Verfügbarkeit: Molecular and particle modelling of laminar and turbulent flows /

Molecular and particle modelling of laminar and turbulent flows /:

Turbulence is the most fundamental and, simultaneously, the mostcomplex form of fluid flow. However, because an understanding ofturbulence requires an understanding of laminar flow, both areexplored in this book. Groundwork is laid by careful delineation of the necessary physical, mathematical, and...

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1. Verfasser:	Greenspan, Donald
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Hackensack, NJ : World Scientific, ©2005.
Schlagworte:	Turbulence > Mathematical models. Laminar flow > Mathematical models. Water vapor transport > Mathematical models. Vapors > Mathematical models. Turbulence > Modèles mathématiques. Écoulement laminaire > Modèles mathématiques. Vapeur d'eau atmosphérique > Transport > Modèles mathématiques. Vapeurs > Modèles mathématiques. SCIENCE > Mechanics > Fluids. Laminar flow > Mathematical models Turbulence > Mathematical models Vapors > Mathematical models Water vapor transport > Mathematical models
Online-Zugang:	Volltext
Zusammenfassung:	Turbulence is the most fundamental and, simultaneously, the mostcomplex form of fluid flow. However, because an understanding ofturbulence requires an understanding of laminar flow, both areexplored in this book. Groundwork is laid by careful delineation of the necessary physical, mathematical, and numerical requirements for the studies which follow, and include discussions of N-body problems, classical molecularmechanics, dynamical equations, and the leap frog formulas for verylarge systems of second order ordinary differential equations.
Beschreibung:	1 online resource (ix, 168 pages :)
Bibliographie:	Includes bibliographical references (pages 163-166) and index.
ISBN:	9812560963 9789812560964 9812569359 9789812569356 1281881023 9781281881021

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245	1	0	\|a Molecular and particle modelling of laminar and turbulent flows / \|c by Donald Greenspan.
246	3		\|a Molecular and particle modeling of laminar and turbulent flows
260			\|a Hackensack, NJ : \|b World Scientific, \|c ©2005.
300			\|a 1 online resource (ix, 168 pages :)
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504			\|a Includes bibliographical references (pages 163-166) and index.
505	0		\|a Cover -- Contents -- Preface -- 1. Mathematical, Physical, and Computational Preliminaries -- 1.1. The N-Body Problem -- 1.2. Classical Molecular Potentials -- 1.3. Molecular Mechanics -- 1.4. The Leap Frog Formulas -- ALGORITHM 8212; PROGRAM LEAP FROG -- 1.5. Turbulence -- 1.5.1. Engineering -- 1.5.2. Theoretical -- 1.5.3. Numerical -- 1.6. Overview -- 2. Molecular Cavity Flow of Argon Vapor in Two Dimensions -- 2.1. Introduction -- 2.2. Equations of Motion for Argon Vapor -- 2.3. The Cavity Problem -- 2.4. Computational Considerations -- 2.5. Examples of Primary Vortex Generation -- 2.6. Example of Turbulent Flow -- 2.7. Remarks -- 2.8. The Fortran Program ARGON. FOR -- 2.9. The Fortran Program YOUWIN. FOR -- 3. Molecular Cavity Flow of Air Vapor in Two Dimensions -- 3.1. Molecular Formulas -- 3.2. The Cavity Problem -- 3.3. Initial Data -- 3.4. Examples of Primary Vortex Generation -- 3.5. Turbulent Flow -- 3.6. The Fortran Program AIR. FOR -- 4. Molecular Cavity Flow of Water