Tag: hour (page 3 of 10)

Chinese space program achieves lunar milestone

January 12, 2015 / / 0 Comments

Excerpt from csmonitor.comA Chinese spacecraft service module has entered orbit around the moon, months after being used in the country's landmark test flight that sent a prototype sample-return capsule on a flight around the moon and returned it to...

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4 Sky Events This Week: Inner Planets Dance While Saturn Dazzles

January 12, 2015 / / 0 Comments


Illustration of moon pairing with star in the Virgo constellation
The moon pairs with the brightest star in the constellation Virgo on Tuesday.
Illustration by A.Fazekas, SkySafari


Excerpt from news.nationalgeographic.com

An eclipse of a volcanic moon by the king of planets, Jupiter, will thrill stargazers this week, as Earth's moon rides above the ringed world, Saturn.

Moon meets Maiden. On Tuesday, January 13, early birds will enjoy a particularly close encounter with the last quarter moon of the month and with the bright star Spica. All the action takes place in the constellation Virgo, the Maiden, halfway up the southern sky at dawn.

The 250-light-year-distant star appears only 2 degrees below the moon, a distance equal to about the width of your thumb held at arm's length.

It's amazing to realize that the light from Spica left on its journey to Earth back in 1765. That's the year that Great Britain passed the Stamp Act, the first direct tax levied on the American colonies and a prelude of the parliamentary oversteps that led to the American Revolution.

Mercury at its best. Look for faint Mercury about a half-hour after sunset on Wednesday, January 14, just above the southwestern horizon.

The innermost planet will appear at its farthest point away from the sun, a moment called the greatest elongation. Sitting 19 degrees east of the sun, it would be challenging to track down its faint point of light if it weren't for the nearby, superbright Venus.

The planetary duo will appear only 1.3 degrees apart, making the pair particularly impressive when viewed through binoculars or a small telescope. Look carefully and you may notice that Mercury appears to be a miniature version of the half-lit moon...

Illustration of Venus and Mercury in close conjunction in the southwest sky
This skychart shows Venus and Mercury in close conjunction in the southwest sky after sunset on Wednesday.
Illustration by A.Fazekas, SkySafari

Volcanic moon eclipse. Sky-watchers armed with telescopes will witness a distant eclipse of Jupiter's moon Io in the early morning hours of Friday, January 16.

At 12:27 a.m. EST, the gas giant's own shadow will glide across the tiny disk of the volcanic moon, which will be visible to the west of the planet.

Also early on Thursday night at 10:56 p.m. EST, Jupiter's massive storm, the Great Red Spot, crosses the middle of the planet's disk. Appearing as an orange-pink oval structure, this hurricane circles the planet every 12 hours or so and is three times larger than the Earth. 

Illustration of Jupiter in the late night southwest sky
This wide-angle skychart shows the location of Jupiter in the southeast sky on Thursday evening and early morning Friday. The insert telescope view shows Jupiter and location of its moon Io just before it enters the planet’s shadow.
Illustration by A.Fazekas, SkySafari
Luna and Saturn. Later on, near dawn on Friday, January 16, the waning crescent moon will appear to park itself just 2 degrees north of Lord of the Rings.

The ringed world can't be missed with the naked eye since it is the brightest object visible in the southeastern predawn sky. Its proximity to the moon will make it that much easier to identify.
Train a telescope on this yellow-tinged point of light, and it will readily reveal its stunning rings, tilted a full 25 degrees toward Earth. Currently Saturn sits nearly 994,000 miles (1.6 billion kilometers) away from Earth, which means that the reflected sunlight off its cloud tops takes 87.4 minutes to reach our eyes.
Happy hunting!

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First Weekend of the New Year Brings Quadrantid Meteor Shower

January 3, 2015 / / 0 Comments







Excerpt from savingadvice.com


For those who want to save money, one of the best free resources available to everyone are nature’s displays. The first weekend of the New Year will begin with a bang, although this bang will be of interstellar origins. This weekend (Jan. 3), the first meteor display of 2015 will reach its peak on Saturday night in a display of lights known as the Quadrantid meteor shower. According to science reporter Geoff Gaherty, “Meteor shows are usually named after the constellation in the sky where their radiant is located: the point in the sky from which they appear to radiate. Thus, the Perseids [showers] are named for Perseus and the Geminids [showers] are named for Gemini.”

