运输过程的统一非局部理论 广义波尔兹曼物理动力学pdf电子书版本下载

点此进入-本书在线PDF格式电子书下载【推荐-云解压-方便快捷】直接下载PDF格式图书。移动端-PC端通用
种子下载[BT下载速度快] 温馨提示：（请使用BT下载软件FDM进行下载）软件下载地址页 直链下载[便捷但速度慢]   [在线试读本书]   [在线获取解压码]

运输过程的统一非局部理论 广义波尔兹曼物理动力学PDF格式电子书版下载

下载的文件为RAR压缩包。需要使用解压软件进行解压得到PDF格式图书。

建议使用BT下载工具Free Download Manager进行下载,简称FDM(免费,没有广告,支持多平台）。本站资源全部打包为BT种子。所以需要使用专业的BT下载软件进行下载。如 BitComet qBittorrent uTorrent等BT下载工具。迅雷目前由于本站不是热门资源。不推荐使用！后期资源热门了。安装了迅雷也可以迅雷进行下载！

（文件页数 要大于 标注页数，上中下等多册电子书除外）

注意：本站所有压缩包均有解压码： 点击下载压缩包解压工具

1．Generalized Boltzmann Equation 1

1.1. Mathematical Introduction-Method of Many Scales 1

1.2. Hierarchy of Bogolubov Kinetic Equations 11

1.3. Derivation of the Generalized Boltzmann Equation 15

1.4. Generalized Boltzmann H-Theorem and the Problem of Irreversibility of Time 31

1.5. Generalized Boltzmann Equation and Iterative Construction of Higher-Order Equations in the Boltzmann Kinetic Theory 43

1.6. Generalized Boltzmann Equation and the Theory of Non-Local Kinetic Equations with Time Delay 46

2．Theory of Generalized Hydrodynamic Equations 53

2.1. Transport of Molecular Characteristics 53

2.2. Hydrodynamic Enskog Equations 55

2.3. Transformations of the Generalized Boltzmann Equation 56

2.4. Generalized Continuity Equation 58

2.5. Generalized Momentum Equation for Component 60

2.6. Generalized Energy Equation for Component 63

2.7. Summary of the Generalized Enskog Equations and Derivation of the 67

Generalized Hydrodynamic Euler Equations 67

3．Quantum Non-Local Hydrodynamics 77

3.1. Generalized Hydrodynamic Equations and Quantum Mechanics 77

3.2. GHEs，Quantum Hydrodynamics.SE as the Consequence of GHE 82

3.3. SE and its Derivation from Liouville Equation 88

3.4. Direct Experimental Confirmations of the Non-Local Effects 89

4．Application of Unified Non-Local Theory to the Calculation of the Electron and Proton lnner Structures 97

4.1. Generalized Quantum Hydrodynamic Equations 97

4.2. The Charge Internal Structure of Electron 100

4.3. The Derivation of the Angle Relaxation Equation 106

4.4. The Mathematical Modeling of the Charge Distribution in Electron and Proton 108

4.5. To the Theory of Proton and Electron as Ball-like Charged Objects 129

5．Non-Local Quantum Hydrodynamics in the Theory of Plasmoids and the Atom Structure 131

5.1. The Stationary Single Spherical Plasmoid 131

5.2. Results of the Mathematical Modeling of the Rest Solitons 133

5.3. Nonstationarv 1D Generalized Hydrodynamic Equations in the Self-Consistent Electrical Field.Quantization in the Generalized Quantum Hydrodynamics 141

5.4. Moving Quantum Solitons in Self-Consistent Electric Field 144

5.5. Mathematical Modeling of Moving Solitons 146

5.6. Some Remarks Concerning CPT(harge-Parity-Time)Principle 156

5.7. About Some Mysterious Events of the Last Hundred Years 162

5.7.1. Tunguska Event(TE) 162

5.7.2. Gagarin and Seryogin Air Crash 164

5.7.3. Accident with Malaysia Airlines Flight MH370 166

6．Quantum Solitons in Solid Matter 169

6.1. Quantum Oscillators in the Unified Non-Local Theory 169

6.2. Application of Non-Local Quantum Hydrodynamics to the Description of the Charged Density Waves in the Graphene Crystal Lattice 177

