000			06580nam a22015135i 4500
001			207402
003			IT-RoAPU
005			20250106150607.0
006			m|||||o||d||||||||
007			cr || ||||||||
008			241120t20141980nju fo d z eng d
020			_a9781400854493 _qPDF
024	7		_a10.1515/9781400854493 _2doi
035			_a(DE-B1597)9781400854493
035			_a(DE-B1597)448501
035			_a(OCoLC)922709658
040			_aDE-B1597 _beng _cDE-B1597 _erda
050		4	_aQE461 ǂb P59 1980eb
072		7	_aSCI000000 _2bisacsh
082	0	4	_a552.3
084			_aonline - DeGruyter
100	1		_aHargraves, Robert Bero _eautore
245	1	0	_aPhysics of Magmatic Processes / _cRobert Bero Hargraves.
250			_aCourse Book
264		1	_aPrinceton, NJ : _bPrinceton University Press, _c[2014]
264		4	_c1980
300			_a1 online resource (598 p.)
336			_atext _btxt _2rdacontent
337			_acomputer _bc _2rdamedia
338			_aonline resource _bcr _2rdacarrier
347			_atext file _bPDF _2rda
490	0		_aPrinceton Legacy Library ; _v105
505	0	0	_tFrontmatter -- _tContents -- _tPreface -- _tChapter 1. Polymerization Model for Silicate Melts -- _tChapter 2 The Igneous System CaMgSi2O6-CaAl2Si2O8-NaAlSi3O8: Variations on A Classic Theme by Bowen -- _tChapter 3. Viscosity, Density, and Structure of Silicate Melts at High Pressures, and Their Petrological Applications -- _tChapter 4. Trace-Element Constraints on Magma Genesis -- _tChapter 5. Heat Flow and Magma Genesis -- _tChapter 6. The Fracture Mechanisms of Magma Transport From The Mantle to The Surface -- _tChapter 7. Aspects of Magma Transport -- _tChapter 8. Magmatic Infiltration Metasomatism, Double-Diffusive Fractional Crystallization, and Adcumulus Growth in the Muskox Intrusion and other Layered Intrusions -- _tChapter 9. Diffusion in Natural Silicate Melts: A Critical Review -- _tChapter 10. Crystal Growth and Nucleation Theory and the Numerical Simulation of Igneous Crystallization -- _tChapter 11. Experimental Studies on the Dynamic Crystallization of Silicate Melts -- _tAuthor Index -- _tSubject Index
506	0		_arestricted access _uhttp://purl.org/coar/access_right/c_16ec _fonline access with authorization _2star
520			_aWhile the chemical aspects of igneous petrology have dominated research for many years, the physical processes associated with the generation, transport, and crystallization of magma have been somewhat neglected. Here a group of distinguished scientists, whose current research embraces both chemical and physical aspects of the field, illustrates these new directions in igneous petrology.Originally published in 1980.The Princeton Legacy Library uses the latest print-on-demand technology to again make available previously out-of-print books from the distinguished backlist of Princeton University Press. These editions preserve the original texts of these important books while presenting them in durable paperback and hardcover editions. The goal of the Princeton Legacy Library is to vastly increase access to the rich scholarly heritage found in the thousands of books published by Princeton University Press since its founding in 1905.
538			_aMode of access: Internet via World Wide Web.
546			_aIn English.
588	0		_aDescription based on online resource; title from PDF title page (publisher's Web site, viewed 20. Nov 2024)
650		7	_aSCIENCE / General. _2bisacsh
653			_aAlkali basalt.
653			_aAnorthosite.
653			_aAvailable energy (particle collision).
653			_aBasalt.
653			_aChromite.
653			_aConvection.
653			_aCristobalite.
653			_aCrust (geology).
653			_aCrystal growth.
653			_aCrystallization.
653			_aDike (geology).
653			_aEinstein relation (kinetic theory).
653			_aElasticity (physics).
653			_aEnthalpy of fusion.
653			_aEntropy of fusion.
653			_aEquation of state (cosmology).
653			_aFeldspar.
653			_aFractional crystallization (chemistry).
653			_aFractional crystallization (geology).
653			_aGeochemistry.
653			_aGneiss.
653			_aGranodiorite.
653			_aGravity anomaly.
653			_aHeat transfer.
653			_aIgneous petrology.
653			_aIgneous rock.
653			_aIgnimbrite.
653			_aIonization energy.
653			_aIsothermal flow.
653			_aIsotope geochemistry.
653			_aKinetic theory of gases.
653			_aLava.
653			_aMagma chamber.
653			_aMagma.
653			_aMagmatic water.
653			_aMagmatism.
653			_aMantle plume.
653			_aMass diffusivity.
653			_aMass flux.
653			_aMass fraction (chemistry).
653			_aMelting.
653			_aMetamorphic rock.
653			_aMineralogy.
653			_aNucleation.
653			_aOlivine.
653			_aPeridotite.
653			_aPlagioclase.
653			_aPlasticity (physics).
653			_aPlate tectonics.
653			_aPorosity.
653			_aPyroclastic flow.
653			_aPyroxene.
653			_aRecrystallization (geology).
653			_aRecrystallization (metallurgy).
653			_aSeismic moment.
653			_aSilicate.
653			_aSolidus (chemistry).
653			_aSpherulite.
653			_aSupercooling.
653			_aSupercritical fluid.
653			_aSurface energy.
653			_aTension (physics).
653			_aThermodynamic temperature.
653			_aThermodynamics.
653			_aTransition metal.
653			_aTypes of volcanic eruptions.
653			_aViscosity.
653			_aVolcanic rock.
653			_aVolcanologist.
653			_aWork (thermodynamics).
700	1		_aAllègre, C. J. _eautore
700	1		_aDowty, Eric _eautore
700	1		_aHart, S. R. _eautore
700	1		_aHess, Paul C. _eautore
700	1		_aHofmann, Albrecht W. _eautore
700	1		_aHon, R. _eautore
700	1		_aIrvine, Τ. N. _eautore
700	1		_aKushiro, Ikuo _eautore
700	1		_aLofgren, Gary _eautore
700	1		_aNavrotsky, A. _eautore
700	1		_aOxburgh, E. R. _eautore
700	1		_aShaw, Herbert R. _eautore
700	1		_aSpera, Frank J. _eautore
700	1		_aWeill, D. F. _eautore
850			_aIT-RoAPU
856	4	0	_uhttps://doi.org/10.1515/9781400854493
856	4	0	_uhttps://www.degruyter.com/isbn/9781400854493
856	4	2	_3Cover _uhttps://www.degruyter.com/document/cover/isbn/9781400854493/original
942			_cEB
999			_c207402 _d207402