’s the Andromeda Galaxy!

Friday, September 21 – And what was Sir William Herschel doing on this date a couple of centuries ago? You can bet he was out telescoping; and his discoveries on this night were many. How about if we take a look at two logged on September 21 which made the Herschel “400? list?

Our first stop is northern Cygnus for NGC 7086 (RA 21 30 30 Dec +51 35 00). Located on the galactic equator about five degrees west of Beta Cephei, our target is an open cluster. At magnitude 8.4, this loose collection will be difficult for the smaller scope, and show as not much more than an arrow-like asterism. However, larger scopes will be able to resolve many more stars, arrayed in long loops and chains around the brighter members. Although it’s sparse, NGC 7086 has been studied for metal abundance, galactic distance, membership richness, and its luminosity function. Be sure to mark your notes for H VI.32, logged by Herschel in 1788.

Now hop on over to Andromeda for NGC 752 (RA 01 57 41 Dec +37 47 06). You’ll find it just a few degrees south of Gamma and in the field north of star 56. Located 1300 light-years away, there’s a strong possibility this cluster was noted first by Hodierna before being cataloged by Herschel on this night (1786). At near magnitude 5, this “400? object is both large and bright enough to be seen in binoculars or small telescopes, and people have often wondered why Messier did not discover it. The star-studded field containing about 70 members of various magnitudes belong to H VII.32 – a very old cluster which has more recently been studied for its metallicity and the variations in the magnetic fields of its members. Enjoy them both tonight! Sir William did…

Saturday, September 22 – Today marks the universal date of Autumnal Equinox. Enjoy this “equal” period of day and night!

Tonight we’ll return again to Vulpecula – but with a different goal in mind. What we’re after requires dark skies – but can be seen in both binoculars and a small telescope. Once you’ve found Alpha, begin about two fingerwidths southeast and right on the galactic equator you’ll find NGC 6823 (Right Ascension: 19 : 43.1 – Declination: +23 : 18).

The first thing you will note is a fairly large, somewhat concentrated magnitude 7 open cluster. Resolved in larger telescopes, the viewer may note these stars are the hot, blue/white variety. For good reason. NGC 6823 only formed about 2 billion years ago. Although it is some 6000 light-years away and occupies around 50 light-years of space, it’s sharing the field with something more – a very large emission/reflection nebula, NGC 6820 (Right Ascension: 19 : 43.1 – Declination: +23 : 17).

In the outer reaches of the star cluster, new stars are being formed in masses of gas and dust as hot radiation is shed from the brightest of the stellar members of this pair. Fueled by emission, NGC 6820 isn’t always an easy visual object – it is faint and covers almost four times as much area as the cluster. But trace the edges very carefully, since the borders are much more illuminated than the region of the central cluster. Take the time to really observe this one! Its processes are very much like those of the “Trapezium” area in the Orion nebula. Be sure to mark your observing notes. NGC 6823 is Herschel VII.18 and NGC 6820 is also known as Marth 401!

Now we’re off to a spectacular open cluster – NGC 6940. At close to magnitude 6, you’ll find this unsung symphony of stars around three fingerwidths southwest of Epsilon Cygni (RA 20 34 24.00 Dec +28 17 -0.0).

Discovered by Sir William Herschel on Oct 15, 1784, and logged as H VIII.23, this intermediate aged galactic cluster will blow your mind in larger aperture. Visible in binoculars, as size increases the field explodes into about 100 stars in a highly compressed, rich cloud. Although it is not an often visited cluster, it is part of many observing challenge lists. Use low power to get the full effect of this stunning starfield!

Sunday, September 23 – On this day in 1846, Johann Galle of the Berlin Observatory makes a visual discovery. While at the telescope, Galle sees and identifies the planet Neptune for the first time in history. On this day in 1962, the prime time cartoon “The Jetsons” premiered. Think of all the technology this inspired!

Rather than doing lunar work tonight, why not wait until the Moon has westered and have an “Autumn Planetary Marathon”? Start easy with M57 between Gamma and Beta Lyrae. Head north-northwest to the “Cat’s Eye” (NGC 6543) roughly between Delta and Zeta Draconis – you’ll need your charts for this one! Now southwest to the “Blinking Planetary” (NGC 6543) – found less than three degrees east-southeast of Iota Cygni. Continue east-southeast a little less than 6 degrees past Deneb to the “Box Planetary” – NGC 7027. Now on to the brightest of the ten – M27. The “Dumbbell Nebula” is located a little more than 3 degrees north of Gamma Sagittae. Now drop two hand spans south to the “Little Gem” (NGC 6818) – around 7 degrees northeast of Rho Sagittarii.

