Victor C. Rogus

Astrophotographer Victor C. Rogus sent in a photo of Comet Pan-STARRS taken March 20, 2013, in Jadwin, Mo. He writes: "As I look over my collection of images starting with March 11 until now, I see nightly changes in the comet. The direction of the tail comes to mind first, always away from the sun. Changes in color, at times, and also changes in the size of the coma."

By Joe Rao
Space.com

The newfound Comet ISON has the potential to be one of the brightest ever seen when it streaks through the inner solar system this November, but whether it will live up to the hype is anybody's guess.

Astronomers have a tough time forecasting the brightness of incoming comets. Ballyhooed "comet of the century" candidates sometimes fizzle out, as Kohoutek did in 1973, while some icy wanderers put on a surprisingly good show for skywatchers.

Why is it so difficult to predict comet behavior? For starters, comets are like snowflakes — no two are alike.

Dirty snowballs
While comets have been called "dirty snowballs," recent observations by unmanned space probes suggest that they may not be too different from asteroids on the outside. Comets appear to have rocky surfaces that in most cases are probably not much more than several miles across. [Amazing Comet Photos of 2013]

What makes them much different from asteroids, however, is that frozen reservoirs icy material are hidden beneath the crust or contained in fissures and craters that pockmark the surface. 

Such comet "snow" is composed of ordinary water ice plus frozen ammonia and some other more exotic compounds, with dust grains of different sizes and compositions mixed in. These pools of volatile materials are called "active regions." 

Comets spend most of their time far out in space, billions of miles from the sun. Out there, the nucleus is completely stable because it’s in a state of deep freeze where temperatures barely hover above absolute zero (minus 460 degrees Fahrenheit, or minus 273 degrees Celsius).  

But when a comet nears the sun, its frozen gases react to the increasing heat by vaporizing and expanding into a huge tenuous cloud around the nucleus called the coma. The nucleus and the coma make up the head of the comet, which may swell to more than 100,000 miles across.

It is sunlight that causes the comet's head to shine, in much the same manner that luminous paint reacts to ultraviolet light. The comet’s tail is produced by the solar wind — a thin supersonic breeze of atomic particles blowing from the sun — and the pressure of sunlight, which pushes the gas and dust out ahead of the coma.

Old versus new
One clue about how a comet will ultimately perform is whether it’s a "new" comet, making its very first approach to the sun, or whether it’s an "old" one that has zoomed close to our star before. 

New comets might be covered with a load of very light, volatile material such as frozen nitrogen, carbon monoxide and carbon dioxide. Such ices can vaporize far from the sun, giving a distant comet a short-lived surge in brightness that can raise unrealistic expectations. This happened with ultimately disappointing comets such as Cunningham in 1940, Kohoutek 1973 and Austin in 1990.

But some new comets live up to the hype. In January 2007, for instance, Comet McNaught became the brightest comet in more than 40 years, eventually becoming luminous enough to be visible in broad daylight.

Unpredictable!
Some small, faint comets have suddenly and unexpectedly become incredibly bright literally overnight. In October 2007, Comet Holmes brightened by a factor of 500,000 in less than two days, going from an object visible only with very large telescopes to becoming easily visible to the naked eye. 

Its sudden flare may have been caused by a buildup of gas inside the comet's nucleus that eventually broke through its surface, astronomers say. Incredibly, this all took place far out in space when the comet was nearly 230 million miles (370 million kilometers) from the sun. Who knew?

Even the most recent skywatching sight, Comet Pan-STARRS, had some surprises in store. When the comet was discovered in June 2011, forecasts indicated it might get as bright as first or even zero magnitude — in other words, as bright as the brightest stars. 

Then, it was surmised that the comet was "new" and might possibly lag behind the original optimistic predictions. Until recently, that seemed to be the case; PanSTARRS was running about one-quarter as bright. Some suggested it might not get much brighter than third magnitude, which would be less than half as bright as Polaris, the North Star. 

Then without fanfare, in late February, it made a surprising comeback, reaching first magnitude as it rounded the sun on March 10.

Be careful!
While you might have gotten the idea by now that comets are notoriously bad actors and do not always follow their scripts, I should stress that many of them are well-behaved and do what is expected in a broad sense. Still, caution is advised when reading any predictions of their brightness.

That brings us back to Comet ISON, which is expected to sweep less than three-quarters of a million miles above the sun’s surface on Thanksgiving Day,  Nov. 28. Already there have been a plethora of articles promoting ISON as the “Comet of the Century.”

For an interesting analogy, baseball scouts like to catalog the talents of players by looking at five general areas of performance in which one may define potential talent. Great ballplayers can hit for average, hit with power, field, run and throw. [Photos of Comet ISON in Night Sky]

Similarly, astronomers who catalog potential great comets look at four general areas of performance: comets that closely approach the sun, closely approach Earth, have a favorable projection angle for viewing the tail and high intrinsic brightness. 

From these criteria, Comet ISON certainly appears to be a "can't miss" prospect, though it is a new comet, which makes it more of a wild card.

