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Tag: Curiosity

  • Mars Rover Curiosity to Examine Rocks in the Kimberley

    Mars Rover Curiosity to Examine Rocks in the Kimberley

    NASA today revealed that Mars rover Curiosity will soon make a short stop to examine some more Martian rocks. The rover will examine an area of interest to researchers due to its different intersecting rock textures.

    “The orbital images didn’t tell us what those rocks are, but now that Curiosity is getting closer, we’re seeing a preview,” said Ashwin Vasavada, Curiosity deputy project scientist at NASA’s Jet Propulsion Laboratory (JPL), “The contrasting textures and durabilities of sandstones in this area are fascinating. While superficially similar, the rocks likely formed and evolved quite differently from each other.”

    Curiosity is now just 86 meters from the area, which has been named “the Kimberley” after a region of the same name in Australia. The sandstone rocks in the region are different from the mudstone that the rover has so far examined in its journey. The rover’s drill may even be used to collect rock power samples in the area.

    Curiosity is currently on a months-long journey to the base of a Martian mountain named Mount Sharp. There the rover research team hopes to gather data on the different layers of martian rock and soil exposed a the base of the mountain.

    Along the way Curiosity has been stopping at planned waypoints on its route to perform extra scientific observations. The stop in the Kimberly is one of these planned diversions, as was a stop back in September 2013 at a location named “Darwin,” where the rover examined sandstone pebbles that may have been formed by flowing water.

    More recently the Curiosity team has been with a few technical hurdles encountered during the rover’s research. Shortly before the holiday season the rover experienced an unexpected electrical failure. Just last month the rover surmounted a small hill to reach an area that researchers hoped would save the rover’s wheels from accelerating wear and tear that has been observed in recent weeks.

    “The wheel damage rate appears to have leveled off, thanks to a combination of route selection and careful driving,” said Richard Rainen, Curiosity mechanical engineering team leader at JPL. “We’re optimistic that we’re doing OK now, though we know there will be challenging terrain to cross in the future.”

    Image via NASA/JPL-Caltech/MSSS

  • Mars Rover Curiosity Successfully Surmounted a Sand Dune

    Mars Rover Curiosity Successfully Surmounted a Sand Dune

    NASA this week revealed that Mars rover Curiosity has successfully crossed over a Martian sand dune and is now continuing on its way. The rover drove a total of 41.1 meters on Sunday, February 9. This puts Curiosity’s total distance traveled on Mars just shy of the 5 kilometer milestone at 4.97 kilometers.

    Curiosity had crossed over a small, 1 meter high sand dune on February 6. The event was significant for the rover because it puts the vehicle on a flat surface relatively free of sharp rocks for its journey to a site called KMS-9. Once there the rover will drill into selected rocks to obtain powder samples.

    The Mars Science Laboratory team at NASA’s Jet Propulsion Laboratory (JPL) took a long pause at the end of January to research the area past the dune. Satellite images had shown the area to be flat and clear, but the team took the time to image the landscape with the rover to be safe.

    The team is being extra-careful of the surfaces that Curiosity traverses after an inspection of the rover’s wheels in December found that damage to the wheels has accelerated in recent months. Sharp rocks are being avoided, if possible, since they could increase the damage to the wheels.

    Curiosity is currently on a months-long journey to the base of a Martian mountain named Mount Sharp. Along the way the rover is stopping at checkpoints and interesting scientific targets, taking samples that can be compared to those first gathered near the rover’s landing site.

    Image via NASA/JPL-Caltech

  • Mars Rover Curiosity Has Now Driven Over 3 Miles

    Mars Rover Curiosity Has Now Driven Over 3 Miles

    Following a few hiccups and a software upgrade during the holiday season, Mars rover Curiosity is now back to doing what it does best.

    NASA today revealed that Curiosity is currently on its way to drill another rock sample. The rover is currently stopped at an area named Dingo Gap so that researchers can determine an optimal route over a small Martian sand dune. The agency also revealed that the rover has driven 3.04 miles since landing on Mars.

    The Curiosity team is now attempting to find a path that reduces risk to the rover’s wheels from sharp rocks. After having Curiosity take pictures of its own wheels late last year, researchers found that damage to the rover’s wheels has accelerated in recent months. The decision over whether or not to cross the 3 feet-high dune is now being debated with the risk to Curiosity’s wheels in mind.

