Posted on by Fraser Cain

Phases of the Moon App for iPhone and Android

Phases of the Moon

Want to know the current phase of the Moon at all times? Perhaps you need to do some stargazing or astrophotography, or you really need to debunk some nonsense theories about full Moon madness… then check out our handy mobile app – available on iPhone or Android.

We’ve just done a major update to the app, extending the support to iPhone, and completely rebuilding the Android edition to be smoother and more stable on the wide range of devices.

This latest version of the app is running a full model of the Moon’s orbit and phases, displaying a scientifically accurate simulation of the Moon’s exact phase, size, distance and amount of illumination.

You can swipe the Moon back and forth to see how the Moon’s distance and illumination change over time, or jump to the next full Moon, or see the Moon’s phase at any point in the future. The Android version is especially smooth, and kind of hypnotic as you change the phase.

Here are the features:

  • Beautiful images of the Moon were made by NASA from data collected by the Lunar Reconnaissance Orbiter.
  • Full internal simulation of the Moon’s position and phase. See the current date, phase name, distance and illumination percentage.
  • Swipe left and right to move forward or backwards in time to see what the Moon will look like in the future or past.
  • Click a button to take you to the next full Moon.
  • You can also access a calendar that shows you the phase of the Moon for any date in the future.

You can purchase a copy for $.99 on either Google Play or the iTunes Store, and help support Universe Today.

Posted on by Ken Kremer

Bradbury Landing on Mars Chronicled in 3-D

Image Caption:3-D View from Bradbury Landing- from Navcam cameras.. See the full panorama below. Credit: NASA/JPL-Caltech

Now you can enjoy the thrills of Curiosity’s touchdown site at Bradbury Landing as if you there – chronicled in stunning 3 D !! Check out this glorious 360-degree stereo panorama just released by JPL.

The pano was assembled by JPL from individual right and left eye images snapped by the rover’s mast mounted navigation cameras on sols 2 and 12 of the mission – Aug. 8 and 18, 2012.

So whip out your handy-dandy, red-blue (cyan) anaglyph glasses and start exploring the magnificent home of NASA’s newest Mars rover inside Gale Crater.

Image Caption: Complete 360 degree Panoramic 3-D View from Bradbury Landing by NASA’s Curiosity Mars rover. Credit: NASA/JPL-Caltech

The mosaic shows Curiosity’s eventual mountain destination – Mount Sharp – to its visible peak at the right, as well as the eroded rim of Gale Crater and a rover partial self portrait. Curiosity cannot see the actual summit from the floor of Gale Crater at Bradbury landing.

In about a year, the 1 ton behemoth will begin climbing up the side of Mount Sharp – a layered mountain some 3.4 miles (5.5 kilometers) high that contains deposits of hydrated minerals.

Curiosity will investigate and sample soils and rocks with her powerful suite of 10 state of the art science instruments.

See below JPL’s individual right and left eye pano’s from which the 3-D mosaic was created.

Image Caption: Complete 360 degree Panoramic left eye View from Bradbury Landing by NASA’s Curiosity Mars rover – from Navcam cameras. Credit: NASA/JPL-Caltech

Image Caption: Complete 360 degree Panoramic right eye View from Bradbury Landing by NASA’s Curiosity Mars rover- from Navcam cameras. Credit: NASA/JPL-Caltech

The rover has now departed Bradbury landing and begun her long Martian Trek on an easterly path to Glenelg – her first stop designated for a lengthy science investigation.

Glenelg lies at the intersection of three distinct types of geologic terrain.

So far Curiosity has driven 358 feet (109 meters) and is in excellent health.

