Asteroid Vs. Comet: What The Heck Is 3200 Phaethon?

A very zoomed-in image of Phaethon from NASA's STEREO spacecraft, showing a comet-like extension. Credit: Jewitt, Li, Agarwal /NASA/STEREO

Sometimes, putting things into categories difficult. Witness how many members of the general public are still unhappy that Pluto was reclassified as a dwarf planet, a decision made by the International Astronomical Union more than seven years ago.

And now we have 3200 Phaethon, an asteroid that is actually behaving like a comet. Scientists found dust that is streaming from this space rock as it gets close to the sun — similarly to how ices melt and form a tail as comets zoom by our closest stellar neighbor.

Phaethon’s orbit puts it in the same originating region as other asteroids (between Mars and Jupiter), but its dust stream is much closer to actions performed by a comet — an object that typically comes from an icy region way beyond Neptune. So far, therefore, the research team is calling Phaethon a “rock comet.” And after first proposing a theory a few years ago, they now have observations as to what may be going on.

Phaethon is not only an asteroid, but also a source of a prominent meteor shower called the Geminids. This shower happens every year around December when the Earth plows into the cloud of debris that Phaethon leaves in its wake. Astronomers have known about the Geminids’ source for a generation, but for decades could not catch the asteroid in the act of shedding its stuff.

That finally came with images of NASA’s twin sun-gazing Solar TErrestrial RElations Observatory (STEREO) spacecraft that were taken between 2009 and 2012. The researchers saw a “comet-like tail” extending from the 3.1-mile (five kilometer) asteroid. “The tail gives incontrovertible evidence that Phaethon ejects dust,” stated David Jewitt, an astronomer at the University of California, Los Angeles who led the research. “That still leaves the question: why?”

Time lapse-photo showing geminids over Pendleton, OR. Credit: Thomas W. Earle
Time lapse-photo showing geminids over Pendleton, OR. Credit: Thomas W. Earle

The answer lies in just how close Phaethon whizzes past the sun. At perihelion, its closest approach to the sun, it only appears eight degrees (16 solar diameters) away from the sun in Earth’s sky. This close distance makes it all but impossible to study the asteroid without special equipment, which is why STEREO came in so handy.

When Phaethon reaches its closest approach of 0.14 Earth-sun distances, surface temperatures rise above an estimated 1,300 degrees Fahrenheit (700 degrees Celsius). It’ s way too hot for ice, as what happens with a comet. In fact, it’s probably hot enough to make the rocks crack and break apart. The researchers publicly hypothesized this was happening at least as far back as 2010, but this finding provided more evidence to support that theory.

“The team believes that thermal fracture and desiccation fracture (formed like mud cracks in a dry lake bed) may be launching small dust particles that are then picked up by sunlight and pushed into the tail,” a statement from the research team read.

“While this is the first time that thermal disintegration has been found to play an important role in the solar system,” they added, “astronomers have already detected unexpected amounts of hot dust around some nearby stars that might have been similarly produced.”

The results were presented at the European Planetary Science Congress on Tuesday. By the way, STEREO also caught Mercury behaving somewhat like a comet in results released in 2010, although that find was related to the planet’s escaping sodium atmosphere.

Read more about the research in the June 26 issue of Astrophysical Letters. A preprint version is also available on Arxiv.

Source: European Planetary Science Congress

A Mercurial Milestone: 1,000 Featured Images from MESSENGER!

The MESSENGER team celebrates 1,000 featured images of the innermost planet!

It’s been nearly two and a half years since the NASA-sponsored MESSENGER mission entered orbit around Mercury — the first spacecraft ever to do so — and today the MESSENGER team celebrated the 1,000th featured image on the mission site with a mosaic of discovery highlights, seen above.

“I thought it sensible to produce a collage for the 1,000th web image because of the sheer volume of images the team has already posted, as no single picture could encompass the enormous breadth of Mercury science covered in these postings,” explained MESSENGER Fellow Paul Byrne, of the Carnegie Institution of Washington. “Some of the images represent aspects of Mercury’s geological characteristics, and others are fun extras, such as the U.S. Postal Service’s Mercury stamp. The ‘1,000’ superimposed on the collage is a reminder of the major milestone the team has reached in posting 1,000 featured images — and even a motivation to post 1,000 more.”

