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- Q1116090 subject Q7464090.
- Q1116090 subject Q8702553.
- Q1116090 abstract "In astronomy, and in particular in astrodynamics, the osculating orbit of an object in space at a given moment in time is the gravitational Kepler orbit (i.e. ellipse or other conic) that it would have about its central body if perturbations were not present. That is, it is the orbit that coincides with the current orbital state vectors (position and velocity).The word "osculate" derives from a Latin word meaning "to kiss". Its use in this context derives from the fact that, at any point in time, an object's osculating orbit is precisely tangent to its actual orbit, with the tangent point being the object's location – and has the same curvature as the orbit would have in the absence of perturbing forces.".
- Q1116090 thumbnail Enckes_method-vector.svg?width=300.
- Q1116090 wikiPageExternalLink index.cfm?fobjectid=35722.
- Q1116090 wikiPageExternalLink index.cfm?fobjectid=36359.
- Q1116090 wikiPageWikiLink Q104225.
- Q1116090 wikiPageWikiLink Q1068091.
- Q1116090 wikiPageWikiLink Q1091138.
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- Q1116090 wikiPageWikiLink Q335225.
- Q1116090 wikiPageWikiLink Q397.
- Q1116090 wikiPageWikiLink Q405.
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- Q1116090 wikiPageWikiLink Q6963882.
- Q1116090 wikiPageWikiLink Q7464090.
- Q1116090 wikiPageWikiLink Q79833.
- Q1116090 wikiPageWikiLink Q803623.
- Q1116090 wikiPageWikiLink Q829376.
- Q1116090 wikiPageWikiLink Q829564.
- Q1116090 wikiPageWikiLink Q842433.
- Q1116090 wikiPageWikiLink Q8702553.
- Q1116090 comment "In astronomy, and in particular in astrodynamics, the osculating orbit of an object in space at a given moment in time is the gravitational Kepler orbit (i.e. ellipse or other conic) that it would have about its central body if perturbations were not present. That is, it is the orbit that coincides with the current orbital state vectors (position and velocity).The word "osculate" derives from a Latin word meaning "to kiss".".
- Q1116090 label "Osculating orbit".
- Q1116090 depiction Enckes_method-vector.svg.