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| R2012a Documentation → Aerospace Toolbox | |
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r = geocradius(lambda)
r = geocradius(lambda, model)
r = geocradius(lambda, f, Re)
r = geocradius(lambda) estimates the radius, r, of an ellipsoid planet at a particular geocentric latitude, lambda. lambda is in degrees. r is in meters. The default ellipsoid planet is WGS84.
r = geocradius(lambda, model) is an alternate method for estimating the radius for a specific ellipsoid planet. Currently only 'WGS84' is supported for model.
r = geocradius(lambda, f, Re) is another alternate method for estimating the radius for a custom ellipsoid planet defined by flattening, f, and the equatorial radius, Re, in meters.
Determine radius at 45 degrees latitude:
r = geocradius(45) r = 6.3674e+006
Determine radius at multiple latitudes:
r = geocradius([0 45 90])
r =
1.0e+006 *
6.3781 6.3674 6.3568Determine radius at multiple latitudes, specifying WGS84 ellipsoid model:
r = geocradius([0 45 90], 'WGS84')
r =
1.0e+006 *
6.3781 6.3674 6.3568Determine radius at multiple latitudes, specifying custom ellipsoid model:
f = 1/196.877360;
Re = 3397000;
r = geocradius([0 45 90], f, Re)
r =
1.0e+006 *
3.3970 3.3883 3.3797Stevens, B. L., and F. L. Lewis, Aircraft Control and Simulation, John Wiley & Sons, New York, NY, 1992
Zipfel, P. H., and D. E. Penny, Modeling and Simulation of Aerospace Vehicle Dynamics, AIAA Education Series, Reston, VA, 2000
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