See the very first image MESSENGER obtained from orbit below:

The Mercury Dual Imaging System (MDIS) team has posted a new image to the MESSENGER website approximately once per business day since March 29, 2011, when this first image of Mercury's surface obtained from orbit was made public.
The Mercury Dual Imaging System (MDIS) team has posted a new image to the MESSENGER website approximately once per business day since March 29, 2011, when this first image of Mercury’s surface obtained from orbit was made public.

“During this two-year period, MESSENGER’s daily web image has been a successful mechanism for sharing results from the mission with the public at large,” said Nancy Chabot, MDIS Instrument Scientist at the Johns Hopkins University Applied Physics Laboratory (APL). Chabot has been leading the release of web images since MESSENGER’s first flyby of Mercury in January 2008.

Read more: 5 Mercury Secrets Revealed by MESSENGER

“The first image I released was this one, as MESSENGER approached Mercury for the mission’s first Mercury flyby,” said Chabot. “Mercury was just a small crescent in the image, but it was still very exciting for me. We were obtaining the first spacecraft images of Mercury since Mariner 10 transmitted its final image in 1975, and this was just the beginning of the flood of images that followed.”

One of the first spacecraft images of Mercury since Mariner 10 transmitted its final image in 1975
One of the first spacecraft images of Mercury since Mariner 10 transmitted its final image in 1975

The herculean effort involved in posting a new image every business day was made possible by a small team of scientists in addition to Chabot and Byrne, including APL’s David Blewett, Brett Denevi, Carolyn Ernst, Rachel Klima, Nori Laslo, and Heather Meyer.

“Creating images and captions for the MESSENGER Image Gallery has been fun and interesting,” Blewett said. “Working on a Gallery release gives me a chance take a break from my regular research and look all around Mercury’s surface for an image that the general public might find to be engaging from a scientific, artistic, or humorous perspective (and sometimes all three!).”

Watch: Take a Spin Around Mercury

“The posting of the 1,000th image of Mercury on our web gallery is a wonderful benchmark, but there’s much more to come,” adds MESSENGER Principal Investigator Sean Solomon of Columbia University’s Lamont-Doherty Earth Observatory. “MESSENGER’s altitude at closest approach is steadily decreasing, and in a little more than six months our spacecraft will be able to view Mercury at closer range than ever before with each orbit. Stay tuned!”

Source: MESSENGER news release

Image credits: NASA/Johns Hopkins University Applied Physics Laboratory/Carnegie Institution of Washington

MESSENGER (MErcury Surface, Space ENvironment, GEochemistry, and Ranging) is a NASA-sponsored scientific investigation of the planet Mercury and the first space mission designed to orbit the planet closest to the Sun. The MESSENGER spacecraft launched on August 3, 2004, and entered orbit about Mercury on March 17, 2011 (March 18, 2011 UTC).

The Curvature of the Universe

A while back we introduced you to Zogg the alien from Betelgeuse. Zogg has been busy helping aliens understand bizarre human concepts like “rituals” and “vision”, but he took a side journey to help everyone understand the geometry of the Universe. What does it mean to have a flat, finite Universe? How could you travel in one direction and return to your starting point?

The first episode was fantastic, and now serves as my favorite link to send people when they’re having trouble wrapping their head around the concept of a finite Universe. How the Universe can be expanding, without expanding into anything. Seriously, if you haven’t seen Part 1, stop and go watch it now.

True to his word, Zogg released this second episode, detailing the geometries of the Universe. What do cosmologists mean when they say the Universe is “curved” or “flat”. What could the curvature look like.

Watch it and enjoy. I can’t wait for Part 3.

Astrophotos: The Smiley Face Moon and Companions in the Sky

The crescent Moon and Venus as seen from São Paulo, Brazil on September 8, 2013. Credit and copyright: Ednilson Oliveira

Did you notice a bright “star” close to the Moon last night (September 8, 2013)? People around the world had the treat of seeing the waxing crescent Moon have the planet Venus snuggle up close… or in some places, the Moon actually passed in front of Venus, in what is known as an occultation. Also, on Saturday, the bright star Spica added to the scene.

Thanks to our readers from around the world for sharing their images and videos!