One hand span east of the “Little Gem” leads you toward the “Saturn Nebula” in Aquarius – a little more than a degree west of Nu. Now it’s a huge jump of more than two hand spans west-northwest to tiny NGC 6572 – located around two finger-widths south-southeast of 72 Ophiuchi. Continue on to compact NGC 6790 a finger-width south of Delta Aquilae. Did you find them all? Well, if the “Cat’s Eye” is the toughest to locate, then NGC 6790 is the hardest to identify. Good going! But don’t stop now… Two hand spans west-northwest leads to NGC 6210 – best located using pointer stars Gamma and Beta Herculis. Excellent work!

Ready for the finale? Now, kick back… relax… and watch the Alpha Aurigid meteor shower. Face northeast and look for the radiant near Capella. The fall rate is around 12 per hour, and they are fast and leave trails!

Until next week? Wishing you clear skies…

Shuttle Endeavour mated to Jumbo Jet for Final Flight

Image caption: Endeavour mated to Boeing 747 in the Mate-Demate device at the Kennedy Space Center Shuttle Landing Facility on Sept. 14 for Final Ferry Flight to California on Sep. 17. Credit: Ken Kremer

Space Shuttle Endeavour was joined to the 747 Jumbo carrier jet that will carry her majestically on Sept 17 on her final flight to the California Science Center – her permanent new home at the in Los Angeles. Enjoy my photos from onsite at the Kennedy Space Center in Florida.

On Friday (Sept. 14), Endeavour was towed a few miles in the predawn darkness from the Vehicle Assembly Building (VAB ) to the Shuttle Landing Facility (SLF) and the specially modified 747 known as the Shuttle Carrier Aircraft, or SCA.

In a day long process, Endeavour departed the VAB at 5:04 a.m. and was hauled into the gantry-like Mate-Demate device, hoisted and then lowered onto the awaiting 747 Jumbo Jet. The pair were joined at about 2:41 p.m.

Image caption: Endeavour towed past waiting Boeing 747 Shuttle Carrier Aircraft (SCA) at the Kennedy Space Center Shuttle Landing Facility on Sept. 14 for Final Ferry Flight to California on Sep. 17. Credit: Ken Kremer

Final work to hard mate NASA’s youngest orbiter to the SCA Jumbo Jet known as NASA 905 is due to be completed by Sunday.

The 747 crew will fly perform multiple, crowd pleasing low flyovers of the Florida space coast region, the KSC Visitor complex and the beaches – giving every spectator a thrilling front row seat to this exciting but bittersweet moment in space history as the shuttle takes flight for the very final time.

Image caption: Endeavour towed out of the Vehicle Assembly Building on the way to the Kennedy Space Center Shuttle Landing Facility on Sept. 14 for Final Ferry Flight to California on Sep. 17. Venus shines to the left. Credit: Ken Kremer – www.kenkremer.com

Everyone involved felt a strong mix of emotions from pride in the tremendous accomplishments of NASA’s Space Shuttle Program to the sad and bittersweet feeling that comes with the retirement of all 3 orbiters barely one third of the way into their design lifetime. All three shuttles could easily have flown tens of millions more miles but for lack of money and political support from Washington D.C.

Image caption: Endeavour mated on top of NASA SCA at Shuttle Landing Facility on Sept. 14 for Final Ferry Flight to California on Sep. 17. Credit: Ken Kremer

Altogether Endeavour flew 25 missions and traveled 122,883,151 miles during 299 days in space.

Ken Kremer

Image caption: Endeavour gently lowered on top of NASA SCA with Ken Kremer on hand at the Kennedy Space Center Shuttle Landing Facility on Sept. 14 for Final Ferry Flight to California on Sep. 17. Credit: Ken Kremer

Editor’s note: Visit John O’Connor’s NASATech website for panoramic views of Endeavour’s mating:
http://nasatech.net/EndeavourMDM3_120914/

http://nasatech.net/EndeavourMDM4_120914/

http://nasatech.net/EndeavourMDM5_120914/

Farewell to a Hero: Photos From Armstrong’s Burial at Sea

Armstrong’s burial service aboard the USS Philippine Sea on September 14, 2012 (NASA/Bill Ingalls)

Earlier today, Friday, September 14, 2012, Neil A. Armstrong’s burial at sea service was held aboard the USS Philippine Sea (CG 58) in the Atlantic Ocean. Armstrong, the first man to walk on the moon during the 1969 Apollo 11 mission, died Saturday, August 25. He was 82.