    “The decision hasn’t been made yet, but it is prudent to go check,” said Jim Erickson, project manager for Curiosity at NASA’s Jet Propulsion Laboratory (JPL). “We’ll take a peek over the dune into the valley immediately to the west to see whether the terrain looks as good as the analysis of orbital images implies.”

    Curiosity is still on a months-long journey to the base of a Martian mountain named Mount Sharp. There researcher hope to study multiple exposed layers of rock to help determine what Mars may have been like in the past. In the meantime, once over or around the dune Curiosity will attempt to drill a rock at a site named KMS-9.

    “This area is appealing because we can see terrain units unlike any that Curiosity has visited so far,” said Katie Stack, a Curiosity science team collaborator at the California Institute of Technology. “One unit has striations all oriented in a similar direction. Another is smooth, without striations. We don’t know yet what they are. The big draw is exploration and seeing new things.”

    Image via NASA/JPL-Caltech/MSSS

  • Mars Rover Curiosity Got a Software Upgrade For Christmas

    Mars Rover Curiosity Got a Software Upgrade For Christmas

    While people on Earth were finishing up their Christmas shopping last week, NASA’s Mars rover Curiosity was receiving its own Christmas gift in the form of new software.

    According to NASA, Curiosity has now received its third software upgrade since landing on Mars over one year ago. The upgrade took about a week to transition the rover to the 11th version of its flight software, which expands the rover’s more capabilities.

    This software upgrade was successful, though the transition was rolled back in November following a failed update. During that upgrade, Curiosity experienced an unexpected reboot into its safe mode. Researchers later determined that the error was caused by file error and soon resumed normal operations while preparing for the December update.

    With the rover’s software up to date, Mars Science Laboratory (MSL) team members are also preparing to inspect each of Curiosity’s wheels. The rover will take pictures of its own wheels using its arm. Researchers will be looking at the condition of each wheel to help them plan future jaunts across the red planet’s surface while minimizing damage to the wheels.

    “We want to take a full inventory of the condition of the wheels,” said Jim Erickson, project manager for the MSL Project at NASA’s Jet Propulsion Laboratory (JPL). “Dents and holes were anticipated, but the amount of wear appears to have accelerated in the past month or so. It appears to be correlated with driving over rougher terrain. The wheels can sustain significant damage without impairing the rover’s ability to drive. However, we would like to understand the impact that this terrain type has on the wheels, to help with planning future drives.”

    Curiosity is currently on a months-long journey to the base of a Martian mountain named Mount Sharp. Once there, researchers hope to compare exposed layers of rock to the rock formations seen near the rover’s landing site.

    Image via NASA/JPL-Caltech

  • Mars Rover Curiosity Dates a Rock, Makes Other Discoveries

    Mars Rover Curiosity Dates a Rock, Makes Other Discoveries

    Mars rover Curiosity has been on Mars now for over one year. In that time the rover has performed a variety of science observations, revealing to scientists even more about the surface of the red planet. Today, NASA announced that data collected by curiosity has led to a host of new findings, including six new papers published this week in Science Express.

    The biggest reveal from the research is that Curiosity has helped researchers date a Martian rock. Rocks from Mars have certainly been dated in the past, but never one that was gathered and tested while on the planet itself.

    The rock dated was the one in the “Cumberland” region that Curiosity explored earlier this year. The rock was the second that Curiosity had examined using its drill. Using radiometric and exposure age dating from the rover, researchers are estimating that the rock is somewhere between 3.86 billion and 4.56 billion years old.

    “The age is not surprising, but what is surprising is that this method worked using measurements performed on Mars,” said Kenneth Farley, author of the paper on the rock dating and a geochemist at the California Institute of Technology. “When you’re confirming a new methodology, you don’t want the first result to be something unexpected. Our understanding of the antiquity of the Martian surface seems to be right.”

    In addition to the rock dating, Curiosity has taken the first radiation hazard readings on the Martian surface and detected what might be organic compounds in the Martian soil. The rover has also already completed its primary mission by determining that Mars once had conditions that could have supported some forms of life.

