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Unified non-local relativistic theory of transport processes /
Unified Non-Local Relativistic Theory of Transport Processes highlights the most significant features of non-local relativistic theory, which is a highly effective tool for solving many physical problems in areas where the classical local theory runs into difficulties. The book provides the fundamen...
| Clasificación: | Libro Electrónico |
|---|---|
| Autor principal: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Amsterdam, Netherlands :
Elsevier,
�2016.
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Front Cover; Unified Non-Local Relativistic Theory of Transport Processes; Copyright; Contents; Preface; Introduction: Review of the Main Principles of the Unified Nonlocal Theory of Transport Processes; I.1. The Principles of Nonlocal Physics; I.2. On the Solution of Fundamental Problems of Nonlocal Statistical Theory of Dissipative Processes; I.3. Fundamental Postulates of the Special Theory of Relativity; References; Chapter 1: Hydrodynamic Form of the Dirac Quantum Relativistic Equation; 1.1. "Derivation" of the Dirac Equation.
- 1.2. Hydrodynamic Form of Dirac Equation in the Absence of an External Field1.3. Hydrodynamic Form of the Dirac Equation in an External Electromagnetic Field; References; Chapter 2: Generalized Relativistic Nonlocal Kinetic Equation Without Taking Into Account the External Forces; 2.1. The Collision Integral; 2.2. Nonlocal Relativistic Kinetic Equation; 2.3. Model Generalized Relativistic Kinetic Equation; References; Chapter 3: Classical Relativistic Equilibrium Distribution Function and Computation of Equilibrium Values of Some Macroscop ...
- 3.1. The Derivation of the Formula for the Classical Equilibrium Distribution Function3.2. The Calculation of the Number Density; 3.3. The Calculation of the Energy Density and Pressure; 3.4. The Calculation of the Density of Entropy; References; Chapter 4: Generalized Relativistic Hydrodynamic Enskog Equations Without Regard to External Forces; 4.1. Derivation of the Continuity Equation; 4.2. Derivation of the Motion Equation; 4.3. Derivation of the Energy Equation; 4.4. Generalized Enskog System of Relativistic Hydrodynamic Equations; References.
- Chapter 5: Generalized Relativistic Hydrodynamic Euler Equations Without Taking Into Account the External Forces5.1. Components of Tensor Physical Quantities in the Local Rest System; 5.2. The Lorentz Transformation Law for Tensor Physical Quantities in One-Dimensional Case; 5.3. Generalized Relativistic Euler Equations for One-Dimensional Motion; 5.4. Generalized One-Dimensional Nonrelativistic Euler Equations as the Asymptotic Behavior of the Relativistic Equations; 5.5. Generalized Relativistic Euler Equations for Arbitrary Motion.
- 5.6. Generalized Nonrelativistic Euler Equations for an Arbitrary Motion as an Asymptotic Form of the Relativistic EquationsReferences; Chapter 6: The Solution of Some Physical Problems on the Basis of the Nonlocal Relativistic Equations Without Taking Into ... ; 6.1. The Propagation of Plane Harmonic Waves of Small Amplitude in the Ultra-Relativistic Medium; 6.2. Shock Waves in Relativistic Gas; 6.3. The Collision of Nucleons; References; Chapter 7: Nonlocal Relativistic Kinetic Equation and Hydrodynamic Enskog Equations Taking Into Account the External Forces.