NASA Space Technology has a big travel plan in 2025, starting from a trip to the moon!
In the 10 revolutionary NASA science and technology demonstrations, two technologies conducted an incoming spacecraft and a surface experiment to conduct a surface experiment to investigate Lunar Legolis, also called the “dust of the moon.” I am riding to better understand the surface interaction. The demonstration of these dusts and the data designed to collect them will help support future moon missions.
Blue Ghost Mission 1 began at 1:11 am on the Leon Complex 39A at the Kennedy Space Center in Agency in Florida. The company targets the lunar landing on Sunday, March 2.
NASA’s Electrical Mechanical Dust Shield (EDS) uses electric fields to lift, transport, and remove particles, to repel and prevent the accumulation of harmful moon dust on the surface. The stereo camera, an agent of the monthly feather surface research (scalp) technology, uses stereo imaging to capture the impact of rocket plumes on the moon as the landing device descends on the surface of the moon. Returns high -resolution images that are useful. Legoris erosion -A task that is important so that a larger and heavier payload is close to each other and distributed to the moon.
EDS and scalp technology are delivered to MOON, which is named as the first Blue Ghost Mission in Firefly, Sky In The Sky, as part of the NASA CLP (commercial month’s payload service). Its landing target is a 300 -mile basin on the side of the moon called MARE CRISIUM, a large and dark, dark, dark -tuned planet plains. The first similar experiment will develop after landing and collect important data in a wide range of fields, such as global characteristics, global navigation, radiation resistance computing, and lunar Legolis behavior.
Michael Johansen
NASA game change development program flight demonstration lead
The dusty environment of the moon is one of the biggest tasks faced by astronauts during the Apollo Moon Mission, and it was dangerous to the lunar system, cosmic clothing, habitat, and instrumentation. What you learned from these early missions and what you learned from thousands of experiments conducted on the earth and space requires the ability to eliminate dust from all kinds of systems. For example, the landing of the moon distributed in all directions and collects all things that land there. This is one of the important reasons for such a technology to understand. Scalp technology studies the dust distribution of the moon, and EDS shows a solution to relieve it.
Kristen John
NASA’s lunar innovation innovation technical integration lead
Dust easing technology has been on a long way, but I often learn the development of surface systems and infrastructure for more complex missions. LSII is actively working on this initiative, and in cooperation with the moon community throughout the sector, we have designed new approaches for future technology. LSII has a unique opportunity to comprehensively examine the role of DUST in the development of terrestrial infrastructure in cooperation with the lunar innovation consortium. It has an important functional area.
The ability to minimize dust interaction is important for the future mission of Mars, like the moon mission. As with the moon, Mars is also covered with Legoris, which is also called Mars dust and Mars soil, but its characteristics are different from the lunar Legolis in both shape and minerals. The challenges encountered by MARS ROVERS in Martian Regolith provided great insights on issues facing during the lunar mission. Learning is useful in future missions, whether hundreds of thousands of miles from the earth, several million miles on the moon or Mars to hundreds of thousands of miles.