Moon and Venus conjunction over the Eternal Flame of the 9/11 Memorial located here in San Antonio, Texas. Credit and copyright: Adrian New.
Moon and Venus conjunction
over the Eternal Flame of the 9/11 Memorial located here in San Antonio, Texas. Credit and copyright: Adrian New.
The Moon and Venus on September 8, 2013. Credit and copyright: Wes Schulstad.
The Moon and Venus on September 8, 2013. Credit and copyright: Wes Schulstad.
The waxing crescent Moon near Venus on the evening of Sunday, September 8, 2013, as seen from southern Alberta, Canada. Credit and copyright: Alan Dyer/Amazing Sky Photography.
The waxing crescent Moon near Venus on the evening of Sunday, September 8, 2013, as seen from southern Alberta, Canada. Credit and copyright: Alan Dyer/Amazing Sky Photography.

Here’s a video showing the occultation of Venus by the Moon, photographed by Fabian Gonzalez.

The 12% waxing crescenet Moon and Venus on September 8, 2013 as seen from Shot in Kennesaw, Georgia. Credit and copyright: Stephen Rahn.
The 12% waxing crescenet Moon and Venus on September 8, 2013 as seen from Shot in Kennesaw, Georgia. Credit and copyright: Stephen Rahn.
The new Moon with Venus on its right. Taken from the dark sky preserve at the Nutwood Observatory in central Ontario, Cananda. Credit and copyright:  Brian McGaffney.
The new Moon with Venus on its right. Taken from the dark sky preserve at the Nutwood Observatory in central Ontario, Cananda. Credit and copyright: Brian McGaffney.
A close-up of September's waxing crescent Moon with Venus on September 8, 2013. Credit and copyright: Tavi Greiner.
A close-up of September’s waxing crescent Moon with Venus on September 8, 2013. Credit and copyright: Tavi Greiner.
A calm and peaceful moment on a beautiful beach, with a planetary alignment between planets, Saturn (in the top left corner), Venus and Spica star (in the center image), and the crescent Moon above the horizon, as seen on September 7, 2013. Credit and copyright: Miguel Claro.
A calm and peaceful moment on a beautiful beach, with a planetary alignment between planets, Saturn (in the top left corner), Venus and Spica star (in the center image), and the crescent Moon above the horizon, as seen on September 7, 2013. Credit and copyright: Miguel Claro.
Conjunction of Saturn, Venus, and the 2.5 day old Moon on Saturday, September 7, 2013. Spica sneaks into the photo beneath Venus. Taken from Salem, Missouri. Credit and copyright: Joe Shuster, Lake County Astronomical Society.
Conjunction of Saturn, Venus, and the 2.5 day old Moon on Saturday, September 7, 2013. Spica sneaks into the photo beneath Venus. Taken from Salem, Missouri. Credit and copyright: Joe Shuster, Lake County Astronomical Society.

Video of the occultation of Spica by the Moon on September 7, 2013 from Israel, taken by Gadi Eidelheit. Read more about at his website, VenusTransit.

Beautiful Moon & Venus as seen from Mumbai on 8th September 2013. Credit and copyright: Henna Khan.
Beautiful Moon & Venus as seen from Mumbai on 8th September 2013. Credit and copyright: Henna Khan.
The crescent Moon and Venus as seen from central Illinois. Credit: Nancy Atkinson.
The crescent Moon and Venus as seen from central Illinois. Credit: Nancy Atkinson.

Want to get your astrophoto featured on Universe Today? Join our Flickr group or send us your images by email (this means you’re giving us permission to post them). Please explain what’s in the picture, when you took it, the equipment you used, etc.

How Did the Moon Form?

How Did the Moon Form?

The night sky just wouldn’t feel right without the Moon. Where did our our friendly, familiar satellite come from?

Scientists and philosophers have been wondering about this for centuries.

Once Copernicus gave us our current model of the Solar System, with the Earth as just another planet and the Sun at the centre of the Solar System, this gave us a new way of looking at the Moon.

The first modern idea about the formation of the Moon was called the fission theory, and it came from George Darwin, the son of Charles Darwin.

He reasoned the Moon must have broken away from our planet, when the Earth was still a rapidly rotating ball of molten rock.

His theory lasted from the 1800s right up until the space age.

Another idea is that the Earth captured the Moon after its formation.

