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This article is about several astronomical terms (apogee & perigee, aphelion & perihelion, generic equivalents based on apsis, and related but rarer terms. In architecture, apsis is a synonym for apse; Apogee is also the name of a video game publisher.

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In astronomy, an apsis (plural apsides "ap-si-deez") is the point of greatest or least distance of the elliptical orbit of a celestial body from its center of attraction (the center of mass of the system).

The point of closest approach is called the periapsis and the point of farthest approach is the apoapsis. A straight line drawn through the periapsis and apoapsis is the line of apsides. This is the major axis of the ellipse, the line through the longest part of the ellipse.

Related terms are used to identify the body being orbited. The most common are perigee and apogee, referring to earth orbits, and perihelion and aphelion, referring to orbits around the sun.


We have:

  • Periapsis: maximum speed v_\mathrm{per} = \sqrt{ \frac{(1+e)\mu}{(1-e)a} } \,  at minimum distance r_\mathrm{per}=(1-e)a\!\, (periapsis distance)
  • Apoapsis: minimum speed v_\mathrm{ap} = \sqrt{ \frac{(1-e)\mu}{(1+e)a} } \,  at maximum distance r_\mathrm{ap}=(1+e)a\!\, (apoapsis distance)

    • where one easily verifies

  • h = \sqrt{(1-e^2)\mu a}
  • \epsilon=-\frac{\mu}{2a}

    • (each the same for both points, like they are for the whole orbit, in accordance with Kepler's laws of planetary motion (conservation of angular momentum) and the conservation of energy)

    where:

  • a\!\, is the semi-major axis
  • e\!\, is the eccentricity
  • h\!\, is the specific relative angular momentum
  • \epsilon\!\, is the specific orbital energy
  • \mu\!\, is the standard gravitational parameter

    • Properties:

    Note that for conversion from heights above the surface to distances, the radius of the central body has to be added, and conversely.

    The arithmetic mean of the two distances is the semi-major axis a\!\,.

    The geometric mean of the two distances is the semi-minor axis b\!\,.

    The geometric mean of the two speeds is \sqrt{-2\epsilon}, the speed corresponding to a kinetic energy which, at any position of the orbit, added to the existing kinetic energy, would allow the orbiting body to escape (the square root of the sum of the squares of the two speeds is the local escape velocity).

    Terminology

    Various related but esoteric terms are used for certain celestial objects:

    Body Closest approach Farthest approach
    Star Periastron Apastron
    Black hole Perimelasma Apomelasma
    Sun Perihelion Aphelion (1)
    Mercury Perihermion Aphermion (2)
    Venus Pericytherion Apocytherion
    Earth Perigee Apogee
    Moon Periselene Aposelene (3)
    Mars Periareion Apoareion
    Jupiter Perizene Apozene (4)
    Saturn Perikrone Apokrone
    Uranus Periuranion Apuranion
    Neptune Periposeidion Apoposeidion
    Pluto Perihadion Aphadion (5)

    The terms are formed from the Greek roots for the planet names rather than the Latin ones, since "peri" and "apo" are Greek and it is considered bad form to mix Greek and Latin roots.

    (1) Pronounced "Ap-helion", not "Aff-elion".

    (2) Pronounced "Ap-hermion", not "Aff-ermion".

    (3) Perilune/Apolune are to be avoided. Pericynthion/Apocynthion are sometimes used for artificial bodies.

    (4) In theory, Perijove/Apojove are to be avoided as they mix Greek and Latin roots. In practice, however, perijove and apojove are widely used and are more recognizable than perizene/apozene.

    (5) Pronounced "Ap-hadion", not "Aff-adion".

    See also

  • Eccentric anomaly

    • Category:Astronomy

    Category:Astrodynamics

    Copyrights

    This article uses material from the Wikipedia article "Apsis".


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