If you want to photograph something in space, what better way than to have a spacecraft take the picture? The Swift Telescope – better known for its study of high-energy outbursts and cosmic explosions – was able to observe the flyby of 2005 YU55, the asteroid that came within 324,600 kilometers (201,700 miles) of Earth this week, and captured its tumbling, rapid motion across the sky.
“Swift’s ultraviolet and X-ray capability gives scientists a unique perspective on comets and asteroids, expanding the spectral window beyond the radio, infrared and optical observations so well handled by big ground-based facilities,” said Sergio Campana, a Swift team member at Brera Observatory in Merate, Italy.” Campana requested that the spacecraft train its telescopes on the asteroid as a target of opportunity. Continue reading “Swift Satellite Captures Asteroid 2005 YU55’s Tumbling Flyby”
Tharsis Tholus towers 8 km above the surrounding terrain. Its base stretches 155 x 125 km. What makes Tharsis Tholus unusual is its extremely battered condition. Image Credit: ESA/DLR/FU Berlin (G. Neukum)
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Earlier this week, The European Space Agency released new Mars images taken by instruments aboard the Mars Express spacecraft. The images show details of Tharsis Tholus, which appears to be a very large and extinct volcano that has been battered and deformed over time.
On Earth, Tharsis Tholus would be a towering giant of a volcano, looming 8 km above the surrounding terrain, with a base of roughly 155 x 125 km. Despite its size, Tharsis Tholus is just an average run-of-the-mill volcano on Mars. That being said, it isn’t the size of Tharsis Tholus that makes it interesting to scientists – what makes the remnants of this volcano stand out is its extremely battered condition.
What does the battered condition of Tharsis Tholus mean to planetary scientists studying Mars?
Details shown in the image above by the HRSC high-resolution stereo camera on ESA’s Mars Express spacecraft reveal signs of dramatic events which have significantly altered the volcanic region of Tharsis Tholus. Two (or more) large sections have collapsed around its eastern and western regions in the past several billion years, leaving signs of erosion and faulting.
One main feature of Tharsis Tholus that stands out is the volcanic caldera in its center. The caldera is nearly circular, roughly 30 km across and ringed by faults that have allowed the floor of the caldera to subside by nearly 3km. Planetary scientists believe the volcano emptied its magma chamber during eruptions. Once the magma chamber had emptied its lava onto the surface, the chamber roof became unstable under its own weight and collapsed, forming the large caldera.
This image was created using a Digital Terrain Model (DTM) obtained from the High Resolution Stereo Camera on ESA’s Mars Express spacecraft. Elevation data from the DTM is colour coded: purple indicates the lowest lying regions and beige the highest. Image Credit: ESA/DLR/FU Berlin (G. Neukum)
This month is a very busy month for Mars exploration. Russia’s recently launched (and in distress) Phobos mission (Mission coverage at: http://www.universetoday.com/90808/russians-race-against-time-to-save-ambitious-phobos-grunt-mars-probe-from-earthly-demise/) has a mission goal of returning a sample from Mars’ moon, Phobos, along with “piggyback” missions by China and the Planetary Society.
This month also marks the end of the “Mars500” mission, which ended on Friday (coverage at: http://www.universetoday.com/90554/mars500-crew-ready-to-open-hatch/ when the participants opened their hatch for the first time since June 2010. During the past 520 days, the participants were working in a simulated spacecraft environment in Moscow.
Russian graphic shows the planned Earth departure trajectory (at right) and two engine burns that failed to ignite from the Fregat upper stage following the launch of the Phobos-Grunt spacecraft from Baikonur Cosmodrome on Nov. 9 at 00:16am Moscow time. Illustration at left shows Phobos-Grunt spacecraft folded for flight inside the payload fairing. Credit: Roscosmos.
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Teams of Russian engineers are in a race against time to save the ambitious and unprecedented Phobos-Grunt sample return mission from crashing back to Earth following the post launch failure of the upper stage rocket firings essential to propel the probe onward to destination Mars and scooping up dirt and dust from the tiny moon Phobos.
