Previous "ring of fire" annular eclipse event (NASA)
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As the eclipse is happening, we’ll try to dig up every online source we can find. Here’s what we’ve got so far.
Can’t see tonight’s annular eclipse from your location? It’s ok, you can watch it here live in a feed provided by the U.S. Department of the Interior! The video (posted after the jump) will be broadcast from Petroglyph National Monument in Albuquerque, NM, beginning at 9:00 p.m. Eastern / 6:00 p.m. Pacific.
Petroglyph National Monument will be a prime location for the May 20 annular eclipse in the U.S. (NPS)
National Park Service photographers will be taking photos from many other locations as well, you can find out more on the USDOI site here.
(If the above feed is blank, they may have reached capacity. Visit the feed directly here.)
A beautiful crescent Venus on May 14, 2012. Credit: John Chumack.
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Named after the Roman goddess of love and beauty, Venus has never looked more gorgeous! Prolific and accomplished astrophotographer John Chumack captured this shot of a crescent Venus on May 14, 2012 as it moves in for a transit of the Sun. Just 14% of Venus’ face was illuminated, 22 Days before the June 5th Transit of Venus across the Sun. John used a DMK 21AF04 fire-wire Camera, 2x Barlow, & 10″ SCT telescope, and used 950 frames stacked to create this image. Thanks to John for sharing his image; see more of his work at his website, Galactic Images.
Want to get your astrophoto featured on Universe Today? Join our Flickr group, post in our Forum 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.
A team of SpaceX engineers diligently assess the cause of the May 19 launch abort for the Falcon 9 rocket poised at Pad 40 on Cape Canaveral Air Force Station. Repairs to a malfunctioning rocket engine are now underway. Credit: Ken Kremer
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Today’s (May 19) historic launch of the first ever privately developed rocket bound for the International Space Station (ISS) was very surprisingly aborted at the last second when an engine glitch forced a dramatic shutdown of the Falcon 9 rockets 1st stage firing already in progress and as the NASA launch commentator was in the middle of announcing liftoff.
SpaceX and NASA are now targeting liftoff of the mission dubbed COTS 2, for Tuesday, May 22 at 3:44 AM EDT from Space Launch Complex-40 on Cape Canaveral Air Force Station in Florida. There is another launch opportunity on May 23.
Later today, SpaceX engineers determined that a faulty valve caused the engine abort failure. They are now in a race against time to complete all the repair work and mandatory assurance testing required in order to be ready to achieve the new May 22 launch date.
The Falcon 9 rocket was designed and developed by SpaceX and the first stage is powered by nine Merlin 1 C engines. As the countdown clock ticked down to T-minus zero, all nine engines ignited. But engine #5 suddenly developed a “high chamber pressure” and computers instantaneously ordered a shutdown of thrust generation by all nine engines just 0.5 seconds from liftoff and the rocket therefore never left the pad, said SpaceX President Gwynne Shotwell at a briefing for reporters.
“We’ve had a cutoff,” announced NASA launch commentator George Diller. “Liftoff did not occur. We’ve had a launch abort. Standing by.”
After draining the explosive propellants, SpaceX engineers began inspecting the engines later today within hours of the aborted liftoff to determine the cause of the rocket engine malfunction.
“This is not a failure,” Shotwell told reporters at a post scrub media briefing. “We aborted with purpose. It would have been a failure if we lifted off with an engine trending in this direction.”
SpaceX may have caught a lucky break by being able to fix the rocket at the pad instead of a time consuming engine changout. Shotwell said that one possibility was to roll the Falcon 9 rocket back into the processing hangar and swap out the engine with a new one.
This evening SpaceX announced they had determined the cause of the engine failure.
“Today’s launch was aborted when the flight computer detected slightly high pressure in the engine 5 combustion chamber, said SpaceX spokeswoman Kirstin Grantham. “We have discovered root cause and repairs are underway.”
SpaceX Falcon 9 engines ignite and shutdown at T Minus 0.5 seconds during May 19, 2012 launch abort at Pad 40 at Cape Canaveral Air Force Station in Florida.
Credit: Ken Kremer/www.kenkremer.com
“During rigorous inspections of the engine, SpaceX engineers discovered a faulty check valve on the Merlin engine. We are now in the process of replacing the failed valve. Those repairs should be complete tonight. We will continue to review data on Sunday. If things look good, we will be ready to attempt to launch on Tuesday, May 22nd at 3:44 AM Eastern.”
