Elizabeth Howell is the senior writer at Universe Today. She also works for Space.com, Space Exploration Network, the NASA Lunar Science Institute, NASA Astrobiology Magazine and LiveScience, among others. Career highlights include watching three shuttle launches, and going on a two-week simulated Mars expedition in rural Utah. You can follow her on Twitter @howellspace or contact her at her website.
Aerial view of Nördlinger Ries crater in Germany, a formation so subtle it was not even known as an impact crater until the 1960s. Credit: Credit: Jesse Allen/NASA/GSFC/METI/ERSDAC/JAROS/ASTER
Could life thrive in the devastated rock left behind after a meteorite impact? A new study hints that possibly, that could be the case. Researchers discovered what they think are geological records of biological activity inside of Nördlinger Ries, a crater in Germany that is about 15 miles (24 kilometers) wide.
What the researchers say could be microbial trace fossils — specifically, tiny “tubular features” — were spotted inside the impact glass created after the meteorite impact melted the surrounding rock. These features are tiny — one-millionth to three-millionths of a meter in diameter — and were examined with spectroscopy and scanning electron microscopy to confirm the findings, the team stated.
“The simplest and most consistent explanation of the data is that biological activity played a role in the formation of the tubular textures in the Ries glasses, likely during post-impact hydrothermal activity,” stated post-doctoral fellow Haley Sapers, a post-doctoral scholar at the University of Western Ontario who led the research.
The researchers suggest that on other planets, looking in impact glass might be a good spot to search for tubular features such as the ones they found. The findings are peer-reviewed, but we’ll be interested to see what independent research teams make of the data collected.
The Zambezi River in Namibia floods the Caprivi plain in this picture captured from Sentinel-1A. The satellite was not only noted for its high resolution of the flood, but its ability to send the image quickly -- it was downloaded only two hours after it was acquired. Credit: European Space Agency
After dodging space debris and living to tell the tale, Sentinel-1A is now being put through its paces for its primary mission: to beam back pictures of the Earth as quickly as possible, to provide officials with the information they need during natural disasters or weather events.
The picture above gives a taste of what the European satellite will do when it’s fully commissioned. The picture of flooding in Namibia was downloaded only two hours after acquisition and then made available generally less than an hour after that, the European Space Agency said. Not only that, believe it or not — the view was socked in by cloud when the image was taken.
“Sentinel-1A’s ability to ‘see’ through cloud and rain and in pitch darkness make it particularly useful for monitoring floods and for offering images for emergency response,” the European Space Agency stated. “In fact, this area of the Caprivi plain was shrouded in thick cloud when the satellite acquired the image on 13 April.”
The satellite can also monitor long-term but serious weather events such as climate change, as the picture below of Pine Island Glacier shows.
The northern part of the Antarctic Peninsula as seen from Sentinel-1 on April 13, 2014. Credit: ESA
“As well as monitoring glaciers, Sentinel-1A is poised to generate timely maps of sea-ice conditions, particularly for the increasingly busy Arctic waters,” ESA stated. “Images from its advanced radar can be used to distinguish clearly between the thinner more navigable first-year ice and the hazardous, much thicker multiyear ice to help assure safe year-round navigation in polar waters.”
"Back on ISS, life is good," wrote NASA astronaut Steve Swanson on April 7, 2014 in the first Instagram from space. Swanson is wearing a T-shirt from the TV space show 'Firefly' that says "Shipping & Logistics: Everything's Shiny" around a smaller circle reading "Serenity: Est. 2459." Credit: NASA/Instagram
And now, time for some thrilling heroics. NASA astronaut Steve Swanson sent out the first Instagram from space last week wearing none other than a Firefly T-shirt. There’s something to be said about a space-faring guy evoking images of Captain Mal doing the impossible in the plucky Serenity spaceship, isn’t there?
We’re happy the epicness did not break NASA’s Instagram feed, as Swanson has been sending out pictures regularly since then showing the view from orbit (he joked about wanting a vacation at one point) as well as another selfie. You can check out the magic below, and follow the rest on NASA’s Instagram feed. We’ve copied and pasted Swanson’s captions below each image.