Roscomos, the Russian Federal Space Agency says they have perhaps two weeks to salvage the spacecraft – now stuck in Earth orbit – before its batteries run out and its orbit would naturally decay leading to an ignominious and uncontrollable reentry and earthly demise. Vladimir Popovkin, head of Roscosmos Chief had initially indicated a survival time limited to only 2 days in a briefing to Russian media.
“I give them a good chance — better than even — of recovering the mission and making the Mars insertion burn in a day or two, said James Oberg, a renowned expert on Russian and US spaceflight in commentary to Universe Today.
But Oberg also told me that having such problems so early in the mission was not a good sign. It all depends on whether the root cause is related to a simple software patch or serious hardware difficulties.
Following yesterday’s eerie midnight blastoff of Phobos-Grunt at 00:16 a.m. Moscow time atop an upgraded Zenit- 2SB booster and the apparently flawless performance of the first and second stages, the situation turned decidedly negative some 5 hours later when the pre-planned ignition burns of the Fregat upper stage failed to ignite twice.
Blastoff of Phobos-Grunt spacecraft atop Zenit-2 rocket from Baikonur Cosmodrome on Nov. 9. Credit: Roscosmos
The 13,000 kg Phobos-Grunt (which means Phobos-Soil) spacecraft was to embark on an 11 month interplanetary cruise and arrive in the vicinity of Mars around October 2012, along with a piggybacked mini-satellite from China named Yinghuo-1, the nation’s first ever probe to orbit the Red Planet, and the Phobos-LIFE experiment from the Planetary Society.
“It has been a tough night for us because we could not detect the spacecraft [after the separation],” Vladimir Popovkin said according to the Ria Novosti Russian news agency. “Now we know its coordinates and we found out that the [probe’s] engine failed to start.”
“It is a complex trajectory, and the on-board computers could have simply failed to send a “switch on” command to the engine,” Popovkin added.
Fortunately, the engine ignition malfunction was one of the anticipated failure scenarios and a corrective action plan already exists for it – but only if it can be implemented to save the $163 million mission and Russian hopes to revive their long dormant interplanetary forays.
“But it’s an old old superstition that when leaving your house for a long voyage, if you trip on the door step, you better just lay down your suitcases and go back inside,” Oberg said.
“Seriously, on a mission so complex and innovative as this one is, with so much stuff that has to be done RIGHT the first time they’ve ever tried it, having this kind of error — even if it’s only a coding mishap — right at the start, is NOT a good omen about the quality of work on preparing the later steps,” Oberg warned.
The goal of the complicated and first of its-kind 3 year round trip mission is to deploy a lander to the surface of Phobos, grab up to 200 grams of pristine regolith and rocks, and then take off and sail back to Earth with the precious samples for analysis by the most scientifically advanced instruments available to humankind. Watch the detailed mission animation in my article here.
Russia’s historic Phobos-Grunt sample return mission to Mars and Phobos will retrieve 200 grams of soil from the surface of Martian moon Phobos and fly the samples back to Earth by August 2014. Credit: Roscosmos
Another serious problem was a lengthy gap in tracking coverage and thus two way communications with the spacecraft which minimized and seriously delayed Russian controller’s ability to diagnose and correct the malfunction.
Roscosmos stated today that after two communications sessions all necessary parameters of the spacecrafts motion have been determined and they hoped to regain contact sometime Wednesday afternoon through a ground station at Baikonur and upload new software to orient the vehicle and commands for an engine firing at some point soon. Luckily the hydrazine filled propellant tank had not been jettisoned – or all would be lost.
It appears that the earliest day the Fregat engines can be fired is sometime Thursday. The Fregat would also journey all the way to Mars and conduct the critical braking maneuver to insert Phobos-Grunt and Yinghuo-1 into separate Mars orbits.
The engine ignition failure has left Phobos-Grunt stuck in an elliptical orbit ranging from about 207 by 347 kilometers and inclined 51 degrees. The engine firings would have placed the ship into a higher altitude elliptical orbit of 250 by 4150 km and then cruising to Mars.