Interestingly, Gaherty informs the reader that “there is no constellation named Quadrans” whence scientists derived the name Quadrantid. Instead, there was once the Quadrans Muralis constellation, which became a part of the constellation Bootes in 1922. The name of the meteor, however, was retained.

Quadrantids are also known to be a January meteor shower, as opposed to the more famous Perseids observed in August or the Geminids seen in December. Additionally, quadrantid meteors are less frequently observed than the other two meteor showers given that its peak intensity lasts only hours. Still, Gaherty writes that the Quadrantid shower “can produce as many bright meteors during its peak as the more famous Perseids.” Thus, in order to view this spectacular display, “timing is everything.”

Using past observations, researchers predict that the peak of 2015′s Quadrantid meteor shower will occur at 9 p.m. EST on Jan. 3. “During this time, the radiant will be close to the northern horizon and there is a good chance of seeing…meteors coming in close to the horizon to the east and west.”

The radiant, however, is expected to rise higher in the northeastern sky, until more meteors become visible in the east. According to Gaherty, the best time to then observe the Quadrantids will be between midnight and 2 a.m. (some reports say dawn) in the Northern Hemisphere.

Unfortunately, the shooting stars may be hard to view because of an almost-full moon on Saturday, which will radiate its own impressive brightness. Still, NASA predicts that at the peak of the Quadrantid shower, approximately 80 meteors an hour will be released, which should be remarkable in its own right.

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The (Not So) Curious Case of Galaxy IC 335

January 2, 2015 / / 0 Comments

This odd-looking galaxy has recently become famous in the media, not for what it has but for what is missing!Excerpt from huffingtonpost.comA recent Hubble image of this galaxy shows it to be a star-filled galaxy with a flat shape not unlike our own M...

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Ballistic Capture Can Send Spacecraft to Mars at Cheaper Cost

December 23, 2014 / / 0 Comments

Ballistic capture could be used to reach Mars at a lower cost than current techniques. How does it work, and what are the drawbacks?Excerpt from techtimes.comBallistic capture is a navigational technique utilized by spacecraft, and has been successfu...

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Rosetta’s Comet Lander Will Revive After Bumpy Touchdown, Scientists Say

December 20, 2014 / / 0 Comments


Mosaic of four images taken by Rosetta's navigation camera (NAVCAM) on 10 December 2014 at 20.1 km from the centre of comet 67P/Churyumov-Gerasimenko.
The ESA comet lander Philae came to rest between two shadowed cliffs, limiting the sunlight hitting the lander's solar panels, but scientists hope the lander can be revived by February as more light arrives. This image of the comet's surface is a mosaic of four taken by Rosetta's navigation camera on December 10.

Hopes rise for reviving the hibernating lander's solar power as comet receives more sunlight.

Excerpt from news.nationalgeographic.com

SAN FRANCISCO—Fear not for Philae: The little lost lander could reawaken as soon as February, the Rosetta mission team said Wednesday. Increasing sunlight almost guarantees an end to the probe's current hibernation on a comet racing toward the sun.

The European Space Agency's $1.75-billion mission sent the lander to comet 67P/Churyumov-Gerasimenko on November 12 in an audacious, if bumpy, touchdown on the double-lobed comet. It was the first soft landing attempt on a comet.

The lander bounced after an anchoring harpoon failed to fire, turning initial elation to disappointment. After a two-hour bounce, Philae came to rest with one of its three feet planted on the comet and the others angled between two shadowed cliffs.

Those cliffs allow, for now, only 4 hours and 33 minutes of uninterrupted sunlight per day to the probe's solar panels, not enough to restart it. But the mission team announced at the American Geophysical Union meeting that more sunshine is on the way.

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How to Watch Tonight’s Explosive Geminids Meteor Shower

December 13, 2014 / / 0 Comments


How to Watch This Week's Big Ass Perseid Meteor Shower


pcmag.com


Thank you, tiny space rocks. Because of you, the entire population of planet Earth will be treated to one of 2014's most spectacular celestial displays. The Geminids meteor shower is the most active of the annual meteor showers—by a long shot—and it's just about to peak.

