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Introduction to fluid mechanics / / Yasuki Nakayama
| Introduction to fluid mechanics / / Yasuki Nakayama |
| Autore | Nakayama Y (Yasuki), <1916-> |
| Edizione | [Second edition.] |
| Pubbl/distr/stampa | Oxford, England ; ; Cambridge, Massachusetts : , : Butterworth-Heinemann, , 2018 |
| Descrizione fisica | 1 online resource (385 pages, 16 pages of plates) : illustrations (some color) |
| Disciplina | 620.106 |
| Soggetto topico | Fluid mechanics |
| ISBN | 0-08-102438-X |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910583453703321 |
Nakayama Y (Yasuki), <1916->
|
||
| Oxford, England ; ; Cambridge, Massachusetts : , : Butterworth-Heinemann, , 2018 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Introduction to fluid mechanics [[electronic resource] /] / Y. Nakayama ; UK editor, R.F. Boucher
| Introduction to fluid mechanics [[electronic resource] /] / Y. Nakayama ; UK editor, R.F. Boucher |
| Autore | Nakayama Y (Yasuki), <1916-> |
| Pubbl/distr/stampa | London, : Arnold |
| Descrizione fisica | 1 online resource (321 p.) |
| Disciplina | 620.1/06 |
| Altri autori (Persone) | BoucherR. F (Robert F.) |
| Soggetto topico |
Fluid mechanics
Continuum mechanics |
| Soggetto genere / forma | Electronic books. |
| ISBN |
1-281-05961-7
9786611059613 0-08-052391-9 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Front Cover; Introduction to Fluid Mechanics; Copyright Page; Contents; ABOUT THE AUTHORS; PREFACE; LIST OF SYMBOLS; CHAPTER 1. HISTORY OF FLUID MECHANICS; 1.1 Fluid mechanics in everyday life; 1.2 The beginning of fluid mechanics; CHAPTER 2. CHARACTERISTICS OF A FLUID; 2.1 Fluid; 2.2 Units and dimensions; 2.3 Density, specific gravity and specific volume; 2.4 Viscosity; 2.5 Surface tension; 2.6 Compressibility; 2.7 Characteristics of a perfect gas; 2.8 Problems; CHAPTER 3. FLUID STATICS; 3.1 Pressure; 3.2 Forces acting on the vessel of liquid; 3.3 Why does a ship float?
3.4 Relatively stationary state3.5 Problems; CHAPTER 4. FUNDAMENTALS OF FLOW; 4.1 Streamline and stream tube; 4.2 Steady flow and unsteady flow; 4.3 Three-dimensional, two-dimensional and one-dimensional flow; 4.4 Laminar flow and turbulent flow; 4.5 Reynolds number; 4.6 Incompressible and compressible fluids; 4.7 Rotation and spinning of a liquid; 4.8 Circulation; 4.9 Problems; CHAPTER 5. ONE-DIMENSIONAL FLOW: mechanism for conservation of flow properties; 5.1 Continuity equation; 5.2 Conservation of energy; 5.3 Conservation of momentum; 5.4 Conservation of angular momentum; 5.5 Problems CHAPTER 6. FLOW OF VISCOUS FLUID6.1 Continuity equation; 6.2 Navier-Stokes equation; 6.3 Velocity distribution of laminar flow; 6.4 Velocity distribution of turbulent flow; 6.5 Boundary layer; 6.6 Theory of lubrication; 6.7 Problems; CHAPTER 7. FLOW IN PIPES; 7.1 Flow in the inlet region; 7.2 Loss by pipe friction; 7.3 Frictional loss on pipes other than circular pipes; 7.4 Various losses in pipe lines; 7.5 Pumping to higher levels; 7.6 Problems; CHAPTER 8. FLOW IN A WATER CHANNEL; 8.1 Flow in an open channel with constant section and flow velocity; 8.2 Best section shape of an open channel 8.3 Specific energy8.4 Constant discharge; 8.5 Constant specific energy; 8.6 Constant water depth; 8.7 Hydraulic jump; 8.8 Problems; CHAPTER 9. DRAG AND LIFT; 9.1 Flows around a body; 9.2 Forces