6.3. Generalized Quantum Hydrodynamic Equations Describing the Soliton Movement in the Crystal Lattice 179

6.4. Results of the Mathematical Modeling Without the External Electric Field 189

6.5. Results of the Mathematical Modeling With the External Electric Field 213

6.6. Spin Effects in the Generalized Quantum Hydrodynamic Equations 232

6.7. To the Theory of the SC 239

7．Generalized Boltzmann Physical Kinetics in Physics of Plasma 243

7.1. Extension of Generalized Boltzmann Physical Kinetics for the Transport Processes Description in Plasma 243

7.2. Dispersion Equations of Plasma in Generalized Boltzmann Theory 250

7.3. The Generalized Theory of Landau Damping 254

7.4. Evaluation of Landau Integral 256

7.5. Estimation of the Accuracy of Landau Approximation 264

7.6. Alternative Analytical Solutions of the Vlasov-Landau Dispersion Equation 268

7.7. The Generalized Theory of Landau Damping in Collisional Media 275

8．Physics of a Weakly Ionized Gas 285

8.1. Charged Particles Relaxation in"Maxwellian"Gas and the Hydrodynamic Aspects of the Theory 285

8.2. Distribution Function(DF)of the Charged Particles in the"Lorentz"Gas 288

8.3. Charged Particles in Alternating Electric Field 299

8.4. Conductivity of a Weakly Ionized Gas in the Ctossed Electric and Magnetic Fields 301

8.5. Investigation of the GBE for Electron Energy Distribution in a Constant Electric Field with due Regard for Inelastic Collisions 306

9．Generalized Boltzmann Equation in the Theory of the Rarefied Gases and Liquids 315

9.1. Kinetic Coefficients in the Theory of the Generalized Kinetic Equations.Linearization of the Generalized Boltzmann Equation 315

9.2. Approximate Modified Chapman-Enskog Method 321

9.3. Kinetic Coefficient Calculation with Taking into Account the Statistical Fluctuations 329

9.4. Sound Propagation Studied with the Generalized Equations of Fluid Dynamics 333

9.5. Shock Wave Structure Examined with the Generalized Equations of Fluid Dynamics 345

9.6. Boundary Conditions in the Theory of the Generalized Hydrodynamic Equations 347

9.7. To the Kinetic and Hydrodynamic Theory of Liquids 352

10．Strict Theory of Turbulence and Some Applications of the Generalized Hydrodynamic Theory 363

10.1. About Principles of Classical Theory of Turbulent Flows 363

10.2. Theory of Turbulence and Generalized Euler Equations 364

10.3. Theory of Turbulence and the Generalized Enskog Equations 373

10.4. Unsteady Flow of a Compressible Gas in a Cavity 377

10.5. Application of the GHE：To the Investigation of Gas Flows in Channels with a Step 387

10.6. Vortex and Turbulent Flow of Viscous Gas in Channel with Flat Plate 395

11．Astrophysical Applications 413

11.1. Solution of the Dark Matter Problem in the Frame of the Non-Local Physics 413

11.2. Plasma-Gravitational Analogy in the Generalized Theory of Landau Damping 414

11.3. Disk Galaxy Rotation and the Problem of Dark Matter 425

11.4. Hubble Expansion and the Problem of Dark Energy 438

11.5. Propagation of Plane Gravitational Waves in Vacuum with Cosmic Microwave Background 445

11.6. Application of the Non-Local Physics in the Theory of the Matter Movement in Black Hole 461

11.7. Self-similar Solutions of the Non-Local Equations 469

11.7.1. Preliminary Remarks 469

11.7.2. Self-similar Solutions of the Non-Local Equations in the Astrophysical Appl ications 472

12．The Generalized Relativistic Kinetic Hydrodynamic Theory 493

12.1. Hydrodynamic Form of the Dirac Quantum Relativistic Equation 493

12.2. Generalized Relativistic Kinetic Equation 497

12.3. Generalized Enskog Relativistic Hydrodynamic Equations 502

12.3.1. Derivation of the Continuity Equation 502

12.3.2. Derivation of the Motion Equation 504

12.3.3. Derivation of the Energy Equation 506

12.4. Generalized System of the Relativistic Hydrodynamics and Transfer to the Generalized Relativistic Non-Local Euler Hydrodynamic Equations 508

12.5. Generalized Non-Local Relativistic Euler Equations 513

12.6. The Limit Transfer to the Non-Relativistic Generalized Non-Local Euler Equations 516

12.6.1. Some Auxiliary Expressions 516

12.6.2. Non-Relativistic Generalized Eu ler Equations as Asymptotic of the Relativistic Equations 517

12.7. Expansion of the Flat Harmonic Waves of Small Amplitudes in Ultra-Relativistic Media 520

Some Remarks to the Conclusion of the Monograph 531

Appendix 1．Perturbation Method of the Equation Solution Related to T[f] 533

Appendix 2．Using of Curvilinear Coordinates in the Generalized Hydrodynamic Theory 537

Appendix 3．Characteristic Scales in Plasma Physics 557

Appendix 4．Dispersion Relations in the Generalized Boltzmann Kinetic Theory Neglecting the Integral Collision Term 559

Appendix 5．Three-Diagonal Method of Gauss Elimination Techniques for the Differential Third-and Second-Order Equations 561

Appendix 6．Some Integral Calculations in the Generalized Navier-Stokes Approximation 567

Appendix 7．Derivation of Energy Equation for Invariant Eα=mαV2α/2+εα 569

Appendix 8．To the Non-Local Theory of Cold Nuclear Fusion 575

Appendix 9．To the Non-Local Theory of Variable Stars 583

Appendix 10．To the Non-Local Theory of Levitation 593

References 601

Index 609