Screen LibraryNonlocal Astrophysics : Dark Matter, Dark Energy and Physical Vacuum /
Annotation
Saved in:
| Main Authors: | |
|---|---|
| Corporate Authors: | |
| Published: |
Elsevier,
|
| Publisher Address: | Amsterdam : |
| Publication Dates: | 2017. |
| Literature type: | eBook |
| Language: | English |
| Edition: | First edition. |
| Subjects: | |
| Online Access: |
https://www.sciencedirect.com/science/book/9780444640192 |
| Summary: |
Annotation |
| Item Description: | Includes index. |
| Carrier Form: | 1 online resource |
| ISBN: |
9780444640208 0444640207 |
| Index Number: | QB461 |
| CLC: | P14 |
| Contents: |
Front Cover; Nonlocal Astrophysics: Dark Matter, Dark Energy and Physical Vacuum; Copyright; Contents; Preface; Introduction: Review of the Main Principles of the Unified Nonlocal Theory of Transport Processes; References; Chapter 1: Nonlocal Kinetic Equations; 1.1. Hierarchy of Bogolubov Kinetic Equations; 1.2. Derivation of the Generalized Boltzmann Equation; 1.3. Generalized Boltzmann H-Theorem and the Problem of Irreversibility of Time; References; Chapter 2: The Theory of Generalized Hydrodynamic Equations; 2.1. Transport of Molecular Characteristics; 2.2. Hydrodynamic Enskog Equations 2.3. Transformations of the Generalized Boltzmann Equation2.4. Generalized Continuity Equation; 2.5. Generalized Momentum Equation for Component; 2.6. Generalized Energy Equation for Component; 2.7. Generalized Hydrodynamic Euler Equations; 2.8. Equations of the Generalized Hydrodynamic Theory in Curvilinear Coordinates; References; Chapter 3: Nonlocal Parameters in the Different Physical Systems; 3.1. Some General Remarks Concerning Nonlocal Parameters; 3.2. Nonlocal Parameter in Plasma Physics 3.3. The Nonlocal Parameters in Hydrodynamic Equations Written for Self-Consistent Electric Fields. Quantization in Gener ... 3.4. Nonlocal Parameters in the Investigations of the Plasmoid Structures; 3.5. Nonlocal Parameters in Plasma-Gravitational Analogy; 3.6. Nonlocal Parameters in the Theory of Liquids; References; Chapter 4: The Dark Matter Problem; 4.1. Some Preliminary Remarks; 4.1.1. Realizing This Objective, Let Us Remember Some Astrophysical Terminology; 4.1.1.1. Galaxies; 4.1.1.2. Black Holes; 4.1.1.3. Bulge; 4.1.1.4. Bar; 4.1.1.5. Stellar Halo 4.2. History of the Dark Matter Problem4.3. Evidences of the Dark Matter Existence From Position of Local Physics; 4.3.1. Galaxy Rotation Curves; 4.3.2. Gravitational Lensing Observations of Galaxy Clusters; 4.4. Nonlocal Mathematical Model in the Theory of the Disk Galaxy Rotation; 4.5. Mathematical Modeling of the Disk Galaxy Rotation and the Problem of the Dark Matter; References; Chapter 5: The Birth of the Universe and Dark Energy; 5.1. Evidences of the Dark Energy Existence From Position of Local Physics; 5.2. Transport Equations in the Nonlocal Theory of Physical Vacuum 5.3. Plasma-Gravitational Analogy in the Generalized Theory of Landau Damping5.4. Nonlinear Theory of Hubble Expansion. Hubble Boxes; 5.5. Big Bang as a Burst in the Primary Physical Vacuum, Traveling Waves in the Primary Physical Vacuum; 5.6. The Burst of PV Volume as an Analog of the Hubble Motion. Travelling Waves in PV and the Theory of the PV-Engine; References; Chapter 6: Quantization, Soliton and Traveling Waves Formation; 6.1. Application of the Nonlocal Hydrodynamic Equations in Acoustics. Infrasound as a Possible Cause Meteorological Depen ... ; 6.2. Quantum Solitons Modeling |