000			02301nam a22003617a 4500
001			101569
003			KnowledgeUnlatched
005			20210303105308.0
006			m o d
007			cr u||||||||||
008			210129p20182018nyu o u00| u eng d
035			_a(OCoLC)1028759642
037			_5BiblioBoard
245	0	0	_aRare Earth Frontiers _bFrom Terrestrial Subsoils to Lunar Landscapes / _cJulie Michelle Klinger.
020			_a9781501714610
029	1		_ahttps://library.biblioboard.com/ext/api/media/f3227768-1d5f-4ecb-afb5-049a04a7e156/assets/thumbnail.jpg
040			_aScCtBLL _cScCtBLL
100	1		_aKlinger, Julie Michelle _eauthor.
264		1	_bCornell University Press,
300			_a1 online resource.
506	0		_aAccess copy available to the general public. _fUnrestricted _2star
520			_aOwing to their unique magnetic, phosphorescent, and catalytic properties, rare earths are the elements that make possible everything from the miniaturization of electronics, to the enabling of green energy and medical technologies, to supporting essential telecommunications and defense systems. An iPhone uses eight rare earths for everything from its colored screen, to its speakers, to the miniaturization of the phone's circuitry. On the periodic table rare earth elements comprise a set of seventeen chemical elements (the fifteen lanthanides plus scandium and yttrium). There would be no Pokémon Go without rare earths. Rare Earth Frontiers is a work of human geography. Klinger looks historically and geographically at the ways rare earth elements in three discrete but representative and contested sites are given meaning.
588	0		_aDescription based on print version record.
590			_aKU Select 2017: Front list Collection
650		7	_aScience / Earth Sciences / Geology _2bisacsh
650		0	_aScience
655		0	_aElectronic books.
758			_iIs found in: _aKnowledge Unlatched _1https://openresearchlibrary.org/module/2774bc74-146a-484f-a7ba-ab1d6a09bbfb
856	4	0	_uhttps://openresearchlibrary.org/content/f3227768-1d5f-4ecb-afb5-049a04a7e156 _zView this content on Open Research Library. _70
999			_c25273 _d25273