About: Solar Mass   Sponge Permalink

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A solar mass was a unit of measurement used to describe the mass of large celestial bodies such as stars. One solar mass was equal to the mass of Sol, 1.989 x 10^30 kilograms. The black hole NGC-21997 was 37 solar masses in size. (Bait and Switch: "A Changed World")

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  • Solar Mass
  • Solar mass
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  • A solar mass was a unit of measurement used to describe the mass of large celestial bodies such as stars. One solar mass was equal to the mass of Sol, 1.989 x 10^30 kilograms. The black hole NGC-21997 was 37 solar masses in size. (Bait and Switch: "A Changed World")
  • The solar mass 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 two nonillion kilograms or about 332,950 times the mass of the Earth, or 1048 times the mass of Jupiter. Its conventional symbol and value are: The solar mass can be determined from the length of the year, the distance of the Earth to the Sun (the astronomical unit) (AU), and the gravitational constant (G) as
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abstract
  • A solar mass was a unit of measurement used to describe the mass of large celestial bodies such as stars. One solar mass was equal to the mass of Sol, 1.989 x 10^30 kilograms. The black hole NGC-21997 was 37 solar masses in size. (Bait and Switch: "A Changed World")
  • The solar mass 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 two nonillion kilograms or about 332,950 times the mass of the Earth, or 1048 times the mass of Jupiter. Its conventional symbol and value are: The solar mass can be determined from the length of the year, the distance of the Earth to the Sun (the astronomical unit) (AU), and the gravitational constant (G) as Until recently, neither the AU nor the gravitational constant was precisely known. However, a determination of the relative mass of another planet in the Solar System or of a binary star in units of solar masses does not depend on these poorly known constants. So it was useful to express these masses in units of solar masses (see Gaussian gravitational constant). Today, the AU is extremely well measured using interplanetary radar and G is well measured, but the solar mass persists as one of astronomy's arcane historical conventions.
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