An icon of exploration for all of humanity, he will be missed by millions and remembered forever. Godspeed, sir, and thank you.

See more photos below.

US Navy personnel carry the cremated remains of Apollo 11 astronaut Neil Armstrong

Members of the US Navy ceremonial guard hold an American flag over Armstrong’s remains

A US Navy firing squad fires three volleys in honor of Neil Armstrong

US Navy Lieutenant Commander Paul Nagy and Carol Armstrong, wife of Neil Armstrong, commit the remains of Neil Armstrong to the sea

US Navy Captain Steve Shinego presents the US flag to Carol Armstrong as Neil’s son, Eric “Rick” Armstrong, looks on.

All photos credit NASA/Bill Ingalls.

See more photos from the service on the Flickr set here.

Neil Alden Armstrong, 1930 – 2012.

Satellite View of Guatemalan Volcano Erupting

A natural-color image captured the eruption of Volcan de Fuego as it occurred. Credit: NASA/Moderate Resolution Imaging Spectroradiometer (MODIS) aboard the Terra satellite.

One of Central American’s most active volcanos erupted on September 13th, 2012 prompting officials to evacuate 35,000 residents in Guatemala. The Volcan de Fuego, or Fire Volcano, began belching out ash at 10 a.m. local time with ash now falling up to 40 kilometers (25 miles) from the volcano. Residents within 20 kilometers (12 miles) of the volcano were being removed from the area in buses and cars.

According to the Coordinadora Nacional para la Reducción de Desastres (CONRED), the eruption included ash emissions to the west and a 500-meter (2,000-foot) long lava flow. CONRED also warned of pyroclastic flows that could descend the mountain in any direction.

This natural-color image captured the eruption just as it occurred, NASA said. The image was acquired by the Moderate Resolution Imaging Spectroradiometer (MODIS) aboard the Terra satellite.

Thursday’s eruption was the sixth of the year for this volcano and some officials said it may be the biggest.

NASA said they would publish imagery of Guatemala two times per day on the MODIS Rapid Response web site.

Sources: NASA’s Earth Observatory, CNN

Neil Armstrong Remembered in Memorial Service

Neil Armstrong, the first person to set foot on the Moon, was honored in a memorial service at the Washington National Cathedral on September 13, 2012. He was remembered as a quiet but strong hero who led mankind into space. Armstrong died last month at 82 following complications after heart surgery. He will be buried at sea in the Naval tradition today (Friday, September 14, 2012) at an undisclosed site.

“He embodied all that is good and all that is great about America. Neil, wherever you are, you again have shown us a way to the stars,” said Gene Cernan during the memorial. Cernan was commander of the Apollo 17 mission in 1972 and the last person to walk on the Moon.

If you missed watching it live, here is a video of the entire service. The National Cathedral was a fitting place to remember Armstrong, as it has one stained glass window, known as the Space Window, which has a piece of Moon rock presented by Armstrong and his Apollo 11 crewmates Buzz Aldrin and Michael Collins in 1974.

The recessional at the conclusion of a memorial service celebrating the life of Neil Armstrong at the Washington National Cathedral, Thursday, Sept. 13, 2012. Photo Credit:(NASA/Paul E. Alers) Click here to see a gallery of images from the service.

The Cathedral was filled with NASA officials, astronauts, and the general public who wanted to pay their respects to the man who displayed courage and grace under pressure that had made him exceptional, said NASA Administrator Charlie Bolden.

Cernan provided an example of Armstrong’s “cool under pressure” personality in recounting Armstrong’s response years ago when asked how he felt when he was landing on the Moon with only seconds of fuel remaining.

Cernan recalled Armstrong saying, “Well, when the gauge says empty we all know there is a gallon or two left over,” which drew laughter from the crowd.

At the end of the service, Bolden presented Armstrong’s wife, Carol, with the flag that had flown at half-staff over the NASA Johnson Space Center in Houston on August 25, the day Armstrong passed away.

Sonic-Powered Levitation Allows for Zero-G Drug Research

It’s not special effects: researchers at the U.S. Department of Energy’s Argonne National Laboratory in Illinois have developed a way to cancel out the effects of gravity, allowing liquids to be held without containers. The effect is created using sound waves emitted by an acoustic levitator — an instrument designed by NASA for simulating microgravity.