Ken Kremer

Posted on by Nancy Atkinson

Timelapse from Thierry Legault: One Night on the Pic-du-Midi Observatory

Here’s a really unique video from one of our favorite astrophotographers, Thierry Legault. Thierry sent us a full HD time-lapse of the full sky during one full night (August 7-8) over the Pic-du-Midi Observatory in the French Pyrenees. At 2,877 meters in altitude, this is the highest observatory in France. The video is taken with a fisheye lens, and so the view creates what appears to be a tiny little world (Planet Pic-du-Midi, perhaps?). Visible are Saturn and Mars, then the Moon, Jupiter and Venus. And a passage of the ISS and an Iridium flare complete the planet-like scene. “The rotation of the sky around Polaris is easily noticeable,” Thierry wrote to Universe Today, “as well as the movement of circumpolar constellations such as Big Dipper. The main dome is the 1-meter telescope, I was there with three friends to learn how to use this telescope for future planetary missions. This telescope was used in the 60’s to prepare the Apollo lunar missions because of the quality of its optics and the very good seeing of this site.”

Continue reading “Timelapse from Thierry Legault: One Night on the Pic-du-Midi Observatory”

Posted on by Nancy Atkinson

Watch This: Solar Prominence Achieves Liftoff

And we have liftoff! The Solar Dynamics Observatory has been providing images and video of some beautiful prominences and filaments over the past few days, and today the spacecraft captured a large prominence lifting off over the North Western limb of the Sun. A huge ball of plasma explodes from the surface and blooms into an arc loop that achieves enough energy to escape the Sun’s gravity.

The SDO team explains what the video shows:

Continue reading “Watch This: Solar Prominence Achieves Liftoff”

Posted on by Nancy Atkinson

Students: Asteroid 1999 RQ36 Needs a New Name!

NASA and the Planetary Society are giving students worldwide the opportunity to name an asteroid. And it’s not just any asteroid; an upcoming NASA mission will return samples of this asteroid to Earth. The Origins-Spectral Interpretation-Resource Identification-Security-Regolith Explorer (OSIRIS-REx) will be heading to an asteroid, currently named (101955) 1999 RQ36. The poor asteroid just needs a name that is a little more exciting and user-friendly – something that is easy to remember!

Scheduled to launch in 2016, the mission could hold clues to the origin of the solar system and organic molecules that may have seeded life on Earth. NASA also is planning a crewed mission to an asteroid by 2025. A closer scientific study of asteroids will provide context and help inform this mission.

“Because the samples returned by the mission will be available for study for future generations, it is possible the person who names the asteroid will grow up to study the regolith we return to Earth,” said Jason Dworkin, OSIRIS-REx project scientist at NASA’s Goddard Space Flight Center in Greenbelt, Md.

The competition is open to students under age 18 from anywhere in the world. Each contestant can submit one name, up to 16 characters long. Entries must include a short explanation and rationale for the name. Submissions must be made by an adult on behalf of the student. The contest deadline is Sunday, Dec. 2, 2012.

See here for contest rules and instructions.

Simulated asteroid image – topography overlaid on radar imagery of 1999 RQ36. Credit: NASA/GSFC/UA

The contest is also sponsored by the Massachusetts Institute of Technology’s (MIT) Lincoln Laboratory in Lexington; and the University of Arizona in Tucson.

A panel will review proposed asteroid names. First prize will be awarded to the student who recommends a name that is approved by the International Astronomical Union Committee for Small-Body Nomenclature.

“Our mission will be focused on this asteroid for more than a decade,” said Dante Lauretta, principal investigator for the mission at the University of Arizona. “We look forward to having a name that is easier to say than (101955) 1999 RQ36.”

The asteroid was discovered in 1999 by the Lincoln Near Earth Asteroid Research (LINEAR) survey at MIT’s Lincoln Laboratory. LINEAR is part of NASA’s Near Earth Observation Program, Washington, which detects and catalogs near-Earth asteroids, and comets. The asteroid has an average diameter of approximately 500 meters (1,640 feet).

“We are excited to have discovered the minor planet that will be visited by the OSIRIS-REx mission and to be able to engage students around the world to suggest a name for 1999 RQ36,” said Grant Stokes, head of the Aerospace Division at MIT Lincoln Laboratory and principal investigator for the LINEAR program.

The asteroid received its designation of (101955) 1999 RQ36 from the Minor Planet Center, operated by the Smithsonian Astrophysical Observatory in Cambridge, Mass. The center assigns an initial alphanumeric designation to any newly discovered asteroid that once certain criteria are met to determine its orbit.