    NASA believes that all of these discoveries will help to set the stage for a future manned mission to mars. In particular, Curiosity’s radiation measurements have raised questions over how much exposure to cosmic rays astronauts sent to Mars might have to endure. NASA is currently working towards the goal of sending a manned mission to Mars by the end of the 2030s.

    “Our measurements provide crucial information for human missions to Mars,” said Don Hassler, the lead author of a report on Curiosity’s radiation measurements and the science program director at the Southwest Research Institute. “We’re continuing to monitor the radiation environment and seeing the effects of major solar storms on the surface at different times in the solar cycle, will give additional important data. Our measurements also tie into Curiosity’s investigations about habitability. The radiation sources that are concerns for human health also affect microbial survival as well as preservation of organic chemicals.”

    (Image courtesy NASA/JPL-Caltech/MSSS)

  • Mars Rover Curiosity Has Fired its Laser a Lot

    Mars Rover Curiosity Has Fired its Laser a Lot

    NASA today officially announced that Mars rover Curiosity has fired its infrared laser more than 102,000 times. The 100,000th blast came back near the end of October, when the rover shot over 300 blasts at a rock named “Ithaca” from a distance of over four meters. Curiosity has now blasted over 420 different Martian targets using its laser.

    “Passing 100,000 laser shots is terribly exciting and is providing a remarkable set of chemical data for Mars,” said Horton Newsom, ChemCam co-investigator and a senior research sceintist at the Institute of Meteoritics at the University of New Mexico.

    Researchers use the laser to blast a small spot on Martian rocks, creating an ionized gas that can be analyzed with Curiosity’s Chemistry and Camera instrument to determine the chemical make-up of the sample. According to NASA, the laser is used to blast targets with 30 pulses, which creates a pinhead-sized marking. Each blast lasts for only five one-billionths of a second and delivers more than one million watts.

    Curiosity is currently back on-track for a months-long journey to the base of a Martian mountain named Mount Sharp. There researchers are hoping to compare exposed rock layers to the geology already observed near the rover’s landing site.

    The rover’s progress last month was stymied by two separate incidents that cause the rover’s science operations to be temporarily suspended. In early November Curiosity experienced a software glitch that caused an unexpected reboot. Just days after having the issue corrected, the rover experienced a “soft short” that lowered its operating voltage significantly.

    (Image courtesy NASA/JPL-Caltech/Malin Space Science Systems)

  • Mars Rover Curiosity Resumes Roving

    Mars Rover Curiosity Resumes Roving

    NASA today announced that Mars rover Curiosity resumed its exploration of Mars this weekend. The rover’s exploration had been suspended last week following an unexpected electrical issue.

    This is the second time in November that Curiosity has been reactivated following an unexpected technical glitch. The first occurred when the rover unexpectedly booted into safe mode after a software conflict.

    This latest malfunction saw Curiosity’s voltage drop significantly, down to 4 volts from the steady 11 it had been operating at since shortly after launch. NASA last week attributed the drop to a soft short in which voltage could be leaking through a partially conductive material. NASA stated today that the likely cause of the voltage drop was an internal short in Curiosity’s Multi-Mission Radioisotope Thermoelectric Generator.

    On Saturday, November 23, the rover was found to have returned to its original 11 volt level. Researchers are confident that the drop has not affected the ability of Curiosity to complete its mission, as the rover has a floating bus designed to operate under a range of voltage differences. Having witnessed similar shorts on other machines, however, researchers believe that Curiosity’s voltage could drop again in the future.

    After conducting diagnostic tests on curiosity, NASA resumed science operations with the rover this weekend. Its first task was to deliver a powdered rock sample into a testing lab on the rover. The sample had been kept by Curiosity in its arm since drilling a Martian rock six months ago. The rover is currently on a months-long journey to the base of a mountain named Mount Sharp where the rover will investigate the rock layers exposed at that site.

  • Mars Rover Curiosity Halted Over Electrical Issue

    Mars Rover Curiosity Halted Over Electrical Issue

    NASA today announced that Mars rover Curiosity‘s planned research has been suspended temporarily. The rover is still functional, but has been put on hold while researchers examine an electricity issue that has been detected.

    This news comes just a week after Curiosity resumed operations following an unexpected software glitch in early November.