Vapor in Two Dimensions -- 4.1. Introduction -- 4.2. Equations of Motion for Water Vapor Molecules -- 4.3. Examples of Primary Vortex Generation -- 4.4. Example of Turbulent Flow -- 4.5. A Speculative Study of Liquid Water -- 4.6. The Fortran Program CAV. FOR -- 5. Molecular Cavity Flow of Water Vapor in Three Dimensions -- 5.1. Introduction -- 5.2. Molecular Arrangement and the Cavity Problem -- 5.3. Computational Considerations -- 5.4. Examples -- 5.5. Turbulent Flow -- 5.6. The Fortran program CAV3D. FOR -- 6. Particle Models of Flow in Two Dimensions -- 6.1. Introduction -- 6.2. Particle Arrangement and Equations -- 6.3. Particle Equilibrium -- 6.4. Examples -- 6.5. Turbulence -- 6.6. Heating Water Vapor in a Square Cavity -- 6.7. A Speculative Study of Liquid Water -- 6.8. Particle Equations of Motion -- 6.9. Particle Equilibrium -- 6.10. Primary Vortex Generation -- 6.11. Turbulence -- 6.12. The Fortran Program PARTICLE. FOR -- 7. The Flow of Water Vapor Around a Flat Plate -- 7.1. Introduction -- 7.2. Mathematical and Physical Preliminaries -- 7.3. Approximate Equations -- 7.4. Problem Formulation -- 7.5. Examples -- 7.6. Remarks -- 7.7. The Fortran Program PLATE. FOR -- 8. Extant Problems with Continuum Models -- 8.1. Introduction -- 8.2. Concepts of Infinity -- 8.3. The Surface Area Paradox -- 8.4. Paradoxes of Zeno -- 8.5. A Nonsolvable Problem in Population Genetics -- 8.6. Time as a Continuum in Fluid Dynamics -- 8.7. Remark -- References and Additional Sources -- Index.
520			\|a Turbulence is the most fundamental and, simultaneously, the mostcomplex form of fluid flow. However, because an understanding ofturbulence requires an understanding of laminar flow, both areexplored in this book. Groundwork is laid by careful delineation of the necessary physical, mathematical, and numerical requirements for the studies which follow, and include discussions of N-body problems, classical molecularmechanics, dynamical equations, and the leap frog formulas for verylarge systems of second order ordinary differential equations.
650		0	\|a Turbulence \|x Mathematical models.
650		0	\|a Laminar flow \|x Mathematical models.
650		0	\|a Water vapor transport \|x Mathematical models.
650		0	\|a Vapors \|x Mathematical models.
650		6	\|a Turbulence \|x Modèles mathématiques.
650		6	\|a Écoulement laminaire \|x Modèles mathématiques.
650		6	\|a Vapeur d'eau atmosphérique \|x Transport \|x Modèles mathématiques.
650		6	\|a Vapeurs \|x Modèles mathématiques.
650		7	\|a SCIENCE \|x Mechanics \|x Fluids. \|2 bisacsh
650		7	\|a Laminar flow \|x Mathematical models \|2 fast
650		7	\|a Turbulence \|x Mathematical models \|2 fast
650		7	\|a Vapors \|x Mathematical models \|2 fast
650		7	\|a Water vapor transport \|x Mathematical models \|2 fast
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contents	Cover -- Contents -- Preface -- 1. Mathematical, Physical, and Computational Preliminaries -- 1.1. The N-Body Problem -- 1.2. Classical Molecular Potentials -- 1.3. Molecular Mechanics -- 1.4. The Leap Frog Formulas -- ALGORITHM 8212; PROGRAM LEAP FROG -- 1.5. Turbulence -- 1.5.1. Engineering -- 1.5.2. Theoretical -- 1.5.3. Numerical -- 1.6. Overview -- 2. Molecular Cavity Flow of Argon Vapor in Two Dimensions -- 2.1. Introduction -- 2.2. Equations of Motion for Argon Vapor -- 2.3. The Cavity Problem -- 2.4. Computational Considerations -- 2.5. Examples of