But then again, like countless numbers of young ballplayers who had unlimited potential but failed to make the big leagues, ISON too could falter. 

It could unexpectedly exhaust all of its volatile material, leaving just a small, dark solid lump to ultimately swing around the sun — meaning we may not see it all. Or perhaps upon passing through the sun’s outer atmosphere and being subjected to a temperature of around 1 million degrees Fahrenheit (555,000 degrees Celsius) or more, the comet nucleus might shatter or disintegrate. 

The saga of ISON is not yet fully written, and it could still go either way. We’ll keep track of its progress in the weeks and months to come.

In the meantime, it might be worth ending with an oft-quoted axiom by the legendary comet expert Fred Whipple: “If you must bet, bet on a horse, not a comet!”  

Joe Rao serves as an instructor and guest lecturer at New York's Hayden Planetarium. He writes about astronomy for The New York Times and other publications, and he is also an on-camera meteorologist for News 12 Westchester, New York. Follow us @Spacedotcom, Facebook or Google+. Originally published on SPACE.com.

• Photos: Spectacular Comet Views from Earth and Space
• Will Comet ISON be Comet of the Century?
• Best Beginner Astrophotography Telescopes

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SpaceX

Two of SpaceX's Merlin 1D engines sit on a test stand at the company's rocket development facility in Texas.

By Mike Wall
Space.com

SpaceX's next-generation rocket engine is ready to fly and will probably power a commercial space launch for the first time this summer, company officials announced Wednesday.

The Merlin 1D engine was judged flight-ready after firing for a total of nearly 33 minutes over the course of 28 different tests at SpaceX's rocket-development facility in McGregor, Texas. The new engine will soon be incorporated into the company's Falcon 9 rocket, officials said.

"The Merlin 1D successfully performed every test throughout this extremely rigorous qualification program," SpaceX's CEO and chief designer, Elon Musk, said in a statement. "With flight qualification now complete, we look forward to flying the first Merlin 1D engines on Falcon 9’s Flight 6 this year."

The Falcon 9 has flown five times to date, most recently on March 1, when it blasted the robotic Dragon capsule toward the International Space Station on California-based SpaceX's second contracted supply run for NASA. According to the company's launch manifest, flight No. 6 will launch a Canadian communications satellite, probably in mid-June. [Photos: SpaceX's Amazing Rockets & Spaceships]

Company officials say the Merlin 1D will provide a big boost for the Falcon 9, which has been using nine Merlin 1C engines to power its first stage.

"The Merlin 1D has a vacuum thrust-to-weight ratio exceeding 150, the best of any liquid rocket engine in history," SpaceX officials wrote in a press release Wednesday. "This enhanced design makes the Merlin 1D the most efficient booster engine ever built, while still maintaining the structural and thermal safety margins needed to carry astronauts."

SpaceX indeed plans to launch astronauts using the Merlin 1D. The company is working on a manned version of its Falcon 9/Dragon transportation system, in the hopes of scoring a NASA contract to ferry astronauts to and from the space station.

SpaceX will also incorporate the 1D into its Falcon Heavy booster, a huge rocket still in development that will use 27 engines in its first stage. The Falcon Heavy will be capable of carrying payloads weighing 53 metric tons to low-Earth orbit, company officials say, and it is also being designed to meet NASA human-rating standards.

The Merlin 1D already powers SpaceX's Grasshopper rocket, an experimental booster that the company hopes will pave the way for a fully reusable launch system. Earlier this month, the Grasshopper lifted off on its fourth test flight, rising 263 feet (80 meters) into the Texas skies before returning to Earth and making a soft landing.

Follow Mike Wall on Twitter @michaeldwall. Follow us @Spacedotcom, Facebook or Google+. Originally published on Space.com.

• SpaceX Dragon's 2nd Space Station Cargo Delivery (Photos)
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• Quiz: How Well Do You Know SpaceX's Dragon Spaceship?

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NASA / JPL-Caltech / MSSS

The location of a rock target called "Knorr" is indicated in this self-portrait of the Curiosity rover in the Yellowknife Bay area. The self-portrait is a mosaic of images taken by Curiosity's Mars Hand Lens Imager on Feb. 3.

By Clara Moskowitz
Space.com

A new glitch on NASA's Mars rover Curiosity has forced the vehicle to stay in safe mode longer than planned, stalling science operations for another couple of days, scientists said Monday.

The Curiosity rover had paused in its scientific investigation of the Red Planet in late February, when corrupted memory files forced engineers to switch the rover's main operations from its "A-side" computer to its "B-side" backup.

Just as the computer switch was being sorted out, though, mission managers decided to put the rover back in standby mode on March 5 to protect it from possible radiation that could be released by a major solar flare pointed toward Mars. Curiosity had come out of safe mode following that scare, but normal science operations had not yet resumed.

Now, a computer file error has forced the rover into safe mode again. "This is not something which is rare or extraordinary," Curiosity chief scientist John Grotzinger said Monday at the Lunar and Planetary Science Conference in The Woodlands, Texas. "It does mean that science has to stand down for a couple more days."