    This new suspension came after NASA researchers detected a voltage change in the rover on Sunday, November 17. Mars Science Laboratory team members measured a change in voltage difference between the rover’s chassis and its power bus. The difference first occurred intermittently before the voltage difference dropped to 4 volts from the 11 volts it has been at during its year on Mars. Researchers will be testing Curiosity’s systems in the coming days to determine the source of the voltage drop.

    “The vehicle is safe and stable, fully capable of operating in its present condition, but we are taking the precaution of investigating what may be a soft short,” said Jim Erickson, Mars Science Laboratory project manager at NASA’s Jet Propulsion Laboratory (JPL).

    A soft short would mean that voltage is leaking through a material that is only partially conductive. Such a situation would explain the change in voltage, but might also indicate a larger issue with the instrument or system where the short originated. NASA stated that another soft short had occurred for Curiosity shortly after it landed last year, dropping the rover’s working voltage difference between the chassis and the power bus to 11 volts.

    This latest short has not harmed the rover and did not even trigger its emergency safe mode. Curiosity is also capable of operating within the new lower voltage, though future shorts could seriously impair the rover’s capabilities.

    (Image courtesy NASA)

  • Mars Rover Curiosity is Back in Action

    Mars Rover Curiosity is Back in Action

    NASA today announced that Mars rover Curiosity is now out of safe mode and operating normally. The rover had rebooted into safe mode unexpectedly last week while transferring data between the rover and the Mars Reconnaissance Orbiter. Curiosity is expected to resume its exploration functions starting tomorrow, and the rover team has already begun planning for the upcoming days.

    From data sent to Earth after the reboot, researchers were able to determine that a software error in a catalog file was the cause of the malfunction. The file error conflicted with new software that had been installed that same day. A fix was pushed out on Sunday, allowing the rover team to begin resuming normal planning operations.

    “We returned to normal engineering operations,” said Rajeev Joshi, a Curiosity software and systems engineer at NASA’s Jet Propulsion Laboratory. “We are well into planning the next several days of surface operations and expect to resume our drive to Mount Sharp this week.”

    Curiosity is currently on a months-long trek to the base of a Martian mountain named Mount Sharp. There, researchers are hoping to the layered rock formations at the mountain to the soil and rocks the rover has already examined closer to its landing site.

    Along the way the rover will be stopping at five waypoints to conduct observations and compare the landscapes found along its planned route. At the first of these waypoints, named “Darwin,” Curiosity examined small sandstone pebbles for researchers to better understand how they formed.

  • India Mars Mission Under Way, Despite Odds

    India Mars Mission Under Way, Despite Odds

    India seeks to join the United States and the former Soviet Union in a singular space exploration achievement: sending an unmanned probe to Mars successfully. India’s space agency (ISRO) hopes to demonstrate their nation’s capacity to reach the orbit of the Red Planet and carry out some experiments of their own.

    The 300-day journey is successful less than half of the times it has been attempted. CNN noted in their report that a Japanese Nozomi orbiter failed to reach Mars in 1998. Other failed attempts include the UK’s Beagle 2 probe in 2003 and a Chinese probe that was sent as part of the Russian Phobos-Grunt mission.

    The BBC spoke with Prof. Andrew Coates of University College London’s Mullard Space Science Laboratory, who said “I think this mission really brings India to the table of international space exploration. Interplanetary exploration is certainly not trivial to do, and [India] has found some interesting scientific niches to make some measurements in.”

    ISRO hopes to learn about Mars’ watery past and search out sources of methane gas where NASA’s Curiosity rover may have failed. Telescopic detection of methane gas in Mars’ atmosphere cause scientists to suspect an as-yet-undetected source of methane, and since atmospheric methane on Earth is partially produced by microbes, some would suggest the possibility that a biosphere is buried on Mars.

    Some have criticized India’s space-faring direction, but chief Oxfam executive Nisha Agrawal told the BBC that “India is home to poor people but it’s also an emerging economy, it’s a middle-income country, it’s a member of the G20. What is hard for people to get their head around is that we are home to poverty but also a global power… We are not really one country but two in one. And we need to do both things: contribute to global knowledge as well as take care of poor people at home.”

    The first Indian satellite was launched into Earth’s orbit in 1975. In 2008, ISRO shot an unmanned probe into the moon’s orbit, and the first manned Indian space mission is planned for 2016, although the “first Indian in space” trophy goes to cosmonaut Rakesh Sharma, who flew aboard a Soviet flight in 1984.

