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Melting Points of Atomic and Homogeneous, Diatomic Molecular Solids Via the Four-Body Problem

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Melting Points of Atomic and Homogeneous, Diatomic Molecular Solids Via the Four-Body Problem

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dc.contributor.author Greenspan, Donald en
dc.date.accessioned 2010-06-02T20:57:57Z en
dc.date.available 2010-06-02T20:57:57Z en
dc.date.issued 1992-10 en
dc.identifier.uri http://hdl.handle.net/10106/2262 en
dc.description.abstract For a regular tetrahedral arrangement of four identical atoms, the minimum velocity of one atom, required for that atom to pass through the plane of the other three, is used to define the melting point of any solid composed of such atoms. The formula which results is [see pdf for notation], in which h is Planck's constant. Computations and results are described for helium, neon, argon, krypton, xenon and copper. The methodology is then extended to homogeneous, diatomic molecular solids and results are described for H2, D2, N2, 02, and C12. en
dc.language.iso en_US en
dc.publisher University of Texas at Arlington en
dc.relation.ispartofseries Technical Report;288 en
dc.subject Melting point en
dc.subject Planck's constant en
dc.subject Four-Body Problem en
dc.subject Computer methodolgy en
dc.subject Molecular solid en
dc.subject.lcsh Mathematics Research en
dc.title Melting Points of Atomic and Homogeneous, Diatomic Molecular Solids Via the Four-Body Problem en
dc.type Technical Report en
dc.publisher.department Department of Mathematics en

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