This is documentation for Mathematica 8, which was
based on an earlier version of the Wolfram Language.

# GeodesyData

 GeodesyData gives the value of the specified property for a named geodetic datum or reference ellipsoid. GeodesyDatagives the value of the property for the ellipsoid with semimajor axis a and semiminor axis b. GeodesyDatagives the value of the property at the specified coordinates.
• GeodesyData gives a list of all available named geodetic datums and reference ellipsoids.
• Geodetic datums are specified by standard names such as and .
• Reference ellipsoids are given standard names such as and .
• GeodesyData gives the names of all available named geodetic datums; GeodesyData gives those of all available named reference ellipsoids.
• GeodesyData gives the name of the reference ellipsoid associated with the specified datum.
• Basic geometrical properties include:
 "EllipsoidParameters" ellipsoid parameters "InverseFlattening" inverse flattening of the ellipsoid "SemimajorAxis" length of the semimajor axis (equatorial radius) "SemiminorAxis" length of the semiminor axis (or polar radius)
 "AuthalicRadius" radius of a sphere of the same surface "Eccentricity" first eccentricity of the ellipsoid "Flattening" flattening of the ellipsoid "MeanMassRadius" mean mass radius "MeanRadius" geometric mean radius "MeridianQuadrant" length of the meridian from the equator to the pole "SecondEccentricity" second eccentricity of the ellipsoid "VolumetricRadius" radius of a sphere of equal volume
• Coordinate-dependent properties include:
 {"MeridionalArc",lat1,lat2} length of the meridian between latitudes and {"MeridionalCurvatureRadius",lat} radius of curvature in the meridian at latitude lat {"PrimeVerticalCurvatureRadius",lat} radius of curvature in the prime vertical at latitude lat {"NormalSectionCurvatureRadius",lat,a} radius of curvature at latitude lat in the direction azimuth a
• Properties converting from geodetic latitude to alternative forms of latitude include:
 {"ReducedLatitude",lat} parametric latitude of an equivalent point on a sphere {"GeocentricLatitude",lat} angle between the equatorial plane and a line from the center {"AuthalicLatitude",lat} latitude of an equivalent point on the authalic sphere {"ConformalLatitude",lat} conformal projection of a geodesic latitude lat {"IsometricLatitude",lat} isometric latitude referred to lat {"RectifyingLatitude",lat} projection preserving distance between meridians
• Properties converting from alternative forms of latitude to geodetic latitude include:
 {"FromReducedLatitude",lat} parametric latitude of an equivalent point on a sphere {"FromGeocentricLatitude",lat} angle between the equatorial plane and a line from the center {"FromAuthalicLatitude",lat} latitude of an equivalent point on the authalic sphere {"FromConformalLatitude",lat} conformal projection of a geodesic latitude lat {"FromIsometricLatitude",lat} isometric latitude referred to lat {"FromRectifyingLatitude",lat} projection preserving distance between meridians
• Other properties include:
 "AlternateNames" alternate English names "StandardName" Mathematica standard name "Name" English name "Properties" available properties
• Reference ellipsoids can be specified by semiaxes or by semimajor axis and inverse flattening .
• GeodesyData gives symbolic results if the parameters of a reference ellipsoid are given symbolically.
• GeodesyData gives rules for the parameters used to transform to .
• GeodesyData gives the specified parameter for transforming from to .
• Transformation parameters for datums include:
 "ParameterDefinitionYear" decimal year when parameter values were defined "Rotation" rotation angles in milliarc seconds "RotationDerivative" rate of change of rotation in milliarc seconds per year "Scale" transformation scale factor "ScaleDerivative" annual change of transformation scale factor "Translation" translation vector given in meters "TranslationDerivative" rate of change of translation vector in meters per year
Semiaxes of Clarke1866:
Semimajor axis and inverse flattening of GRS80:
Eccentricity of the GRS80 reference ellipsoid:
Full name of the ITRF00 datum:
Names of all properties of the ITRF00 datum:
This gives the 14 parameters required to transform from ITRF00 to NAD83CORS96:
Semiaxes of Clarke1866:
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Semimajor axis and inverse flattening of GRS80:
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Eccentricity of the GRS80 reference ellipsoid:
 Out[1]=

Full name of the ITRF00 datum:
 Out[1]=

Names of all properties of the ITRF00 datum:
 Out[1]=

This gives the 14 parameters required to transform from ITRF00 to NAD83CORS96:
 Out[1]//TableForm=
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