The Russianspaceweb website reported that “the editor of this web site received a message from the director of Moscow-based Space Research Institute, IKI, Lev Zeleny, informing that tracking facilities of the US military provided significant help in establishing exact orbital parameters of the Phobos-Grunt spacecraft. This data was to be used during the previous night to send commands to the spacecraft as it was passing within range of ground control stations. Zeleny reassured that the mission team still had had “few days for reprogramming before the end of the Mars accessibility window for 2011.”
Alexey Kuznetsov, Head of the Roskosmos Press Office told me previously that, “The Phobos-Grunt launch window extends until November 25.” So theoretically, there is still some time to propel Phobos-Grunt to Mars but there are also many unknowns.
Labeled Schematic of Phobos-Grunt and Yinghou-1 (YH-1) orbiter. Main propulsion is the Fregat upper stage that failed to ignite twice following flawless liftoff on Nov. 9. Credit: Roskosmos
Further details will be reported as they emerge.
Meanwhile, NASA’s car sized Curiosity Mars Science Laboratory (MSL) Rover is posied atop an Atlas V rocket at her Florida launch pad awaiting a Nov. 25 liftoff.
The Phobos-Grunt mission profile. Credit: Roscosmos
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Russia’s unmanned Phobos-Grunt spacecraft may be in serious trouble, as it apparently has encountered problems with either computer software or the propulsion system, or perhaps both. There appears to be some confusion about what may have happened, with various sources reporting different things.
Russian Space Agency head Vladimir Popovkin was quoted by the Ria news agency, with a Google translation, “We’ve had a bad night, we could not detect long spacecraft, now found his position. It was found that the propulsion system failed. There was neither the first nor the second inclusion.”
Roughly, it appears that at first they lost telemetry with the spacecraft, but then were able to locate it and found that the first and second burns did not occur.
The spacecraft launched from the Baikonur Cosmodrome in Kazakhstan by a Zenit-2 booster rocket at 12:16 a.m. Moscow time on Wednesday and separated from the booster about 11 minutes later.
From various translated sources, it appears the probe is now in a parking orbit. What should have happened is that two and a half hours after launch, the first burn should have put the spacecraft into an higher orbit around Earth, and a second burn should have occurred 126 minutes later, which would have sent it the spacecraft to Mars. Neither occurred, and it is yet to be determined if the problem was with the flight computer or flight hardware.
According to Interfax, Russian officials has said if it is a computer problem, they have three days to resolve the software issue before the battery power on the spacecraft runs out. But if the problem is related to flight hardware, the mission will likely be lost.
Another quote from Popovkin via Ria sounded hopeful: “It is possible that the spacecraft wasn’t able to reorient itself from Sun to stars, so the engines weren’t able to receive commands from sensors. No fuel tanks are lost, no fuel is dumped. We still have the whole spacecraft. Salvation may be possible.”
“During the day we will definitely inform all of the future situation,” Popovkin added.
We’ll provide more details as they become available.
Russia’s historic Phobos-Grunt sample return mission to Mars and Phobos blasts off atop a Zenit-2SB rocket from the Baikonur Cosmodrome, Kazakhstan on November 9, 2011 at 00:16 a.m. Moscow time (Nov. 8, 3:16 p.m. EST) from Launch Pad 45. Credit: Roscosmos/Spaceflight Now
Russia has successfully launched the Phobos-Grunt sample return mission to Mars aiming to return a soil sample from Phobos, the first time in history such a bold and complicated feat has been attempted.
The ambitious mission lifted off just past midnight at 00:16 Moscow time atop an upgraded version of the Zenit-2 rocket from the Baikonur Cosmodrome in Kazakhstan.
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Phobos-Grunt is now in a parking orbit around Earth and further burns are required by the modified Fregat upper stage by 8:20 p.m. tonight to put the probe of course for Earth departure and an interplanetary cruise to the Red Planet. Watch for updates later.
The liftoff of the $163 million robotic spacecraft marks Russia’s first attempt to conduct an interplanetary mission in some 15 years since the launch failure of the Mars 96 probe back in 1996. Phobos-Grunt translates as Phobos-Soil.
