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Κυ. Δεκ 22nd, 2024

Η NASA καταγράφει εικόνες από το πρωί και το απόγευμα του Άρη σε μία «καρτ ποστάλ».

Η NASA καταγράφει εικόνες από το πρωί και το απόγευμα του Άρη σε μία «καρτ ποστάλ».
Καρτ ποστάλ της NASA Curiosity Mars Rover του Marker Band Valley

Το ρόβερ Curiosity Mars της NASA χρησιμοποίησε ασπρόμαυρες κάμερες πλοήγησης για να τραβήξει πανοραμικές εικόνες δύο φορές την ημέρα στις 8 Απριλίου 2023. Πιστώσεις: NASA/JPL-Caltech

Ο φωτισμός συνδυάζεται δύο φορές την ημέρα για μια εκπληκτική θέα του εδάφους που αφήνει πίσω του το rover.

Μετά την ολοκλήρωση της σημαντικής ενημέρωσης λογισμικού τον Απρίλιο,[{” attribute=””>NASA’s Curiosity Mars rover took a last look at “Marker Band Valley” before leaving it behind, capturing a “postcard” of the scene.

The postcard is an artistic interpretation of the landscape, with color added over two black-and-white panoramas captured by Curiosity’s navigation cameras. The views were taken on April 8 at 9:20 a.m. and 3:40 p.m. local Mars time, providing dramatically different lighting that, when combined, makes details in the scene stand out. Blue was added to parts of the postcard captured in the morning and yellow to parts taken in the afternoon, just as with a similar postcard taken by Curiosity in November 2021.

NASA Curiosity Mars Rover Postcard of Marker Band Valley Annotated

NASA’s Curiosity Mars rover used its black-and-white navigation cameras to capture panoramas at two times of day on April 8, 2023. Figure A is an annotated version of the postcard noting geographic features and elements of the rover. Credit: NASA/JPL-Caltech

The resulting image is striking. Curiosity is in the foothills of Mount Sharp, which stands 3 miles (5 kilometers) high within Gale Crater, where the rover has been exploring since landing in 2012. In the distance beyond its tracks is Marker Band Valley, a winding area in the “sulfate-bearing region” within which the rover discovered unexpected signs of an ancient lake. Farther below (at center and just to the right) are two hills – “Bolívar” and “Deepdale” – that Curiosity drove between while exploring “Paraitepuy Pass.”

NASA Curiosity Mars Rover Postcard of Marker Band Valley Morning Panorama

Morning panorama without ad. Credit: NASA/JPL-Caltech

“Anyone who’s been to a national park knows the scene looks different in the morning than it does in the afternoon,” said Curiosity engineer Doug Ellison of NASA’s Jet Propulsion Laboratory in Southern California, who planned and processed the images. “Capturing two times of day provides dark shadows because the lighting is coming in from the left and the right, like you might have on a stage – but instead of stage lights, we’re relying on the Sun.”

NASA Curiosity Mars Rover Postcard of Marker Band Valley Afternoon Panorama

Afternoon panorama without added color. Credit: NASA/JPL-Caltech

Adding to the depth of the shadows is the fact that it was winter – a period of lower airborne dust – at Curiosity’s location when the images were taken. “Mars’ shadows get sharper and deeper when there’s low dust and softer when there’s lots of dust,” Ellison added.

The image peers past the rear of the rover, providing a glimpse of its three antennas and nuclear power source. The Radiation Assessment Detector, or RAD, instrument, which appears as a white circle in the lower right of the image, has been helping scientists learn how to protect the first astronauts sent to Mars from radiation on the planet’s surface.

More About the Mission

Curiosity was built by NASA’s Jet Propulsion Laboratory (JPL), which is managed by the California Institute of Technology (Caltech) in Pasadena, California. JPL leads the mission on behalf of NASA’s Science Mission Directorate in Washington.

NASA’s Mars Science Laboratory mission, with its rover named Curiosity, was launched on November 26, 2011, and successfully landed on Mars on August 6, 2012.

Curiosity is about the size of a small SUV — 10 feet long (not including the arm), 9 feet wide, and 7 feet tall — much larger than previous Mars rovers. The rover is equipped with a wide array of sophisticated scientific instruments that help it to carry out its primary mission: to study the Martian climate and geology, assess whether the selected field site inside Gale Crater has ever offered environmental conditions favorable for microbial life, and for planetary habitability studies in preparation for future human exploration.

The rover has instruments capable of scooping up soil and crushed rock samples, analyzing them for signs of organic compounds and environmental conditions that could have supported microbial life in the past. It also has a drill that can gather samples from inside rocks, cameras for detailed imaging, and many other tools.

By Artemis Sophia

"Ερασιτέχνης διοργανωτής. Εξαιρετικά ταπεινός web maven. Ειδικός κοινωνικών μέσων Wannabe. Δημιουργός. Thinker."

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