Primary Vortex Generation -- 2.6. Example of Turbulent Flow -- 2.7. Remarks -- 2.8. The Fortran Program ARGON. FOR -- 2.9. The Fortran Program YOUWIN. FOR -- 3. Molecular Cavity Flow of Air Vapor in Two Dimensions -- 3.1. Molecular Formulas -- 3.2. The Cavity Problem -- 3.3. Initial Data -- 3.4. Examples of Primary Vortex Generation -- 3.5. Turbulent Flow -- 3.6. The Fortran Program AIR. FOR -- 4. Molecular Cavity Flow of Water Vapor in Two Dimensions -- 4.1. Introduction -- 4.2. Equations of Motion for Water Vapor Molecules -- 4.3. Examples of Primary Vortex Generation -- 4.4. Example of Turbulent Flow -- 4.5. A Speculative Study of Liquid Water -- 4.6. The Fortran Program CAV. FOR -- 5. Molecular Cavity Flow of Water Vapor in Three Dimensions -- 5.1. Introduction -- 5.2. Molecular Arrangement and the Cavity Problem -- 5.3. Computational Considerations -- 5.4. Examples -- 5.5. Turbulent Flow -- 5.6. The Fortran program CAV3D. FOR -- 6. Particle Models of Flow in Two Dimensions -- 6.1. Introduction -- 6.2. Particle Arrangement and Equations -- 6.3. Particle Equilibrium -- 6.4. Examples -- 6.5. Turbulence -- 6.6. Heating Water Vapor in a Square Cavity -- 6.7. A Speculative Study of Liquid Water -- 6.8. Particle Equations of Motion -- 6.9. Particle Equilibrium -- 6.10. Primary Vortex Generation -- 6.11. Turbulence -- 6.12. The Fortran Program PARTICLE. FOR -- 7. The Flow of Water Vapor Around a Flat Plate -- 7.1. Introduction -- 7.2. Mathematical and Physical Preliminaries -- 7.3. Approximate Equations -- 7.4. Problem Formulation -- 7.5. Examples -- 7.6. Remarks -- 7.7. The Fortran Program PLATE. FOR -- 8. Extant Problems with Continuum Models -- 8.1. Introduction -- 8.2. Concepts of Infinity -- 8.3. The Surface Area Paradox -- 8.4. Paradoxes of Zeno -- 8.5. A Nonsolvable Problem in Population Genetics -- 8.6. Time as a Continuum in Fluid Dynamics -- 8.7. Remark -- References and Additional Sources -- Index.
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-- Contents -- Preface -- 1. Mathematical, Physical, and Computational Preliminaries -- 1.1. The N-Body Problem -- 1.2. Classical Molecular Potentials -- 1.3. Molecular Mechanics -- 1.4. The Leap Frog Formulas -- ALGORITHM 8212; PROGRAM LEAP FROG -- 1.5. Turbulence -- 1.5.1. Engineering -- 1.5.2. Theoretical -- 1.5.3. Numerical -- 1.6. Overview -- 2. Molecular Cavity Flow of Argon Vapor in Two Dimensions -- 2.1. Introduction -- 2.2. Equations of Motion for Argon Vapor -- 2.3. The Cavity Problem -- 2.4. Computational Considerations -- 2.5. Examples of Primary Vortex Generation -- 2.6. Example of Turbulent Flow -- 2.7. Remarks -- 2.8. The Fortran Program ARGON. FOR -- 2.9. The Fortran Program YOUWIN. FOR -- 3. Molecular Cavity Flow of Air Vapor in Two Dimensions -- 3.1. Molecular Formulas -- 3.2. The Cavity Problem -- 3.3. Initial Data -- 3.4. Examples of Primary Vortex Generation -- 3.5. Turbulent Flow -- 3.6. The Fortran Program AIR. FOR -- 4. Molecular Cavity Flow of Water Vapor in Two Dimensions -- 4.1. Introduction -- 4.2. Equations of Motion for Water Vapor Molecules -- 4.3. Examples of Primary Vortex Generation -- 4.4. Example of Turbulent Flow -- 4.5. A Speculative Study of Liquid Water -- 4.6. The Fortran Program CAV. FOR -- 5. Molecular Cavity Flow of Water Vapor in Three Dimensions -- 5.1. Introduction -- 5.2. Molecular Arrangement and the Cavity Problem -- 5.3. Computational Considerations -- 5.4. Examples -- 5.5. Turbulent Flow -- 5.6. The Fortran program CAV3D. FOR -- 6. Particle Models of Flow in Two Dimensions -- 6.1. Introduction -- 6.2. Particle Arrangement and Equations -- 6.3. Particle Equilibrium -- 6.4. Examples -- 6.5. Turbulence -- 6.6. Heating Water Vapor in a Square Cavity -- 6.7. A Speculative Study of Liquid Water -- 6.8. Particle Equations of Motion -- 6.9. Particle Equilibrium -- 6.10. Primary Vortex Generation -- 6.11. Turbulence -- 6.12. The Fortran Program PARTICLE. FOR -- 7. The Flow of Water Vapor Around a Flat Plate -- 7.1. Introduction -- 7.2. 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spelling	Greenspan, Donald. Molecular and particle modelling of laminar and turbulent flows / by Donald Greenspan. Molecular and particle modeling of laminar and turbulent flows Hackensack, NJ : World Scientific, ©2005. 1 online resource (ix, 168 pages :) text txt rdacontent computer c rdamedia online resource cr rdacarrier data file rda Includes bibliographical references (pages 163-166) and index. Cover -- Contents -- Preface -- 1. Mathematical, Physical, and Computational Preliminaries -- 1.1. The N-Body Problem -- 1.2. Classical Molecular Potentials -- 1.3. Molecular Mechanics -- 1.4. The Leap Frog Formulas -- ALGORITHM 8212; PROGRAM LEAP FROG -- 1.5. Turbulence -- 1.5.1. Engineering -- 1.5.2. Theoretical -- 1.5.3. Numerical -- 1.6. Overview -- 2. Molecular Cavity Flow of Argon Vapor in Two Dimensions -- 2.1. Introduction -- 2.2. Equations of Motion for Argon Vapor -- 2.3. The Cavity Problem -- 2.4. Computational Considerations -- 2.5. Examples of Primary Vortex Generation -- 2.6. Example of Turbulent Flow -- 2.7. Remarks -- 2.8. The Fortran Program ARGON. FOR -- 2.9. The Fortran Program YOUWIN. FOR -- 3. Molecular Cavity Flow of Air Vapor in Two Dimensions -- 3.1. Molecular Formulas -- 3.2. The Cavity Problem -- 3.3. Initial Data -- 3.4. Examples of Primary Vortex Generation -- 3.5. Turbulent Flow -- 3.6. The Fortran Program AIR. FOR -- 4. Molecular Cavity Flow of Water Vapor in Two Dimensions -- 4.1. Introduction -- 4.2. Equations of Motion for Water Vapor Molecules -- 4.3. Examples of Primary Vortex Generation -- 4.4. Example of Turbulent Flow -- 4.5. A Speculative Study of Liquid Water -- 4.6. The Fortran Program CAV. FOR -- 5. Molecular Cavity Flow of Water Vapor in Three Dimensions -- 5.1. Introduction -- 5.2. Molecular Arrangement and the Cavity Problem -- 5.3. Computational Considerations -- 5.4. Examples -- 5.5. Turbulent Flow -- 5.6. The Fortran program CAV3D. FOR -- 6. Particle Models of Flow in Two Dimensions -- 6.1. Introduction -- 6.2. Particle Arrangement and Equations -- 6.3. Particle Equilibrium -- 6.4. Examples -- 6.5. Turbulence -- 6.6. Heating Water Vapor in a Square Cavity -- 6.7. A Speculative Study of Liquid Water -- 6.8. Particle Equations of Motion -- 6.9. Particle Equilibrium -- 6.10. Primary Vortex Generation -- 6.11. Turbulence -- 6.12. The Fortran Program PARTICLE. FOR -- 7. The Flow of Water Vapor Around a Flat Plate -- 7.1. Introduction -- 7.2. Mathematical and Physical Preliminaries -- 7.3. Approximate Equations -- 7.4. Problem Formulation -- 7.5. Examples -- 7.6. Remarks -- 7.7. The Fortran Program PLATE. FOR -- 8. Extant Problems with Continuum Models -- 8.1. Introduction -- 8.2. Concepts of Infinity -- 8.3. The Surface Area Paradox -- 8.4. Paradoxes of Zeno -- 8.5. A