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Numerical models of fluid dynamics have become increasingly preferable to more expensive physical experiments, but the ways in which data should be represented on the computer have been problematic. This book presents the findings of international experts in this field who address problems of computer modelling and equation solving. Contributors discuss the most effective algorithms to use and describe the efficiency to expect in solving large systems of equations. Their work will benefit academic and industrial researchers in applied mathematics, mathematical engineering, and computer science.

Calculs numériques --- Dynamique des fluides --- Fluid dynamics --- Numerical calculations --- Numerieke berekeningen --- Vloeistofdynamica --- Mathematics --- Congresses.

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Dynamique des fluides --- Fluid dynamics --- Vloeistofdynamica --- Fluid-structure interaction --- Engineering mathematics. --- Fluids --- Mathematical models. --- Dynamics --- Mathematics --- Numerical methods --- #TWER:MOD --- Numerical methods. --- Engineering mathematics --- Engineering --- Engineering analysis --- Mathematical analysis --- Mathematical models --- Fluide --- Interaction fluide-structure --- Modélisation --- Structure elastique --- Vibration

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The journal is devoted to the publication of original theoretical, computational, and experimental contributions to the dynamics of gases, liquids, and complex or multiphase fluids.

Physics --- Fluid mechanics --- Dynamique des fluides --- Fluid dynamics --- Vloeistofdynamica --- Fluids --- Fluides, Dynamique des --- Fluides --- Periodicals --- Périodiques --- #ANTILTPNE9604 --- Earth Sciences --- Geochemistry --- Fluid Engineering --- General and Others --- Mechanics. --- Engineering --- Mechanics --- Earth Sciences. --- Engineering. --- Physics. --- Earth sciences. --- Périodiques --- AMEINSPHY-E EBSCOASP-E EJPHYSI EPUB-ALPHA-P EPUB-PER-FT --- Hydraulics --- Hydrostatics --- Permeability --- Journal

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Life was simple when the dynamic, the spectral and the resolving powers of our instruments were small. One observed whole objects - planets, stars, sunspots, galaxies, often in rainbow colours. Then the revolution occurred: we acquired the centimetric eyes, the mil­ limetric eyes, the infrared eyes, the ultraviolet eyes, the X-ray eyes and the ,-ray eyes. With these we see mottles on the surface of stars, streams in sunspots, and spirals in nuclei of galaxies. We see regions of multiple mass densities and temperatures in a precari­ ous balance, losing it occasionally, exhaling flares. The universe is timed, cosmic phenomena are clocked; eternity is lost and variabil­ ity is bought. Microarcsecond resolutions revealed stirring and siz­ zling interiors underneath serene surfaces. Short durations and small scales demanded employing a discipline with similar attributes - the discipline of Plasmas and Fluids - known more for its complexity than for its felicity. Some would like to wish it away. We shall learn about plasmas for it is too little familiarity that breeds fear. Complexity can be systemized, to a large extent, by looking for a common denominator among apparently disparate phe­ nomena. It is not immediately obvious what the contents and the style of a graduate level course on plasmas and fluids aimed at understanding astrophysical phenomena should be. Plasmas and fluids are huge subjects by themselves. The cosmic phenomena where plasmas and fluids playa definite role are equally diverse and numerous.

Astrophysical plasmas --- Dynamique des fluides --- Fluid dynamics --- Plasma astrophysics --- Plasma-astrofysica --- Plasmas [Astrophysical ] --- Plasmas [Astrophysique des ] --- Vloeistofdynamica --- Fluid dynamics. --- Plasma astrophysics. --- Nuclear physics. --- Heavy ions. --- Astrophysics. --- Atmospheric sciences. --- Condensed matter. --- Observations, Astronomical. --- Astronomy—Observations. --- Nuclear Physics, Heavy Ions, Hadrons. --- Astrophysics and Astroparticles. --- Atmospheric Sciences. --- Condensed Matter Physics. --- Astronomy, Observations and Techniques. --- Astronomical observations --- Observations, Astronomical --- Condensed materials --- Condensed media --- Condensed phase --- Materials, Condensed --- Media, Condensed --- Phase, Condensed --- Liquids --- Matter --- Solids --- Atmospheric sciences --- Earth sciences --- Atmosphere --- Astronomical physics --- Astronomy --- Cosmic physics --- Physics --- Ions --- Atomic nuclei --- Atoms, Nuclei of --- Nucleus of the atom

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Statistical physics --- Mathematical physics --- Fluid mechanics --- Analyse de corrélation --- Broken symmetry (Physics) --- Correlatie (Statistiek) --- Corrélation (Statistiques) --- Dynamique des fluides --- Gebroken symmetrie (Fysica) --- Ondes de spin --- Spin waves --- Spingolven --- Symetrie brisee (Physique) --- Vloeistofdynamica --- Symétrie brisée (Physique) --- Waves, Spin --- Low temperatures --- Symmetry breaking (Physics) --- Symétrie brisée (Physique) --- Correlation (Statistics) --- Fluid dynamics --- 519.233.5 --- 531.19 --- 532.5 --- 536.75 --- 538.93 --- 532.5 Liquid motion. Hydrodynamics --- Liquid motion. Hydrodynamics --- 531.19 Statistical mechanics --- Statistical mechanics --- 538.93 Transport processes (except in quantum liquids and solids) --- Transport processes (except in quantum liquids and solids) --- 519.233.5 Correlation analysis. Regression analysis --- Correlation analysis. Regression analysis --- Ferromagnetism --- Nuclear spin --- Dynamics --- Least squares --- Mathematical statistics --- Probabilities --- Regression analysis --- Statistics --- Instrumental variables (Statistics) --- Symmetry (Physics) --- 536.75 Entropy. Statistical thermodynamics. Irreversible processes --- Entropy. Statistical thermodynamics. Irreversible processes --- Graphic methods --- Corrélation (Statistique) --- Fluides, Dynamique des