During Swanson’s first mission to space in 2007, STS-117, he brought with him the DVD set of Firefly and its movie spinoff, Serenity, and left it on the International Space Station library, according to collectSPACE.
Oh, and social media from space is also being covered on Twitter, via Expedition 39 NASA astronaut Rick Mastracchio and Koichi Wakata, from the Japan Aerospace Exploration Agency.
“The Turks and Caicos islands – I think I need to go there after this mission.” – Swanny #exp39 #earth #iss #international #space #station #nasa #vacation #earthrightnow
“Blood, sweat, but hopefully no tears.” – Swanny #nasa #iss #exp39 #international #space #station #blood #sweat #tears #medical
“Cape Canaveral – looking forward to when the US launches out of here again.” – Swanny #iss #exp39 #earth #florida #capecanaveral #international #space #station #launch #atlantic #coast #nasa
Two 3-D replicas of a glove worn by European Space Agency astronaut Hans Schlegel. The one on right is lifesize and the other at one-tenth scale. The models were created "using fused deposition modelling of thermoplastic", ESA stated, at a mechanical workshop at the Netherlands' European Space Research and Technology Centre. Credit: ESA-Anneke Le Floc'h
Star Trek replicators, here we come. The European Space Agency has released a list of how 3-D printing could change space exploration forever. And lest you think this type of printing is far in the future, images like those disembodied hands above show you it’s come a long way. Those are 3-D replicas of a glove worn by European Space Agency astronaut Hans Schlegal.
The applications range from the small — making lighter valves, for example — to ambitious projects such as constructing a moon base. Below are some ESA images showing uses for 3-D printing, and if they’ve missed some, be sure to let us know in the comments.
Two valves — which is the 3-D printed one? It’s the one on the right. The original (left) is a water on-off valve (Woov) flown on the European Space Agency’s Columbus module on the International Space Station. The replica is 40 percent less massive. Credit: ESAArtist’s conception of a lunar dome based on 3-D printing. Credit: ESA/Foster + PartnersA 3-D printed showerhead injector that apparently saves on time in the normal manufacturing process: usually it takes “more than 100 separate welds to produce”, according to the European Space Agency. The holes, however, are made by secondary processing. Credit: ESAA closeup of a titanium lattice ball made using a 3-D printer. According to the European Space Agency, the hollow spheres have a “complex external geometry” that cannot be made with the usual manufacturing processes. Credit: ESA
While people across North America marvelled at the blood-red moon early this morning, some NASA engineers had a different topic on their minds: making sure the Lunar Reconnaissance Orbiter would survive the period of extended shadow during the eclipse.
LRO uses solar panels to get energy for its batteries, so for two passes through the Earth’s shadow it would not be able to get any sunlight at all. Tweets on the official account show all as well in the first few hours after the eclipse.
“The spacecraft will be going straight from the moon’s shadow to the Earth’s shadow while it orbits during the eclipse,” stated Noah Petro, LRO’s deputy project scientist at NASA’s Goddard Space Flight Center, in a release before the eclipse occurred.
“We’re taking precautions to make sure everything is fine,” Petro added. “We’re turning off the instruments and will monitor the spacecraft every few hours when it’s visible from Earth.”
LRO’s Twitter account asked “Who turned off the heat and lights?” during the eclipse, then reported a happy acquisition of signal after the shadow passed by. “AOS, and sunlight, sweet sunlight! My batteries are charging again before I make another trip to the lunar far side.”
Hear more about LRO’s eclipse journey in the video below. For more information, check out NASA’s LRO website. UPDATE, 10:28 a.m. EDT: NASA’s Lunar Atmosphere and Dust Environment Explorer (LADEE) spacecraft also is fine after the eclipse, according to its Twitter account.
Artist's conception of a gamma-ray pulsar. Gamma rays are shown in purple, and radio radiation in green. Credit: NASA/Fermi/Cruz de Wilde
Pulsars — those supernova leftovers that are incredibly dense and spin very fast — may change their speed due to activity of billions of vortices in the fluid beneath their surface, a new study says.