Usually, these kinds of gravitational interactions don’t go well.

Models predict that either the Moon would collide with the Earth, or get flung out into a different orbit.

It’s possible that the early Earth’s atmosphere was much larger and thicker, and acted like a brake, modifying the Moon’s trajectory into a stable orbit around the Earth.

Or the Earth and Moon formed together in their current positions as a binary object, with Earth taking most of the mass and the Moon forming from the leftovers.

Formation of the Moon.
Artist’s impression of the impact that caused the formation of the Moon. Credit: NASA/GSFC

The most widely accepted theory is that the Moon was formed when a Mars-sized object slammed into the Earth, billions of years ago.

This collision turned the newly formed Earth into a molten ball of rock again, and ejected material into orbit.

Most of the material crashed back into the Earth, but some collected together from mutual gravity to form the Moon we have today.

This theory was first conceived in 1946 by Reginald Aldworth Daly from Harvard University. He challenged Darwin’s theory, calculating that just a piece of Earth breaking off couldn’t actually allow the Moon to get to its current position. He suggested an impact could do the trick though.

This idea wasn’t given much thought until a 1974 paper by Dr. William K. Hartmann and Dr. Donald R. Davis was published in the Journal Icarus. They suggested that the early Solar System was still filled with leftover moon-sized objects which were colliding with the planets.

The impact theory explained many of the challenges about the formation of the Moon. For example, one question was: why do the Earth and Moon have very different-sized cores.

After an impact from a Mars-sized planet, the lighter outer layers of the Earth would have been ejected into orbit and coalesced into the Moon, while the denser elements collected back together into the Earth.

It also helps explain how the Moon is on an inclined plane to the Earth. If the Earth and Moon formed together, they’d be perfectly lined up with the Sun.

But an impactor could come from any direction and carve out a moon. One surprising idea is that the impact actually created two moons for the Earth.

The two sides of the Moon. Image credit: LRO
The two sides of the Moon. Image credit: LRO

The second, smaller object would have been unstable and eventually slammed into the far side of the Moon, explaining why the surface on the far side of the Moon is so different from the near side.

Even though we don’t know for sure how the Moon formed, the giant impact theory holds the most promise, and you can bet that scientists are continuing to look for clues to tell us more.

Huge Asteroid 324 Bamberga Makes a Return Visit to Earth’s Neighborhood on Friday the 13th

Starry Night

This week offers a fine chance to catch sight of a unique asteroid.

324 Bamberga reaches opposition this week in the constellation Pisces on (friggatriskaidekaphobics take note) Friday the 13th at 7AM EDT/11:00 Universal Time.

About 230 kilometres in size, 324 Bamberga reaches 0.81 astronomical units from the Earth this week. No other asteroid so large gets so close.

Discovered on February 25th, 1892 by Johann Palisa, 324 Bamberga only reaches a favorable opposition once every 22 years.

Shining at magnitude +8.1, 324 Bamberga is also one of the highest numbered asteroids visible with binoculars. Earth-crossing asteroids 433 Eros, which made a close pass last year, and 4179 Toutatis are two of the very few asteroids that possess a larger number designations that can regularly reach +10th magnitude.

Stellarium
Look east in mid-September about an hour after sunset. The inset covers the region that 324 Bamberga is currently traversing in the introductory graphic. (Created by the author using Stellarium).

So, why did it take so long for 324 Bamberga to be uncovered? One factor is its high orbital eccentricity of 0.34. This means that most of the oppositions of the asteroid aren’t favorable. 324 Bamberga orbits the Sun once every 4.395 years and only comes around to an opposition that lands near perihelion once every 22 Earth years. Perihelion this year occurs only 45 days after opposition on October 27th.

The resonance between 324 Bamberga and Earth is nearly five Earth orbits for every one circuit of the Sun for the asteroid and is offset by only 9 days, meaning that the 22 year window to see the asteroid will actually become less favorable in centuries to come. 324 Bamberga made its last favorable appearance on September 15th, 1991 and won’t surpass +10th magnitude again until September 2035.

Orbit
The orbit of 324 Bamberga. (Created using the JPL Small-Body Database Browser).

Observing asteroids requires patience and the ability to pick out a slowly moving object amidst the starry background. 324 Bamberga spends September west of the circlet of Pisces, drifting two degrees a week, or just over 17’ a day, to cross over into the constellation Pegasus in early October.

