Some astronomical distances using SI units. The proto-galaxy UDFj-39546284, one of the earliest and most distant objects detected to date, would sit at a distance of 126 Ym. In this regime, Proxima Centauri is about 40 Pm (instead of 4 light-years) away, the Milky Way is 1 Zm across, and Andromeda is 20 Zm away. For larger distances, he suggests petameters (Pm, 10 ^15 m) and exameters (Em, 10 ^18 m) within our galaxy, and zettameters (Zm, 10 ^21 m) and yottameters (Ym, 1024 m) for extragalactic distances. For example, Atkin proposes that megameters (Mm, 10 ^6 m), gigameters (Gm, 10 ^9 m), and terameters (Tm, 10 ^12 m) be used for planetary- and solar system-scale distances, making Earth’s radius 6.37 Mm and its distance from the Sun 150 Gm. The metre is defined as the length of the path travelled by light in vacuum during a time interval of 1/299 792 458 of a second.” Thus, he argues, all units of astronomical distance, from the AU to the parsec (equivalent to 3.26 light-years, and derived from the apparent motion of nearer stars against the background that occurs as Earth orbits the Sun), can really be expressed in meters, with the appropriate SI prefix attached. “My bête noire is the megaparsec - a clumsy and ugly fusion of an SI prefix and a non-SI unit,” he writes.His solution? “To encourage the use of SI units of length in all astronomical work: all distances and lengths should be based on, and simply related to, the metre.
In the paper, Atkin first focuses on units of distance measurement, noting not only the seemingly random and often redundant nature of units unique to the astronomical field, but sometimes their completely strange construction as well. They were originally called planetary nebulae because they often appear round, like planets, but the term remains confusing and even misleading, particularly for the public. And sometimes terms are outdated: Planetary nebulae are not planets or even associated with planets at all, but are the expanding outermost layers of stars in their late stages of life. Our brightness system of magnitudes, for example, is “backwards” - the smaller the number describing its magnitude, the brighter a star appears. It’s true that astronomy is a bit weird, in general. The use of units such as light-years (the distance light covers in a year: 5.88 trillion miles ) and astronomical units (abbreviated AU, the average Earth-Sun distance: 93 million miles ) persists, he says, when “simpler logical units would help both within the subject and in multidisciplinary research.”
Unit larger than light years professional#
In a paper published April 1 in Astronomy & Geophysics, Keith Atkin, a retired associate lecturer in physics at the University of Sheffield, UK, argues that while the professional field of astronomy has moved away from the imperial units of miles, pounds, and degrees Fahrenheit, “this transition has not been complete,” according to the abstract of his paper. These units are unique to astronomy, and all can be expressed in terms of other, more fundamental units, such as meters, grams, and degrees. (Credit: NASA) Click on an article about space on Discover, and you’ll likely run into a measurement in terms of light-years, solar masses, astronomical units, or arcminutes.
Distances here are measured in astronomical units (AU). An illustration of the scale of our solar system.
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