The latest issue has to do with some of the rover's files that were scheduled for deletion. One of those files was connected to a file still in use by the spacecraft, so the deletion process prompted an error that sent the rover into safe mode again, preventing the rover from resuming science as planned. [Curiosity Rover's Latest Amazing Mars Photos]

"If not for the latest safing, we would have been back in action today," Grotzinger said. "The expectation is, it's going to take a couple of sols [Martian days] to resolve this one."

Despite these technical setbacks, though, Curiosity's scientists have been forging ahead with analysis of the wealth of data collected by the rover so far. Those measurements allowed the researchers to declare last week the mission had found proof that a spot on ancient Mars would have provided habitable conditions to microbes, had they been present during the planet's past.

New research discussed Monday at the Lunar and Planetary Science Conference elaborates on that finding, suggesting that those habitable conditions extended beyond the particular site named last week, which lies in an area called Yellowknife Bay.

While the first evidence of past habitability came from Curiosity's drill, which bored into rocks in Yellowknife Bay, the new findings of more widespread habitable conditions come from the rover's Mast Camera (MastCam), which has near-infrared filters that can detect iron-bearing rocks and hydrated (water-containing) minerals.

"With MastCam, we see elevated hydration signals in the narrow veins that cut many of the rocks in this area," Melissa Rice of the California Institute of Technology in Pasadena, Calif., said in a statement. "These bright veins contain hydrated minerals that are different from the clay minerals in the surrounding rock matrix."

NASA / JPL-Caltech / MSSS / ASU

On this image of the rock target "Knorr," color coding maps the amount of mineral hydration indicated by a ratio of near-infrared reflectance intensities measured by Curiosity's MastCam. The color scale on the right shows the assignment of colors for relative strength of the calculated signal for hydration. The map shows that the stronger signals for hydration are associated with pale veins and light-toned nodules in the rock. This image and the data for assessing hydration come from a MastCam observation of Knorr on Dec. 20, 2012.

The scientists were able to track variations in the amount of hydrated minerals in different locations, as well as between different layers of the Martian surface.

"A very significant message from the instrument data is that we are sensitive not only to the global variations, but also to the local variations," said Maxim Litvak of the Space Research Institute in Moscow, who is deputy principal investigator of Curiosity's Dynamic Albedo of Neutrons instrument, which measures hydrogen on the Marian surface.

The $2.5 billion Curiosity rover, the centerpiece of NASA's Mars Science Laboratory mission, landed on Mars in August 2012 after launching the previous November. The rover has already accomplished its main goal, which was to determine whether the Red Planet was ever habitable to microbial life. Though the answer to that query has now been settled, the larger question of whether such life ever existed on Mars remains open. 

Follow Clara Moskowitz @ClaraMoskowitz and Google+. Follow us @Spacedotcom, Facebook and Google+.

• Ancient Mars Could Have Supported Life (Photos)
• A 'Curiosity' Quiz: How Well Do You Know NASA's Newest Mars Rover?
• Mars Once Had All the Right Conditions to Support Life, NASA Says | Video

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NASA TV

The International Space Station's robotic arm unloads grapple-bar assemblies from the unpressurized "trunk" of SpaceX's Dragon cargo capsule on Wednesday.

By Miriam Kramer
Space.com

NASA engineers used a robotic arm on Wednesday to unpack the first exterior cargo ever delivered to the International Space Station by an American-built commercial supply ship.

A robotics team at NASA Mission Control in Houston remotely controlled the space station's 58-foot (17-meter) Canadarm2 robotic arm to unload two so-called grapple bars from the unpressurized "trunk" of the privately built unmanned Dragon space capsule. The Dragon's trunk is a cylindrical cargo section beneath the spacecraft's re-entry module.

The Dragon spacecraft, built by California-based SpaceX, was launched to the space station on Friday and arrived two days later, delivering about 1,200 pounds (544 kilograms) of supplies to the orbiting lab. It's the second of 12 scheduled SpaceX cargo deliveries for NASA under a $1.6 billion agreement.

SpaceX launched a demonstration flight to the space station last May and made its first cargo delivery in October. But both of those missions only carried items inside the Dragon's pressurized capsule, which is accessible to astronauts on the station through a docking hatch. [See photos of Dragon's space station arrival]

The current mission marks the first time SpaceX has ever delivered gear meant for the outside of the space station using the Dragon's trunk. SpaceX built the support hardware holding the grapple bars in place on the Dragon capsule, company officials said.

The six astronauts living aboard the space station finished unloading the pressurized cargo section on Monday, leaving only the grapple bars to be retrieved. "These bars, which together weigh about 600 pounds [272 kilograms], can be used to remove failed radiators on the station’s S1 and P1 truss segments, should that ever be deemed necessary," NASA officials said in a statement.

The grapple bars will be stored in a temporary spot on the International Space Station exterior for now, but will eventually be mounted to a permanent storage point, NASA officials said.

With the Dragon capsule empty, the station crew will soon start loading the capsule with 2,668 pounds (1,210 kilograms) of experiments and unneeded items for the spacecraft's return to Earth on March 25. The Dragon is expected to splash down off Baja California in the Pacific Ocean so it can be retrieved by recovery teams.