324 Bamberga will be moving too slow to pick up any motion in real time, but you can spy it by either sketching the field on successive nights or photographing the region and noting if the asteroid can be seen changing position against the background of fixed stars. Start hunting for 324 Bamberga tonight, as the Full Harvest Moon will be visiting Pisces later next week on the 19th.

Starry Night
A closeup of the path of 324 Bamberga for the week of September 10-17th. Decimal points for comparison stars are omitted. (Created by the author using Starry Night Education software).

324 Bamberga is also unique as the brightest C-type asteroid that is ever visible from Earth. The runner up in this category is asteroid 10 Hygiea, which can shine a full magnitude fainter at opposition.

It’s also remarkable that Palisa actually managed to discover 324 Bamberga while it was at 12th magnitude! Palisa was one of the most prolific visual hunters of asteroids ever, discovering 121 asteroids from 1874 to 1923. He accomplished this feat first with the use of a 6” refractor while based at the Austrian Naval Observatory in Pola (now the Croatian town of Pula) and later using the Vienna observatory’s 27” inch refractor.

The Great Refractor of the University of Vienna used to discover asteroid 324 Bamberga. (Credit: Prof. Franz Kerschbaum, Wikimedia Commons image under an Attribution-Share Alike 3.0 Unported license).
The Great Refractor of the University of Vienna used to discover asteroid 324 Bamberga. (Credit: Prof. Franz Kerschbaum, Wikimedia Commons image under an Attribution-Share Alike 3.0 Unported license).

324 Bamberga itself takes its name from the town of Bamberg in Bavaria, the site of the 1896 meeting of the Astronomische Gesellschraft.

An occultation of a star by 324 Bamberga on December 8th, 1987 allowed astronomers to pin down its approximate size. Searches have also been carried out during occultations for any possible moons of this asteroid, though thus far, none have been discovered.

It’s interesting to note that 324 Bamberga will also actually occult the star 2UCAC 3361042 tonight in the early morning hours at 8:59-9:10 UT for observers spanning a path from Florida to Oregon. The magnitude drop will, however, be very slight, as the star is actually 3 full magnitudes fainter than the asteroid itself. Dave Gee caught a fine occultation of a 7.4 magnitude star in the constellation Corvus by 324 Bamberga in 2007.

There’s also something special about this time of year and the region that 324 Bamberga is crossing. More visual discoveries of asteroids have been historically made in the month of September than any other calendar month. In fact, 344 of the first 1,940 numbered asteroids were found in September, more than twice the average. Palisa’s own track record bears this out, though 324 Bamberga was discovered in February.

One of the primary reasons for a September surge in discoveries is viewing direction. Astronomers of yore typically hunted for asteroids approaching opposition in the anti-sunward direction, which in September lies in the relatively star poor fields of Pisces.  In December and June —the months with the lowest numbers of visual discoveries at only 75 and 65 for the “first 1,940” respectively —the anti-sunward point lies in the star-rich regions of Sagittarius and Gemini. And by the way, the meteor that exploded over the city of Chelyabinsk on February 15th was sneaking up on the Earth from the sunward direction.

Be sure to catch a glimpse of this unique asteroid through either binoculars or a telescope over the coming weeks. The next chance to observe 324 Bamberga won’t roll around again until September 2035… it’ll be great to compare notes of the 2013 apparition on that far off date!

Researchers Say ExoMars Could Detect Bacteria on Mars — Past or Present

An artist's conception of the European Space Agency's ExoMars rover, scheduled to launch in 2018. Credit: ESA

Signs of life on the Martian surface would still be visible even after bacteria were zapped with a potentially fatal dose of radiation, according to new research — if life ever existed there, of course.

Using “model” bacteria expected to resemble what microbes could look like on the Red Planet, the research team used a Raman spectrometer — an instrument type that the ExoMars rover will carry in 2018 — to see how the signal from the bacteria change as they get exposed to more and more radiation.

The bottom line is the study authors believe the European Space Agency rover’s instrument would be capable of seeing bacteria on Mars — from the past or the present — if the bacteria were there in the first place.