Russia’s historic Phobos-Grunt sample return mission to Mars and Phobos liftoff off on top of a Zenit-2SB rocket from the Baikonur Cosmodrome, Kazakhstan on November 9, 2011 at 00:16 a.m. Moscow time (Nov. 8, 3:16 p.m. EST) from Launch Pad 45. Credit: Roscosmos
The mission goal is to deploy a lander to Phobos and bring back up to 200 grams of pristine regolith and rocks from the surface of Phobos.
Also along for the ride is China’s first Mars mission named Yinghuo-1 (which means means Firefly-1) which will be jettisoned into Mars orbit as Phobos-Grunt inserts into a different orbit about Mars. Additionally, the Planetary Society’s Phobos LIFE biomodule is also on board.
The 12,000 kg Phobos-Grunt spacecraft should arrive in the vicinity of Mars around October 2012 after an 11 month interplanetary cruise. Following several months of orbital science investigations of Mars and its two moons and searching for a safe landing site, Phobos-Grunt will attempt history’s first ever touchdown on Phobos in February 2013. It will conduct a comprehensive analysis of Phobos surface and gather up to 200 grams of soil and rocks with a pair of robotic arms and a scoop device.
The samples will be transferred by a long tube onto the return vehicle mounted atop the lander. By March 2013 the ascent vehicle will take off for the trip back back to Earth.
Phobos-Grunt is equipped with a 50 kg array of 20 sophisticated science instruments including lasers, spectrometers, cameras and a microscope provided by an international team of scientists and science institutions from across Europe and Asia.
The entire voyage will last just under 3 years with the capsule plummeting through the Earth’s atmosphere in August 2014. These would represent the first macroscopic samples returned from another body in the solar system since Russia’s Luna 24 returned soil from the Moon back in 1976.
Russia’s historic Phobos-Grunt sample return mission to Mars and Phobos poised on top of Zenit-2SB rocket at Baikonur Cosmodrome, Kazakhstan. Liftoff is slated for November 9, 2011 at 00:26 a.m. Moscow time [Nov. 8, 3:36 p.m. EST] from Launch Pad 45. Credit: Roscosmos. See Zenit Rocket rollout Video and Images below
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After an absence of almost two decades, Russia is at last on the cusp of resuming an ambitious agenda of interplanetary science missions on Tuesday Nov. 8 3:16 p.m. EST (Nov. 9, 00:16 a.m. Moscow Time) by taking aim at Mars and scooping up the first ever soil and rocks gathered from the mysterious moon Phobos. Russia’s space program was hampered for many years by funding woes after the breakup of the former Soviet Union and doubts stemming from earlier mission failures. The Russian science ramp up comes just as US space leadership fades significantly due to dire NASA budget cutbacks directed by Washington politicians.
Russia’s daring and highly risky Phobos-Grunt soil sampling robot to the battered Martian moon Phobos now sits poised at the launch pad at the Baikonur Cosmodrome in Kazahkstan atop a specially upgraded booster dubbed the “Zenit-2SB” rocket according to Alexey Kuznetsov, Head of the Roscosmos Press Office in an exclusive interveiw with Universe Today. Roscosmos is the Russian Federal Space Agency. Watch the awesome Mars mission animation in my article here. See Zenit Rocket rollout video and images below.
“The Phobos-Grunt automatic interplanetary station will launch on November 9, 2011 at 00:26 a.m. Moscow time [Nov. 8, 3:36 p.m. EST],” Kuznetsov confirmed to Universe Today.
The Roscosmos video and photos here show the Zenit rocket rollout starting from Building 45 where the final prelaunch processing was conducted late last week mounting the nose cone holding the Phobos-Grunt and companion Yinghuo-1 spacecraft to the upgraded Fregat upper stage.
Russia’s Phobos-Grunt automatic interplanetary station - lander. Credit: Roscosmos
If successful, Phobos Grunt will complete the Earth to Mars round trip voyage in some 34 months and the history making soil samples will plummet through the Earth’s atmosphere in August 2014 to waiting Russian military helicopters.