    Here is footage of the probe launching from the Satish Dhawan Space Center on India’s east coast:

    [Image via this YouTube video of the launch]

  • Mars Rover Curiosity Drove Itself For Two Days This Weekend

    Mars Rover Curiosity Drove Itself For Two Days This Weekend

    NASA this week announced that Mars rover Curiosity this weekend drove itself over the surface of Mars for two days. The rover used its autonomous driving mode to scope out driving routes on its own, traveling 262 feet closer to its destination. The feat represents the first time the rover has completed a two-day journey on its own.

    Curiosity is approaching an area researchers have named “Cooperstown,” where it is expected to examine surface conditions with its arm instruments. The rover has not used its arm instruments to examine the Martian landscape since late September, when it examined sandstone pebbles at the “Darwin” site. Darwin was the first of five planned waypoints along the rover’s months-long journey to its current destination at the base of a mountain named Mount Sharp.

    Mars rover team members are hoping to use Curiosity’s autonomous driving capabilities over two-day periods more often in the coming months. This is expected to speed up the rover’s journey toward Mount Sharp, especially during weekends and holidays.

    The Cooperstown site Curiosity is approaching is, according to NASA, around one-third of the way to Mount Sharp. The rover will be examining the site to compare its layered rock formations to what the rover has found earlier in its mission at Yellowknife Bay, as well as what it will find once it arrives at Mount Sharp.

    “What interests us about this site is an intriguing outcrop of layered material visible in the orbital images,” said Kevin Lewis, a participating scientist for the mission at Princeton University. “We want to see how the local layered outcrop at Cooperstown may help us relate the geology of Yellowknife Bay to the geology of Mount Sharp.”

    (Image courtesy NASA/JPL-Caltech)

  • Mars Rover Curiosity Examines Sandstone Pebbles

    Mars Rover Curiosity Examines Sandstone Pebbles

    Two weeks ago, NASA announced that Mars rover Curiosity had reached the first of five waypoints along its months-long drive to a Martian mountain named Mount Sharp. Researchers were hoping to investigate rocks in the area for comparison to those already seen by the rover. Today, NASA announced that their observations were fruitful, as the rocks at the waypoint seem to have been formed by flowing water.

    “We examined pebbly sandstone deposited by water flowing over the surface, and veins or fractures in the rock,” said Dawn Sumner, a Curiosity science team member at the University of California at Davis. “We know the veins are younger than the sandstone because they cut through it, but they appear to be filled with grains like the sandstone.”

    NASA has nicknamed the waypoint area “Darwin,” and it is located around one-fifth of the way along Curiosity’s current route. It is the first of five planned waypoints on the journey. Curiosity spent around four days examining rocks in the area with the instruments located on its arm. The rover finished its Darwin examination on Sunday and set off once again, traveling a relatively conservative 75 feet toward Mount Sharp.

    The new observations back up those the rover found in Yellowknife Bay, where Curiosity spent the first half of 2013. The rover’s mission to determine whether Mars ever had conditions suitable for basic life has already been completed.

    “We want to understand the history of water in Gale Crater,” said Sumner. “Did the water flow that deposited the pebbly sandstone at Waypoint 1 occur at about the same time as the water flow at Yellowknife Bay? If the same fluid flow produced the veins here and the veins at Yellowknife Bay, you would expect the veins to have the same composition. We see that the veins are different, so we know the history is complicated. We use these observations to piece together the long-term history.”

    (Image courtesy NASA/JPL-Caltech/MSSS)

  • Mars Rover Curiosity Doesn’t Find Methane in Martian Air

    Mars Rover Curiosity Doesn’t Find Methane in Martian Air

    Mars rover Curiosity was sent to Mars with a primary mission to discover if the red planet’s environment was ever suitable for life as we known it. As part of that mission, the rover has been analyzing Martian materials, searching for methane – a hydrocarbon that could be a sign of life. Initial chemical analyses on Mars soil samples failed to find any Methane, and the rover moved on to testing the planet’s atmosphere.