The work is based on a combination of research and modelling and looks at the Crab Nebula pulsar, which has periodic slowdowns in its rotation of at least 0.055 nanoseconds. Occasionally, the Crab and other pulsars see their spins speed up in an event called a “glitch”. Luckily for astronomers, there is a wealth of data on Crab because the Jodrell Bank Observatory in the United Kingdom looked at it almost daily for the last 29 years.
A glitch, the astronomers said in a statement, is “caused by the unpinning and displacement of vortices that connect the [pulsar’s] crust with the mixture of particles containing superfluid neutrons beneath the crust.”
“Surprisingly, no one tried to determine a lower limit to glitch size before. Many assumed that the smallest glitch would be caused by a single vortex unpinning. The smallest glitch is clearly much larger than we expected,” stated Danai Antonopoulou from the University of Amsterdam.
The astronomers added they will need more observations of other pulsars to better understand the results.
NASA astronaut Scott Kelly during Expedition 25 in 2010, floating with a bag of candy in the Unity node of the International Space Station. Credit: NASA
When planning for long-duration space travel, many people would think along the lines of not forgetting a towel or something of that nature. But we on Earth who are spoiled by the astounding pictures beamed from space must realize that even astronauts can get tired of looking at the same few walls for months at a time.
Scott Kelly is going to spend a year in space in 2015, and he highlighted boredom as one of the things he will need to fight against during his time on the International Space Station.
“There are things I will do a little bit differently with regards to pacing myself. You wouldn’t think this is true, but you do have to kind of stay entertained over that kind of period,” said Scott Kelly in a NASA interview late last week, which you can watch above.
“No matter how exciting that kind of things is, no matter how beautiful the Earth is, when you’re doing it for a year there is still the factor of trying to keep yourself engaged and interested.”
Kelly also highlighted some of the training challenges he will face being that he will be up there twice as long as the typical six-month space station mission. While it won’t take twice as long to do emergency training, he is required to do it with twice as many astronauts/cosmonauts because he will be working with four crews in space.
He also will train with two different Soyuz spacecraft commanders (which will add “complexity”, he noted) and have twice as much science to perform. That includes several “twin” studies where scientists will compare Kelly and his identical brother Mark, a four-time shuttle flyer who retired from the program in 2011.
Another lesson learned from his last six-month flight in 2010? “I know what I want to bring this time that I didn’t have last time,” Kelly said, although he didn’t elaborate on what those items are.
Kelly and Russian cosmonaut Mikhail Kornienko will begin their mission just under one year from now.
NASA astronaut Greg Chamitoff during a 2011 spacewalk on the International Space Station. Reflected in his visor is NASA crewmate Mike Fincke. Both astronauts were mission specialists aboard shuttle mission STS-134. Credit: NASA
As contingency spacewalks go, the urgent task should be easy: a quick 2.5-hour run to swap out a failed backup computer that controls several systems on the International Space Station, including robotics. But NASA doesn’t want to go ahead with it until spare spacesuit parts arrive, in the aftermath of a life-threatening suit leak that took place last summer.
Those parts are on board the much-delayed SpaceX Dragon spacecraft sitting on a launch pad waiting for its next window to open. For this and other reasons, NASA decided to move ahead with the launch as planned Monday at 4:58 p.m. EDT (8:58 p.m. UTC). The spacewalk would take place April 22 — if Dragon gets there as planned on Wednesday.
“We need to get it [Dragon] on board as soon as we practically can,” said Mike Suffredini, the International Space Station’s program manager, in a phone briefing with reporters Sunday (April 13). That’s because Dragon is carrying a new spacesuit, components to fix an existing spacesuit, critical research experiments and food for the six crew members of Expedition 39.
The challenge, however, is making sure the station could be ready even if the primary multiplexer demultiplexer (MDM) fails before spacewalkers can make the backup replacement. There are more than a dozen MDMs on station, but each one controls different functions. This primary MDM not only controls a robotics mobile transporter, but also radiators and a joint to move the station’s solar arrays, among other things. The computer sits on the S0 truss on station, which you can view in the diagram below.