Following an 11 month interplanetary journey, the spaceship will enter Mars orbit and spend several months searching for a suitable landing site on Phobos. The probe is due to touchdown very gently on Phobos surface in Feb. 2013 using radar and precision thrusters accounting for the moon’s extremely weak gravity. After gathering samples with two robotic arms, the soil transferred to the Earth return capsule will take off in the ascent vehicle for the trip back home.
“The Zenit can launch spacecraft from Baikonur into LEO, MEO, HEO and elliptical near-Earth orbits (including GTO and geostationary orbit) and to escape trajectories as well,” Kuznetsov explained.
Zenit-2SB rocket rollout from Building 45 at Baikonur with Russia’s Phobos-Grunt automatic interplanetary station. Credit: Roscosmos
The Zenit-2SB booster with Phobos-Grunt and the piggybacked Yinghuo-1 Mars orbiter from China were rolled out horizontally by train on a railed transporter on Nov. 6, raised and erected vertically into launch position at Launch Pad 45 at Baikonur.
“The ‘Zenit-2SB’ rocket belongs to the rocket family using nontoxic fuel components – liquid oxygen and kerosene,” Kuznetsov elaborated. “The Zenit was manufactured by the A.M. Makarov Yuzhny Machine-Building Plant in Ukraine.”
“This “Zenit-2” rocket modification has significant improvements,” Kuznetsov told me. “The improvements include a new navigation system, a new generation on-board computer, and better performance by mass reduction and increase in thrust of the second stage engine.”
Zenit-2SB rocket rollout on train car to Baikonur launch pad with Phobos-Grunt sampling return mission to Mars and Phobos. Credit: Roscosmos
Likewise the upper stage was upgraded for the historic science flight.
“The Zenit’s Fregat upper stage has also been modified. The “Phobos Grunt” automatic interplanetary station cruise propulsion system was built onto the base of the “Fregat-SB” upper stage. Its main task is to insert the automatic interplanetary station onto the Mars flight path and accomplish the escape trajectory.”
“The “Phobos Grunt” automatic interplanetary station mission was constructed by the Russian Academy of Sciences Space Research Institute in Moscow and the spacecraft was manufactured by NPO Lavochkin in Moscow,” Kuznetsov told me.
The 12,000 kg Phobos-Grunt automatic interplanetary station is equipped with a powerful 50 kg payload of some 20 science instruments provided by a wide ranging team of international scientists and science institutions from Europe and Asia.
The audacious goal is to bring back up to 200 grams of pristine regolith and rocks that help unlock the mysteries of the origin and evolution of Phobos, Mars and the Solar System
Zenit-2SB rocket rollout on train to launch pad at Baikonur with Russia’s Phobos-Grunt automatic interplanetary station. Credit: Roscosmos Zenit-2SB rocket erected vertically to launch position at Baikonur launch pad with Russia’s Phobos-Grunt Mars spacecraft. Credit: Roscosmos
Russia’s Phobos-Grunt sample return mission to Mars and Phobos poised atop Zenit rocket at Pad 45 at Baikonur Cosmodrome. Kazakhstan. Liftoff set for November 9, 2011 at 00:26 a.m. Moscow time - Nov. 8, 3:36 p.m. EST. Credit: Roscosmos.
Join me in wishing all the best to Roscosmos and NASA for this duo of fabulous Mars missions in 2011 that will help unravel our place in the Universe – like never before!
Artist concept of Russia’s Phobos-Grunt spacecraft. Credit Roscosmos.
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In less than 48 hours, Russia’s bold Phobos-Grunt mechanized probe will embark on a historic flight to haul humanities first ever soil samples back from the tiny Martian moon Phobos. Liftoff from the Baikonur Cosmodrome remains on target for November 9 (Nov 8 US 3:16 p.m. EDT).
For an exquisite view of every step of this first-of-its-kind robot retriever, watch this spectacular action packed animation (below) outlining the entire 3 year round trip voyage. The simulation was produced by Roscosmos, Russia’s Federal Space Agency and the famous IKI Space Research Institute. It’s set to cool music – so don’t’ worry, you don’t need to understand Russian.