Readings from the NASA Mars Curiosity rover recently found that humans on the surface of Mars would have a higher risk of cancer due to the increased radiation level on the surface. Mars does not have a global magnetic field to deflect radiation from solar flares, nor a thick atmosphere to shelter the surface.

The new study still found the signature of life in these model microbes at 15,000 Gray of radiation, which is thousands of times higher than the radiation dose that would kill a human. At 10 times more, or 150,000 Gray, the signature is erased.

ExoMars 2016 Mission to the Red Planet.  It consists of two spacecraft -  the Trace Gas Orbiter (TGO) and the Entry, Descent and Landing Demonstrator Module (EDM) which will land.  Credit: ESA
ExoMars 2016 Mission to the Red Planet. It consists of two spacecraft – the Trace Gas Orbiter (TGO) and the Entry, Descent and Landing Demonstrator Module (EDM) which will land. Credit: ESA

“What we’ve been able to show is how the tell-tale signature of life is erased as the energetic radiation smashes up the cells’ molecules,” stated Lewis Dartnell, an astrobiology researcher at the University of Leicester who led the study.

Specifically, the spectrometer detected carotenoid molecules, which can be used to protect a microorganism against difficult conditions in the environment. The research teams stated that these cartenoids have been proposed as “good biosignatures of life” on Mars.

This image shows a river that sprang from a past glacier from an unnamed crater in Mars’ middle latitudes. Credit: NASA/JPL/MSSS
This image shows a river that sprang from a past glacier from an unnamed crater in Mars’ middle latitudes. Credit: NASA/JPL/MSSS

“In this study we’ve used a bacterium with unrivaled resistance to radiation as a model for the type of bacteria we might find signs of on Mars. What we want to explore now is how other signs of life might be distorted or degraded by irradiation,” Dartnell added. “This is crucial work for understanding what signs to look for to detect remnants of ancient life on Mars that has been exposed to the bombardment of cosmic radiation for very long periods of time.”

No one is sure if Mars has life right now on its surface, or ever did in the past. The Mars Curiosity rover is equipped to look at past environmental conditions on the planet, but is not designed to look for life itself.

Many scientists believe flowing water existed on the planet, though, based on rock findings from three NASA rovers and the appearance of channels, streams and perhaps even oceans as spotted by orbiting satellites. Some scientists say the atmosphere of Mars was much thicker in the past, but it then dissipated for reasons that are still being investigated. Water, however, does not necessarily point to life.

The research was presented at the European Planetary Science Congress on Monday. Universe Today has reached out to Dartnell to see if the work is peer-reviewed. His website lists several published research articles he wrote on similar topics.

Edit: Dartnell says that research was published in Analytical and Bioanalytical Chemistry in 2012, and you can read the paper here.

Source: European Planetary Science Congress

New Podcasts: Precession and Acceleration

Illustration explaining the precession of Earth's axis. Credit: Cornell University.

We’ve got two new podcasts from the Astronomy Cast team of Dr. Pamela Gay and Fraser Cain: Ep. 313: Precession, and Episode 314: Acceleration.

313: Precession

The Earth is wobbling on its axis like a top. You can’t feel it, but it’s happening. And over long periods of time, these wobbles shift our calendars around, move the stars from where they’re supposed to be, and maybe even mess with our climate. Thank you very much Precession.

Click here to download the episode.

Or subscribe to: astronomycast.com/podcast.xml with your podcatching software.

“Precession” on the Astronomy Cast website, with shownotes and transcript.

314: Acceleration

Put that pedal to the metal and accelerate! It’s not just velocity, but a change in velocity. Let’s take a look at acceleration, how you measure it, and how Einstein changed our understanding of this exciting activity.

Click here to download the episode.

Or subscribe to: astronomycast.com/podcast.xml with your podcatching software.

“Acceleration” on the Astronomy Cast website, with shownotes and transcript.

And the podcast is also available as a video, as Fraser and Pamela now record Astronomy Cast as part of a Google+ Hangout (usually recorded every Monday at 3 pm Eastern Time):

Carnival of Space #318

Carnival of Space. Image by Jason Major.
Carnival of Space. Image by Jason Major.

The tent is up! This week’s Carnival of Space is hosted by Pamela Hoffman at the Everyday Spacer blog.

Click here to read Carnival of Space #318.