“Asteroids are just cool and 1999 RQ36 deserves a cool name!” said Bill Nye, chief executive officer for The Planetary Society. “Engaging kids around the world in a naming contest will get them tuned in to asteroids and asteroid science.”

Click here for more info about the OSIRIS-Rex mission

Posted on by Nancy Atkinson

Win a Hubble Photograph, Now Through September 16

We all hate to see the summer end (coming soon in the northern hemisphere) but before the September equinox arrives, the HubbleSite team is making the most of the last few days of summer by giving away copies of a few iconic images taken by the venerable Hubble Space Telescope. The End-of-Summer Hubble Picture Giveaway is a random drawing accessible via HubbleSite’s Facebook page. Three winners per day, selected randomly from Sept. 4-16 will receive one 16×20 print of one of three images: Mystic Mountain (as seen below), The Helix Nebula, or Barred Spiral Galaxy NGC 1300.

HubbleSite runs these drawings periodically on its Facebook page, but for readers of Universe Today, they are we’re offering an extra chance to win for users who enter a promo code in the appropriate field!

The code for Universe Today readers is UNIVTDAY.

So check out HubbleSite’s Facebook page, and also check out the HubbleSite website, chock full of all the images taken by HST.

So, enter every day — and don’t forget you can enter twice a day by using the special code for UT readers.

Thanks to the HubbleSite Facebook team!

Hubble’s ‘Mystic Mountain’ shows a mountain of dust and gas rising in the Carina Nebula. The top of a three-light-year tall pillar of cool hydrogen is being worn away by the radiation of nearby stars, while stars within the pillar unleash jets of gas that stream from the peaks. Credit: NASA, ESA, and M. Livio and the Hubble 20th Anniversary Team (STScI)

Posted on by Fraser Cain

Remember: You Can Always Remove the Ads from Universe Today

I’ve had a few people complain to me about inappropriate and obnoxious ads on Universe Today, so I just wanted to remind everyone that’s it’s quick and easy to remove all the advertising on Universe Today – forever. For a one-time donation of any amount, no matter how small, I’ll switch you over to a member account where you don’t see any ads on the website, forever.

Click here to learn more about becoming a Member of Universe Today

For all of you who have already donated, thank you very much. Your donations have demonstrated how important space news is to you, and how much you appreciate all things we’ve been doing to keep you informed about what’s going on… out there.

I’m really happy with this compromise. I know that there are lots of services that want to ding you a couple of bucks a month, and it starts to wear you down after a while, so I really like this idea of a one-time donation.

I’d also love to explore some further ideas on how we can give even more value to the people who decide to become members, so you’ve got some ideas, I’d love to hear them. Super secret member hangouts, giveaways? I’m open to any cool ideas.

The content on Universe Today will always remain free and accessible to all, however.

So, if you want to remove the ads, and show your support for Universe Today, click here.

Thanks for your support!

Fraser Cain
Publisher, Universe Today

Posted on by Elizabeth Howell

Life from Mars could have ‘polluted’ Earth: Krauss

Unless you’ve been living under a rock — Earth or Martian — in the past month, surely you have heard about the Curiosity rover’s landing and early adventures on Mars.

The prospects for what the rover could find has many in the space community very excited, even though Curiosity is supposed to look for habitable environments, not life itself.

However, a couple of weeks ago, noted theoretical physicist Lawrence Krauss said he wouldn’t be surprised if we do find evidence of life on Mars.

In an interview with CNN, Krauss said it’s possible Martian life could have “polluted” Earth early in our planet’s history, giving rise to life as we know it today.

The big surprise (in finding life) would be if it weren’t our cousins. Because what we’ve learned is that material goes back and forth between the planets all the time. We have discovered Martian meteorites in Antarctica, for example, and it goes the other way around, and microbes certainly (can) survive the the eight-month voyage in a rock.

Though Krauss did not specify which meteorites in Antarctica he was referring to, he is most likely talking about ALH84001, which was found in 1984.