Tonight, the shower might produce as many as 120 meteors per hour (though back in 2011, the Geminids hit a peak rate of 198 meteors per hour). Compare this count to the second most abundant shower, the Perseids, which take place in late August and top out at around 60 meteors per hour.

Fireball
The annual December display is largely due to asteroid 3200 Phaethon, a three-mile wide chunk of rock that crosses the paths of all the inner rocky planets and travels closer to the sun than any other named asteroid. As ol' 3200 heats up close to the sun during its 1.5-year orbit, it expels materials and forms a trail much like a comet (indeed, it is sometimes referred to as a "rock comet"). But that's not the full story. Recent observations have shown that 3200 mostly expels dust as it is baked by the sun. And while this periodic "dusting" does help replenish the debris field, it's not enough material to account for all the Geminids' activity.

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How will the world end? From ‘demonic’ AI to nuclear war — seven scenarios that could end human race

December 8, 2014 / / 0 Comments




news.nationalpost.com 


Humanity may have already created its own nemesis, Professor Stephen Hawking warned last week. The Cambridge University physicist claimed that new developments in the field of artificial intelligence (AI) mean that within a few decades, computers thousands of times more powerful than in existence today may decide to usurp their creators and effectively end humanity’s 100,000-year dominance of Earth.
This Terminator scenario is taken seriously by many scientists and technologists. Before Prof. Hawking made his remarks, Elon Musk, the genius behind the Tesla electric car and PayPal, had stated that “with artificial intelligence, we are summoning the demon,” comparing it unfavourably with nuclear war as the most potent threat to humanity’s existence.
Aside from the rise of the machines, many potential threats have been identified to our species, our civilization, even our planet. To keep you awake at night, here are seven of the most plausible.
Getty Images / ThinkStock
Getty Images / ThinkStockAn artist's depiction of an asteroid approaching Earth.
1. ASTEROID STRIKE
Our solar system is littered with billions of pieces of debris, from the size of large boulders to objects hundreds of kilometres across. We know that, from time to time, these hit the Earth. Sixty-five-million years ago, an object – possibly a comet a few times larger than the one on which the Philae probe landed last month – hit the Mexican coast and triggered a global winter that wiped out the dinosaurs. In 1908, a smaller object hit a remote part of Siberia and devastated hundreds of square kilometres of forest. Last week, 100 scientists, including Lord Rees of Ludlow, the Astronomer Royal, called for the creation of a global warning system to alert us if a killer rock is on the way.
Probability: remote in our lifetime, but one day we will be hit.
Result: there has been no strike big enough to wipe out all life on Earth – an “extinction-level event” – for at least three billion years. But a dino-killer would certainly be the end of our civilization and possibly our species.
Warner Bros.
Warner Bros.When artificial intelligence becomes self-aware, there is a chance it will look something like this scene from Terminator 3.
2. ARTIFICIAL INTELLIGENCE
Prof. Hawking is not worried about armies of autonomous drones taking over the world, but something more subtle – and more sinister. Some technologists believe that an event they call the Singularity is only a few decades away. This is a point at which the combined networked computing power of the world’s AI systems begins a massive, runaway increase in capability – an explosion in machine intelligence. By then, we will probably have handed over control to most of our vital systems, from food distribution networks to power plants, sewage and water treatment works, and the global banking system. The machines could bring us to our knees without a shot being fired. And we cannot simply pull the plug, because they control the power supplies.

