Lagrange point colonization: Difference between revisions

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Line 7: '''Lagrange point colonization''' is a proposed form of [[Space_colonization#Near-Earth space\|space colonization]]<ref>{{Cite web\|url=https://www.forbes.com/sites/brucedorminey/2012/07/31/death-of-a-sci-fi-dream-free-floating-space-colonies-hit-economic-reality/#3f0895e77431\|title=Death Of A Sci-Fi Dream: Free-Floating Space Colonies Hit Economic Reality\|last=Dorminey\|first=Bruce\|author-link=Bruce Dorminey\|date=July 31, 2012\|website=Forbes\|access-date=December 17, 2018}}</ref> of the five equilibrium points in the orbit of a planet or its primary moon, called [[Lagrange point]]s. The Lagrange points {{L4}} and {{L5}} are stable if the mass of the larger body is at least 25 times the mass of the secondary body.<ref>{{cite web\|last1=Fitzpatrick\|first1=Richard\|title=Stability of Lagrange Points\|url=http://farside.ph.utexas.edu/teaching/336k/Newtonhtml/node126.html\|website=Newtonian Dynamics\|publisher=University of Texas}}</ref><ref>{{cite web\|last1=Greenspan\|first1=Thomas\|title=Stability of the Lagrange Points, L4 and L5\|url=~~http~~https://www.math.cornell.edu/~templier/junior/final_paper/Thomas_Greenspan-Stability_of_Lagrange_points.pdf\|date=January 7, 2014}}</ref> Thus, the points L<sub>4</sub> and L<sub>5</sub> in the Earth–Moon system have been proposed as possible sites for space colonies.<ref name="o'neill">{{cite journal \|last1=O'Neill \|first1=Gerard K. \|author1-link=Gerard K. O'Neill \|title=The colonization of space \|journal=Physics Today \|date=September 1974 \|volume=27 \|issue=9 \|pages=32–40 \|doi=10.1063/1.3128863 \|bibcode=1974PhT....27i..32O \|doi-access=free }}</ref><ref>{{cite web \|title=The Lagrangian Points L4 and L5 \|url=https://pwg.gsfc.nasa.gov/stargaze/Slagrng2.htm \|website=pwg.gsfc.nasa.gov \|publisher=[[NASA]] \|access-date=7 June 2021}}</ref> The [[L5 Society]] was founded to promote settlement by building space stations at these points. [[Gerard K. O'Neill]] suggested in 1974 that the Earth–Moon L<sub>5</sub> point, in particular, could fit several thousands of floating colonies, and would allow easy travel to and from the colonies due to the shallow [[effective potential]] at this point. A contemporary NASA team estimated that a 500,000-tonne colony would cost US$5.1 billion (equivalent to US${{inflation\|US\|5.1\|1974}} billion in {{Inflation/year\|US}}) to build.<ref name="o'neill"/> O'Neill proposed manufacturing large [[O'Neill cylinder\|cylinders]] or [[Bernal sphere\|spheres]] as ~~potential~~ colony habitats, while others proposed an enclosed [[Stanford torus\|torus]] shape or a huge [[Bishop Ring (habitat)\|ring]] without a "roof". Another approach is to move an asteroid to a ~~lagrange~~Lagrange point with a colony in its [[Terrarium (space habitat)\|hollow]] interior. == See also == Line 25: [http://www.esa.int/esaSC/SEMM17XJD1E_index_0.html European Space Agency] [https://web.archive.org/web/20070830061728/http://www.freemars.org/l5/aboutl5.html Free Mars] [http://www.orbitalvector.com/Space%20Structures/Lagrange%20Structures/LAGRANGE%20POINT%20STRUCTURES.htm Orbital Vector] {{Webarchive\|url=https://web.archive.org/web/20170914225922/http://orbitalvector.com/Space%20Structures/Lagrange%20Structures/LAGRANGE%20POINT%20STRUCTURES.htm \|date=September 14, 2017 }} [http://www.nasa.gov/topics/moonmars/features/magnetotail_080416.html NASA - The Moon and the Magnetotail] {{Webarchive\|url=https://web.archive.org/web/20211114122639/https://www.nasa.gov/topics/moonmars/features/magnetotail_080416.html \|date=November 14, 2021 }} {{Space colonization}}