This week's question: How many kilograms of plutonium dioxide are carried
by the Curiosity rover?
Images of the mudcracks were sent
by the Curiosity rover in 2017.
It produced radiation levels on the surface more than double any previously measured
by the Curiosity rover's Radiation Assessment Detector, or RAD, since that mission's landing in 2012.
Data collected
by the Curiosity rover, which roams the Red Planet, finds that surface space radiation levels there are high.
A NASA Mars photo taken
by the Curiosity rover features an object that looks like a flying saucer.
Geologists confirm that the mudcracks on Mars's surface spotted
by the Curiosity rover last year strongly suggest the presence of lakes that likely dried up about 3.5 billion years ago.
A geologic find
by the Curiosity rover suggests Mars in its distant past may have been much more like the Earth, researchers say.
None of those particles seem to have arrived at the martian surface as observed
by the Curiosity rover, confirming that they were absorbed in the atmosphere.
SAN FRANCISCO, CALIFORNIA — The first full analysis of martian soil
by the Curiosity rover has detected simple carbon compounds that could be the first traces of past martian life ever found, NASA scientists announced here today at a press conference at the annual fall meeting of the American Geophysical Union.
Not exact matches
Get a behind the scenes look a the tension, anticipation and exhilaration experienced
by scientists and engineers at NASA's Jet Propulsion Laboratory in Pasadena, Calif. during the
Curiosity rover's harrowing descent through the Martian atmosphere — known as «Seven Minutes of Terror.»
The composition of NWA 7034 also matches that of rocks studied
by Curiosity, NASA's newest
rover, as described in preliminary reports from members of that mission.
However, Gale crater, where the
Curiosity rover landed, contains fragments of very ancient igneous rocks (around 4 billion years old) that are distinctly light in color, which were analyzed
by the ChemCam instrument.
Observations of the Martian moons, Phobos and Deimos,
by Curiosity and
by the older, still - active Mars
rover Opportunity are helping researchers get more precise knowledge of the moons» orbits.
Prior to CRaTER and recent measurements
by the Radiation Assessment Detector (RAD) on the Mars
rover Curiosity, the effects of thick shielding on cosmic rays had only been simulated in computer models and in particle accelerators, with little observational data from deep space.
NASA's
Curiosity Mars
rover has passed the milestone of 100,000 shots fired
by its laser.
The researchers checked ripple textures preserved in sandstone more than 3 billion years old at sites investigated
by Curiosity and
by NASA's Opportunity Mars
rover.
This set of three images shows views three seconds apart as the larger of Mars» two moons, Phobos, passed directly in front of the sun as seen
by NASA's Mars
rover Curiosity.
The determination that these mid-size ripples are a distinct type resulted from observations
by NASA's
Curiosity Mars
rover.
Analyses are made
by the instrument SAM (Sample Analysis on Mars) on board the unmanned
rover Curiosity located on Mars.
Unencumbered
by human frailties,
Curiosity — like the
rovers Spirit and Opportunity, which survived on the Red Planet years longer than expected — will be free to hunt for E.T. «If we find evidence for life on Mars, boy, are we just gonna go wild with speculation about how common it is in the universe,» says Lou Friedman, a former scientist with NASA's Jet Propulsion Laboratory in Pasadena and cofounder, with Carl Sagan, of the Planetary Society.
The
rover Curiosity on the surface of Mars collects data
by means of the instrument SAM (Sample Analysis on Mars).
Further analysis of the datasets will include meteorological measurements of the dust devils that will be used to interpret data obtained
by landers and
rovers on Mars, including the
Curiosity rover and the upcoming ExoMars and InSight lander missions.
This self - portrait of NASA's Mars
rover Curiosity combines dozens of exposures taken
by the
rover's Mars Hand Lens Imager (MAHLI) during the 177th Martian day, or sol, of
Curiosity's work on Mars (Feb. 3, 2013), plus three exposures taken during Sol 270 (May 10, 2013) to update the appearance of part of the ground beside the
rover.
A TANTALISING whiff of carbon - based compounds has been picked up
by NASA's
Curiosity Mars
rover.
A view from the «Kimberley» formation on Mars taken
by NASA's
Curiosity rover.