Watch the video. It’s the coolest thing you’ll see all week.

This accomplishes more than just a neat effect; by keeping liquids in place without the need for a physical container, pharmaceutical research can be performed while the drugs are still in their purest, “amorphous” state.

“Most drugs on the market are crystalline – they don’t get fully absorbed by the body and thus we aren’t getting the most efficient use out of them,” said Yash Vaishnav, Argonne Senior Manager for Intellectual Property Development and Commercialization.

When solutions come in contact with the interior surfaces of their containers, evaporation takes place, which can lead to crystallization. In order to find a way to hold liquids without anything coming in contact with them (a tricky task while under the effect of Earth’s pesky gravity) ANL X-ray physicist Chris Benmore looked to NASA’s acoustic levitator.

Using two sets of sound waves emitted at 22khz and precisely aimed at each other, a “standing wave” is established at their center. The resulting acoustic force is strong enough to counter the downward tug of gravity at certain points (at least as far as droplets of liquid are concerned.)

The liquid drugs can then be studied without the problem of crystallization, making this technological parlor trick a powerful analytical tool for pharmaceutical researchers. The ultimate goal is to learn how to reduce the amount of a particular drug but still retain the desired effects — with less of the undesired ones.

Read more here on the Argonne National Lab site.

The nation’s first national laboratory, Argonne conducts leading-edge basic and applied scientific research in virtually every scientific discipline. With employees from more than 60 nations, Argonne is managed by UChicago Argonne, LLC for the U.S. Department of Energy’sOffice of Science.

In Fact It’s Cold As Hell: Mars Isn’t As Earthlike As It Might Look

The slopes of Gale Crater as seen by Curiosity are reminiscent of the American southwest (NASA/JPL-Caltech)

“Mars ain’t no kind of place to raise your kids; in fact it’s cold as hell” sang Elton John in “Rocket Man”, and although the song was released in 1972 — four years before the first successful landing on Mars — his weather forecast was spot-on. Even though the fantastic images that are being returned from NASA’s Curiosity rover show a rocky, ruddy landscape that could easily be mistaken for an arid region of the American Southwest one must remember three things: this is Mars, we’re looking around the inside of an impact crater billions of years old, and it’s cold out there.

Mars Exploration Program blogger Jeffrey Marlow writes in his latest “Martian Diaries” post:

Over the first 30 sols, air temperature has ranged from approximately -103 degrees Fahrenheit (-75 Celsius) at night to roughly 32 degrees Fahrenheit (0 Celsius) in the afternoon. Two factors conspire to cause such a wide daily range (most day-night fluctuations on Earth are about 10 to 30 degrees Fahrenheit). The martian atmosphere is very thin; with fewer molecules in the air to heat up and cool down, there’s more solar power to go around during the day, and less atmospheric warmth at night, so the magnitude of temperature shifts is amplified. There is also very little water vapor; water is particularly good at retaining its heat, and the dryness makes the temperature swings even more pronounced. 

In that way Mars is like an Earthly desert; even after a blisteringly hot day the temperatures can plummet at night, leaving an ill-prepared camper shivering beneath the cold glow of starlight. Except on Mars, where the Sun is only 50% as bright as on Earth and the atmosphere only 1% as dense, the nighttime lows dip to Arctic depths.

“Deserts on Earth have very extreme temperature ranges,” says Mars Science Laboratory Deputy Project Scientist, Ashwin Vasavada. “So if you take a desert on Earth and put it in a very thin atmosphere 50% farther from the Sun, you’d have something like what we’re seeing at Gale Crater.”

And although the afternoon temperatures in Gale may climb slightly above freezing that doesn’t mean liquid water will be found pooling about in any large amounts. Curiosity’s in no danger from flash floods on Mars… not these days, anyway.

With atmospheric pressure just above water’s thermodynamic triple point, and temperatures occasionally hovering around the freezing point, it is likely that local niches are seeing above-zero temperatures, and Vasavada acknowledges, “liquid water could exist here over a tiny range of conditions.” But don’t expect a Culligan water plant in Gale Crater any time soon. “We wouldn’t expect for Curiosity to see liquid water, because it would evaporate or re-freeze too quickly,” explains Vasavada. “With so little water vapor in the atmosphere, any liquid water molecules on the surface would quickly turn to gas.”

So when on Mars, drink your coffee quickly. (And pack a blanket.)

“Gale Crater may look like the dusty, basaltic basins of the American southwest, but one look at the thermometer will send you running for the winter coat.”