    From October 2012 to this summer (on Earth), Curiosity analyzed the Martian atmosphere on six separate occasions. Today, NASA definitively stated that Curiosity’s Tunable Laser Spectrometer has failed to find significant concentrations of methane in the Martian atmosphere. The agency estimates there is less than 1.3 parts per billion of Methane in Mars’ atmosphere. This conflicts with previous research that had found evidence for the compound on Mars, estimating up to 45 parts per billion in the planet’s atmosphere.

    “It would have been exciting to find methane, but we have high confidence in our measurements, and the progress in expanding knowledge is what’s really important,” said Chris Webster, lead author of a paper on the findings published today in the journal Science Express. “We measured repeatedly from Martian spring to late summer, but with no detection of methane.”

    Methane can sometimes be a by-product of biological processes, which is why high estimates of methane on Mars excited researchers. Curiosity’s findings could be seen as a disappointment, but Mars researchers are trying their best not to be dour.

    “This important result will help direct our efforts to examine the possibility of life on Mars,” said Michael Meyer, lead scientist for Mars exploration at NASA. “It reduces the probability of current methane-producing Martian microbes, but this addresses only one type of microbial metabolism. As we know, there are many types of terrestrial microbes that don’t generate methane.”

    (Image courtesy NASA)

  • Robot Snakes May Soon be Sent to Mars

    Robot Snakes May Soon be Sent to Mars

    The Mars Curiosity Rover has been on Mars for a little over one year now, and much has been learned during this time. One of the main things that has been learned is that maneuvering on the rocky, red planet is rough. NASA has previously lost one Mars rover, Spirit, because it got stuck in the sand.

    Norway’s SINTEF Research Institute, backed by a $85,000 grant from the European Space Agency (ESA), has proposed a solution to the locomotion issue on Mars. Their inspiration? Snakes. “Biological snakes can climb rocks and slide through small holes. Imagine if you could have a snake trained to find people in fallen down buildings,” stated Aksel Transeth, a senior research scientist at SINTEF.

    Howie Choset, a professor of robotics at Carnegie Mellon University (the college that brought us this crazy robotic snake), added more insight as to why a snake rover would be beneficial towards the mission on Mars: “The snake robot could travel to cliffs and look underneath overhangs. It could find a crevasse, crawl down it and extract a sample, which itself could tell us how Mars evolved as a planet.”

    Apparently, a snake robot could be the best thing that happened to Mars since Arnold Schwarzenegger. However, SINTEF does not plan for the snake robot to act alone on the Red Planet: “We are looking at several alternatives to enable a rover and a robot to work together. Since the rover has a powerful energy source, it can provide the snake robot with power through a cable extending between the rover and the robot. If the robot had to use its own batteries, it would run out of power and we would lose it,” stated Transeth.

    Currently, the team at SINTEF is still debating how the partnership between rover and snake would best be implemented: “One option is to make the robot into one of the vehicle’s arms, with the ability to disconnect and reconnect itself, so that it can be lowered to the ground, where it can crawl about independently.” Being able to have some form of independence would be the most advantageous implementation of the snake, seeing as mobility is the main issue the team is trying to solve with this innovation. Pål Liljebäck, a fellow research at SINTEF, added that “The connection between the robot and the rover also means that the snake robot will be able to assist the vehicle if the latter gets stuck.” This would ensure that a situation similar to the one that happened with NASA’s Spirit would not occur again.

    All of this news leaves just one question: Why in the world did we cut funding to NASA? If we hadn’t, we could all be riding super-awesome mechanical snakes everywhere, much like Paul learns to do in Dune (Except these worms weren’t mechanical….But, they were on a planet similar to Mars.)

    Image via YouTube

  • Mars Rover Curiosity Reaches ‘Panorama Point’

    Mars Rover Curiosity Reaches ‘Panorama Point’

    For around two months now, Mars rover Curiosity has been on a months-long journey to a Martian mountain named Mount Sharp. There, NASA researchers hope the mountain’s multiple exposed layers will shed light on the red planet’s past.

    Today, NASA announced that Curiosity has reached the first big milestone of its 5.3-mile drive. The rover has reached a planned waypoint scientists are calling “Panorama Point.” From there, the rover can see exposed bedrock that researchers will be examining for several days.

    Panorama Point is the first of five such waypoints planned for Curiosity’s drive to Mount Sharp. The rover drove 464 feet on September 5, nearly reaching its temporary destination. That drive was yet another one-day driving record for the rover. Part of the long drive was navigated by Curiosity itself using its autonomous navigation systems, which were activated only weeks ago.