There is a reason why the most advanced
rover currently in existence,
Curiosity, is rigidly controlled
by NASA operators: space equipment in general is fiendishly expensive, so the agency has to be sure the chances of anything going wrong are tiny.
Many of the experiments carried out
by the Mars Science Laboratory (MSL) mission's
Curiosity rover were painstakingly planned
by NASA scientists more than a decade ago.
IN THE AIR Measurements collected
by NASA's
Curiosity rover indicate that methane is periodically released into Mars» atmosphere from an unknown source.
A key new measurement of Mars» atmosphere
by NASA's
Curiosity rover provides the most definitive evidence yet of the origins of Mars meteorites while at the same time providing a way to rule out Martian origins of other meteorites.
This incomplete self - portrait of NASA's
Curiosity rover, which landed on Mars on 6 August, is a mosaic of 8 images snapped
by the
rover's navigation cameras.
This was the year Mars»
rover Curiosity proved its worth
by giving researchers unprecedented access to the Red Planet.
NASA engineers are finally admitting what the rest of us knew all along: Landing the
Curiosity rover on Mars on 5 August at 10:31 PDT
by dangling it beneath a rocket - festooned flying platform is just plain scary.
A reporter overheard Grotzinger praising the superb high - quality data being returned
by the
rover and assumed the remarks referred to an exciting discovery from
Curiosity's first thorough soil analysis.
The mission would cost about $ 2.6 billion — slightly more than NASA's
Curiosity Mars
rover — and could be completed
by the 2020s.
Well into its fifth year, NASA's
Curiosity rover has now shot more than 500 movies of the clouds above it, including the first ground - based view of martian clouds shaped
by gravity waves, researchers reported this week at the Lunar and Planetary Science Conference.
Chemicals found in Martian rocks
by NASA's
Curiosity Mars
rover suggest the Red Planet once had more oxygen in its atmosphere than it does now.
The
Curiosity rover exploring Mars attempted to accomplish this, but the
rover's experiments to identify organic chemicals in Martian samples were complicated
by reactions with other materials in the samples.
WATERY PAST Sandstone deposits laid down
by ancient rivers on Mars, seen in this image from the
Curiosity rover, indicate that Gale Crater was once a shallow lake.
A LITTLE GAS The concentration of methane in the Martian atmosphere measured
by the
rover Curiosity is one ten - thousandth that on Earth.
While 210 million years ago might not sound terribly recent, the Arsia Mons site is much younger than the habitable environments turned up
by Curiosity and other Mars
rovers.
The first
rover to be powered
by the radioactive decay of plutonium rather than sunlight,
Curiosity will be able to work around - the - clock and through the Martian winter.
Scientists found evidence of the mineral tridymite on Mars based on the analysis of samples sent back
by NASA's
Curiosity rover.
Laser - zapping of a globular, golf - ball - size object on Mars
by NASA's
Curiosity rover confirms that it is an iron - nickel meteorite fallen from the Red Planet's sky.
Many of the purple rocks observed
by Curiosity in the foreground correspond to areas where the
rover also detected the iron - oxide mineral hematite using its Chemical and Mineralogy (CheMin) instrument.
Comparison of the Moon as soon from Earth (right), and Phobos and Deimos as seen from the surface of Mars
by NASA's
Curiosity rover in 2013 (Credit: NASA / JPL - Caltech / Malin Space Science Systems / Texas A&M Univ)
On December 16, NASA announced another potential whiff of Martian life in the form of methane sniffed
by the
rover Curiosity.
Volatiles can be consumed
by the Martian crust and stored as minerals, and the
Curiosity rover and its science team is studying this type of loss.
There have been varying amounts of methane measured in Mars» atmosphere since then, including
by the NASA
Curiosity rover that arrived on the surface in 2012.
NASA has revealed a new image, recorded and dispatched
by its
Curiosity Mars
rover, which shows two asteroids as viewed for the first time from the Martian surface.
Evidence gathered
by rovers and satellites such as
Curiosity and the Mars Reconnaissance Orbiter suggests that, billions of years ago, the Red Planet was once covered in lakes and oceans, and that it had a thicker atmosphere.