Project M. It’s not funded at Agency level yet, let alone at the governmental level (from where dedicated funding would have to come) but it seems to be a highly mature project, with some engineering precedents already in place, including robotics and shuttle-derived rocketry.

The moonshot would work like this: NASA would fire aloft a modified existing rocket, making the most of the fact that the rocket wouldn’t have to be human-rated, and no pesky (and heavy) supplies like oxygen, water, and food need be hurled moonwards to accompany the robot. This launch would place a small autonomously flying capsule to the moon, which would be propelled using green fuel (liquid methane and oxygen) and which would make an automatic landing. When all was safe, the capsule would pop open to reveal the robot, a humanoid-shaped walker with manipulator arms that are more or less analogous to human arms. The ‘bot would be self-sufficient to some extent, but it will also be steered by Earth-based astronauts. The purpose is to test and refine the basic engineering issues that any future long-term lunar or Martian missions would face, in terms of construction. But there’d also be room for perfecting lunar mission management processes, performing opportunistic science with the benefit of more adept manipulators than typical rovers possess, and to do student-sourced experimentation.

You may even recognize the upper half of Project M’s android: It’s a development of the amazing Robonaut device that’ll be being put through its paces aboard the International Space Station later this year. Its legs, like a more sophisticated version of Asimo, are already being developed by NASA independently, as the video above demonstrates.

For all sorts of reasons, this fast-track moon mission makes sense. Scientifically, there’s a definite plus to be gained from lunar experiments. The engineering lessons that would be learned would be valuable for future manned missions. There’re even financial benefits, since unlike humans, Moondroid could actually be “parked” on the moon indefinitely. And there’d be a definite good-feeling PR spike (and associated effects like more kids interested in learning science) earned by doing something so very bold. So exciting.

Posted by: Soderman/NLSI Staff
Source: http://www.fastcompany.com/1649630/nasa-robonaut-moon-exploration-cheap-mission-rockets-android-lunar-moonshot

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SSERVI Science Teams

  • Observations of the lunar impact plume from the LCROSS event

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    McMath‐Pierce telescope observed sodium (Na) emission from LCROSS impact on October 9, 2009.When the Lunar Crater Observing and Sensing Satellite (LCROSS) impacted Cabeus crater on October 9th, it pitched up frozen water along with some sodium, astronomers reported today.

    According to the LCROSS team, the impact event pitched up about 660 pounds of water frozen on the bottom of the crater. NLSI researcher R. M. Killen at NASA’s Goddard Spaceflight Center reported that the plume also contained about 3.3 pounds of sodium chloride.

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NLSI Inspiration Room

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The largest impact feature on the Moon is not one of the prominent "seas" that face the Earth, but the huge SPA Basin on the farside.

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