Difference between revisions of "Perigee"

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==Definition==
 
==Definition==
  
The [[periapsis]] of a body in [[Earth orbit]], i.e. the point where it is closest to the Earth, is known as its '''perigee'''.
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The equivalent for [[periapsis]] of a body in Earth orbit is '''perigee''', also called '''perigee height'''.
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Unlike with all other bodies, mission planners are usually more interested in the height above the surface for [[low Earth orbit]] spacecraft. Hence perigee height refers to the distance between the body and the Earth's surface rather than the distance between the body and the Earth's centre of mass, for all objects in Earth orbit.<ref name=Wertz>J.R. Wertz - ''Orbits and astrodynamics'' in J.R. Wertz, D.F. Everett & J.J. Puschell eds. ''Space mission engineering: The new SMAD'' ISBN 978-1-881883-15-9 p. 202</ref>
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If you wish to anambiguously use the same measurements as with all other bodies, it is best to say [[perifocal distance]] rather than perigee.
  
 
The point at which a body's orbit is farthest from the Earth is known as [[apogee]].
 
The point at which a body's orbit is farthest from the Earth is known as [[apogee]].
  
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==References==
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<references />
  
 
[[Category:Orbital Mechanics]]
 
[[Category:Orbital Mechanics]]

Revision as of 01:15, 22 February 2013

Definition

The equivalent for periapsis of a body in Earth orbit is perigee, also called perigee height.

Unlike with all other bodies, mission planners are usually more interested in the height above the surface for low Earth orbit spacecraft. Hence perigee height refers to the distance between the body and the Earth's surface rather than the distance between the body and the Earth's centre of mass, for all objects in Earth orbit.[1]

If you wish to anambiguously use the same measurements as with all other bodies, it is best to say perifocal distance rather than perigee.

The point at which a body's orbit is farthest from the Earth is known as apogee.

References

  1. J.R. Wertz - Orbits and astrodynamics in J.R. Wertz, D.F. Everett & J.J. Puschell eds. Space mission engineering: The new SMAD ISBN 978-1-881883-15-9 p. 202