The highly detailed animation begins with the blastoff of the Zenit booster rocket and swiftly progresses through Earth orbit departure, Phobos-Grunt Mars orbit insertion, deployment of the piggybacked Yinghuo-1 (YH-1) mini satellite from China, Phobos-Grunt scientific reconnaissance of Phobos and search for a safe landing site, radar guided propulsive landing, robotic arm manipulation and soil sample collection and analysis, sample transfer to the Earth return capsule and departure, plummeting through Earth’s atmosphere and Russian helicopter retrieval of the precious cargo carrier.
Video Caption: Every step of Russia’s Phobos-Grunt soil retrieval mission. Credit: Roscosmos/IKI
Video Caption: On October 21, the Phobos-Grunt spacecraft arrived at the Baikonur Cosmodrome and was uncrated and moved to assembly building 31 for fueling, final preflight processing and encapsulation in the nose cone. Credit: Roscosmos
Labeled Schematic of Phobos-Grunt and Yinghou-1 (YH-1) orbiter. Credit: Roskosmos
The first Mars crew has “returned” home. Thee Mars500 crew of six complete their simulated mission to Mars, with the hatch opening today, November 4, 2011. You can watch the replay the crew coming out of their 520 days of isolation inside a mock spaceship, which was actually in Russia. They crew has done countless hours of experiments, testing both the physiological and psychological effects of being “away from Earth” — isolated — for long periods of time.
Opportunity - Panoramic view inside vast Endeavour Crater snapped ascending Cape York crater ridge on Sol 2754, October 23, 2011. Opportunity wheel tracks at right. Cape Tribulation and distant, far side Endeavour crater rim in background. Opportunity is now driving to the northern tip of Cape York in search of a winter haven to survive upcoming brutal Martian Antarctic winter temperatures. Credit: NASA/JPL/Cornell. See the entire panorama in 2 D and 3 D and route maps below.
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NASA’s intrepid robogirl Opportunity is now swiftly scouting out locations at a Martian hill along gigantic Endeavour crater that would simultaneously proffer a goldmine of sun and science as her power level drops significantly in these waning days of Martian autumn ahead of the absolutely brutal and potentially deadly 6 month long Antarctic winter that’s fast approaching. Opportunity has just discovered a geologic vein possibly formed as a result of flowing water eons ago.
But, search time for a sunny exposure at the Martian hill known as Cape York is running out says the Mars rover team in new interviews with Universe Today. Recall that lack of power and utterly frigid temperatures killed her twin sister Spirit last winter.
“Martian winter in the southern hemisphere starts on March 29, 2012 or Sol 2908. But, Solar power levels already begin dropping dramatically months before Martian winter starts,” said Alfonso Herrera to Universe Today, Herrera is a Mars rover mission manager at NASA’s Jet Propulsion Laboratory in Pasadena, Calif.
“Orbital imagery indicates that the northern-most tip of Cape York might have north facing slopes which Opportunity will need in order to generate enough solar power to sustain her comfortably throughout the winter,” Herrera explained to me.
The team is very excited about the science implications of the vein detection.
“The importance of veins is that often they occur from the deposition of material that was dissolved and transported by hot water in cracks deep underground,” said Bruce Banerdt to Universe Today. Banerdt is the Project Scientist for the Mars rover mission at JPL.
Traverse map showing the 7 Year Journey of Opportunity from Eagle Crater landing site Sol 1 (Jan. 24, 2004) to current location around Homestake on Sol 2763 (November 2011) at Cape York ridge at Endeavour Crater rim. Endeavour Crater is 14 miles or 22 kilometers in diameter. Opportunity has driven more than 21 miles (34 km). Credit: NASA/JPL/Cornell/Marco Di Lorenzo/Kenneth Kremer
Segments of Endeavour’s rim at Cape York and Cape Tribulation about 6 kilometers further south offers scientifically rich motherlodes of phyllosilicate clay minerals and other water bearing minerals that formed Billions of years ago on Mars and that could possibly point to habitats favorable for the genesis and support of Martian microbial life forms if they ever existed in the past or present.
Opportunity is currently traversing about the hilltops and slopes of Cape York where she recently made landfall after an epic three year trek across the plains of the Meridiani Planum region of Mars.
