Thermo and Fluid Dynamics : Recent Advances.

Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Hoxha, Dritan
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Ashland : Arcler Press, 2019.
Temas:
Fluid dynamics.
Thermodynamics.
Entropy.
Pressure.
Force and energy.
Hydrodynamics
Thermodynamics
Pressure
Dynamique des fluides.
Thermodynamique.
Entropie.
Pression.
Force et énergie.
thermodynamics.
entropy.
pressure.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Cover; Half Title Page; Title Page; Copyright Page; About the Author; Table of Contents; List of Figures; List of Tables; List of Abbreviations; Preface; Introduction; Chapter 1 A General View on Thermodynamics; 1.1. What Is Thermodynamics?; 1.2. Etymology of Thermodynamics; 1.3. Why is Thermodynamics Important?; 1.4. A Short View of The Quantities Involved in Thermodynamics; 1.5. A Short View of the Theories and Laws Contained in Thermodynamics; References; Chapter 2 Pioneers in Thermodynamics; 2.1. Famous Scientists Who Contributed in the Field of Thermodynamics
  • 2.2. Famous Quotes About ThermodynamicsReferences; Chapter 3 Theory of Thermodynamics; 3.1. The Goals of Thermodynamics; 3.2. The Universe and its Components; 3.3. Equilibrium; 3.4. Thermodynamic Variables; 3.5. Zeroth Law of Thermodynamics; 3.6. Temperature; 3.7. Scales of Temperature; 3.8. Thermal Expansion; 3.9. Molecular Interpretation of Temperature; 3.10. Ideal Gas; 3.11. Gas Laws; 3.12. Boyle-Mariotte Law; 3.13. Charles's Law; 3.14. Gay
  • Lussac Law; 3.15. Ideal Gas Law; 3.16. Expressing The Ideal Gas Law In Terms of Number of Molecules; 3.17. Molecular Concentration; 3.18. Heat
  • 3.19. Heat (Q) And Temperature (T)3.20. Internal Energy (U); 3.21. Internal Energy Of Gases; 3.22. Internal Energy Of Solids And Liquids; 3.23. Mechanical Equivalent of Heat; 3.24. Specific Heat (C) And Heat Capacity (C); 3.25. Heat
  • Mechanical Energy Conversion; 3.26. Calorimetry; 3.27. Phase Change; 3.28. Heat Of Combustion (Q); 3.29. Heat Transfer; References; Chapter 4 Laws of Thermodynamics; 4.1. Definitions; 4.2. Internal Energy of A Gas; 4.3. Giving Energy to A System; 4.4. First Law of Thermodynamics; 4.5. Work in Thermodynamic Process
  • 4.6. State Variables and Path Dependent Variables4.7. Thermal Processes; 4.8. Work in a Cyclic Process; 4.9. Heat Engines; 4.10. Need For A Second Law: Reversible And Irreversible Processes; 4.11. Second Law of Thermodynamics; 4.12. The Carnot Engine; 4.13. Entropy; References; Chapter 5 Kinetic Theory of Gases; 5.1. Root Mean Square Value; 5.2. Pressure of Ideal Gas; 5.3. Temperature
  • Molecular KE Relation; 5.4. Root
  • Mean
  • Square Velocity; 5.5. Internal Energy of Gases; 5.6. Internal Energy of Monatomic Gases; 5.7. Molar Specific Heat For Monatomic Gases; References
  • Chapter 6 Properties of Vapor, Liquid, and Solid Objects6.1. The Relationship Between Vapor, Liquid, and Solid Object; 6.2. Evaporation and Condensation, Saturated, and Unsaturated Vapor; 6.3. Saturated Vapor; 6.4. Unsaturated Vapor; 6.5. The Relationship Between Vapor Pressure and Density: Critical Temperature; 6.6. Boiling of Liquid: Dependence of Boiling Temperature on Pressure; References; Chapter 7 Humidity of Air; 7.1. Water and Life Around Us; 7.2. Humidity in Liquid and Solid Objects; 7.3. Surface Tension of Liquids; 7.4. Adhesive and Cohesive Forces; 7.5. Energy Considerations

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