Skip to main content

Follow Perseverance on Its Mars Journey With This Two-Year Timelapse

Hard to believe, but the Perseverance Rover has begun its third year exploring Mars. On Feb. 18, 2021,  Perseverance rover survived the harrowing landing at Jezero Crater, and almost immediately, began an expedition to collect a geologically diverse set of rock samples, ones that could help answer the question if Mars once had ancient microbial life.

JPL and NASA put together a wonderful two-year animation of images from the rover’s Front Left Hazard Avoidance Camera to celebrate Percy’s landing anniversary.

During the timelapse, you can see various rocks that Perseverance stopped to study with its robotic arm and sensors. The rover has now traveled almost 15 km (9 miles). In addition to studying numerous rocks, it has also collected and stowed away 18 sample containers of rocks, regolith, and even the Martian atmosphere, to be gathered later and brought to Earth in a future Mars Sample Return mission.

“Anniversaries are a time of reflection and celebration, and the Perseverance team is doing a lot of both,” said Perseverance project scientist Ken Farley of Caltech in Pasadena, in a press release. “Perseverance has inspected and performed data collection on hundreds of intriguing geologic features, collected 15 rock cores, and created the first sample depot on another world. With the start of the next science campaign, known as ‘Upper Fan,’ on Feb. 15, we expect to be adding to that tally very soon.”

An image from the Perseverance Rover’s Hazard Avoidance Camera. Credit: NASA/JPL.

NASA put together a huge list of rover highlights from the first two years.

“Behind each number is a lot of thought and effort from a very talented group of women and men on the Perseverance team,” said Art Thompson, Perseverance project manager at JPL. “We have come a long way together, and I can’t think of a better group to work with as we go even farther.”

Here is Percy’s two years by the numbers:

  • Collected and sealed 18 samples
  • Set down a depot of 10 sample tubes
  • Laser shots fired by the SuperCam science instrument: 230,554
  • Soundings performed by the RIMFAX (Radar Imager for Mars’ Subsurface Experiment) ground-penetrating radar to study underground rock layers: 676,828
  • Mars audio recordings taken by SuperCam’s microphone: 662
  • Hours of Mars weather data recorded by MEDA (Mars Environmental Dynamics Analyzer): 15,769.1
  • Hours the X-ray filament on the PIXL (Planetary Instrument for X-ray Lithochemistry) instrument has operated: 298.2
  • Laser shots by the SHERLOC (Scanning Habitable Environments with Raman & Luminescence for Organics & Chemicals) instrument: 4,337,010
  • SHERLOC spectroscopy observations: 33
  • Times the rover’s main robotic arm has been unstowed and stowed: 64
  • Times the drill on that arm has touched Mars: 39
  • Times drill bits have been exchanged: 48
  • Abrasions performed by the drill: 17
  • Distance the rover’s sample handling arm’s z-stage has traveled up and down: 676.1 feet (206.1 meters)

Perseverance’s Camera Statistics

Perseverance packs seven science cameras along with nine engineering cameras. Together, those cameras have taken more than 166,000 images. Here are the image tallies for several of them.

  • Mastcam-Z: 86,660
  • Navigation Cameras: 21,571
  • Front Hazard-Avoidance Cameras: 3,909
  • Rear Hazard-Avoidance Cameras: 474
  • Sampling and Caching System Camera: 1,321
  • SuperCam Remote Micro-Imager: 2,825
  • SHERLOC WATSON: 5,754
  • SHERLOC Context Imager: 2,260
  • MEDA SkyCam: 1,831
  • PIXL Micro-Context Camera: 1,012
  • Entry, Descent, and Landing Cameras: 33,279

You can watch a presentation given by Dr. Sunanda Sharma, postdoctoral fellow, Mars 2020, at JPL last week, where she talks about the past two years of operation and discovery.

The post Follow Perseverance on Its Mars Journey With This Two-Year Timelapse appeared first on Universe Today.



from Universe Today https://ift.tt/I3omks9
via IFTTT

Comments

Popular posts from this blog

More Data and Machine Learning has Kicked SETI Into High Gear

For over sixty years, astronomers and astrophysicists have been engaged in the Search for Extraterrestrial Intelligence (SETI). This consists of listening to other star systems for signs of technological activity (or “technosignatures), such as radio transmissions. This first attempt was in 1960, known as Project Ozma, where famed SETI researcher Dr. Frank Drake (father of the Drake Equation) and his colleagues used the Robert C. Byrd Green Bank Telescope in West Virginia to conduct a radio survey of Tau Ceti and Epsilon Eridani. Since then, the vast majority of SETI surveys have similarly looked for narrowband radio signals since they are very good at propagating through interstellar space. However, the biggest challenge has always been how to filter out radio transmissions on Earth – aka. radio frequency interference (RFI). In a recent study, an international team led by the Dunlap Institute for Astronomy and Astrophysics (DIAA) applied a new deep-learning algorithm to data collecte...

SETI Researchers Double-Checked 1 Million Objects for Signs of Alien Signals

We can’t help ourselves but wonder about life elsewhere in the Universe. Any hint of a biosignature or even a faint, technosignature-like event wrests our attention away from our tumultuous daily affairs. In 1984, our wistful quest took concrete form as SETI, the Search for Extraterrestrial Intelligence . Unfortunately, or maybe fortunately, SETI has turned up nothing. Recently, scientists used a powerful new data system to re-examine data from one million cosmic objects and still came up empty-handed. Did they learn anything from this attempt? This effort used COSMIC , which stands for  Commensal Open-Source Multimode Interferometer Cluster . It’s a signal-processing and algorithm system attached to the Karl G. Jansky  Very Large Array  (VLA) radio astronomy observatory. According to SETI, it’s designed to “search for signals throughout the Galaxy consistent with our understanding of artificial radio emissions. “ Modern astronomy generates vast volumes of data and al...

Could We Launch a Mission to Chase Down Interstellar Comet 3I/ATLAS?

It’s a tantalizing prospect. Since 2017, three interstellar objects have been spotted passing through our solar system: 1I/ʻOumuamua, 2I/Borisov… and just this month, 3I/ATLAS. Discovered on July 1st by the Asteroid Terrestrial-impact Last Alert Survey, 3I/ATLAS is zipping through the inner solar system in the last half of 2025. Certainly, all assets on the ground and in space will be turned towards 3I/ATLAS over the next few frenzied months, to glean what we can… but what would 3I/ATLAS look like up close? Can we even consider chasing down such a speedy visitor? from Universe Today https://ift.tt/HAho7wC via IFTTT