Probability: unknown, although computing power is doubling every 18 months. We do not know if machines can be conscious or “want” to do anything, and sceptics point out that the cleverest computers in existence are currently no brighter than cockroaches.
Result: if the web wakes up and wants to sweep us aside, we may have a fight on our hands (perhaps even something similar to the man vs. machines battle in the Terminator films). But it is unlikely that the machines will want to destroy the planet – they “live” here, too.
Handout/AFP/Getty Images
Handout/AFP/Getty ImagesLaboratory technicians and physicians work on samples during research on the evolving Ebola disease in bats, at the Center for Emerging and Zoonotic Diseases research Laboratory of the National Institute for Communicable Diseases in Pretoria on Nov. 21, 2011.
3. A GENETICALLY CREATED PLAGUE
This is possibly the most terrifying short-term threat because it is so plausible. The reason Ebola has not become a worldwide plague – and will not do so – is because it is so hard to transmit, and because it incapacitates and kills its victims so quickly. However, a modified version of the disease that can be transmitted through the air, or which allows its host to travel around for weeks, symptom-free, could kill many millions. It is unknown whether any terror group has the knowledge or facilities to do something like this, but it is chilling to realize that the main reason we understand Ebola so well is that its potential to be weaponized was quickly realized by defence experts.
Probability: someone will probably try it one day.
Result: potentially catastrophic. “Ordinary” infectious diseases such as avian-flu strains have the capability to wipe out hundreds of millions of people.
AP Photo/U.S. Army via Hiroshima Peace Memorial Museum
AP Photo/U.S. Army via Hiroshima Peace Memorial MuseumA mushroom cloud billows about one hour after a nuclear bomb was detonated above Hiroshima, Japan Aug. 6, 1945.
4. NUCLEAR WAR
This is still the most plausible “doomsday” scenario. Despite arms-limitations treaties, there are more than 15,000 nuclear warheads and bombs in existence – many more, in theory, than would be required to kill every human on Earth. Even a small nuclear war has the potential to cause widespread devastation. In 2011, a study by NASA scientists concluded that a limited atomic war between India and Pakistan involving just 100 Hiroshima-sized detonations would throw enough dust into the air to cause temperatures to drop more than 1.2C globally for a decade.
Probability: high. Nine states have nuclear weapons, and more want to join the club. The nuclear wannabes are not paragons of democracy.
Result: it is unlikely that even a global nuclear war between Russia and NATO would wipe us all out, but it would kill billions and wreck the world economy for a century. A regional war, we now know, could have effects far beyond the borders of the conflict.
CERN)/MCT
CERN)/MCTThis is one of the huge particle detectors in the Large Hadron Collider, a 17 mile-long tunnel under the French-Swiss border. Scientists are searching for evidence of what happened right after- and perhaps before- the Big Bang.
5. PARTICLE ACCELERATOR DISASTER
Before the Large Hadron Collider (LHC), the massive machine at CERN in Switzerland that detected the Higgs boson a couple of years ago, was switched on, there was a legal challenge from a German scientist called Otto Rossler, who claimed the atom-smasher could theoretically create a small black hole by mistake – which would then go on to eat the Earth.
The claim was absurd: the collisions in the LHC are far less energetic than those caused naturally by cosmic rays hitting the planet. But it is possible that, one day, a souped-up version of the LHC could create something that destroys the Earth – or even the universe – at the speed of light.
Probability: very low indeed.
Result: potentially devastating, but don’t bother cancelling the house insurance just yet.
AP Photo/Oculus Rift/Fox
AP Photo/Oculus Rift/FoxThis photo shows a scene fromX-Men: Days of Future Past virtual reality experience. Oxford University philosopher Nick Bostrom has speculated that our universe may be one of countless "simulations" running in some alien computer, much like a computer game.
6. ‘GOD’ REACHES FOR THE OFF-SWITCH
Many scientists have pointed out that there is something fishy about our universe. The physical constants – the numbers governing the fundamental forces and masses of nature – seem fine-tuned to allow life of some form to exist. The great physicist Sir Fred Hoyle once wondered if the universe might be a “put-up job”.
More recently, the Oxford University philosopher Nick Bostrom has speculated that our universe may be one of countless “simulations” running in some alien computer, much like a computer game. If so, we have to hope that the beings behind our fake universe are benign – and do not reach for the off-button should we start misbehaving.
Probability: according to Professor Bostrom’s calculations, if certain assumptions are made, there is a greater than 50% chance that our universe is not real. And the increasingly puzzling absence of any evidence of alien life may be indirect evidence that the universe is not what it seems.
Result: catastrophic, if the gamers turn against us. The only consolation is the knowledge that there is absolutely nothing we can do about it.
AP Photo/Charles Rex Arbogast
AP Photo/Charles Rex ArbogastFloodwaters from the Souris River surround homes near Minot State University in Minot, N.D. on June 27, 2011. Global warming is rapidly turning America the beautiful into America the stormy and dangerous, according to the National Climate Assessment report released Tuesday, May 6, 2014.
7. CLIMATE CATASTROPHE
Almost no serious scientists now doubt that human carbon emissions are having an effect on the planet’s climate. The latest report by the Intergovernmental Panel on Climate Change suggested that containing temperature rises to below 2C above the pre-industrial average is now unlikely, and that we face a future three or four degrees warmer than today.
This will not literally be the end of the world – but humanity will need all the resources at its disposal to cope with such a dramatic shift. Unfortunately, the effects of climate change will really start to kick in just at the point when the human population is expected to peak – at about nine billion by the middle of this century. Millions of people, mostly poor, face losing their homes to sea-level rises (by up to a metre or more by 2100) and shifting weather patterns may disrupt agriculture dramatically.
Probability: it is now almost certain that CO2 levels will keep rising to 600 parts per billion and beyond. It is equally certain that the climate will respond accordingly.
Result: catastrophic in some places, less so in others (including northern Europe, where temperature rises will be moderated by the Atlantic). The good news is that, unlike with most of the disasters here, we have a chance to do something about climate change now.