A diagram of the truss segments on the International Space Station. Click for a larger version. Screenshot of p. 3 of this PDF document: http://www.nasa.gov/pdf/167129main_Systems.pdf. Credit: NASA
“The biggest driver for us is the positioning of the solar arrays as we look to the next failure,” Suffredini said. NASA needs to reposition the arrays when a vehicle approaches because plumes from the thrusters can put extra “loads” or electrical power on the system.
At the same time, enough power must flow to the station for it to operate. Luckily, the angle of the sun is such these days that the array can sit in the same spot for a while, at least two to three weeks, Suffredini said. NASA configured the station so that even if the primary computer fails, the array will automatically position correctly.
NASA also will move a mobile transporter on station today so that the station’s robotic arm is ready to grasp the Dragon when it arrives, meaning that even if the primary computer fails the transporter will be in the right spot. If Dragon is delayed again, the next launch opportunity is April 18 and the spacewalk would be pushed back.
Dragon’s precious payload of items includes several intended to make NASA spacewalks safer. The suit leak was due to contamination in the fan pump separator of Suit 3011 that plugged a tiny hole inside the water separation part of the unit. Water then escaped and got into the helmet, causing a near-emergency for Luca Parmitano — who was using the spacesuit in July.
European Space Agency astronaut Luca Parmitano on a spacewalk July 9, 2016 during Expedition 36. Here, Parmitano is riding the end of the robotic Canadarm2. Credit: NASA
NASA installed snorkels and absorbent helmet pads into its spacesuits while awaiting the results of an investigation, and also pushing back all nonessential spacewalks. The agency now has recommendations in hand and is addressing those with the hope of resuming non-contingency spacewalks this summer.
Today, Suffredini also provided an update on what the contamination was. “The anomaly was the result of contamination introduced by filters essentially used to clean and scrub the water loops for us,” he said.
“Those introduced large amounts of silica into the system, and that silica eventually coagulates in the area of the fan pump sep [separator] and after many uses, it eventually can build up to the point where it plugs the holes and you can’t separate the water from the air.”
The next spacewalk will use Suit 3011 (which got a new fan pump separator for contingency spacewalks in December) and Suit 3005, which will use the new separator on board Dragon. The cooling lines on spacesuits on board station have been purged with fresh water to reduce the silica buildup, and astronauts will use new filters that they know are clean.
Expedition 15’s Clay Anderson (on Canadarm2) and STS-118’s Rick Mastracchio (right) during an August 2007 maintenance spacewalk on the International Space Station. The NASA astronauts relocated an S-Band antenna subassembly, installed a new transponder and retrieved another transponder. Credit: NASA
If for some reason Suit 3005 can’t be used, Suffredini added, the new suit could be put in place instead after some testing to make sure it’s ready. “We’re in a very good posture for the EVA [extra-vehicular activity],” Suffredini said.
NASA hasn’t decided who will go on the spacewalks yet, he added. There are at least two or three spare MDMs on station; the one needed for this particular spacewalk is inside the U.S. Destiny laboratory, which is handily right next to the S0 truss and spacesuit worksite.
Of the “big 12” repair jobs the astronauts train for, the MDM replacement is among the easiest, Suffredini said, adding astronauts never encountered an external MDM failure on station before.
The last set of contingency spacewalks took place in December to replace a failed ammonia pump that affected science experiments on station. Expedition 39’s Rick Mastracchio was among the pair “outside” during those spacewalks.
We will keep you apprised as circumstances warrant.
A view of the International Space Station as seen by the last departing space shuttle crew, STS-135. Credit: NASA
NASA is preparing a contingency spacewalk to deal with a broken backup computer component on the International Space Station, the agency said in an update Saturday (April 12). While there’s no timeline yet for the spacewalk, the agency must consider carefully when to do it given a cargo ship is supposed to arrive at station on Wednesday.
The SpaceX Dragon spacecraft — already delayed due to an unrelated radar problem — is still scheduled to launch Monday at 4:58 p.m. EDT (8:58 p.m. UTC) to arrive at station two days later. Although the computer controls some robotic systems, NASA added the Canadarm2 that will grapple Dragon has other redundancies in place. The question is if the station itself has enough redundancy for the launch to go forward.