acting on a body; 9.3 The drag of a body; 9.4 The lift of a body; 9.5 Cavitation; 9.6 Problems; CHAPTER 10. DIMENSIONAL ANALYSIS AND LAW OF SIMILARITY; 10.1 Dimensional analysis; 10.2 Buckingham's p theorem; 10.3 Application examples of dimensional analysis; 10.4 Law of similarity; 10.5 Problems; CHAPTER 11. MEASUREMENT OF FLOW VELOCITY AND FLOW RATE; 11.1 Measurement of flow velocity 11.2 Measurement of flow discharge11.3 Problems; CHAPTER 12. FLOW OF AN IDEAL FLUID; 12.1 Euler's equation of motion; 12.2 Velocity potential; 12.3 Stream function; 12.4 Complex potential; 12.5 Example of potential flow; 12.6 Conformal mapping; 12.7 Problems; CHAPTER 13. FLOW OF A COMPRESSIBLE FLUID; 13.1 Thermodynamical characteristics; 13.2 Sonic velocity; 13.3 Mach number; 13.4 Basic equations for one-dimensional compressible flow; 13.5 Isentropic flow; 13.6 Shock waves; 13.7 Fanno flow and Rayleigh flow; 13.8 Problems; CHAPTER 14. UNSTEADY FLOW; 14.1 Vibration of liquid column in U-tube 14.2 Propagation of pressure in pipe line |
| Record Nr. | UNINA-9910455948903321 |
|
Nakayama Y (Yasuki), <1916->
|
||
| London, : Arnold | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Introduction to fluid mechanics [[electronic resource] /] / Y. Nakayama ; UK editor, R.F. Boucher
| Introduction to fluid mechanics [[electronic resource] /] / Y. Nakayama ; UK editor, R.F. Boucher |
| Autore | Nakayama Y (Yasuki), <1916-> |
| Pubbl/distr/stampa | London, : Arnold |
| Descrizione fisica | 1 online resource (321 p.) |
| Disciplina | 620.1/06 |
| Altri autori (Persone) | BoucherR. F (Robert F.) |
| Soggetto topico |
Fluid mechanics
Continuum mechanics |
| ISBN |
1-281-05961-7
9786611059613 0-08-052391-9 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Front Cover; Introduction to Fluid Mechanics; Copyright Page; Contents; ABOUT THE AUTHORS; PREFACE; LIST OF SYMBOLS; CHAPTER 1. HISTORY OF FLUID MECHANICS; 1.1 Fluid mechanics in everyday life; 1.2 The beginning of fluid mechanics; CHAPTER 2. CHARACTERISTICS OF A FLUID; 2.1 Fluid; 2.2 Units and dimensions; 2.3 Density, specific gravity and specific volume; 2.4 Viscosity; 2.5 Surface tension; 2.6 Compressibility; 2.7 Characteristics of a perfect gas; 2.8 Problems; CHAPTER 3. FLUID STATICS; 3.1 Pressure; 3.2 Forces acting on the vessel of liquid; 3.3 Why does a ship float?
3.4 Relatively stationary state3.5 Problems; CHAPTER 4. FUNDAMENTALS OF FLOW; 4.1 Streamline and stream tube; 4.2 Steady flow and unsteady flow; 4.3 Three-dimensional, two-dimensional and one-dimensional flow; 4.4 Laminar flow and turbulent flow; 4.5 Reynolds number; 4.6 Incompressible and compressible fluids; 4.7 Rotation and spinning of a liquid; 4.8 Circulation; 4.9 Problems; CHAPTER 5. ONE-DIMENSIONAL FLOW: mechanism for conservation of flow properties; 5.1 Continuity equation; 5.2 Conservation of energy; 5.3 Conservation of momentum; 5.4 Conservation of angular momentum; 5.5 Problems CHAPTER 6. FLOW OF VISCOUS FLUID6.1 Continuity equation; 6.2 Navier-Stokes equation; 6.3 Velocity distribution of laminar flow; 6.4 Velocity distribution of turbulent flow; 6.5 Boundary layer; 6.6 Theory of lubrication; 6.7 Problems; CHAPTER 7. FLOW IN PIPES; 7.1 Flow in the inlet region; 7.2 Loss by pipe friction; 7.3 Frictional loss on pipes other than circular pipes; 7.4 Various losses in pipe lines; 7.5 Pumping to higher levels; 