Inside the nose cone of this Delta rocket is Goddard's geophysics research satellite, a 906-lb. (411-kg) satellite that looked more like a dimpled cosmic golf ball. The spacecraft, which NASA launched from the Western Test Range in California in 1976, provided a stable point in the sky to reflect pulses of laser light. By timing the return of the laser beam to an accuracy of about one ten-billionth of a second, scientists expected to measure the relative location of participating ground stations within one inch or a few centimeters. These measurements allowed scientists to track and analyze te
Inside the nose cone of this Delta rocket is Goddard's geophysics research satellite, a 906-lb. (411-kg) satellite that looked more like a dimpled cosmic golf ball. The spacecraft, which NASA launched from the Western Test Range in California in 1976, provided a stable point in the sky to reflect pulses of laser light. By timing the return of the laser beam to an accuracy of about one ten-billionth of a second, scientists expected to measure the relative location of participating ground stations within one inch or a few centimeters. These measurements allowed scientists to track and analyze tectonic plate movement and continental drift. The spacecraft, called the LAser GEOdynamics Satellite (LAGEOS), was the precursor to the current-day Global Positioning System (GPS) system operated by the Defense Department. Image # :
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Keywords: delta, geodetic, laser, satellite