The purpose of Dragon is to carry some 1200 pounds of supplies up to orbit and dock at the ISS and partially replace the capabilities of NASA’s now retired space shuttle.
SpaceX Falcon 9 launch abort on May 19, 2012 at Pad 40 at Cape Canaveral Air Force Station in Florida. Credit: Jeff Seibert
SpaceX is under contract with NASA to conduct twelve resupply missions to carry about 44,000 pounds of cargo to the ISS for a cost of some $1.6 Billion.
Design of an XCOR Lynx spacecraft (XCOR Aerospace)
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The United States Rocket Academy has announced an open call for entries in its High Altitude Astrobiology Challenge, a citizen science project that will attempt to collect samples of microbes that may be lurking in Earth’s atmosphere at the edge of space.
Earth’s biosphere has been discovered to extend much higher than once thought — up to 100,000 feet (30,480 meters) above the planet’s surface. Any microorganisms present at these high altitudes could be subject to the mutating effects of increased radiation and transported around the globe in a sort of pathogenic jet-stream.
What sort of microbes may exist at the upper reaches of the atmosphere?
Citizens in Space, a project run by the U.S. Rocket Academy, is offering a $10,000 prize for the development of an open-source and replicable collection device that could successfully retrieve samples of high-altitude microorganisms, and could fly as a payload aboard an XCOR Lynx spacecraft.
XCOR Aerospace is a private California-based company that has developed the Lynx, a reusable launch vehicle that has suborbital flight capabilities. Low-speed test flights are expected to commence later this year, with incremental testing to take place over the following months.
Any proposed microbe collection devices would have to fit within the parameters of the Lynx’s 2kg Aft Cowling Port payload capabilities — preferably a 10 x 10 x 20 cm CubeSat volume — and provide solutions for either its retraction (in the case of extended components) or retrieval (in the case of ejected hardware.)
The contest is open to any US resident or non-government team or organization, and submissions are due by February 13, 2013. The chosen design will fly on 10 contracted Lynx flights in late 2013 or early 2014, and possibly even future missions.
Just as the Lyrid Meteor Shower was peaking on April 21, 2012, astronaut Don Pettit captured this incredible timelapse sequence from the International Space Station. Of course you can see the familiar view of cities sweeping beneath the station as it orbits the Earth, but if you watch carefully, you can see the bright flashes of meteors burning up in the Earth’s atmosphere. The timelapse was made up of 310 individual frames captured during that evening, which were then stitched together into a single video.
Screenshot from NASA TV of the Falcon 9 rocket after a final-second launch abort.
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SpaceX’s attempt to launch their Falcon 9 rocket with the Dragon spacecraft was aborted by the computer at T-0 due to a high pressure reading on engine 5 of the first stage. The rocket’s nine main engines were ignited, but were automaticalaly shut down before liftoff. The vehicle was safed with no apparent other issues. SpaceX and NASA are now looking at the next launch window, which is on Tuesday, May 22 at 0744 UTC, 3:44 EDT. Computer checks all launch components just prior to launch, which is an extra safety feature of the Falcon 9, so the good part of the abort is knowing that all the systems worked as designed to prevent a liftoff that wasn’t within the designed parameters. Since this is a test flight, the SpaceX team likely thinks of this a successful launch abort as opposed to a failed launch.
See the video below:
“I have watched and participated in more scrubs of the shuttle than I would have liked, but it’s just part of the launch business,” said Michael Lopez-Alegria, former shuttle and ISS astronaut and President of the Commercial Space Federation. “I was extremely impressed with professionalism displayed by the SpaceX launch team in the moments after the scrub to safe the vehicle. We will have to wait for the team to perform the technical analysis of what caused the apparent high pressure in one of the engine’s combustion chambers and for SpaceX and NASA to decide when the next attempt will occur. This is not the outcome we were hoping for, but far better to detect and react to the problem while still in the pad than to have to deal with it in flight.”
When launched, Dragon will be the first commercial spacecraft to go to the International Space Station for cargo resupply.
We’ll have more details later, as SpaceX and NASA will have a press briefing later this morning.
