Lunar Reconnaissance Orbiter mission successfully enters Moon's orbit
The spacecraft's instruments will help scientists compile high-resolution, three-dimensional maps of the lunar surface and survey it at many spectral wavelengths.
June 23, 2009
Provided by NASA Headquarters, Washington, D.C.
June 23, 2009
This artist's concept shows LRO in orbit of the Moon.
Photo by NASA
After a four-and-a-half-day journey from Earth, the Lunar Reconnaissance Orbiter (LRO) has successfully entered orbit around the Moon. Engineers at NASA's Goddard Space Flight Center in Greenbelt, Maryland, confirmed the spacecraft's lunar orbit insertion at 6:27 a.m. EDT June 23.
During transit to the Moon, engineers performed a mid-course correction to get the spacecraft in the proper position to reach its lunar destination. Because the Moon is always moving, the spacecraft shot for a target point ahead of the Moon. When close to the Moon, the LRO used its rocket motor to slow down until the gravity of the Moon caught the spacecraft in lunar orbit.
"Lunar orbit insertion is a crucial milestone for the mission," said Cathy Peddie, LRO deputy project manager at Goddard. "The LRO mission cannot begin until the Moon captures us. Once we enter the Moon's orbit, we can begin to build up the dataset needed to understand the lunar topography, features, and resources in greater detail. We are so proud to be a part of this exciting mission and NASA's planned return to the Moon."
A series of four engine burns over the next 4 days will put the satellite into its commissioning-phase orbit. During the commissioning phase, each of its seven instruments is checked out and brought online. The commissioning phase will end approximately 60 days after launch, when LRO will use its engines to transition to its primary mission orbit.
For its primary mission, LRO will orbit above the Moon at about 31 miles (50 kilometers) for 1 year. The spacecraft's instruments will help scientists compile high resolution, three-dimensional maps of the lunar surface and survey it at many spectral wavelengths.
The satellite will explore the Moon's deepest craters, examining permanently sunlit and shadowed regions, and provide understanding of the effects of lunar radiation on humans. LRO will return more data about the Moon than any previous mission.