“A final decision on whether to launch Dragon Monday will not be made until another status meeting is conducted Sunday morning,” NASA stated.
The failure poses no risk to the crew and normal station operations are not affected, NASA emphasized. The failure was uncovered Friday “during a routine health check” of a box called EXT-2, which backs up a primary component that sits outside on the S0 truss (near the station’s center).
Expedition 39 commander Koichi Wakata performs maintenance on the Carbon Dioxide Removal Assembly on the International Space Station. Picture taken in April 2014. Credit: NASA
Earlier Saturday, a docked Progress robotic spacecraft boosted the station’s altitude in a planned maneuver to ready for the next Soyuz spacecraft launch, which will carry half of the Expedition 40 crew in May.
If spacewalks do go forward, this would be the second required contingency set required since Luca Parmitano experienced a life-threatening leak in a NASA spacesuit last July. NASA ordered an investigation, received a report in February and has halted all nonessential spacewalks while it addresses the recommendations. (Russian spacewalks in Orlan spacesuits are unaffected.)
The only NASA spacewalks that happened since summer took place in December, when an ammonia pump failure crippled science experiments on station. NASA’s Rick Mastracchio and his now returned-to-Earth crewmate Mike Hopkins performed two contingency spacewalks, successfully replacing the pump. The agency has snorkels and absorbent pads ready for its spacesuits as backup if another leak occurs.
The Expedition 39 crew on March 27, 2014 a few hours after the second half of the crew arrived on a Soyuz spacecraft. From left, Steve Swanson (NASA), Koichi Wakata (Japan Aerospace Exploration Agency), Alexander Skvortsov (Roscomos), Rick Mastracchio (NASA), Mikhail Tyurin (Roscomos) and Oleg Artemyev (Roscosmos). Credit: NASA (YouTube/screenshot)
A backup computer that controls “some systems associated with robotics” on the International Space Station is not “responding to commands”, NASA said in a late-night statement Eastern time Friday (April 11).
The crew is safe, there’s no “immediate” change to space station operations, and because the primary computer is working, there’s also no alteration to the SpaceX Dragon launch to the station on Monday — which requires the robotic Canadarm2 for berthing. NASA added, however, that there are “further evaluations” going on, meaning the date could change depending on what controllers figure out.
If the computer does need to be replaced, crew members of Expedition 39 will need to do at least one spacewalk, the agency added. NASA is allowing contingency spacewalks in American spacesuits to go forward as the agency addresses problems raised in a report about a life-threatening spacesuit leak in July.
Below the jump is the statement NASA put out tonight concerning the situation.
The Mission Control team at NASA’s Johnson Space Center in Houston confirmed Friday night that a backup computer on the exterior of the International Space Station (ISS) called a Multiplexer-Demultiplexer (MDM) is not responding to commands. The station’s MDM computers control some systems associated with robotics aboard the space station.
The primary MDM operating aboard the space station is functioning normally and there is no immediate impact to space station operations. The computer outage does not pose a risk to the six crew members aboard the space station. ISS teams are assessing next steps to attempt to bring the computer back online or replace it.
Replacing the backup MDM, if needed, would require a spacewalk. The backup MDM would provide redundancy for robotic systems that will be needed to attach the SpaceX Dragon spacecraft currently scheduled to launch on Monday and rendezvous with the ISS on Wednesday. NASA is continuing to work toward a Monday launch of the SpaceX cargo resupply mission pending further evaluations by the ISS Program. The latest information will be available here at www.nasa.gov/station.
We will keep you apprised as the situation progresses.
Expedition 39’s crew portrait. Front row: commander Koichi Wakata (Japan Aerospace Exploration Agency) at right, and NASA astronaut Steve Swanson. Back row, left to right: Russian cosmonauts Oleg Artemyev, Alexander Skvortsov, Mikhail Tyurin and NASA astronaut Rick Mastracchio. Credit: NASA
