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• Geodetic_effect abstract "The geodetic effect (also known as geodetic precession, de Sitter precession or de Sitter effect) represents the effect of the curvature of spacetime, predicted by general relativity, on a vector carried along with an orbiting body. For example, the vector could be the angular momentum of a gyroscope orbiting the Earth, as carried out by the Gravity Probe B experiment. The geodetic effect was first predicted by Willem de Sitter in 1916, who provided relativistic corrections to the Earth–Moon system's motion. De Sitter's work was extended in 1918 by Jan Schouten and in 1920 by Adriaan Fokker.It can also be applied to a particular secular precession of astronomical orbits, equivalent to the rotation of the Laplace–Runge–Lenz vector.The term geodetic effect has two slightly different meanings as the moving body may be spinning or non-spinning. Non-spinning bodies move in geodesics, whereas spinning bodies move in slightly different orbits.The difference between de Sitter precession and Lense–Thirring precession (frame dragging) is that the de Sitter effect is due simply to the presence of a central mass, whereas Lense–Thirring precession is due to the rotation of the central mass. The total precession is calculated by combining the de Sitter precession with the Lense–Thirring precession.".
• Geodetic_effect thumbnail Geodetic_effekt.jpg?width=300.
• Geodetic_effect wikiPageExternalLink einstein.stanford.edu.
• Geodetic_effect wikiPageExternalLink geodetic.htm.
• Geodetic_effect wikiPageExternalLink 2008_05_12_archive.html.
• Geodetic_effect wikiPageExternalLink index.html.
• Geodetic_effect wikiPageID "8967469".
• Geodetic_effect wikiPageRevisionID "570033314".
• Geodetic_effect hasPhotoCollection Geodetic_effect.
• Geodetic_effect subject Category:General_relativity.
• Geodetic_effect comment "The geodetic effect (also known as geodetic precession, de Sitter precession or de Sitter effect) represents the effect of the curvature of spacetime, predicted by general relativity, on a vector carried along with an orbiting body. For example, the vector could be the angular momentum of a gyroscope orbiting the Earth, as carried out by the Gravity Probe B experiment.".
• Geodetic_effect label "Efeito geodético".
• Geodetic_effect label "Effetto geodetico".
• Geodetic_effect label "Geodetic effect".
• Geodetic_effect label "Précession géodétique".
• Geodetic_effect label "Геодезическая прецессия".
• Geodetic_effect label "测地线效应".
• Geodetic_effect sameAs Précession_géodétique.
• Geodetic_effect sameAs Effetto_geodetico.
• Geodetic_effect sameAs Efeito_geodético.
• Geodetic_effect sameAs m.027rl6p.
• Geodetic_effect sameAs Q2711882.
• Geodetic_effect sameAs Q2711882.
• Geodetic_effect wasDerivedFrom Geodetic_effect?oldid=570033314.
• Geodetic_effect depiction Geodetic_effekt.jpg.
• Geodetic_effect isPrimaryTopicOf Geodetic_effect.