The meteorite shot to international prominence in 1996 when scientists, led by NASA’s David McKay, published an article in the journal Science saying there was evidence the meteorite showed “primitive bacterial life” from Mars. In particular, they used a high-power electron microscope and found formations that they said are consistent with those caused by bacterial life.

The team’s proclamation met with scientific skepticism. The Lunar and Planetary Institute’s Allan Treiman said even if it did show evidence of life, the rocks could have been contaminated by Antarctic life or by handling of the meteorite after it was found.

John Bradley, an adjunct professor at the Georgia Institute of Technology, took his skepticism a step further: “Unfortunately, there are many signatures in the fossil record here on Earth, and probably on Mars, that look very similar to bacterial signatures. But they are not unique to bacterial processes,” he said in an undated NASA page (most likely from 2001, since it references a meeting from that time) that was reportedly based on a SPACE.com story.

NASA revisited the sample in 2009 with more advanced equipment and argued that life was the most plausible explanation for the formations. In a paper published in Geochimica et Cosmochimica Acta, the authors rejected the alternate hypotheses of shock or heating affecting the meteorite based on their experiments.

That said, the 1996 announcement is still a long way from confirmation. Krauss’ interview is below. What do you think of his views of Martian life?

Lead image courtesy of NASA.

Elizabeth Howell (M.Sc. Space Studies ’12) is a contributing editor for SpaceRef and award-winning space freelance journalist living in Ottawa, Canada. Her work has appeared in publications such as SPACE.com, Air & Space Smithsonian, Physics Today, the Globe and Mail, the Canadian Broadcasting Corp.,  CTV and the Ottawa Business Journal.

Posted on by Tammy Plotner

Weekly SkyWatcher’s Forecast: September 3-9, 2012

Greetings, fellow SkyWatchers! With the change in seasons becoming quickly apparent, it’s time to put some early hours dark skies to good use and enjoy some favorite nebulae. If you’ve enjoyed the Mars-mania, then you’ll also enjoy the return of Mars in the pre-dawn hours. Speaking of early mornings, be sure to watch as the Moon and Jupiter head for a splendid conjunction this coming Saturday. When you’re ready, grab your binoculars and set up your telescopes… It’s time to dance!

Monday, September 3 – Tonight it’s time for us to head directly between the two lower stars in the constellations of Lyra and grab the “Ring”.

First discovered by French astronomer, Antoine Darquier in 1779, the “Ring” was cataloged later that year by Charles Messier as M57 (Right Ascension: 18 : 53.6 – Declination: +33 : 02). In binoculars the “Ring” will appear as slightly larger than a star, yet it cannot be focused to a sharp point. To a modest telescope at even low power, the M57 turns into a glowing donut against a wonderfully stellar backdrop. The average accepted distance to this unusual structure is believed to be around 1,400 light years and how you see the “Ring” on any given night is highly attributable to conditions. As aperture and power increase, so do details and it is not impossible to see braiding in the nebula structure with scopes as small as eight inches on a fine night, or to pick up the star caught on the edge in even smaller apertures.

Like all planetary nebula, seeing the central star is considered the ultimate of viewing. The central itself is a peculiar bluish dwarf which gives off a continuous spectrum and might very well be a variable. At times, this shy, near 15th magnitude star can be seen with ease with a 12.5? telescope, yet be elusive to 31? in aperture weeks later. No matter what details you may see, reach for the “Ring” tonight. You’ll be glad you did.

Tuesday, September 4 – Of course, studying some of the summer’s finest means that we’d be very remiss if we didn’t look at another cosmic curiosity – “The Blinking Planetary”.

Located a couple of degrees east of visible star Theta Cygnii, and in the same lower power field as 16 Cygnii, the NGC 6826 (Right Ascension: 19 : 44.8 – Declination: +50 : 31) is often referred to as the “Blinking Planetary” nebula. Viewable in even small telescopes at mid to high power, you’ll learn very quickly how it came about its name. When you look directly at it, you can only see the central 9th magnitude star. Now, look away. Focus your attention on visual double 16 Cygnii. See that? When you avert, the nebula itself is visible. This is actually a trick of the eye. The central portion of our vision is more sensitive to detail and will only see the central star. At the edge of our vision, we are more likely to see dim light, and the planetary nebula appears. Located around 2,000 light years from our solar system, it doesn’t matter if the “Blinking Planetary” is a trick of the eye or not… Because it’s cool!