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NASA’s Orion Conquers Orbital Test as U.S. Budget Debate Looms

December 6, 2014 / / 0 Comments




Excerpt from
businessweek.com

The Orion spacecraft’s almost flawless debut flight set the stage for the National Aeronautics and Space Administration’s next challenge: finding the funding to carry humans to Mars in the 2030s. 
The Apollo-like capsule orbited Earth twice yesterday to test critical functions, a 4 1/2-hour trip for the first U.S. vehicle built to transport humans to space since the shuttle in 1981. Now NASA must find political allies to keep championing a program that has already cost $7.4 billion. 

The voyage, less than two months after a pair of disasters stunned the commercial space industry, helps bolster NASA’s case for its biggest-ever expedition. Spending over 20 years for a Mars mission would dwarf outlays for the $100 billion International Space Station, the most expensive structure ever built.

“We have a new Congress in January -- let’s see what happens,” said Henry Hertzfeld, research professor of space policy and international affairs at George Washington University. At the very least, “anytime you have a success like that on something new, it’s great.” 

The NASA exploration budget that finances Orion and a new heavy-lift rocket is one of the few non-defense budget accounts for which House Republicans have proposed an increase from President Barack Obama’s request for fiscal 2015, said Brian Friel, a government fiscal analyst with Bloomberg Intelligence.

Spending Projections

Spending would rise 5 percent to $4.17 billion under the House bill, while the Senate proposes a 10 percent increase to $4.37 billion, according to data compiled by Bloomberg. The largest beneficiaries from more spending would be Lockheed Martin Corp. (LMT:US), which manufactured the Orion, and Boeing Co. (BA:US), the contractor’s co-owner of the venture building the new rocket.

Orion is the first spaceship developed to carry humans beyond the moon, and later versions will be fine-tuned to travel to asteroids next decade and to Mars in the 2030s. NASA is targeting an Orion trip with astronauts by 2021. 

While Orion was among the top trending topics worldwide on Twitter.com, NASA’s new ambitions are unfolding amid a federal budget squeeze and the short attention spans of the social-media era, not the race-for-the-moon competition of the Cold War. 

At Kennedy Space Center in Cape Canaveral, Florida, where a Delta IV Heavy rocket carried Orion aloft, some of the weather-worn buildings displayed faded signs from news organizations that once camped out to chronicle the Apollo program. They were a reminder that interest in NASA diminished after the U.S. won the race to the moon.



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Mars Capsule Test Heralds New Space Age With Musk Alongside NASA

December 3, 2014 / / 0 Comments




Excerpt from
bloomberg.com

The U.S. is preparing to launch the first craft developed to fly humans to Mars, presaging a second space age -- this one fueled by billionaires like Elon Musk rather than a Cold War contest with the Soviet Union. 