Various space agencies are expecting items to return to Earth onboard Dragon. For example, stem cells and hair that are currently being used in experiments on the station will be sent down with Dragon for the Japan Aerospace Exploration Agency.

Empty food containers will also be delivered back to Earth, according to a NASA manifest. And some science experiments are making a round trip with the capsule.

SpaceX is one of two companies with billion-dollar-plus contracts to supply cargo missions to the space station for NASA. The other company, Orbital Sciences Corp. of Virginia, has a $1.9 billion contract with the agency for eight resupply missions to the station using the new Antares rocket and Cygnus spacecraft.

NASA is relying on privately built spacecraft to ferry cargo — and ultimately astronaut crews — to and from the International Space Station. With the retirement of its space shuttle fleet in 2011, NASA is currently dependent on Russia's Soyuz spacecraft to launch American astronauts to the space station.

Follow Miriam Kramer @mirikramer and Google+. Follow us @Spacedotcom, Facebook and Google+. Original article on Space.com.

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L. Calcada / ESO

This artist's impression shows the formation of a gas giant planet in the ring of dust around the young star HD 100546. This system is also suspected to contain another large planet orbiting closer to the star.

By Clara Moskowitz
Space.com

Astronomers have captured what may be the first-ever direct photograph of an alien planet in the process of forming around a nearby star.

The picture, which captured a giant alien planet as it is coming together, was snapped by the European Southern Observatory's Very Large Telescope in Chile. It shows a faint blob embedded in a thick disk of gas and dust around the young star HD 100546. The object appears to be a baby gas giant planet, similar to Jupiter, forming from the disk's material, scientists say.

"So far, planet formation has mostly been a topic tackled by computer simulations," astronomer Sascha Quanz of ETH Zurich in Switzerland, leader of the research team, said in a statement. "If our discovery is indeed a forming planet, then for the first time scientists will be able to study the planet formation process and the interaction of a forming planet and its natal environment empirically at a very early stage."

The star HD 100546, which lies 335 light-years from Earth, was already thought to host another giant planet that orbits it about six times farther out than Earth is from the sun. The new potential planet lies even farther, about 10 times the distance of its sibling, at roughly 70 times the stretch between the Earth and sun. [Giant Planet In the Making Spotted? (Video)]

The possible planet seems to fit the picture scientists are building of how worlds form. Stars themselves are born in clouds of gas and dust, and after they  form, a disk of leftover material often orbits them. From this disk, baby planets can take shape. That's what appears to be happening here.

For example, the new photo reveals structures in the disk surrounding the star that could be caused by interactions between its material and the forming planet. Furthermore, the data suggest that the material around the planet-blob has been heated up, which is consistent with the planet-forming hypothesis.

Ardila et al. / ESO / NASA / ESA

This composite image shows views of the gas and dust around the young star HD 100546, as seen by the Hubble Space Telescope (left) and from the NACO system on the European Southern Observatory's Very Large Telescope (right).

The observations were made possible by the NACO adaptive optics instrument on the Very Large Telescope, which compensates for the blurring caused by Earth's atmosphere. The instrument also uses a special coronagraph that observes in near-infrared wavelengths to block out the bright light from the star, so as to see its surroundings better.

"Exoplanet research is one of the most exciting new frontiers in astronomy, and direct imaging of planets is still a new field, greatly benefiting from recent improvements in instruments and data analysis methods," said Adam Amara, another member of the team. "In this research we used data analysis techniques developed for cosmological research, showing that cross-fertilization of ideas between fields can lead to extraordinary progress."

The findings are detailed in a paper to appear online in Thursday's issue of Astrophysical Journal Letters.

Follow Clara Moskowitz on Twitter @ClaraMoskowitz or Space.com @Spacedotcom. We're also on Facebook and Google+. 

• Alien Planet Quiz: Are You an Exoplanet Expert?
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NASA / JPL-Caltech

This artist's concept illustrates a supermassive black hole with millions to billions times the mass of our sun.

By Mike Wall
Space.com

Astronomers have made the first reliable measurement of a supermassive black hole's spin, showcasing a technique that could help unravel the mysteries of these monsters' growth and evolution.

The enormous black hole at the center of the spiral galaxy NGC 1365 is spinning about 84 percent as fast as Einstein's general theory of relativity allows it to, researchers determined. The find demonstrates that at least some supermassive black holes are rotating rapidly — a claim previous studies had hinted at but failed to confirm.

"It's the first time that we can really say that black holes are spinning," study co-author Fiona Harrison, of Caltech in Pasadena, told Space.com. "The promise that this holds for being able to understand how black holes grow is, I think, the major implication." 

X-ray light
Supermassive black holes are almost incomprehensibly huge, with some containing 10 billion or more times the mass of our sun. Scientists think one lurks at the heart of most, if not all, galaxies. [Gallery: Black Holes of the Universe]

NGC 1365, located about 56 million light-years from Earth in the constellation Fornax, does indeed harbor a gigantic black hole — one as massive as several million suns. And this behemoth is blasting out enormous quantities of energy as it gobbles up gas and other nearby matter, making it an intriguing target for astronomers.