And if you’re interested in looking back, here’s an archive to all the past Carnivals of Space. If you’ve got a space-related blog, you should really join the carnival. Just email an entry to [email protected], and the next host will link to it. It will help get awareness out there about your writing, help you meet others in the space community – and community is what blogging is all about. And if you really want to help out, sign up to be a host. Send an email to the above address.

LADEE Launch: Images and Videos from Our Readers

LADEE and the Milky Way: Launch of the LADEE Rocket from Wallops Flight Facility in Virginia. Credit and copyright: Jeff Berkes/Jeff Berkes Photography.

NASA’s newest mission to the Moon, LADEE, launched from Wallops Island in Virginia, lighting up the sky along the US East Coast, allowing millions to see the Minotaur V rocket’s brilliance with their own eyes. Some of our readers captured the views as they cheered on the Lunar Atmosphere and Dust Environment Explorer as it sailed safely to orbit.

See more images and video below, but first a quick update on how LADEE is doing: there was concern shortly after launch as during technical checkouts the LADEE spacecraft commanded itself to shut down the reaction wheels used to position and stabilize the spacecraft. According to the LADEE mission operations team at NASA’s Ames Research Center in Moffett Field, Calif., this was determined to be the result of fault protection limits put in place prior to launch to safeguard the reaction wheels. The limits that caused the powering off of the wheels soon after activation were disabled, and the reaction wheels were successfully brought back online.

“Our engineers will determine the appropriate means of managing the reaction wheel fault protection program. Answers will be developed over time and will not hold up checkout activities,” said Butler Hine, LADEE project manager.

Everything else is checking out fine so far, so enjoy these views:

This video was taken by Richard Drumm, part of the NASA Social LADEE launch event, so he and the group were about 2 miles from the launchpad:

LADEE launch over World War II bunker from Cape May, New Jersey. This is a 7-image composite. Credit and copyright: Jack Fusco.
LADEE launch over World War II bunker from Cape May, New Jersey. This is a 7-image composite. Credit and copyright: Jack Fusco.
LADEE first stage separation, as seen from Fenwick Island, Delaware, about 50 miles away from Wallops Island Launch Complex. ‘I was completely floored to see how bright and dramatic the launch was from 50 miles away!’ said the photographer.  Credit and copyright: Marion Haligowski.
LADEE first stage separation, as seen from Fenwick Island, Delaware, about 50 miles away from Wallops Island Launch Complex. ‘I was completely floored to see how bright and dramatic the launch was from 50 miles away!’ said the photographer. Credit and copyright: Marion Haligowski.
LADEE launch as seen from Chesapeake Bay, Maryland. Credit and copyright: Dan @awkwardrobots.
LADEE launch as seen from Chesapeake Bay, Maryland. Credit and copyright: Dan @awkwardrobots.
LADEE spacecraft launching to the moon, as see on the roadside by Mount Olive, New Jersey. Credit and copyright: Scott MacNeill.
LADEE spacecraft launching to the moon, as see on the roadside by Mount Olive, New Jersey. Credit and copyright: Scott MacNeill.

This timelapse of the launch is from Chris Moran:

Rocket to the Moon from Wallops Island, VA, as seen from Gaithersburg, Maryland. Credit and copyright: Zach Stern.
Rocket to the Moon from Wallops Island, VA, as seen from Gaithersburg, Maryland. Credit and copyright: Zach Stern.
LADEE launch as seen from Louisa, Virginia. Credit and copyright: David Murr.
LADEE launch as seen from Louisa, Virginia. Credit and copyright: David Murr.

Closeup view of launch via markyj on Instagram:

LADEE launch video , as seen from Bristol, Pennsylvania, courtesy of Ron Roberts:

If you missed the launch, here’s the “official” NASA video:

Photograph of LADEE's launch aboard a Minotaur V on Sept. 6, 2013. Image credit: NASA Wallops/Chris Perry
Photograph of LADEE’s launch aboard a Minotaur V on Sept. 6, 2013. Image credit: NASA Wallops/Chris Perry

Read more about the launch in our post-launch article here.

You can see more great images in NASA’s Flickr pool for the LADEE launch here.

Want to get your astrophoto featured on Universe Today? Join our Flickr group or send us your images by email (this means you’re giving us permission to post them). Please explain what’s in the picture, when you took it, the equipment you used, etc.