    Curiosity team members are currently evaluating pictures taken by the rover to select various rocks to examine in the coming days. They intend to learn how Martian rocks change between the rover’s first large research site and the base of Mount Sharp.

    “We want to know how the rocks at Yellowknife Bay are related to what we’ll see at Mount Sharp,” said John Grotzinger, a Mars Science Laboratory project scientist. “That’s what we intend to get from the waypoints between them. We’ll use them to stitch together a timeline – which layers are older, which are younger.”

    (Image courtesy NASA/JPL-Caltech/MSSS)

  • Mars Rover Curiosity Records Phobos Eclipse

    Mars Rover Curiosity Records Phobos Eclipse

    For over one month now, Mars rover Curiosity has been cruising along the surface of Mars on its way to a Martian mountain named Mount Sharp. The rover’s journey will take several months, and it has been setting driving records along the way. Though the extensive driving has left little room in the rover’s schedule for in-depth examination of Mars, Curiosity has still been put to good use, recently using its cameras to record Mars’ moons passing each other in the night.

    This week, NASA announced that Curiosity has once again been used for moon-watching. The rover this month snapped photos of Mars moon Phobos as it passed directly in front of the sun. NASA stated that the new photos are the clearest ever taken of a solar eclipse from the Martian surface. The pictures will help researchers better understand the orbit of Mars’ moons.

    “This event occurred near noon at Curiosity’s location, which put Phobos at its closest point to the rover, appearing larger against the sun than it would at other times of day,” said Mark Lemmon, a co-investigator for use of Curiosity’s Mastcam and a planetary scientist at Texas A&M University. “This is the closest to a total eclipse of the sun that you can have from Mars.

    “This one is by far the most detailed image of any Martian lunar transit ever taken, and it is especially useful because it is annular. It was even closer to the sun’s center than predicted, so we learned something.”

    The released photos are part of a series taken earlier this month. NASA has stated that more photos of the event may be compiled into a movie at a later date.

    (Image courtesy NASA/JPL-Caltech/Malin Space Science Systems/Texas A&M University)

  • Mars Rover Curiosity Still Cruising Along

    Mars Rover Curiosity Still Cruising Along

    Not much has been seen about Mars rover Curiosity since the rover’s one-year anniversary (Earth year, that is) was celebrated by NASA early this month. That could be because Curiosity is currently cruising along on a months long journey across the Martian landscape.

    The rover is on its way to the base of a mountain named Mount Sharp. There, researchers hope multiple uncovered layers will reveal more about Mars’ past environment. Curiosity is now setting driving records as it continues along its five-mile path to the mountain.

    There isn’t much to report, but NASA this week still released an update on Curiosity’s progress. Though the rover only just hit its 1 kilometer milestone, its recent travels (including record driving distances) have now doubled that distance to 2 kilometers (1.25 miles). It also hasn’t fully abandoned its science mission during the road trip, recently analyzing a drilled rock powder sample it had been carrying for 75 days (Martian days).

    Curiosity was also recently used to observe Mars moons Phobos and Deimos passing by each other in the Martian night sky. Researchers are hoping the footage can improve data on the moons’ orbits and densities. The full video of the moons passing can be seen below:

    (Image courtesy NASA)

  • Curiosity Rover Sings Itself the Loneliest Happy Birthday in History

    Curiosity Rover Sings Itself the Loneliest Happy Birthday in History

    This week, NASA celebrated the one year anniversary of the Mars Curiosity Rover’s landing on the planet. And they did it with a song, played in an alien land, heard by no one. Or was it?

    To celebrate one year on Mars, the rover used its onboard soil analysis instrument (SAM) to sing Happy Birthday to itself.

    “To make the soil samples go down, we had to program it to vibrate at various frequencies,” says the Curiosity team. To commemorate SAM’s birthday and Curiosity’s birthday on Mars, we decided to play a little song. If there’s anyone listening on Mars, on this special occasion, they’ll hear this…”

    And cue the saddest rendition of Happy Birthday ever recorded. Something about this makes me sad for that little guy, all alone on Mars. I’m sure it’s lonely up there.

