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GEOS-3, or Geodynamics Experimental Ocean Satellite 3, or GEOS-C, was the third and final satellite as part of NASA's Geodetic Earth Orbiting Satellite/Geodynamics Experimental Ocean Satellite program (NGSP)Henriksen, S. W. (ed) (1977
National Geodetic Satellite Program
NASA SP-365 to better understand and test satellite tracking systems. For
GEOS 1 Explorer 29, also called GEOS 1 or GEOS A, acronym to Geodetic Earth Orbiting Satellite, was a NASA satellite launched as part of the Explorer program, being the first of the two satellites GEOS. Explorer 29 was launched on 6 November 1965 fro ...
and GEOS 2, the acronym stands for ''Geodetic Earth Orbiting Satellite''; this was changed for GEOS-3.


Introduction

The satellite mission was designed to further an understanding of the earth's gravitational field, size and shape of the terrestrial
geoid The geoid () is the shape that the ocean surface would take under the influence of the gravity of Earth, including gravitational attraction and Earth's rotation, if other influences such as winds and tides were absent. This surface is exten ...
, deep ocean tides, sea state, current structure, crustal structure, solid earth dynamics, and remote sensing technology. Jerome Rosenburg at NASA Headquarters initiated the GEOS-3 project in 1970. The project was to serve as a stepping stone between the GEOS program and the emerging NASA Earth and Ocean Physics Application Program. GEOS-1 and GEOS-2 had provided useful information about the structure of the earth's gravitational field, but new technology was deemed necessary to gain a further understanding. The project was cancelled due to budgetary concerns after an initial 1-year study, but was re-instated in late 1971. The satellite was launched on April 9, 1975 and remained operational until late July 1979.


Instruments

The following is a list of instruments/systems that were on board or part of the GEOS-3 satellite, including a description of their general purpose: * Radar Altimeter (ALT) – A multimode radar system with the ability to provide precise satellite-to-ocean surface height measurements. The radar system provided global and intensive data gathering modes, which could provide height precision measurements at 50 cm and 20 cm respectively. * Retroreflector Array (RRA) – An array of retroreflectors. These allow a ground-based laser to provide range information. * Doppler System – A system of dual frequency space borne doppler beacons at 162 and 324 MHz and a ground-based receiver station. This system was used to measure the effects of first-order ionospheric refraction and make corrections to the Doppler frequency. * S-band Tracking System – A tracking system which had three modes of operations for satellite to satellite tracking, ground-station tracking, and direct unified S-band. * C-band System – A system of two C-band radar transponders used to better understand the accuracies of the gravimetric and geometric measurements. The system also supported the altimeter and C-band calibration. * Satellite-to-Satellite Tracking (SST) – The SST experiment consisted of the ground-based ATS ranging system, the wideband communication transponder on the
ATS-6 ATS-6 (Applications Technology Satellite-6) was a NASA experimental satellite, built by Fairchild Space and Electronics Division It has been called the world's first educational satellite as well as world's first experimental Direct Broadcast ...
geosynchronous spacecraft, and the ranging transponder on the GEOS-3 satellite.


Impacts on the scientific community

The GEOS-3 mission provided data that furthered scientific understanding in various fields. The ocean height data set from this mission provided the first comprehensive coverage in most areas of the world's oceans, providing a better understanding of the ocean geoid. Ocean height also provided information about quasi-stationary departures from the geoid (the
sea surface topography Ocean surface topography or sea surface topography, also called ocean dynamic topography, are highs and lows on the ocean surface, similar to the hills and valleys of Earth's land surface depicted on a topographic map. These variations are exp ...
), for events like currents, eddies, storm surges, etc. The return waveform data was used to better understand the
sea state In oceanography, sea state is the general condition of the free surface on a large body of water—with respect to wind waves and swell—at a certain location and moment. A sea state is characterized by statistics, including the wave height ...
at a level that was comparable to buoy-collected data. An unexpected result was the ability to use waveform data to derive surface wind speed, and the ability to maintain track over terrain and ice. Altimeter data from GEOS-3 has been utilized by many
Earth's gravity The gravity of Earth, denoted by , is the net acceleration that is imparted to objects due to the combined effect of gravitation (from mass distribution within Earth) and the centrifugal force (from the Earth's rotation). It is a vector quantit ...
models, including GEM-T3, JGM-1 and JGM-2.


References

{{Use American English, date=January 2014 Oceanography Spacecraft launched in 1975 Geodetic satellites Satellites in low Earth orbit Earth satellite radar altimeters Laser ranging satellites