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[[Image:{{Night Sky| image =000Bootes constellation map.jpg|thumb|right|250px|Location of Arcturus (designation =Alpha Boötis) in the constellation of [[Boötes]]. Copyright © 2003 Torsten Bronger[http:| rightascension =14^h 15<sup>m</en.wikipediasup> 39.org7<sup>s</wiki/User:Bronger]. Used with permission.]]sup> | declination =+19^o 10'''Arcturus''', also known as '''Alpha Boötis''', is a star located some 56"| distance =36.7 light years from our [[Sun]]±0. It is the brightest star in the 3 ly| constellation [[ =Boötes]]. Arcturus is the fourth brightest star overall in the night sky after [[Sirius]], [[Canopus]], and [[Alpha Centauri| type =Star| dimensions =|Alpha Centauri AB]] (the two stars are too close to resolve separately with the unaided eye), and the brightest one located in the northern celestial hemisphere, with an apparent magnitude of =Absolute Mag: -0.05.29<refbr/>httpApparent Mag://www-0.atlasoftheuniverse.com/stars.html04| redshift =| radvelocity =</refnowiki> Arcturus is a single star, although in the 1990'+5 km/s it was thought to possibly have a stellar companion.<ref/nowiki>http| propmotion =RA:−1093.45 mas/yr<br/adsabs>Dec.harvard: −1999.edu40 mas/cgi-bin/nph-bib_query?bibcodeyr| parallax =1999PASP88.98 ±0.111..556T&db_key=AST&high=3bd70156a918794</ref>68 mas}}

'''Arcturus''', also known as '''Alpha Boötis''', is a star located some 36.7 light years from our [[Sun]]. It is the brightest star in the constellation [[Boötes]]. Arcturus is the fourth brightest star overall in the night sky after [[Sirius]], [[Canopus]], and [[Alpha Centauri|Alpha Centauri AB]] (the two stars are too close to resolve separately with the unaided eye), and the brightest one located in the northern celestial hemisphere, with an apparent magnitude of -0.05.<ref>http://www.atlasoftheuniverse.com/stars.html</ref> Arcturus is a single star, although in the 1990s it was thought to possibly have a stellar companion.<ref>http://adsabs.harvard.edu/cgi-bin/nph-bib_query?bibcode=1999PASP..111..556T&db_key=AST&high=3bd70156a918794</ref> Arcturus has the second largest proper motion of first magnitude stars (only [[Alpha Centauri|Alpha Centauri's]] is greater), as observed from [[Earth]]. This motion was first detected by Edmond Halley in 1718. Right now, Arcturus is at its closest proximity to our [[solar system]], having become visible around a half million years ago, and will fade from view in another half million years as it moves away.

Arcturus is well know known worldwide since [[antiquity]], thanks to the fact that it is one of the brightest stars in the night sky.

The star was seen known by ancient [[Polynesian]] navigators as '''Hōkūleʻa''', the "Star of Joy". The Polynesians knew the star was at its zenith over the [[Hawaii|Hawaiian islands]] and used this knowledge to sail from [[Tahiti]] and the Marquesas Islands to Hawaii. For their return trip, the Polynesians would use [[Sirius]], the zenith star of Tahiti. This trip has been duplicated several times using the same wayfinding technique of navigation through the use of these same stars since 1976 by the Polynesian Voyaging Society.

Arcturus is an orange-red giant with of the spectral type K1.5 IIIpe. The star has some 24.5 times the diameter of our [[Sun]]. Like all giants, it has a low mass mass compared to its size, having only 1.5 times the mass of our Sun.<ref name="illinois">http://www.astro.illinois.edu/~jkaler/sow/arcturus.html</ref> Arcturus is 115 times as bright as our sun visually, although its absolute magnitude is 215 times as great counting the [[infrared]].<ref>http://adsabs.harvard.edu/cgi-bin/nph-bib_query?bibcode=2002hgs..book.....K&db_key=AST&data_type=HTML&format=&high=45e3861c6616357</ref> The star has rather low [[metallicity]], with being only 17 to 32 percent as abundant as our Sun with in elements heavier then [[hydrogen]], based on its abundance of [[iron]].<ref>http://adsbit.harvard.edu/cgi-bin/nph-iarticle_query?bibcode=1998Obs...118..299G&data_type=PDF_HIGH&type=PRINTER</ref>

As a helium-burning giant star that has consumed all its [[hydrogen]] core fuel and left the main sequence, it has fully shifted to fusing [[helium]] in its core into [[carbon]] and [[oxygen]]. This stage of the star's life will only last some tens to hundreds of millions of years. Eventually the star will begin to loss lose its mass, and the gases will puff out as a[[ planetary nebula]] containing mostly hydrogen and helium, with smaller amounts of other elements. What will be left is a [[white dwarf]] star that will gradually cool and fade over time.