An unmanned version of the Orion spaceship built by Lockheed Martin Corp. (LMT) is scheduled for liftoff tomorrow to an altitude of 3,600 miles (5,800 kilometers), the farthest from Earth by a vehicle designed for people since the Apollo program was scrapped in 1972. 

Entrepreneurs such as Musk and longtime contractors like Lockheed are helping shape the technology needed to find other homes for humanity in the solar system with an eye to one day commercializing their work. 

“These are really exciting times for space exploration and for our nation as we begin to return to the ability to fly humans to space,” said Jim Crocker, vice president and general manager of civil space at Lockheed Martin Space Systems. “What Orion is about is going further into space than humans have ever gone before.”
Photographer: Brent Lewis/The Denver Post via Getty Images

Launched from Kennedy Space Center in Florida atop a Delta IV rocket, the Orion capsule will test the riskiest systems needed to carry astronauts far beyond the moon, although its first flight will cover only about 2 percent of the 238,900-mile distance to the lunar surface.

Speed Limit

After orbiting earth twice, Orion will accelerate to 20,000 miles per hour during descent, mimicking the speeds of a craft returning from a mission to deep space. The capsule is supposed to make a parachute-cushioned splashdown in the Pacific Ocean off Mexico’s Baja peninsula. 

To explore the universe, the National Aeronautics and Space Administration must first redevelop capabilities abandoned more than 40 years ago when the U.S. shifted focus from Apollo’s lunar forays to rocketing crews a few hundred miles to low Earth orbit.
NASA has used Russian craft to reach the International Space Station since the space shuttle program ended in 2011. 

In a strategic shift, the Obama administration canceled plans to return to the moon, turning some flights to commercial companies while setting its sights -- and limited funds -- on pioneering deep space. The Orion capsule was originally commissioned in 2006 for the defunct Constellation program.

Musk, Bezos

Those moves paved the way for technology chieftains including Musk and Amazon.com Inc. (AMZN) founder Jeff Bezos to pursue their own space ambitions. 

Musk founded Hawthorne, California-based SpaceX in 2002 with the goal of enabling people to live on other planets, a massive endeavor that would require innovations such as reusable rocket stages to lower costs. 

Mars is also in focus for NASA as the space agency maps plans to “pioneer the space frontier,” according to a May 29 white paper.

$22 Billion

NASA proposes an initial $22 billion effort that includes two other Orion missions over the next eight years and building a powerful new rocket. The Delta IV being used tomorrow is manufactured by United Launch Alliance, a Lockheed-Boeing Co. (BA) venture.

A new Space Launch System rocket being developed by the partnership is slated to hoist the next Orion craft beyond the moon in fiscal 2018, Lockheed’s Crocker said in a phone interview. The first manned Orion mission is slated for early in the next decade.
NASA’s plans are “sketchy” beyond that, aside from broad goals to capture asteroid samples in the 2020s and reach Mars a decade later, said Marco Caceres, director of space studies with Fairfax, Virginia-based consultant Teal Group. 

Average Distance

While Mars’s distance from Earth varies because of the two planets’ orbits, the average is about 140 million miles, almost 600 times longer than a trip to the moon. It’s so far that radio communications take as long as 20 minutes to travel each way, according to Bill Hill, NASA’s deputy associate administrator for exploration systems development. 


Entrepreneurs such as Musk will have opportunities to get involved as NASA refines capsule and rocket designs. NASA plans to develop two larger rockets beyond the initial launch vehicle, which will be capable of hauling a 70-metric ton payload. 

“We’re not taking any options off the table,” Hill said. “We want to be sufficiently flexible so that if we find a new path, we can introduce it and not change course.” 

Expense, shifting political priorities and the lack of a clear NASA road map could still derail the latest effort as they did the Apollo program in the early 1970s, said Micah Walter-Range, director of research analysis with the Space Foundation, a non-profit organization based in Colorado Springs, Colorado. 

“All of the challenges that exist are surmountable,” Walter-Range said by phone. “It’s just a question of having the money to do it.”

