Provided by: geographiclib-tools_2.3-1build1_amd64 
NAME
Gravity -- compute the earth's gravity field
SYNOPSIS
Gravity [ -n name ] [ -d dir ] [ -N Nmax ] [ -M Mmax ] [ -G | -D | -A | -H ] [ -c lat h ] [ -w ] [ -p
prec ] [ -v ] [ --comment-delimiter commentdelim ] [ --version | -h | --help ] [ --input-file infile |
--input-string instring ] [ --line-separator linesep ] [ --output-file outfile ]
DESCRIPTION
Gravity reads in positions on standard input and prints out the gravitational field on standard output.
The input line is of the form lat lon h. lat and lon are the latitude and longitude expressed as decimal
degrees or degrees, minutes, and seconds; for details on the allowed formats for latitude and longitude,
see the "GEOGRAPHIC COORDINATES" section of GeoConvert(1). h is the height above the ellipsoid in
meters; this quantity is optional and defaults to 0. Alternatively, the gravity field can be computed at
various points on a circle of latitude (constant lat and h) via the -c option; in this case only the
longitude should be given on the input lines. The quantities printed out are governed by the -G
(default), -D, -A, or -H options.
All the supported gravity models, except for grs80, use WGS84 as the reference ellipsoid a = 6378137 m, f
= 1/298.257223563, omega = 7292115e-11 rad/s, and GM = 3986004.418e8 m^3/s^2.
OPTIONS
-n name
use gravity field model name instead of the default "egm96". See "MODELS".
-d dir
read gravity models from dir instead of the default. See "MODELS".
-N Nmax
limit the degree of the model to Nmax.
-M Mmax
limit the order of the model to Mmax.
-G compute the acceleration due to gravity (including the centrifugal acceleration due the the earth's
rotation) g. The output consists of gx gy gz (all in m/s^2), where the x, y, and z components are in
easterly, northerly, and up directions, respectively. Usually gz is negative.
-D compute the gravity disturbance delta = g - gamma, where gamma is the "normal" gravity due to the
reference ellipsoid . The output consists of deltax deltay deltaz (all in mGal, 1 mGal = 10^-5
m/s^2), where the x, y, and z components are in easterly, northerly, and up directions, respectively.
Note that deltax = gx, because gammax = 0.
-A computes the gravitational anomaly. The output consists of 3 items Dg01 xi eta, where Dg01 is in
mGal (1 mGal = 10^-5 m/s^2) and xi and eta are in arcseconds. The gravitational anomaly compares the
gravitational field g at P with the normal gravity gamma at Q where the P is vertically above Q and
the gravitational potential at P equals the normal potential at Q. Dg01 gives the difference in the
magnitudes of these two vectors and xi and eta give the difference in their directions (as northerly
and easterly components). The calculation uses a spherical approximation to match the results of the
NGA's synthesis programs.
-H compute the height of the geoid above the reference ellipsoid (in meters). In this case, h should be
zero. The results accurately match the results of the NGA's synthesis programs. GeoidEval(1) can
compute geoid heights much more quickly by interpolating on a grid of precomputed results; however
the results from GeoidEval(1) are only accurate to a few millimeters.
-c lat h
evaluate the field on a circle of latitude given by lat and h instead of reading these quantities
from the input lines. In this case, Gravity can calculate the field considerably more quickly. If
geoid heights are being computed (the -H option), then h must be zero.
-w toggle the longitude first flag (it starts off); if the flag is on, then on input and output,
longitude precedes latitude (except that, on input, this can be overridden by a hemisphere
designator, N, S, E, W).
-p prec
set the output precision to prec. By default prec is 5 for acceleration due to gravity, 3 for the
gravity disturbance and anomaly, and 4 for the geoid height.
-v print information about the gravity model on standard error before processing the input.
--comment-delimiter commentdelim
set the comment delimiter to commentdelim (e.g., "#" or "//"). If set, the input lines will be
scanned for this delimiter and, if found, the delimiter and the rest of the line will be removed
prior to processing and subsequently appended to the output line (separated by a space).
--version
print version and exit.
-h print usage, the default gravity path and name, and exit.
--help
print full documentation and exit.
--input-file infile
read input from the file infile instead of from standard input; a file name of "-" stands for
standard input.
--input-string instring
read input from the string instring instead of from standard input. All occurrences of the line
separator character (default is a semicolon) in instring are converted to newlines before the reading
begins.
--line-separator linesep
set the line separator character to linesep. By default this is a semicolon.
--output-file outfile
write output to the file outfile instead of to standard output; a file name of "-" stands for
standard output.
MODELS
Gravity computes the gravity field using one of the following models
egm84, earth gravity model 1984. See
https://earth-info.nga.mil/index.php?dir=wgs84&action=wgs84#tab_egm84
egm96, earth gravity model 1996. See
https://earth-info.nga.mil/index.php?dir=wgs84&action=wgs84#tab_egm96
egm2008, earth gravity model 2008. See
https://earth-info.nga.mil/index.php?dir=wgs84&action=wgs84#tab_egm2008
wgs84, world geodetic system 1984. This returns the normal
gravity for the WGS84 ellipsoid.
grs80, geodetic reference system 1980. This returns the normal
gravity for the GRS80 ellipsoid.
These models approximate the gravitation field above the surface of the earth. By default, the "egm96"
gravity model is used. This may changed by setting the environment variable "GEOGRAPHICLIB_GRAVITY_NAME"
or with the -n option.
The gravity models will be loaded from a directory specified at compile time. This may changed by
setting the environment variables "GEOGRAPHICLIB_GRAVITY_PATH" or "GEOGRAPHICLIB_DATA", or with the -d
option. The -h option prints the default gravity path and name. Use the -v option to ascertain the full
path name of the data file.
Instructions for downloading and installing gravity models are available at
<https://geographiclib.sourceforge.io/C++/doc/gravity.html#gravityinst>.
ENVIRONMENT
GEOGRAPHICLIB_GRAVITY_NAME
Override the compile-time default gravity name of "egm96". The -h option reports the value of
GEOGRAPHICLIB_GRAVITY_NAME, if defined, otherwise it reports the compile-time value. If the -n name
option is used, then name takes precedence.
GEOGRAPHICLIB_GRAVITY_PATH
Override the compile-time default gravity path. This is typically
"/usr/local/share/GeographicLib/gravity" on Unix-like systems and
"C:/ProgramData/GeographicLib/gravity" on Windows systems. The -h option reports the value of
GEOGRAPHICLIB_GRAVITY_PATH, if defined, otherwise it reports the compile-time value. If the -d dir
option is used, then dir takes precedence.
GEOGRAPHICLIB_DATA
Another way of overriding the compile-time default gravity path. If it is set (and if
GEOGRAPHICLIB_GRAVITY_PATH is not set), then $GEOGRAPHICLIB_DATA/gravity is used.
ERRORS
An illegal line of input will print an error message to standard output beginning with "ERROR:" and
causes Gravity to return an exit code of 1. However, an error does not cause Gravity to terminate;
following lines will be converted.
EXAMPLES
The gravity field from EGM2008 at the top of Mount Everest
echo 27:59:17N 86:55:32E 8820 | Gravity -n egm2008
=> -0.00001 0.00103 -9.76782
SEE ALSO
GeoConvert(1), GeoidEval(1), geographiclib-get-gravity(8).
AUTHOR
Gravity was written by Charles Karney.
HISTORY
Gravity was added to GeographicLib, <https://geographiclib.sourceforge.io>, in version 1.16.
GeographicLib 2.3 2023-07-25 GRAVITY(1)