This artist's rendition shows part of the plan for NASA's Asteroid Redirect Mission to robotically pluck a boulder off an asteroid and ferry it to high lunar orbit. Astronauts would then visit the boulder as early as 2025. Image Credit: NASA
Topics: Asteroids, Mars, Moon, NASA, Robotics, Space Exploration, STEM
In the 2020s, NASA’s human spaceflight program will revolve around sending astronauts to high lunar orbit to study a small boulder robotically plucked from the surface of a large asteroid, agency officials announced yesterday. The announcement is a crucial milestone for the agency’s nascent Asteroid Redirect Mission (ARM), which is intended to set the stage for future missions sending humans to Mars and other deep-space destinations.
NASA’s decision comes after months of delays as two separate teams investigated how to best achieve ARM’s objectives. The original ARM proposal, dubbed Option A, called for a “grab and bag” approach, in which a robotic space tug captures a small asteroid whole and wraps it in a protective sheath before guiding it into a stable lunar orbit. Though the boulder-snatching concept, Option B, is projected to cost $100 million more than Option A, it won out because it offers more operational flexibility, said NASA associate administrator Robert Lightfoot.
Then again, science is secondary for ARM. Its stated purpose is to test and develop new technologies for spaceflight, such as NASA’s Space Launch System heavy-lift rocket, its Orion deep-space crew capsule and an advanced solar-electric propulsion engine suitable for long-haul cargo trips. NASA is also pitching the missions as a step forward in demonstrating how a spacecraft can alter the orbits of potentially Earth-threatening asteroids—that’s the “Redirect” part of the ARM moniker.
NASA Chooses a Boulder as the Next Destination for Its Astronauts
Lee Billings
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