Nonsolvable Problem in Population Genetics -- 8.6. Time as a Continuum in Fluid Dynamics -- 8.7. Remark -- References and Additional Sources -- Index. Turbulence is the most fundamental and, simultaneously, the mostcomplex form of fluid flow. However, because an understanding ofturbulence requires an understanding of laminar flow, both areexplored in this book. Groundwork is laid by careful delineation of the necessary physical, mathematical, and numerical requirements for the studies which follow, and include discussions of N-body problems, classical molecularmechanics, dynamical equations, and the leap frog formulas for verylarge systems of second order ordinary differential equations. Turbulence Mathematical models. Laminar flow Mathematical models. Water vapor transport Mathematical models. Vapors Mathematical models. Turbulence Modèles mathématiques. Écoulement laminaire Modèles mathématiques. Vapeur d'eau atmosphérique Transport Modèles mathématiques. Vapeurs Modèles mathématiques. SCIENCE Mechanics Fluids. bisacsh Laminar flow Mathematical models fast Turbulence Mathematical models fast Vapors Mathematical models fast Water vapor transport Mathematical models fast has work: Molecular and particle modelling of laminar and turbulent flows (Text) https://id.oclc.org/worldcat/entity/E39PD39pb63tXpGrKq6wPYTVbq https://id.oclc.org/worldcat/ontology/hasWork Print version: Greenspan, Donald. Molecular and particle modelling of laminar and turbulent flows. Hackensack, NJ : World Scientific, ©2005 9812560963 (DLC) 2004066158 (OCoLC)57352845 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=161356 Volltext CBO01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=161356 Volltext
spellingShingle	Greenspan, Donald Molecular and particle modelling of laminar and turbulent flows / Cover -- Contents -- Preface -- 1. Mathematical, Physical, and Computational Preliminaries -- 1.1. The N-Body Problem -- 1.2. Classical Molecular Potentials -- 1.3. Molecular Mechanics -- 1.4. The Leap Frog Formulas -- ALGORITHM 8212; PROGRAM LEAP FROG -- 1.5. Turbulence -- 1.5.1. Engineering -- 1.5.2. Theoretical -- 1.5.3. Numerical -- 1.6. Overview -- 2. Molecular Cavity Flow of Argon Vapor in Two Dimensions -- 2.1. Introduction -- 2.2. Equations of Motion for Argon Vapor -- 2.3. The Cavity Problem -- 2.4. Computational Considerations -- 2.5. Examples of Primary Vortex Generation -- 2.6. Example of Turbulent Flow -- 2.7. Remarks -- 2.8. The Fortran Program ARGON. FOR -- 2.9. The Fortran Program YOUWIN. FOR -- 3. Molecular Cavity Flow of Air Vapor in Two Dimensions -- 3.1. Molecular Formulas -- 3.2. The Cavity Problem -- 3.3. Initial Data -- 3.4. Examples of Primary Vortex Generation -- 3.5. Turbulent Flow -- 3.6. The Fortran Program AIR. FOR -- 4. Molecular Cavity Flow of Water Vapor in Two Dimensions -- 4.1. Introduction -- 4.2. Equations of Motion for Water Vapor Molecules -- 4.3. Examples of Primary Vortex Generation -- 4.4. Example of Turbulent Flow -- 4.5. A Speculative Study of Liquid Water -- 4.6. The Fortran Program CAV. FOR -- 5. Molecular Cavity Flow of Water Vapor in Three Dimensions -- 5.1. Introduction -- 5.2. Molecular Arrangement and the Cavity Problem -- 5.3. Computational Considerations -- 5.4. Examples -- 5.5. Turbulent Flow -- 5.6. The Fortran program CAV3D. FOR -- 6. Particle Models of Flow in Two Dimensions -- 6.1. Introduction -- 6.2. Particle Arrangement