NASA Selects New Science Investigations for Future Moon Deliveries
upstart writes:
NASA Selects New Science Investigations for Future Moon Deliveries:
As NASA continues plans for multiple commercial deliveries to the Moon's surface per year, the agency has selected three new scientific investigation payload suites to advance understanding of Earth's nearest neighbor. Two of the payload suites will land on the far side of the Moon, a first for NASA. All three investigations will receive rides to the lunar surface as part of NASA's Commercial Lunar Payload Services, or CLPS, initiative, part of the agency's Artemis approach.
[...] Lunar Vertex, one of the three selections, is a joint lander and rover payload suite slated for delivery to Reiner Gamma - one of the most distinctive and enigmatic natural features on the Moon, known as a lunar swirl. Scientists don't fully understand what lunar swirls are or how they form, but they know they are closely related to anomalies associated with the Moon's magnetic field. The Lunar Vertex rover will make detailed surface measurements of the Moon's magnetic field using an onboard magnetometer.
[...] NASA also has selected two separate payload suites for delivery in tandem to Schrodinger basin, which is a large impact crater on the far side of the Moon near the lunar South Pole. The Farside Seismic Suite (FSS), one of the two payloads to be delivered to Schrodinger basin, will carry two seismometers: the vertical Very Broadband seismometer and the Short Period sensor. NASA measured seismic activity on the near side of the Moon as part of the Apollo program, but FSS will return the agency's first seismic data from the far side of the Moon-a potential future destination for Artemis astronauts.
[...] The Lunar Interior Temperature and Materials Suite (LITMS), the other payload headed to Schrodinger basin, is a suite of two instruments: the Lunar Instrumentation for Thermal Exploration with Rapidity pneumatic drill and the Lunar Magnetotelluric Sounder. This payload suite will investigate the heat flow and electrical conductivity of the lunar interior in Schrodinger basin, giving an in-depth look at the Moon's internal mechanical and heat flow.
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