SpaceX Falcon 9 rocket poised at Pad 40 on Cape Canaveral Air Force Station for liftoff early on Saturday, May 19. Credit: Ken Kremer
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The SpaceX Falcon 9 rocket is now poised at the launch pad and set to open a completely new era in spaceflight. Hopes are sky high that Saturday mornings Falcon 9 launch represents the dawn of the commercial era in spaceflight akin to the startup of the commercial airline industry early in the 20th Century and will lead eventually lead to a vast expansion in the exploration and exploitation of space.
Engineers moved the rocket on rails last night about 600 feet from the processing hangar out to the launch pad at Space Launch Complex-40 on Cape Canaveral Air Force Station in Florida and then raised it to the vertical launch position. See my photos here of the Falcon 9 taken less than 24 hours from the planned liftoff
Falcon 9 rocket is slated to lift off 4:55 a.m. EDT (0855 GMT). Credit: Ken Kremer
The mission is designated COTS 2 and entails the first ever attempt by a commercial firm to dock at the International Space Station, a feat heretofore only accomplished by sovereign nations.
The 157 foot tall Falcon 9 is topped by the Dragon spacecraft also developed by SpaceX and slated to liftoff at 4:55 a.m. EDT (0855 GMT).
The high stakes mission is billed as a test flight and could be viewed by powerful Washington lawmakers as a boon or bust to the burgeoning commercial space industry.
Artist concept of the curious events going at the star named KIC 12557548. Credit: MIT
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The old saying of the universe being stranger than we can imagine definitely applies to a newfound exoplanet orbiting a star about 1,500 light years from Earth. Researchers using the Kepler space observatory have detected what appears to be a planet about the size of Mercury literally turning to dust. A long tail of debris — almost like a comet’s tail — is following the planet as it whirls around the star, KIC 12557548. Scientists think the planet could be evaporating under the blistering heat of the star, and that by analyzing the dust, they could decipher the history of the planet. But they better hurry. According to the team’s calculations, the planet will completely disintegrate within 100 million years.
“This might be another way in which planets are eventually doomed,” said Dan Fabrycky, a member of the Kepler Observatory science team.
Besides finding such an unusual planet, this is another leap forward for teams using Kepler data, being able to detect such a small planet orbiting so close to its parent star. The orbital period is 15 hours — one of the shortest planet orbits ever observed. The research team initially saw strange patterns of light from the star, and in examining the star’s light curves, they found the light dropped by different intensities every 15 hours — suggesting that something was blocking the star regularly, but by varying degrees.
The team considered that there might be a planetary duo — two planets orbiting each other — where their orbits would block out different amounts of light during each eclipse, but the data failed to support this hypothesis.
Instead, the researchers came up with a novel hypothesis: that the varying intensities of light were caused by a somewhat amorphous, shape-shifting body.
In looking at the short orbit, they realized the planet must be heated by its orange-hot parent star to a temperature of about 1,982 degrees Celsius (3,600 degrees Fahrenheit.)
Researchers hypothesize that rocky material at the surface of the planet melts and evaporates at such high temperatures, forming a wind that carries both gas and dust into space. Dense clouds of the dust trail the planet as it speeds around its star.
“It had to be something that was fundamentally changing,” said co-author Saul Rappaport, a professor emeritus of physics at MIT. “It was not a solid body, but rather, dust coming off the planet. We think this dust is made up of submicron-sized particles.”
Rappaport says there are two possible explanations for how the planetary dust might form: It might erupt as ash from surface volcanoes, or it could form from metals that are vaporized by high temperatures and then condense into dust. As for how much dust is spewed from the planet, the team showed that the planet could lose enough dust to explain the Kepler data. From their calculations, the researchers concluded that at such a rate, the planet will eventually completely disintegrate.
The researchers created a model of the planet orbiting its star, along with its long, trailing cloud of dust. The dust was densest immediately surrounding the planet, thinning out as it trailed away. The group simulated the star’s brightness as the planet and its dust cloud passed by, and found that the light patterns matched the irregular light curves taken from the Kepler Observatory.
“We’re actually now very happy about the asymmetry in the eclipse profile,” Rappaport says. “At first we didn’t understand this picture. But once we developed this theory, we realized this dust tail has to be here. If it’s not, this picture is wrong.”
“A lot of research has come to the conclusion that planets are not eternal objects,” said Fabrycky. “They can die extraordinary deaths, and this might be a case where the planet might evaporate entirely in the future.”