In the new study, researchers analyzed data from two X-ray space telescopes — the European Space Agency's XMM-Newton observatory and NASA's Nuclear Spectroscopic Telescope Array, or NuSTAR. The telescopes observed NGC 1365 in July 2012.

By zeroing in on the high-energy light emitted by iron atoms, the telescopes were able to trace the motion of the flat, rotating accretion disk that circles NGC 1365's black hole and funnels gas and dust into its greedy maw.

Astronomers found that the emissions were strongly distorted, suggesting that the inner edge of the accretion disk may be quite close to the black hole — close enough for gravitational effects to wreak havoc with the X-rays streaming from the disk. This in turn implied a rapidly rotating black hole, since general relativity states that the faster a black hole is spinning, the closer its disk can come to it, Harrison said.

That's one interpretation. In the past, some astronomers have put forward a different interpretation of the readings. They suggested that such distortion, which has been observed in accretion disk emissions before, could be caused by clouds of gas that hang between a supermassive black hole and the telescopes observing it. [The Strangest Black Holes in the Universe] 

"This has been a big controversy — which of the two is going on?" Harrison said. 

NASA / JPL-Caltech

This graphic shows two models for the spin of a black hole. Observations from NASA's NuSTAR probe revealed that the prograde rotation model applied in the case of NGC 1365's black hole - and that suggests that the black hole is spinning at an incredibly fast rate.

Pinning down the spin
The observations from the $165 million NuSTAR telescope, which launched in June 2012, cracked the case.

Using NuSTAR's super-sensitive measurements of high-energy X-rays, the astronomers calculated that if there were gas clouds in the way, they would have to be incredibly thick to produce the observed distortion levels. In fact, they'd have to be so thick as to make the whole idea untenable, at least in the case of NGC 1365's black hole.

"To shine through these thick clouds, the black hole would have to be so bright it would basically blow itself apart," said Harrison, who is the principal investigator for the NuSTAR mission. "So what has to be happening is, what we're seeing is these relativistic distortions. And that means that the disk is coming close to the black hole, which means the black hole must be spinning rapidly."

The research team, led by Guido Risaliti of the Harvard-Smithsonian Center for Astrophysics and the Italian National Institute for Astrophysics' Arcetri Observatory, calculated this rotation rate to be 84 percent of that allowed by general relativity.

It's tough to comprehend this figure, since it doesn't translate well into miles per hour. One estimate puts the speed at 670 million mph, or 1.08 billion kilometers per hour. In any case, it's safe to say that the black hole is spinning incredibly fast.

"The analogy of an actual velocity is not quite right," Harrison said. "But what you can say is that spinning black holes twist space-time around them. And if you were standing near the black hole, basically your space-time would be twisted, or dragged, around such that you would have to rotate once every four minutes just to be standing still."

The new study was published online Wednesday in the journal Nature.

How a black hole grows
Astronomers think that supermassive black holes acquire most of their spin as they grow, rather than being born with it. So studying their rotation rates can yield insights into how these monsters have evolved over time.

The superfast spin of NGC 1365's black hole, for example, implies that it did not grow via numerous small black-hole mergers, Harrison said, since the odds are very low that many such chaotic events would spin it up in the same direction. Rather, it's more likely that NGC 1365's central black hole acquired its spin from one major merger, or simply by gobbling material from an accretion disk that has remained stable over the long haul.

The new study represents a first step toward a better understanding of the nature and evolution of supermassive black holes, Harrison said.

"We will make more measurements like this," she said. "Eventually what you'd like to do is have a bigger telescope that can actually measure more distant black holes so we can, using the statistics of the sample, understand how they grow over cosmic time." 

Follow Space.com senior writer Mike Wall on Twitter @michaeldwall or Space.com @Spacedotcom. We're also on Facebook and Google+.

• Black Hole - It Is What It Ate | Video
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NASA

Orbital Sciences Corp. lights up the engines on its Antares rocket for a hot-fire test at the Mid-Atlantic Regional Spaceport in Virginia on Friday.

By Tariq Malik
Space.com

Orbital Sciences Corp. has successfully tested the engines for a new private rocket designed to send cargo to the International Space Station.

The Virginia-based company test-fired the first-stage engines of its new Antares rocket for 30 seconds Friday night at the Mid-Atlantic Regional Spaceport on Wallops Island, Va. NASA's Wallops Flight Facility, also based on the island, supported the so-called static fire engine test, which involved having the Antares rocket fire its engines without leaving the launch pad.

"This pad test is an important reminder of how strong and diverse the commercial space industry is in our nation," Phil McAlister, director of commercial spaceflight development at NASA Headquarters in Washington, said in a statement released after the test. "A little more than one year after the retirement of the space shuttle, we had a U.S company resupplying the space station, and another is now taking the next critical steps to launch from America’s newest gateway to low-Earth orbit."