and Equations -- 6.3. Particle Equilibrium -- 6.4. Examples -- 6.5. Turbulence -- 6.6. Heating Water Vapor in a Square Cavity -- 6.7. A Speculative Study of Liquid Water -- 6.8. Particle Equations of Motion -- 6.9. Particle Equilibrium -- 6.10. Primary Vortex Generation -- 6.11. Turbulence -- 6.12. The Fortran Program PARTICLE. FOR -- 7. The Flow of Water Vapor Around a Flat Plate -- 7.1. Introduction -- 7.2. Mathematical and Physical Preliminaries -- 7.3. Approximate Equations -- 7.4. Problem Formulation -- 7.5. Examples -- 7.6. Remarks -- 7.7. The Fortran Program PLATE. FOR -- 8. Extant Problems with Continuum Models -- 8.1. Introduction -- 8.2. Concepts of Infinity -- 8.3. The Surface Area Paradox -- 8.4. Paradoxes of Zeno -- 8.5. A Nonsolvable Problem in Population Genetics -- 8.6. Time as a Continuum in Fluid Dynamics -- 8.7. Remark -- References and Additional Sources -- Index. Turbulence Mathematical models. Laminar flow Mathematical models. Water vapor transport Mathematical models. Vapors Mathematical models. Turbulence Modèles mathématiques. Écoulement laminaire Modèles mathématiques. Vapeur d'eau atmosphérique Transport Modèles mathématiques. Vapeurs Modèles mathématiques. SCIENCE Mechanics Fluids. bisacsh Laminar flow Mathematical models fast Turbulence Mathematical models fast Vapors Mathematical models fast Water vapor transport Mathematical models fast
title	Molecular and particle modelling of laminar and turbulent flows /
title_alt	Molecular and particle modeling of laminar and turbulent flows
title_auth	Molecular and particle modelling of laminar and turbulent flows /
title_exact_search	Molecular and particle modelling of laminar and turbulent flows /
title_full	Molecular and particle modelling of laminar and turbulent flows / by Donald Greenspan.
title_fullStr	Molecular and particle modelling of laminar and turbulent flows / by Donald Greenspan.
title_full_unstemmed	Molecular and particle modelling of laminar and turbulent flows / by Donald Greenspan.
title_short	Molecular and particle modelling of laminar and turbulent flows /
title_sort	molecular and particle modelling of laminar and turbulent flows
topic	Turbulence Mathematical models. Laminar flow Mathematical models. Water vapor transport Mathematical models. Vapors Mathematical models. Turbulence Modèles mathématiques. Écoulement laminaire Modèles mathématiques. Vapeur d'eau atmosphérique Transport Modèles mathématiques. Vapeurs Modèles mathématiques. SCIENCE Mechanics Fluids. bisacsh Laminar flow Mathematical models fast Turbulence Mathematical models fast Vapors Mathematical models fast Water vapor transport Mathematical models fast
topic_facet	Turbulence Mathematical models. Laminar flow Mathematical models. Water vapor transport Mathematical models. Vapors Mathematical models. Turbulence Modèles mathématiques. Écoulement laminaire Modèles mathématiques. Vapeur d'eau atmosphérique Transport Modèles mathématiques. Vapeurs Modèles mathématiques. SCIENCE Mechanics Fluids. Laminar flow Mathematical models Turbulence Mathematical models Vapors Mathematical models Water vapor transport Mathematical models
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work_keys_str_mv	AT greenspandonald molecularandparticlemodellingoflaminarandturbulentflows AT greenspandonald molecularandparticlemodelingoflaminarandturbulentflows

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