Initial reconnaissance around the southern tip and then climbing on top of the central ridge of Cape York have already yielded a bonanza of new science data at rock types never seen before on Mars, according to Steve Squyres, the Mars Rover Principal Investigator of Cornell University.
The rover is now driving north and back down around the base while searching for a “winter haven” with more potential for great science and a northerly inclined slope to more efficiently catch the sun’s rays.
“Opportunity is heading north to find the best winter site,” Ray Arvidson told Universe Today. Arvidson is the rover’s deputy principal investigator, of Washington University in St. Louis.
“We are more than halfway toward the northern part of Cape York where there are slopes steep enough to provide an energy-valid winter site and where science can take place. Now we are driving away from the predicted outcrops [of smectite clay minerals] on Cape York and onto the bench on the western side because we have run out of time to investigate these outcrops.”
Opportunity - Wide panoramic view inside vast Endeavour Crater snapped ascending Cape York crater ridge on Sol 2754, October 23, 2011. Opportunity wheel tracks at center. Cape Tribulation and distant, far side Endeavour crater rim in background. Opportunity is now driving to the northern tip of Cape York in search of a winter haven to survive upcoming brutal Martian Antarctic winter temperatures. Credit: NASA/JPL/Cornell
However, the rover team was still hoping to catch a break for science opportunities along the way north and just chanced upon geologic veins potentially indicative of past flow of liquid water.
“The bench around the edge of Cape York looks like sedimentary rock that’s been cut and filled with veins of material possibly delivered by water,” says Arvidson.
3 D Opportunity Panorama - 3 D Wide panoramic view inside vast Endeavour Crater snapped ascending Cape York crater ridge on Sol 2754, October 23, 2011. Opportunity wheel tracks at center. Cape Tribulation and distant, far side Endeavour crater rim in background. Opportunity is now driving to the northern tip of Cape York in search of a winter haven to survive upcoming brutal Martian Antarctic winter temperatures. Credit: NASA/JPL/Cornell
Opportunity has just driven to a light toned vein at a spot dubbed “Homestake” and will spend a few sols (martian days) investigating with all the tools on the terminus of the robotic arm – including some Microscopic Imager (MI) images of the vein and placing the Alpha Particle X-ray Spectrometer (APXS) on top for overnight integrations.
“Opportunity will then continue traveling on the outboard side of Cape York (i.e. facing the plains),” Herrera told Universe Today.
“Plans are subject to change, but currently, Opportunity will travel to the north end of Cape York and stay there for the winter if suitable north facing slopes are found.”
“Our hope is that once a winter haven is identified, Opportunity will have enough power to make brief forays for science gathering in the vicinity of the winter haven,” Herrera informed me.
Homestake vein close up on Sol 2765- November 3, 2011. RAT (Rock Abrasion Tool) at lower left will target Homestake. Credit: NASA/JPL/CornellOpportunity Panorama at Cape York Ridge at Endeavour Crater - November 2011
Opportunity rover is exploring around the base of Cape York hill at the bench and vein features which may hold clues to the ancient flow of liquid water here on Mars. Opportunity drives North (ahead) from here in search of a sunny winter haven. Mosaic Credit: NASA/JPL/Cornell/Kenneth Kremer/Marco Di Lorenzo
Opportunity’s power levels have dropped by nearly 25 percent in the past few months – as Martian dust builds up – and are hovering around 300 watts-hours , which is less than a third of the maximum output possible from her life giving solar arrays.
Her sparkling wing-like solar panels boasted an output of some 950 watt-hours upon landing on Mars nearly 8 years ago – for a mission warrentied to last a mere 90 Martian Days, or Sols. That equates to 31 times beyond the design lifetime !
Endeavour Crater Panorama from Opportunity, Sol 2681, August 2011
Opportunity arrived at the rim of Endeavour on Sol 2681, August 9, 2011 and climbed up the ridge known as Cape York. Odyssey crater is visible at left. Opportunity is now driving to the northern tip of Cape York (to the left) and is investigating a geologic vein that indicates flow of liquid water. Opportunity was photographed from Mars orbit on Sept. 10, 2011.