– Jeffrey Marlow, Martian Diaries

Read Marlow’s full article here.

Image: Sunset on Mars seen by the MER Spirit from Gusev Crater in 2005 (NASA/JPL-Caltech)

Weekly Space Hangout – Sep. 13, 2012

The Weekly Space Hangout is back from Summer hiatus, with a mountain of space news. This week we tackle:

Host: Fraser Cain

Panel: Jason Major, Dr. Nicole Gugliucci, Dr. Pamela Gay

We record the Weekly Space Hangout every Thursday at 10 am Pacific / 1 pm Eastern. Watch us live on Google+, ask your questions to the gathered space journalists.

Here’s a link to next week’s episode so you can put it in your calendar.

Say Ahhh to Mars

Take a deep breath because this new panorama from Mars enthusiast Stu Atkinson will take it away.

“Anyway, a whole bunch of these came down, like I said, and to my delight they all linked up to form a big, biiiiiiiig panoramic mosaic,” said Stu on his blog “The Gale Gazette.” “And here it is. Obviously you’ll need to click on it to enlarge it… and I’ll warn you, it’s a big image, you can kiss the next few minutes goodbye because you’ll be panning around it for a while…”

Zoom in and you can see actual rocks. Click that little button at the right of the toolbar and Mars will take over your screen.

So far, Curiosity has rolled across a barely dusty plain in Gale Crater. Here’s a look of things to come. In black-and-white image from Curiosity, there appear to be big dunes to cross to get to the foothills of Aeolis Mons, or Mount Sharp.

A black-and-white but still breathtaking view of the dusty terrain between Curiosity’s current location and the foothills of Aeolis Mons, or Mount Sharp. Credit: NASA/JPL/Stu Atkinson

Curiosity has nearly finished robotic arm tests. Once complete, the rover will be able to touch and examine its first Mars rock.

“We’re about to drive some more and try to find the right rock to begin doing contact science with the arm,” said Jennifer Trosper, Curiosity mission manager at NASA’s Jet Propulsion Laboratory in Pasadena, Calif, in a press release.

This image from NASA’s Curiosity rover shows the open inlet where powered rock and soil samples will be funneled down for analysis. It was taken by the Mars Hand Lens Imager (MAHLI) on Curiosity’s 36th Martian day, or sol, of operations on Mars (Sept. 11, 2012). MAHLI was about 8 inches (20 centimeters) away from the mouth of the Chemistry and Mineralogy (CheMin) instrument when it took the picture. The entrance of the funnel is about 1.4 inches (3.5 centimeters) in diameter. The mesh screen is about 2.3 inches (5.9 centimeters) deep. The mesh size is 0.04 inches (1 millimeter). Once the samples have gone down the funnel, CheMin will be shooting X-rays at the samples to identify and quantify the minerals.

Engineers and scientists use images like these to check out Curiosity’s instruments. This image is a composite of eight MAHLI pictures acquired at different focus positions and merged onboard the instrument before transmission to Earth; this is the first time the MAHLI performed this technique since arriving at Curiosity’s field site inside Gale Crater. The image also shows angular and rounded pebbles and sand that were deposited on the rover deck during landing on Aug. 5, 2012 PDT (Aug. 6, 2012 EDT).

Two science instruments, a camera called Mars Hand Lens Imager, or MAHLI, that can take close-up color images and a tool called Alpha Particle X-ray Spectrometer (APXS) that can determine the elemental composition of a rock, also have passed tests. The instruments are mounted on a turret at the end of the robotic arm and can be placed in contact with target rocks. The adjustable focus MAHLI camera produced images this week of objects near and far; of the underbelly of Curiosity, across inlet ports and a penny that serves as a calibration target on the rover.

This close-up image shows tiny grains of Martian sand that settled on the penny that serves as a calibration target on NASA’s Curiosity rover. The larger grain under Abraham Lincoln’s ear is about 0.2 millimeters across. The grains are classified as fine to very fine sand.

The Mars Hand Lens Imagery (MAHLI) on the Curiosity rover taken by the Mast Camera on the 32nd Martian day, or sol, of operations on the surface. Engineers imaged MAHLI to inspect the dust cover and to ensure that the tool’s LED lights are functional. Scientists enhanced the image to show the scene as it would appear under Earth’s lighting conditions. This helps in analyzing the background terrain.

Check out more images from the Mars Science Laboratory teleconference.

Image credit: NASA/JPL-Caltech/MSSS