Physics
Scientific paper
Jun 1981
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1981gregr..13..561s&link_type=abstract
General Relativity and Gravitation, vol. 13, June 1981, p. 561-567.
Physics
Earth Rotation, Earth-Moon System, Energy Conversion, Geomagnetism, Gravitational Effects, Satellite Orbits, Electric Coils, Electromagnetic Coupling, Electromagnetic Fields, Gravitational Fields, Mass Distribution, Satellite Drag, Stationkeeping
Scientific paper
Two methods are considered to 'tap' the earth's rotational energy. This ancient 'collapsed gravitational energy' exceeds the earth-lunar binding energy. One involves an orbiting 'electromagnetic-gravitational' coupling system whereby the earth's rotation, with its nonuniform mass distribution, first uses gravity to add orbital energy to a satellite, similar to a planetary 'flyby'. The second stage involves enhanced satellite 'drag' as current-carrying coils withdraw the added orbital energy as they pass through the earth's nonuniform magnetic field. A second more direct method couples the earth's rotational motion using conducting wires moving through the noncorotating part (ionospheric current systems) of the geomagnetic field. These methods, although not immediately feasible, are considerably more efficient than using pure gravitational coupling to earth-moon tides.
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