Images captured in the sampling area of NASA’s Perseverance rover on Mars surprised us Expedition scholars because it shows something like hair.
Information downloaded August 4 from Perseverance It showed that the expedition’s twelfth sample had been successfully extracted, sealed and stored.
As the team always does, photos were taken of various components of the debris collection system. Samples after completion of drilling activity.
Two small pieces of debris are seen in these photos: A small body in the pulp bit (stored in the drill carousel) and a small hair-like body in the chuck.
According to NASA, the team is now investigating its source. and whether it originated from the rover or external debris from the entry, descent and landing (EDL) system that was discarded at the start of the mission.
Images of the workspace (the surface directly in front of the rover) are analyzed to see if any foreign object remains are visible. The turret at the end of the robotic arm will rotate so that the spindle and drill chuck can be imaged from more inclined angles.
Additional photos are also considered and other diagnostic activities needed to better understand the nature of these things.
Humanity goes to Mars iron
A team of researchers led by Professor Akbar Ramdani of Swinburne University, He published the first detailed study of mineral production on another planet.
The team is focused on prospecting for minerals on the surface of Mars. They are developing a process that requires processing air, soil, and sunlight on Mars to produce the metallic iron. Concentrated solar energy is used as a source of heat and carbon, which is produced by cooling carbon dioxide gas, It is a byproduct of oxygen production in the Martian atmosphere. Post your design to Acta Astronautica.
This oxygen production has been demonstrated on Mars, aboard the Perseverance rover, by NASA’s MOXIE (Mars Site Oxygen Resource Utilization Experiment) project. Therefore, it is assumed that the mineral extraction process at Swinburne will be combined with a future (much larger than MOXIE) oxygen generation plant. For the production of oxygen and iron alloys, which can be used to produce metals. This could be used to advance human mission and development on Mars.
Launching technology into space is expensive, time-consuming, and environmentally damaging. Producing resources from other planets allows for more efficient development, Economical and sustainable in space.
This allows for more human exploration and the spread of technology, such as satellites, They help collect data and solve problems on the ground.
The team from the Fluid and Process Dynamics Research Group and the Institute of Space Technology and Industry in Swinburne is currently working closely with CSIRO Minerals and the CSIRO space technology future science platform. (Australian Investigative Agency) to move the investigation to the next stage.
Professor Akbar Ramdani says: “We would like to develop a process to extract minerals from Mars that actually uses the resources on siteAnd the Without bringing reagents from Earth, to support further human missions and development on Mars.”
“If you want to build something big on Mars without having to pay to launch everything from Earth (large satellites, Mars colonies, refueling depots and more), this can be a very valuable operation“.
With information from Europe Press