Mosaic Credit: NASA/JPL/Cornell/Marco Di Lorenzo/Kenneth Kremer
Cape York is a low ridge that belongs to the rim of humongous Endeavour crater, some 14 miles or 22 kilometers in diameter that offers spectacular panoramic vistas peering into the vast and beautiful crater sporting a huge central mound and mountainous rim segments both near and far.
Opportunity arrived at Cape York and Endeavour Crater in August 2011 after an overland expedition of more than 21 miles (34 km).
NASA’s Curiosity rover is on course to liftoff for Mars on Nov. 25
Traverse map showing the 7 Year Journey of Opportunity from Eagle Crater landing site to current location at Cape York ridge at Endeavour Crater rim. Credit: NASA/JPL/Cornell/Marco Di Lorenzo/Kenneth Kremer
3 D view of the rare Phobos–Jupiter conjunction taken on 1 June 2011 by the High Resolution Stereo Camera on Mars Express. Credits: ESA/DLR/FU Berlin (G. Neukum)
Video Caption: Phobos and Jupiter in Conjunction – taken from Mars orbit !
A movie of the 1 June 2011 Phobos–Jupiter conjunction made by combining a sequence of 100 images of the encounter taken by the High Resolution Stereo Camera on ESA’s Mars Express orbiter. Mars Express is searching for safe landing zones on Phobos for Russia’s Phobos-Grunt lander blasting off on November 9. Credits: ESA/DLR/FU Berlin (G. Neukum)
3 D images of Phobos-Jupiter conjuction below Update – Phobos-Grunt launch processing photo below
In just 7 days, Russia’s Phobos-Grunt sample return mission will blast off for Mars on November 9 on a daring mission to grab soil samples from the surface of the miniscule martian moon Phobos and return them back to Earth for analysis to give us breathtaking new insights into the formation and evolution of Mars, Phobos and our Solar System.
So, check out the amazing animation and 3 D stereo images of fish-like Phobos and banded Jupiter snapped by Europe’s Mars Express orbiter to get a bird’s eye feel for the battered terrain, inherent risks and outright beauty that’s in store for the Phobos -Grunt spaceship when it arrives in the Red Planet’s vicinity around October 2012. Whip out your red-cyan 3 D glasses – Now !
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ESA’s Mars Express orbiter (MEX) was tasked to help Russia locate suitable and safe landing sites on Phobos’ pockmarked terrain. MEX was built by ESA, the European Space Agency and has been in Mars orbit since 2003.
To capture this impressive series of rare photos of Jupiter and Phobos in conjunction, Mars Express performed a special maneuver to observe an unusual alignment of Jupiter and Phobos on 1 June 2011.
Mars Express High Resolution Stereo Camera (HRSC) snapped a total of 104 images over 68 seconds when the distance from the spacecraft to Phobos was 11,389 km and the distance to Jupiter was 529 million km.
Phobos- Jupiter Conjunction: before, during and after on 1 June 2011 from Mars Express. Credits: ESA/DLR/FU Berlin (G. Neukum)
Enjoy the exquisite views of the bands of Jupiter and imagine exploring the deep pockets and mysterious grooves on Phobos – which may be a captured asteroid.
The camera was kept fixed on Jupiter, to ensure it remained static as Phobos passed in front and which afforded an improvement in our knowledge of the orbital position of Phobos.
Phobos in 3 D during flyby of 10 March 2010. Image taken from a distance of 278 km. Russia’s Phobos-Grunt will retrieve rogolith and rock for return to Earth. Credit: ESA/DLR/FU Berlin (G. Neukum)
NASA’s twin Mars rovers Spirit and Opportunity have also occasionally photographed both of Mars’ moons to further refine their orbital parameters.
NASA’s Curiosity rover remains on track to liftoff for Mars on Nov. 25
Orbital Paths of Phobos and Mars Express. The trajectories of Phobos and Mars Express at the time of the conjunction with Jupiter on 1 June 2011. The letter ‘S’ denotes the South Pole of Mars.Technicians at Baikonur Cosmodrome prepare Phobos-Grunt for upper stage attachment. Credit: Roscosmos
