Lunar laser ranging experiment
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The ongoing Lunar Laser Ranging Experiment was first made possible by a lunar laser ranging retroreflector array planted on the Moon on July 21, 1969, by the crew of the Apollo 11. Since then, the distance between the Earth and the Moon has been measured repeatedly over a period of more than 35 years.
Two more retroreflector arrays, left by the Apollo 14 and Apollo 15 missions have contributed to the experiment. The unmanned Soviet Lunokhod 1 and Lunokhod 2 rovers carried smaller arrays. Reflected signals were received from Lunokhod 1, but then it was left in a position preventing the return of signals. Lunokhod 2's array has returned signals to Earth. (Note that NASA's NSSDC catalog confuses Lunokhod 1 and Lunokhod 2 on this issue: [1], while more accurate references can be found at http://physics.ucsd.edu/~tmurphy/apollo/lrrr.html and http://www.lpi.usra.edu/meetings/lpsc2005/pdf/1194.pdf).
The Apollo 15 array is three times the size of the arrays left by the two earlier Apollo missions. Its size made it the target of three-quarters of the sample measurements taken in the first 25 years of the experiment. Improvements in technology since then have resulted in greater use of the smaller arrays, by sites such as the McDonald Observatory and the OCA Laser-Lune telemetry station affiliated with the Côte d'Azur Observatory.
Lunar ranging also provides data useful for other experiments, including tests of general relativity designed by physicists such as Carrol Alley.
As of 2002 work is progressing on increasing the accuracy of the Earth-Moon measurements to near millimeter accuracy.
Some of the results of this long-term experiment are:
- The moon is spiraling away from Earth at a rate of 3.8 cm per year, due to the Earth's ocean tides.
- The moon probably has a liquid core.
- The universal force of gravity is very stable. The experiments have put an upper limit of the change in Newton's gravitational constant G of less than 1 part in 100,000,000,000 since 1969.
- Einstein's theory of gravity and the general theory of relativity predict the moon's orbit to within the accuracy of the laser ranging measurements.
See also
External links and sources
- Apollo 15 Laser Ranging Retroreflector Experiment
- History of Laser Ranging
- Lunar Retroreflectors History and Position
- Station de Télémétrie Laser-Lune in Grasse, France
- 1994 article on "Measuring the Moon's Distance"
- 2002 article about "UW researcher plans project to pin down moon's distance from Earth"
- NASA: What Neil & Buzz Left on the Moon
- CNN: Apollo 11 Experiment Still Returning Results after 30 Years
- JPL: Apollo 11 Experiment Still Going Strong after 35 YearsTemplate:Physics-stub