As a result of combining all available absolute and relative measurements, it is now possible to obtain the most probable gravity values at a large number of sites to high accuracy. The culmination of gravimetric work begun in the 1960s has been a worldwide gravity reference system having an accuracy of at least one part in 107 (0.1 milligal or better).
The value of gravity measured at the terrestrial surface is the result of a combination of factors:
Most geophysical surveys are aimed at separating out the last of these in order to interpret the geologic structure. It is therefore necessary to make proper allowance for the other factors. The first two factors imply a variation of gravity with latitude that can be calculated for an assumed shape for the Earth. The third factor, which is the decrease in gravity with elevation, due to increased distance from the centre of the Earth, amounts to −0.3086 milligal per metre. This value, however, assumes that material of zero density occupies the whole space between the point of observation and sea level, and it is therefore termed the free-air correction factor. In practice the mass of rock material that occupies part or all of this space must be considered. In an area where the topography is reasonably flat, this is usually calculated by assuming the presence of an infinite slab of thickness equal to the height of the station h and having an appropriate density σ; its value is +0.04185 σh milligal per metre. This is commonly called the Bouguer correction factor.
Terrain or topographical corrections also can be applied to allow for the attractions due to surface relief if the densities of surface rocks are known. Tidal effects (the amplitudes are less than 0.3 milligal) can be calculated and allowed for.
Gravitational-lens-as-observed-by-the-Hubble-Space-TelescopeGravitational lens, as observed by the Hubble Space Telescope.[Credits : Photo AURA/STScI/NASA/JPL (NASA photo # STScI-PRC96-10)]
The-variation-in-the-gravitational-field-given-in-milliGals-overThe variation in the gravitational field, given in milliGals (mGal), over the Earth’s surface gives …[Credits : Encyclopædia Britannica, Inc.]
Experimental-evidence-for-general-relativity-In-1919-observation-of-aExperimental evidence for general relativity[Credits : Encyclopædia Britannica, Inc.]
Laser-Interferometer-Space-Antenna-LISA-is-scheduled-for-launch-inLaser Interferometer Space Antenna (LISA)[Credits : Encyclopædia Britannica, Inc.]
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