After a successful landing on March 2, the Blue Goast Mission of the Fire Fly Aerospace has been operating at a lunar level for almost two weeks. As part of the agency’s commercial lunar pay load services (CLPS) move, the Blue Goast Lazar of the Fire Flow delivered 10 NASA science and technology devices to the Crisium Basin near the moon. All NASA’s payloads have successfully gained power, collected science data, and running to the surface of the moon. Early on Friday morning, the Blue Goast captured pictures of the lunar eclipse from the moon.
Other highlights of NASA Science include:
- Lunar GNSS recipient experience (Logari) acquired and tracked the Global Navigation Satellite System (GNSS) signals, such as GPS and Galileo, in transit and satellite networks on the moon level. This is the first time that navigation solutions have been obtained using GNSS signals on lunar orbit and moon.
- Lunar environment helosopheric x -ray Amigar (Luxex) To study the interactions of the solar wind and the magnetic field of the earth, a series of X -ray images were caught, providing insights on how the weather and other cosmic forces around the earth affect the planet.
- The next generation’s lunar retrieval Filter (NGLR) successfully reflected and returned the laser light from two lunar laser laser, which could allow scientists to measure the moon’s shape and distance from the earth, which enhances our understanding of the moon’s internal structure.
- The lunar magnetic sound (LMS) was activated and successfully deployed and successfully deployed to study the entry of the moon by measuring electricity and magnetic fields. The LMS device will allow scientists to characterize the inner part of the moon at the middle of the moon half -way in depth of 700 miles or more.
- The lunch device for sub -surface thermal exploration with high speed is now the thermal investigation of the surface surface of the deepest robotic planet, which reaches 3 feet (1 meter). By providing the first demonstration of robotic thermal measurement at various depths, the laster uses the gas as the main source of excavation (without traditional rotary or prokosive drilling elements), as well as a coil metal tube that is produced in the hole produced by compressed gas.
- Stereo cameras obtained more than 3,000 images for the spacecraft’s lunar descent on the moon and the lunar plum surface study (scalpss) tool during the touchdown on the moon, providing insights for the effects of engine plums. Skype Payload took hours even after the first two days of landing, and they managed to observe the shadow that moved to the surface, which provided some additional data regarding the areas in the first shadow.
- The lunar Planet Week (LPV) was deployed to the Blue Goastic level access arm and was successfully accumulated from the moon using a low -cost, low -cost solutions, low -cost solutions to collect robotic samples in the future, using pressure nitrogen gas, transfer, transfer, and lunar soil.
- Electrodentic Dust Shield (ED) successfully lifted and removed the lunar regulation using electroidinatic forces on glasses and thermal radiator surfaces. These results show that the EDS is a passionate solution to the dust reduction on future lunar and internationally level operations.
- Regulith’s follow -up feature (RAC) device examined how the lunar Regulmah is based on the moon environment, which can improve, improve and protect the industry from spacecraft, space suits, and residual lunar dust or regulated.
- Radiation tolerant computer (RADPC) has worked successfully in the transit, including the land van through the Belt, and at the lunar level, confirming the solution to reduce radiation effects on computers, which can make future missions safe and more efficient.
NASA’s Artemis Blog and Follow it Blue Goast Mission Page of Fire Fly For additional updates.