Wednesday, September 5 – If you’re up before dawn, maybe you’ve noticed the return of Mars? It’s been on the move and this universal date marks its official change in position from the constellation of Virgo into the constellation of Libra.

Don’t put away your binoculars tonight just because you think this next study is beyond you… Just lift your sights three degrees higher than the “Omega” and tonight we’ll return again to fly with the “Eagle” – M16 (Right Ascension: 18 : 18.8 – Declination: -13 : 47)

Small binoculars will have no trouble distinguishing the cluster of stars discovered by de Cheseaux in 1746, but larger binoculars and small telescopes from a dark sky site will also see a faint nebulosity to the region that was reported by Messier in 1764. This “faint light” will remind you highly of the reflection that is seen within the Pleiades, or “Rosette” nebula. While the most outstanding views of the “Eagle” nebula are in photographs, larger telescopes will have no problem picking out a vague cloud of nebula, encased stars and an unusual dark obscuration in the center which has always reminded this author as a “Klingon Bird of Prey”. While all of this is very grand, what’s really interesting is the little notch on the northeast edge of the nebula. This is easily seen under good conditions with scopes as small as 8? and is undeniable in larger aperture. This tiny “notch” rocketed to worldwide fame when viewed through the eyes of the Hubble. It’s name? “The Pillars of Creation”.

Thursday, September 6 – Today celebrates the founding of the Astronomical and Astrophysical Society of America. Started in 1899, it is now known as the American Astronomical Society.

Tonight let’s relax a little bit and have a look at a superb open cluster that stays superb no matter if you use small binoculars or a big telescope. Of whom do I speak so highly? M34 (Right Ascension: 2 : 42.0 – Declination: +42 : 47)…

Easily found on Perseus west border by scanning between Beta Perseii (Algol) and Gamma Andromeda (Almach), the M34 was discovered by Messier in 1764. Containing around 80 members, the central knot of stars is what truly makes it beautiful. At around 1400 light years away, this stellar collection is believed to be around 10 million years old. While binocular users are going to be very happy with this object, scopists are going to appreciate the fact that there is a double right in the heart of M34. This fixed pair is around magnitude 8 and separated by about 20?.

Friday, September 7 – Tonight we are going to take a journey once again toward an area which has intrigued this author since I first laid eyes on it with a telescope. Some think it difficult to find, but there is a very simple trick. Look for the primary stars of Sagitta just to the west of bright Albireo. Make note of the distance between the two brightest and look exactly that distance north of the “tip of the arrow” and you’ll find the M27 (Right Ascension: 19 : 59.6 – Declination: +22 : 43).

Discovered in 1764 by Messier in a three and a half foot telescope, I discovered this 48,000 year old planetary nebula for the first time in a 4.5? telescope. I was hooked immediately. Here before my eager eyes was a glowing green “apple core” which had a quality about it that I did not understand. It somehow moved… It pulsated. It appeared “living”.

For many years I quested to understand the 850 light year distant M27, but no one could answer my questions. I researched and learned it was made up of doubly ionized oxygen. I had hoped that perhaps there was a spectral reason to what I viewed year after year – but still no answer. Like all amateurs, I became the victim of “aperture fever” and I continued to study the M27 with a 12.5? telescope, never realizing the answer was right there – I just hadn’t powered up enough.

Several years later while studying at the Observatory, I was viewing through a friend’s identical 12.5? telescope and as chance would have it, he was using about twice the magnification that I normally used on the “Dumbbell”. Imagine my total astonishment as I realized for the very first time that the faint central star had an even fainter companion that made it seem to wink! At smaller apertures or low power, this was not revealed. Still, the eye could “see” a movement within the nebula – the central, radiating star and its companion.