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Welcoming the Era of In-Space Manufacturing

November 25, 2014 / / 0 Comments


Mike Snyder (right) and Jason Dunn of Made In Space get the company's 3D printer ready for its September 2014 launch toward the International Space Station. The machine printed its first part in orbit on Nov. 24, 2014.
Mike Snyder (right) and Jason Dunn of Made In Space get the company's 3D printer ready for its September 2014 launch toward the International Space Station. The machine pri

Excerpt from space.com

 Mike Snyder, lead engineer for the company Made In Space, which designed and built the 3D printer currently aboard the International Space Station, contributed this article to Space.com's Expert Voices: Op-Ed & Insights.

Human spaceflight reached an important milestone this week. An additive manufacturing device or 3D printer, was turned on, and initiated the first official 3D print on the International Space Station (ISS). 

The print took slightly more than an hour, and once it finished, the world changed. At the Made In Space Operations Center in Moffett Field, California, the rest of the team and I had the ability to command the printer and see inside it as the machine received and executed our commands. For the first time, humans demonstrated the ability to manufacture while in space. At this moment, if the space station absolutely needs a part that the 3D printer can build, I can start producing the part onboard the ISS within minutes — from my chair in California. 


The ability to deliver components on demand without the need of a launch vehicle can redefine how space-mission strategies work. Before last week, every object that humans have ever put in space was launched there and not made in space. Of course, many experiments and efforts have been able to form items such as crystalline structures and latex spheres, as well as assembly-type construction. 3D printing is completely different. This capability does more than just build predetermined articles that were designed months or years before launch. The 3D printer can build files that are created after launch and sent to orbit when needed.

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Comet lander: Camera sees Philae’s hairy landing

November 18, 2014 / / 0 Comments

This collection of images was acquired when Rosetta was about 15km above the surface of 67P  Excerpt from bbc.com By Jonathan Amos Science correspondent, BBC NewsHigh-resolution pictures have now been released of the Philae pr...

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Rosetta Mission: European Space Agency Scientists Worry Philae Probe Is Running Out of Battery Power

November 14, 2014 / / 0 Comments


Philae lander harpooned into comet

Excerpt from online.wsj.com

By Gautam Naik & Robert Wall

Situation Could Mean Early End for Important Experiments on Comet 


Scientists at the European Space Agency fear that the Philae probe now sitting on a comet’s surface may be on the verge of running out of battery power, a scenario that could bring key scientific experiments to a premature end.

The researchers will only know whether the primary batteries have drained or not late Friday, when they try to re-establish a radio link to the probe via Rosetta, a spacecraft in orbit around the comet. The probe and Rosetta can typically communicate twice a day because at other times the orbiter is below the horizon and can’t establish a direct signal.

Scientists are hoping to get contact around 10 p.m. German time, said Stephan Ulamec, who oversees operation for the lander. But if Philae fails to send a signal, he added, it would mean the battery had run out of juice.

The plan was for Philae to do scientific experiments for an initial 2 ½ days on primary battery power and then switch to solar panels that would keep it ticking for another three months. But because of an awkward landing near the face of cliff, the probe’s solar panels are being exposed to far less sunlight than was expected.

Despite the hitch, Philae has already done a significant amount of science on its new home. Its 10 instruments have so far garnered between 80%-90% of the data they were designed to collect, according to Dr. Ulamec.

It has beamed back detailed photographs of the comet’s rough terrain, analyzed the gases, and taken the comet’s temperature. It is now using radio waves to probe the comet’s nucleus and searching for organic molecules on the hostile surface.

Anticipating a possible loss of battery power, ESA scientists activated a drill during their last contact with the lander. The machine is designed to dig up the comet’s subsurface material and rotate it through an onboard oven to investigate its components. 

There may still be a way to extend Philae’s working life. During every 12-hour rotation of the comet, one of the lander’s solar panels is now exposed to an hour and 20 minutes of sunlight, while two other panels get the sun for less than 30 minutes each. 

Provided the signal to Philae can be re-established, scientists said they could rotate the lander slightly so that one of its larger solar panels can catch more sunlight. Another option is to eject the probe from its current location in the hope it lands in a spot where there is more sun.

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