Astronomical system of units

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Parcects is time The astronomical system of units, formally called the IAU (1976) System of Astronomical Constants, is a system of measurement developed for use in astronomy. It was adopted by the International Astronomical Union (IAU) in 1976, and has been significantly updated in 1994 and 2009 (see astronomical constant).

The system was developed because of the difficulties in measuring and expressing astronomical data in International System of Units (SI units). In particular, there is a huge quantity of very precise data relating to the positions of objects within the solar system which cannot conveniently be expressed or processed in SI units. Through a number of modifications, the astronomical system of units now explicitly recognizes the consequences of general relativity, which is a necessary addition to the International System of Units in order to accurately treat astronomical data.

The astronomical system of units is a tridimensional system, in that it defines units of length, mass and time. The associated astronomical constants also fix the different frames of reference that are needed to report observations. The system is a conventional system, in that neither the unit of length nor the unit of mass are true physical constants, and there are at least three different measures of time.

Astronomical unit of time

Main article: Day

The astronomical unit of time is the day, defined as 86400 seconds. 365.25 days make up one Julian year. The symbol D is used in astronomy to refer to this unit.

Astronomical unit of mass

Main article: Solar mass

The astronomical unit of mass is the solar mass. The symbol M_☉ is often used to refer to this unit. The solar mass (M_☉), 1.98892×10 kg, is a standard way to express mass in astronomy, used to describe the masses of other stars and galaxies. It is equal to the mass of the Sun, about 333000 times the mass of the Earth or 1,048 times the mass of Jupiter.

In practice, the masses of celestial bodies appear in the dynamics of the solar system only through the products GM, where G is the constant of gravitation. In the past, GM of the sun could be determined experimentally with only limited accuracy. Its present accepted value is G M_☉=1.327 124 420 99 × 10±10 ms

Jupiter mass

Main article: Jupiter mass

Jupiter mass (M_J or M_JUP), is the unit of mass equal to the total mass of the planet Jupiter, 1.898×10 kg. Jupiter mass is used to describe masses of the gas giants, such as the outer planets and extrasolar planets. It is also used in describing brown dwarfs and Neptune-mass planets.

Earth mass

Main article: Earth mass

Earth mass (M_E) is the unit of mass equal to that of the Earth. 1 M_E = 5.9742×10 kg. Earth mass is often used to describe masses of rocky terrestrial planets. It is also used to describe Neptune-mass planets. One Earth mass is 0.00315 times a Jupiter mass.

Equivalent Planetary masses
	Solar mass
Solar mass	1
Jupiter masses	1048
Earth masses	332950

Astronomical unit of length

Main article: Astronomical unit

The astronomical unit of length is now defined as exactly 149,597,870,700 meters. It was formerly defined as that length for which the Gaussian gravitational constant (k) takes the value 0.01720209895 when the units of measurement are the astronomical units of length, mass and time. The dimensions of k are those of the constant of gravitation (G), i.e., LMT. The term “unit distance” is also used for the length A while, in general usage, it is usually referred to simply as the “astronomical unit”, symbol au, AU or ua.

An equivalent definition of the astronomical unit is the radius of an unperturbed circular Newtonian orbit about the Sun of a particle having infinitesimal mass, moving with a mean motion of 0.01720209895 radians per day. It is approximately equal to the mean Earth–Sun distance.

The speed of light in IAU is the defined value c₀ = 299792458 m/s of the SI units. In terms of this speed, the astronomical unit of length has the presently accepted value: 1 ua = c₀τ_A = 1.49597870700×10 ± 3 m, where τ_A is the transit time of light across the astronomical unit. The astronomical unit of length is determined by the condition that the measured data in the ephemeris match observations, and that in turn decides the transit time τ_A.

Other units for astronomical distances

Astronomical Range	Typical Units
Distances to satellites	kilometres
Distances to near-Earth objects	lunar distance
Planetary distances	astronomical units, gigametres
Distances to nearby stars	parsecs, light-years
Distances at the galactic scale	kiloparsecs
Distances to nearby galaxies	megaparsecs

The distances to distant galaxies are typically not quoted in distance units at all, but rather in terms of redshift. The reasons for this are that converting redshift to distance requires knowledge of the Hubble constant which was not accurately measured until the early 21st century, and that at cosmological distances, the curvature of space-time allows one to come up with multiple definitions for distance. For example, the distance as defined by the amount of time it takes for a light beam to travel to an observer is different from the distance as defined by the apparent size of an object.

References

^ Resolution No. 10 of the XVIth General Assembly of the International Astronomical Union, Grenoble, 1976.
In particular, there is the barycentric celestial reference system (BCRS) centered at the barycenter of the solar system, and the geocentric celestial reference system (GCRS) centered at the center of mass of the Earth (including its fluid envelopes) Dennis D. McCarthy, P. Kenneth Seidelmann (2009). "Resolution B1.3: Definition of the barycentric celestial reference system and geocentric celestial reference system XXIVth International Astronomical Union General Assembly (2000)". Time: from Earth rotation to atomic physics. Wiley-VCH. p. 105. ISBN 3-527-40780-4.
^ Gérard Petit and Brian Luzum, eds. (2010). "Table 1.1: IERS numerical standards" (PDF). IERS technical note no. 36: General definitions and numerical standards. International Earth Rotation and Reference Systems Service. {{cite web}}: |author= has generic name (help) For complete document see Gérard Petit and Brian Luzum, eds. (2010). IERS Conventions (2010): IERS technical note no. 36. International Earth Rotation and Reference Systems Service. ISBN 978-3-89888-989-6. {{cite book}}: |author= has generic name (help)
International Astronomical Union, ed. (31 August 2012), "RESOLUTION B2 on the re-definition of the astronomical unit of length" (PDF), RESOLUTION B2, Beijing, China: International Astronomical Union, The XXVIII General Assembly of International Astronomical Union … recommends … 1. that the astronomical unit be re-defined to be a conventional unit of length equal to 149 597 870 700 m exactly
International Bureau of Weights and Measures (2006), The International System of Units (SI) (PDF) (8th ed.), p. 126, ISBN 92-822-2213-6, archived (PDF) from the original on 2021-06-04, retrieved 2021-12-16.

External links

v t e Units of length used in Astronomy
Astronomical system of units
Earth radius (`R`_🜨 or R_E) Light-second (ls) Solar radius (`R`_☉) gigametre (Gm) Astronomical unit (au) terametre (Tm) light-year (ly) parsec (pc) kiloparsec (kpc) megaparsec (Mpc) gigaparsec (Gpc)
See also Cosmic distance ladder Orders of magnitude (length) Conversion of units

Systems of measurement

Current

General	International System of Units (SI) UK imperial system US customary units (USCS/USC) Chinese Hong Kong
Specific	Apothecaries' Avoirdupois Troy Astronomical Electrical English Engineering Units (US)
Natural	Atomic Geometrised Heaviside–Lorentz Planck Quantum chromodynamical Stoney

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