Do not sell the “Dumbbell” short. It can be seen as a small, unresolved area in common binoculars, easily picked out with larger binoculars as an irregular planetary nebula, and turns astounding with even the smallest of telescopes. In the words of Burnham, “The observer who spends a few moments in quiet contemplation of this nebula will be made aware of direct contact with cosmic things; even the radiation reaching us from the celestial depths is of a type unknown on Earth…”

Saturday, September 8 – Heads up for early risers! This morning is a beautiful conjunction of Jupiter and the Moon. For viewers in the western regions of Southern America, this is an occultation event, so be sure to check for times in your area!

Today in 1966, a legend was born as the television program Star Trek premiered. Created by Gene Roddenberry, its enduring legacy inspired several generations to an interest in space, astronomy, and technology. Its five-year mission still airs – along with numerous movie and series sequels. May Star Trek continue to “live long and prosper!”

Tonight a great opportunity to have another look at all the things we’ve studied this week. However, I would encourage those of you with larger binoculars and telescopes to head for a dark sky location, because tonight we are going on a quest… The quest for the holy “Veil”.

By no means is the Veil Nebula Complex an easy one. The brightest portion, NGC 6992 (Right Ascension: 20 : 56.4 – Declination: +31 : 43), can be spotted in large binoculars and you can find it just slightly south of a central point between Epsilon and Zeta Cygnii. The NGC 6992 is much better in a 6-8? scope however, and low power is essential to see the long ghostly filaments which span more than a degree of sky. About two and a half degrees west/southwest, and incorporating star 52 is another long narrow ribbon of what may be classified as a supernova remnant. When aperture reaches the 12? range, so does the true breadth of this fascinating complex. It is possible to trace these long filaments across several fields of view. They sometimes dim and at other times widen, but like a surreal solar flare, you will not be able to tear your eyes away from this area. Another undesignated area lies between the two NGCs, and the whole 1,500 light year distant area spans over two and a half degrees. Sometimes known as the “Cygnus Loop”, it’s definitely one of the summer’s finest objects.

Sunday, September 9 – On this day in 1839, John Herschel froze time by making the very first glass plate photograph – and we’re glad he did. His photo was of his father William’s famous 40-foot telescope in Slough, England. The scope had not been used in decades and was disassembled shortly after the photograph was taken. Later in 1892, on this same day, Edward Emerson Barnard was busy at Lick Observatory discovering Jupiter’s innermost moon – Amalthea.

Do I always save the best for last? You bet. And tonight it’s my favorite galaxy structure – edge-on.

The NGC 7814 (Right Ascension: 0 : 03.3 – Declination: +16 : 09) is easy enough to find. Just head towards Gamma Pegasi and look in your finderscope for a star that is around 3 degrees to the northwest. At low power you will see the galaxy to the southeast of this star as a scratch of light. Up the power in both aperture and magnification and enjoy! This galaxy has a deeply concentrated nucleus and a very prominent dissecting dark dustlane. By the way… It’s Caldwell 43.

Until next week? Wishing you clear skies!

Four views of M57 – Credit: NOAO/AURA/NSF

Posted on by Nancy Atkinson

Astrophoto: Milky Way from Onizuka Astronomy Center, Hawaii

Here’s a great view of the Milky Way from the Onizuka Astronomy Center on the Big Island of Hawaii by astronomical artist Fahad Sulehria. To reach the summit of Mauna Kea, where some of the biggest telescopes on Earth reside, visitors must stop at the Onizuka Center for acclimating to the high altitude. The summit is about 4,200 meters (13,796 feet), and the Onizuka Center is located about 2,740 meters (9,000 feet) above sea level. “The sky is much clearer and less polluted than most places on Earth, making it an ideal place to do stargazing,” writes Sulehria. “In the background you see a red glow, which comes from the Halema’uma’u crater of the famous Kilauea Volcano on Hawaii.”

Equipment: Canon 550D with 28-200 mm lens. Exposure: 31s @ ISO 1600/F3.5.

See more of Sulehria’s work at his website, Nova Celestia

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.