Orbital Sciences is one of two private spaceflight companies with billion-dollar NASA contracts to provide unmanned cargo delivery missions to the International Space Station. Under its $1.9 billion contract, Orbital Sciences will make at least eight delivery flights to the space station using its Antares rocket and robotic Cygnus spacecraft. The first Antares rocket test flight is expected later this year. [Antares Rocket and Cygnus Explained (Infographic)]

California-based SpaceX is the other company with a NASA contract for unmanned space station deliveries. SpaceX has a $1.6 billion contract to fly at least 12 missions to the space station using its Dragon space capsules and Falcon 9 rocket. The company launched both a test flight and a bona fide delivery mission to the space station in 2012. The second delivery flight under the contract is slated to launch on March 1.

With NASA's retirement of the space shuttle fleet in 2011, the space agency is relying on new private rockets and spacecraft to ferry cargo — and eventually astronauts — to and from low-Earth orbit. NASA is currently dependent on Russia, Europe and Japan for cargo deliveries to the space station. Russia's Soyuz spacecraft are the only vehicles currently available to ferry astronauts to and from the station.  

Friday's engine test marked Orbital's second attempt to check the Antares rocket's dual AJ26 rocket engines, which are designed to provide 680,000 pounds of thrust. A first attempt on Feb. 13 was aborted before engine ignition due to a "low pressurization" detection during a nitrogen purge in the rocket's aft engine compartment, Orbital officials said.

The test took place at Pad-0A at the Mid-Atlantic Regional Spaceport, which is located on the eastern shore of Virginia. It set the stage for a full-up flight test of the Antares rocket, and then a demonstration flight as part of Orbital's contract under NASA's Commercial Orbital Transportation Services program, also known as COTS.

"Following the successful completion of the COTS demonstration mission to the station, Orbital will begin regular cargo resupply flights to the orbiting laboratory through NASA's Commercial Resupply Services contract," NASA Wallops officials said.

This report was updated by NBC News Digital. You can follow Space.com managing editor Tariq Malik on Twitter @tariqjmalik. Follow Space.com on Twitter @Spacedotcom. We're also on Facebook and Google+. 

• Pushing Freight To Space Station - Antares Rocket Animation
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© 2013 Space.com. All rights reserved. More from Space.com.

Slideshow: 50 years of moon shots

NASA

Up-close exploration of the moon, Earth's only natural satellite, began in 1959 and hasn't stopped. Take a look at scenes from 50 years of moon exploration.

Launch slideshow

The first full moon of 2013 will light up the night sky on Saturday night, but did you know it's a full moon of many names?

Full moon names date back to the Native American tribes of a few hundred years ago, who lived in what is now the northern and eastern United States. Those tribes kept track of the seasons by giving distinctive names to each recurring full moon. Their names were applied to the entire month in which each occurred.

There were some variations in the moon names, but in general, the same ones were used throughout the Algonquin tribes from New England on west to Lake Superior. European settlers followed their own customs and created some of their own names. Since the lunar (or "synodic") month is roughly 29.5 days in length on average, the dates of the full moon shift from year to year.

Here is a listing of all of the full moon names, as well as the dates and times for 2013. Unless otherwise noted, all times are for the Eastern time zone:

Jan. 26, 11:38 p.m. ET —Full Wolf Moon: Amid the zero cold and deep snows of midwinter, the wolf packs howled hungrily outside Indian villages.  It was also known as the Old Moon or the Moon after Yule.  In some tribes this was the Full Snow Moon; most applied that name to the next moon. [Full Moon: Why Does It Happen? (Video)]

Feb. 25, 3:26 p.m. ET —Full Snow Moon: Usually the heaviest snows fall in this month. Hunting becomes very difficult, and hence, to some tribes this was the Full Hunger Moon. 

March 27, 5:27 a.m. ET —Full Worm Moon: In this month the ground softens and the earthworm casts reappear, inviting the return of the robins. The more northern tribes knew this as the Full Crow Moon, when the cawing of crows signals the end of winter, or the Full Crust Moon, because the snow cover becomes crusted from thawing by day and freezing at night. The Full Sap Moon, marking the time of tapping maple trees, is another variation. [Phases of the Moon in 2013: A Lunar Calendar]

In 2013, this is also the Paschal Full Moon — the first full moon of the spring season. The first Sunday following the paschal moon is Easter Sunday, which indeed will be observed four days later on Sunday, March 31.

April 25, 3:57 p.m. ET — Full Pink Moon: The grass pink or wild phlox is one of the earliest widespread flowers of the spring. Other names were the Full Sprouting Grass Moon, the Egg Moon and — among coastal tribes — the Full Fish Moon, when the shad come upstream to spawn. The moon will also undergo a very slight partial lunar eclipse, which will be visible from the Eastern Hemisphere, but not from North America. At its peak, less than 1.5 percent of the moon's diameter will be immersed in Earth’s umbral shadow; a very underwhelming event, to say the least.

