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Perspectives in Magnetohydrodynamics Research.

By: Material type: TextTextSeries: Earth Sciences in the 21st CenturyPublisher: Hauppauge : Nova Science Publishers, Incorporated, 2011Copyright date: ©2011Edition: 1st edDescription: 1 online resource (154 pages)Content type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 9781621001287
Subject(s): Genre/Form: Additional physical formats: Print version:: Perspectives in Magnetohydrodynamics ResearchDDC classification:
  • 538/.6
LOC classification:
  • QC718.5.M36 -- P465 2011eb
Online resources:
Contents:
Intro -- Contents -- Preface -- MHD Free Convection in a Porous Medium Bounded by a Long Vertical Wavy Wall and a Parallel Flat Wall -- Abstract -- 1. Introduction -- 2. Mathematical Analysis -- 2.a. Solution of Mean Part -- 2.b. Solution Procedure for Perturbed Part -- 3. Skin Friction and Nusselt Number at the Walls -- 4. Results and Discussion -- 4.a. Presentation of First Order Solution -- Conclusion -- Nomenclature -- Greek Symbols -- Subscript -- Appendix -- References -- Immersed Boundary Method: The Existence of Approximate Solution in Two-Dimensional Case -- Transient Hydromagnetic Natural Convection between Two Vertical Walls Heated/Cooled Asymmetrically -- Abstract -- 1. Introduction -- 2. Mathematical Formulation -- Steady State Solution -- Results and Discussion -- Conclusion -- Nomenclature -- Greek Symbols -- References -- Effect of Suction/ Injection on MHD Flat Plate Thermometer -- Abstract -- Introduction -- Problem Formulation -- Results and Discussion -- Conclusion -- Nomenclature -- Greek Symbols -- Subscripts -- Superscript -- References -- Flute and Ballooning Modes in the Inner Magnetosphere of the Earth: Stability and Influence of the Ionospheric Conductivity -- Abstract -- Introduction -- 1. Main Equations -- 1.1. Initial Equations -- 1.2. Magnetic Label -- 1.3. Equations of Small Oscillations -- 1.4. Ballooning Approximation -- 2. Dipole Model of the Geomagnetic Field -- 2.1. Magnetic Field -- 2.2. Equilibrium -- 2.3. Equations of Small Oscillations in Dipole Geometry -- 2.4. Polarization of Ballooning Modes -- 3. Ionospheric Boundary Conditions -- 3.1. Boundary Conditions -- 3.2. Expression for -- 3.3. Derivation of -- 3.4. Boundary Conditions for Ballooning Modes in Dipole Geometry -- 4. Magnetospheric Plasma Stability -- 4.1. Energetic Analysis -- 4.2. Boundary Problem for the Stability Threshold.
4.3. Stability Threshold -- 4.3.1. Flute Perturbations -- 4.3.2. Incompressible Perturbations -- 4.3.3. Numerical Analysis -- 4.4. Stability Criterion of Ballooning Modes with Perfectly Conductive Boundary -- Conclusion -- References -- Index.
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Intro -- Contents -- Preface -- MHD Free Convection in a Porous Medium Bounded by a Long Vertical Wavy Wall and a Parallel Flat Wall -- Abstract -- 1. Introduction -- 2. Mathematical Analysis -- 2.a. Solution of Mean Part -- 2.b. Solution Procedure for Perturbed Part -- 3. Skin Friction and Nusselt Number at the Walls -- 4. Results and Discussion -- 4.a. Presentation of First Order Solution -- Conclusion -- Nomenclature -- Greek Symbols -- Subscript -- Appendix -- References -- Immersed Boundary Method: The Existence of Approximate Solution in Two-Dimensional Case -- Transient Hydromagnetic Natural Convection between Two Vertical Walls Heated/Cooled Asymmetrically -- Abstract -- 1. Introduction -- 2. Mathematical Formulation -- Steady State Solution -- Results and Discussion -- Conclusion -- Nomenclature -- Greek Symbols -- References -- Effect of Suction/ Injection on MHD Flat Plate Thermometer -- Abstract -- Introduction -- Problem Formulation -- Results and Discussion -- Conclusion -- Nomenclature -- Greek Symbols -- Subscripts -- Superscript -- References -- Flute and Ballooning Modes in the Inner Magnetosphere of the Earth: Stability and Influence of the Ionospheric Conductivity -- Abstract -- Introduction -- 1. Main Equations -- 1.1. Initial Equations -- 1.2. Magnetic Label -- 1.3. Equations of Small Oscillations -- 1.4. Ballooning Approximation -- 2. Dipole Model of the Geomagnetic Field -- 2.1. Magnetic Field -- 2.2. Equilibrium -- 2.3. Equations of Small Oscillations in Dipole Geometry -- 2.4. Polarization of Ballooning Modes -- 3. Ionospheric Boundary Conditions -- 3.1. Boundary Conditions -- 3.2. Expression for -- 3.3. Derivation of -- 3.4. Boundary Conditions for Ballooning Modes in Dipole Geometry -- 4. Magnetospheric Plasma Stability -- 4.1. Energetic Analysis -- 4.2. Boundary Problem for the Stability Threshold.

4.3. Stability Threshold -- 4.3.1. Flute Perturbations -- 4.3.2. Incompressible Perturbations -- 4.3.3. Numerical Analysis -- 4.4. Stability Criterion of Ballooning Modes with Perfectly Conductive Boundary -- Conclusion -- References -- Index.

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Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2024. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.

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