Falcon 9 on the launchpad in Florida. Credit: SpaceX
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Saturday morning’s launch window for SpaceX’s historic test flight to the International Space Station lasts just one second. Company President Gwynne Shotwell predicted they have “better than a 50-50 shot on whether we lift off tomorrow,” she said at a press conference today, adding, “If we lift off, we’ll get to orbit.”
Shotwell and NASA officials outlined a myriad of systems and activities that have to go perfectly for the launch take place, and then it will be non-stop action for the duration of the flight to orbit and ultimately the berthing of Dragon to the ISS.
Launch is set for 08:55 UTC on May 19 (4:55 AM Eastern/1:15 AM Pacific.) Here’s a timeline of activities so you can follow along while you watch the launch:
08:45 UTC: The Terminal Count begins at T-10 minutes before launch
08:52:30 (T-00:02:30) SpaceX Launch Director verifies GO
T-00:00:03 Engine controller commands engine ignition sequence to start
09:04:34 (T+0:09:35) Dragon separates from Falcon 9 and initializes its propulsion system.
09:06:30 (T+0:11:30) Deploy solar array
09:08 (T+0:13) On-Orbit Operations begin
Shotwell said that 2 hours and 26 minutes into the flight is the Guidance Navigation and Control (GNC) door is opened on the exterior of the capsule. “This is a key new feature for this mission, which basically exposes the Proximity Operations Sensors to space so we can see the ISS as we are approaching and allow us to get close enough to berth,” Shotwell explained. “Our star trackers also get a view of space at this time, so this is a very critical operation”
The first 24 hours into the flight, Dragon will be catching up or phasing with the ISS. On Flight Day 2 at about 40 hours into the flight, Dragon will the ISS and do a “flyunder” of the station and for about 10 hours, do some maneuvers to demonstrate the ability to stationkeep and fly about the ISS, all the while in contact with the space station and Mission Control. There will be a relative GPS demonstration, and the “critical operations and tests we need to execute and show NASA the data so that we can show them everything is working,” Shotwell said.
Then, Dragon will perform a re-rendezvous with a flyunder of about 2.5 kilometers below the station, then maniever in front of the station, raise up and go back around.
The Cupola of the ISS setup for Dragon capture. Credit: NASA/Don Pettit
Don Pettit and Andre Kuipers will be working Canadarm2 on the station, and will grapple Dragon on May 22, berthing it to the Harmony node.
If there are any problems, NASA, SpaceX and the crew on the ISS has the ability to call an abort, or Dragon could autonomously abort.
But everyone is hoping for smooth sailing.
Artist concept of Dragon berthing to the ISS. Credit: NASA
“By hour 75, if all is going well, we should be berthed to the station, which should be really great,” Shotwell said. “I know everyone at SpaceX is excited for this mission.”
The SpaceX launch webcast is scheduled for 1:15 AM Pacific / 4:15 AM Eastern / 08:15 UTC on May 19 at the SpaceX website, or you can watch on NASA TV starting at 08:30 UTC.
Right now the weather looks favorable for launch. If SpaceX can’t launch on the 19th, they can try again On May 22, 25th and 29th, which provide good launch opportunities. Other less than optimal dates for launch are the 23rd, 26th, and then the ISS enters into a period of high beta angle of the Sun, where there would be excessive heat surrounding the station, so the 29th of May is last date for awhile that SpaceX could launch Dragon.
SpaceX's Falcon on the pad on May 18 (via Spaceflight Now)
With less than a day left before SpaceX’s historic launch of the first commercial vehicle to the ISS, slated for 4:55 am EDT on Saturday, May 19, here’s a video of what will happen once the Falcon lifts off.
(Part of me really wishes that they’ll be pumping out some dramatic music when it launches!)
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The video, created by NASA in 2011, shows the events that will take place from the initial launch at SpaceX’s Cape Canaveral facility to the release of the Dragon capsule and its eventual docking with the ISS on Tuesday, as well as its return to Earth (yes, it’s reusable!)
The Dragon capsule contains 674 lbs (305 kg) of food and supplies for the Expedition 31 crew.
In addition to what’s aboard Dragon, the Falcon rocket will also be taking the cremated remains of 308 people — including Star Trek actor James Doohan and NASA astronaut Gordon Cooper — into space, via a private company called Celestis.