May 25, 12:25 a.m. ET — Full Flower Moon: Flowers are now abundant everywhere. It was also known as the Full Corn Planting Moon or the Milk Moon. The moon will also undergo a penumbral lunar eclipse, but the passage of the moon's disk into Earth's shadow will result in one of the slightest eclipses of all, administering a mere touch of penumbral shadow at the northernmost part of the lunar limb.

June 23, 7:32 a.m. ET — Full Strawberry Moon: Strawberry-picking season peaks during this month.  Europeans called this the Rose Moon. The moon will also arrive at perigee only 32 minutes earlier, at 7 a.m. ET at a distance of 221,824 miles (356,991 kilometers) from Earth. So this is the biggest full moon of 2013. Very high ocean tides can be expected during the next two or three days, thanks to the coincidence of perigee with the full moon. 

July 22, 2:16 p.m. ET— Full Buck Moon: Named for when the new antlers of buck deer push out from their foreheads in coatings of velvety fur. It was also often called the Full Thunder Moon, thunderstorms now being most frequent. Sometimes it's also called the Full Hay Moon.

Aug. 20, 9:45 p.m. ET — Full Sturgeon Moon: This large fish of the Great Lakes and other major bodies of water like Lake Champlain is most readily caught at this time. A few tribes knew it as the Full Red Moon, because when the moon rises it looks reddish through a sultry haze. It was also known as the Green Corn Moon or Grain Moon.

Sept. 19, 7:13 a.m. ET — Full Harvest Moon: Traditionally, this designation goes to the full moon that occurs closest to the autumnal (fall) equinox. The Harvest Moon usually comes in September, but (on average) once or twice a decade it will fall in early October.  At the peak of the harvest, farmers can work into the night by the light of this moon. 

Usually the moon rises an average of 50 minutes later each night, but for the few nights around the Harvest Moon, the moon seems to rise at nearly the same time each night: just 25 to 30 minutes later across the U.S., and only 10 to 20 minutes later for much of Canada and Europe. Corn, pumpkins, squash, beans and wild rice — the chief Indian staples — are now ready for gathering.

Oct. 18, 7:38 p.m. ET — Full Hunters' Moon: With the leaves falling and the deer fattened, it's now time to hunt.  Since the fields have been reaped, hunters can ride over the stubble, and can more easily see the fox, as well as other animals, which can be caught for a Thanksgiving banquet after the harvest. 

A penumbral lunar eclipse will also take place. Perhaps for some minutes centered on the time of greatest eclipse (7:50 p.m. ET) the penumbra might be marginally detectable over the moon’s southernmost limb, for at that moment the penumbral magnitude will reach 76.5 percent.  Those living across the eastern half of North America might see some evidence of this faint penumbral shading soon after local moonrise.

Nov. 17, 10:16 a.m. ET —Full Beaver Moon: At this point of the year, it's time to set beaver traps before the swamps freeze to ensure a supply of warm winter furs. Another interpretation suggests that the name Beaver Full Moon came from the fact that the beavers are now active in their preparation for winter. It's also called the Frosty Moon.

Dec. 17, 4:28 a.m. ET — Full Cold Moon: On occasion, this moon was also called the Moon Before Yule. December is also the month the winter cold fastens its grip. Sometimes this moon is referred to as the Full Long Nights Moon, and the term "Long Night" Moon is a very appropriate name because the nights are now indeed long and the moon is above the horizon a long time. This particular full moon makes its highest arc across the night sky because it's diametrically opposite to the low sun. 

Space.com skywatching columnist Joe Rao serves as an instructor and guest lecturer at New York's Hayden Planetarium. He writes about astronomy for The New York Times and other publications, and he is also an on-camera meteorologist for News 12 Westchester, New York. 

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The seasonal thawing of carbon dioxide ice near Mars' north pole carves grooves in the region's sand dunes, three new studies reveal.

The discovery, made using observations from NASA's Mars Reconnaissance Orbiter spacecraft, or MRO, reinforces that the Red Planet's surface continues to be transformed today, even though Mars' volcanoes have died out and its liquid surface water apparently dried up long ago. 

"It's an amazingly dynamic process," Candice Hansen of the Planetary Science Institute in Tucson, Ariz., lead author of one of the studies, said in a statement. "We had this old paradigm that all the action on Mars was billions of years ago. Thanks to the ability to monitor changes with the Mars Reconnaissance Orbiter, one of the new paradigms is that Mars has many active processes today."

MRO photographed dunes in Mars' far northern latitudes using its High Resolution Imaging Science Experiment camera, or HiRISE. The images revealed a number of grooves appearing in the dunes as the northern spring took hold and progressed. [Dry Ice 'Smoke' Moves Mars Sand (Video)]

The phenomenon is driven by the springtime thawing of a surface layer of frozen carbon dioxide, also known as dry ice.

This thawing occurs first on the ice layer's underside, which is in contact with the warming ground, researchers said. The dry ice sublimes from a solid state to a gaseous one, and pressure builds as more and more gas is produced and trapped. 

Eventually, cracks form in the ice, and some of the carbon dioxide gas breaks free, forming temporary grooves in the dune as it hisses out.