    Planet Earth is blue, and there’s nothing I can do…

  • NASA Celebrates Curiosity’s One Year Anniversary

    NASA Celebrates Curiosity’s One Year Anniversary

    NASA today celebrated the one year (Earth year) anniversary of Mars rover Curiosity’s landing on Mars. The rover’s landing was a technical feat for the Mars Science Laboratory (MSL) team at NASA’s Jet Propulsion Laboratory (JPL), who celebrated with plenty of cheering and tears. The event also briefly ignited Americans’ passion for exploration and pride in their space program.

    One year on from that day, the MSL team got together to reminisce and share their hopes for the future of Curiosity. In an hour-long presentation live-streamed through the NASA website, the scientists and engineers discussed Curiosity’s successes, which include Martian soil samples and drilled rock powder samples. The rover, in less than one year, also completed its primary mission of discovering that Mars once had an environment in which primitive life (bacteria) could have survived. Curiosity has sent more than 70,000 images back from the surface of the red planet.

    The JPL event was followed by another one celebrating Curiosity at NASA headquarters. This second special special included NASA administrator and International Space Station crew members who revealed how the rover was preparing for a coming manned mission to Mars. The event starts at around 1:24:00 in the video below, which also includes the JPL event, albeit in lower quality:

    For those who don’t have the time or the patience to sit through three hours of space talk, NASA has also released a shorter retrospective on Curiosity. The four-minute video gives a nice overview of the challenge of landing the rover to Mars and the big discovery Curiosity has made during its first year:

  • Mars Rover Curiosity Rolls Toward Its First Anniversary

    Mars Rover Curiosity Rolls Toward Its First Anniversary

    On August 6, 2012, Mars rover Curiosity landed on the red planet, in a site called Gale Crater. The event was cause for immediate celebration for those who had worked for years to send the rover to Mars, but researchers soon settled in for the long process of testing the rover and using it to explore the planet.

    Curiosity is now coming up on its one-year (one Earth year, anyway) anniversary, and NASA is taking a look back at what was quite an eventful year for the rover. The agency is now touting several statistics and milestones achieved by the rover, such as the 190 gigabits (23.75 gigabytes) of data that Curiosity has sent back from Mars and the 75,000 laser shots it has sent toward 2,000 different science targets to determine their composition. The rover has also sent more than 70,000 images of Mars back to Earth, including photos of its first scoop of Martian soil and the first use of its hammering drill

    “Successes of our Curiosity – that dramatic touchdown a year ago and the science findings since then – advance us toward further exploration, including sending humans to an asteroid and Mars,” said Charles Bolden, NASA Administrator. “Wheel tracks now, will lead to boot prints later.”

    Bolden was referring to the goal of sending humans to Mars by the 2030s, which President Obama has tasked NASA with achieving.

    The Curiosity team at NASA’s Jet Propulsion Laboratory (JPL) will be holding a live celebration event next Tuesday, August 6. The event will air on NASA Television and live-stream from the NASA website from 7:45 to 9:00 am PDT, with researchers sharing their memories of the rover’s first year on Mars.

    Having completed its primary mission goal of determining that Mars’ environment could have one supported life, Curiosity is now on a months-long five-mile journey to Mount Sharp. Mount Sharp is a three-mile high mountain in the middle of Gale Crater. The rover recently passed its one-kilometer-driven milestone and is now setting driving distance records along its journey.

  • Mars Rover Curiosity’s First Year in First-Person

    Mars Rover Curiosity’s First Year in First-Person

    Next week will mark the one-year (Earth year) anniversary of Mars rover Curiosity’s Mars landing. The rover has performed admirably, and all of its instruments have been successfully tested on the surface of the red planet. It has also, in one short year, managed to fulfill its primary mission goal by determining that Mars once had an environment compatible with primitive life.

    In celebration of the rover’s milestone, NASA today released a new video showcasing the highlights of Curiosity’s eventful year. The two-minute video runs through 548 pictures taken by the rover’s hazard avoidance camera, situated on the front of the rover.

    Curiosity can be seen near the beginning of the video testing its mobility before scooping its first soil sample at around 16 seconds. Other important events in the rover’s first year can be seen throughout the video, such as its first rock drilling. At the end of the video, Curiosity can be seen setting off on its current journey, a months-long, five-mile trip to a Martian mountain named Mount Sharp.