The escaping gas also carries sand, which forms dark streaks as it spills across the dry ice covering the dune. These dark fans disappear as the seasonal ice evaporates, and Martian winds erase most of the newly formed grooves before the next winter and springtime roll around.

The grooves are smaller versions of the "gullies" MRO has spotted on other, steeper Martian dunes, which were apparently formed in a similar way, researchers said. And similar processes have been observed near the Red Planet's south pole.

"It is a challenge to catch when and how those changes happen, they are so fast," Ganna Portyankina of the University of Bern in Switzerland, lead author of another one of the studies, said in a statement. "That's why only now we start to see the bigger picture that both hemispheres actually tell us similar stories."

The three new studies, which appear in the journal Icarus, were based on observations made by MRO over three Martian years, or about six Earth years. The papers document a variety of seasonal changes on Mars, including the dune grooves and the distribution of water frost, which is blown around by springtime winds.

Follow Space.com senior writer Mike Wall on Twitter @michaeldwall or Space.com @Spacedotcom. We're also on Facebook and Google+.

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Eight years ago this week, a European mission went where no probe had gone before — Saturn's huge moon Titan — and a new video animation is recounting that historic landing by the Huygens spacecraft.

The European Space Agency's unmanned Huygens probe dropped onto the surface of Titan on Jan. 14, 2005, three weeks after separating from its parent Cassini spacecraft. The new animation, which was created by ESA using real Huygens data, captures the last portion of the lander's 2 1/2-hour descent through Titan's thick, nitrogen-based atmosphere.

The new Huygens landing video, which runs for 1 minute and 40 seconds, shows the touchdown from a variety of angles and ends with a real photo Huygens took of Titan's surface.

Though Huygens stopped sending data home to Earth 90 minutes after touching down, the landing continues to teach researchers about Titan.

An analysis of Huygens data published late last year, for example, determined that the 400-pound (181 kilograms) probe bounced, slid and wobbled to a stop 10 seconds after first contacting the moon. The study suggests that Titan's surface at the time had the consistency of soft, wet sand with a fragile crust on top, researchers said.

Titan is the largest moon of Saturn, and the second-largest moon in the entire solar system (only the Jupiter satellite Ganymede is bigger). With a diameter of 3,200 miles (5,150 kilometers), Titan is nearly 50 percent wider than Earth's moon.

Titan is the only object in the solar system besides Earth known to host stable bodies of liquid on its surface. But Titan's lakes and seas contain methane and ethane rather than water, as the huge moon has a weather cycle based on hydrocarbons.

Complex carbon-containing molecules are known to swirl about in Titan's atmosphere, further intriguing scientists who regard the moon as one of the best places in the solar system to look for alien life.

The $3.2 billion Cassini-Huygens mission, a joint effort involving NASA, ESA and the Italian Space Agency, launched in 1997 and arrived at Saturn in 2004. While Huygens is now a feature of the Titan landscape, the Cassini spacecraft continues to study the ringed planet and its many moons. Its mission has been extended through at least 2017.

Follow Space.com senior writer Mike Wall on Twitter @michaeldwall, or Space.com @Spacedotcom. We're also on Facebook and Google+.

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If you think you have the right stuff to help colonize Mars, you'll soon get your chance to prove it.

The Netherlands-based nonprofit Mars One, which hopes to put the first boots on the Red Planet in 2023, released its basic astronaut requirements on Tuesday, setting the stage for a televised global selection process that will begin later this year.

Mars One isn't zeroing in on scientists or former fighter pilots; anyone who is at least 18 years old can apply to become a Mars colony pioneer. The most important criteria, officials say, are intelligence, good mental and physical health and dedication to the project, as astronauts will undergo eight years of training before launch.

"Gone are the days when bravery and the number of hours flying a supersonic jet were the top criteria," Norbert Kraft, Mars One's chief medical director and a former NASA researcher, said in a statement. "Now, we are more concerned with how well each astronaut works and lives with the others, in the long journey from Earth to Mars and for a lifetime of challenges ahead."

Mars One plans to launch a series of robotic cargo missions between 2016 and 2021, which will build a habitable Red Planet outpost ahead of the arrival of the first four colonists in 2023. More settlers will arrive every two years after that. There are no plans to return the pioneers to Earth. [Mars One: 'Big Brother' on Mars? (Video)]

The organization will fund most of its ambitious activities by staging a global reality-TV event that follows the colonization effort from astronaut selection through the settlers' first years on Mars.

Mars One, which transitioned from a private company to a nonprofit late last year, has already received a number of inquiries from prospective colonists, officials said.

"Well before the official Astronaut Selection Program, we received more than 1,000 emails from individuals who desire to go to Mars," Suzanne Flinkenflögel, Mars One's communications director, said in a statement. "We are working hard to launch our selection campaign as soon as possible, to open the doors to everyone who aspires to do something tremendous in their lifetime."

Final astronaut candidates will be selected after review by Mars One experts and a global TV event. Those chosen will be employed by Mars One during their Earth-based training and for the length of their time on the Red Planet, officials said.

To learn more about the selection process, go to www.thenextgiantleap.com.

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