7.6 Problems; CHAPTER 8. FLOW IN A WATER CHANNEL; 8.1 Flow in an open channel with constant section and flow velocity; 8.2 Best section shape of an open channel 8.3 Specific energy8.4 Constant discharge; 8.5 Constant specific energy; 8.6 Constant water depth; 8.7 Hydraulic jump; 8.8 Problems; CHAPTER 9. DRAG AND LIFT; 9.1 Flows around a body; 9.2 Forces acting on a body; 9.3 The drag of a body; 9.4 The lift of a body; 9.5 Cavitation; 9.6 Problems; CHAPTER 10. DIMENSIONAL ANALYSIS AND LAW OF SIMILARITY; 10.1 Dimensional analysis; 10.2 Buckingham's p theorem; 10.3 Application examples of dimensional analysis; 10.4 Law of similarity; 10.5 Problems; CHAPTER 11. MEASUREMENT OF FLOW VELOCITY AND FLOW RATE; 11.1 Measurement of flow velocity 11.2 Measurement of flow discharge11.3 Problems; CHAPTER 12. FLOW OF AN IDEAL FLUID; 12.1 Euler's equation of motion; 12.2 Velocity potential; 12.3 Stream function; 12.4 Complex potential; 12.5 Example of potential flow; 12.6 Conformal mapping; 12.7 Problems; CHAPTER 13. FLOW OF A COMPRESSIBLE FLUID; 13.1 Thermodynamical characteristics; 13.2 Sonic velocity; 13.3 Mach number; 13.4 Basic equations for one-dimensional compressible flow; 13.5 Isentropic flow; 13.6 Shock waves; 13.7 Fanno flow and Rayleigh flow; 13.8 Problems; CHAPTER 14. UNSTEADY FLOW; 14.1 Vibration of liquid column in U-tube 14.2 Propagation of pressure in pipe line |
| Record Nr. | UNINA-9910780017903321 |
|
Nakayama Y (Yasuki), <1916->
|
||
| London, : Arnold | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||
Introduction to fluid mechanics / / Y. Nakayama ; UK editor, R.F. Boucher
| Introduction to fluid mechanics / / Y. Nakayama ; UK editor, R.F. Boucher |
| Autore | Nakayama Y (Yasuki), <1916-> |
| Edizione | [1st ed.] |
| Pubbl/distr/stampa | London, : Arnold |
| Descrizione fisica | 1 online resource (321 p.) |
| Disciplina | 620.1/06 |
| Altri autori (Persone) | BoucherR. F (Robert F.) |
| Soggetto topico |
Fluid mechanics
Continuum mechanics |
| ISBN |
9786611059613
9781281059611 1281059617 9780080523910 0080523919 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Nota di contenuto |
Front Cover; Introduction to Fluid Mechanics; Copyright Page; Contents; ABOUT THE AUTHORS; PREFACE; LIST OF SYMBOLS; CHAPTER 1. HISTORY OF FLUID MECHANICS; 1.1 Fluid mechanics in everyday life; 1.2 The beginning of fluid mechanics; CHAPTER 2. CHARACTERISTICS OF A FLUID; 2.1 Fluid; 2.2 Units and dimensions; 2.3 Density, specific gravity and specific volume; 2.4 Viscosity; 2.5 Surface tension; 2.6 Compressibility; 2.7 Characteristics of a perfect gas; 2.8 Problems; CHAPTER 3. FLUID STATICS; 3.1 Pressure; 3.2 Forces acting on the vessel of liquid; 3.3 Why does a ship float?
3.4 Relatively stationary state3.5 Problems; CHAPTER 4. FUNDAMENTALS OF FLOW; 4.1 Streamline and stream tube; 4.2 Steady flow and unsteady flow; 4.3 Three-dimensional, two-dimensional and one-dimensional flow; 4.4 Laminar flow and turbulent flow; 4.5 Reynolds number; 4.6 Incompressible and compressible fluids; 4.7 Rotation and spinning of a liquid; 4.8 Circulation; 4.9 Problems; CHAPTER 5. ONE-DIMENSIONAL FLOW: mechanism for conservation of flow properties; 5.1 Continuity equation; 5.2 Conservation of energy; 5.3 Conservation of momentum; 5.4 Conservation of angular momentum; 5.5 Problems CHAPTER 6. FLOW OF VISCOUS FLUID6.1 Continuity equation; 6.2 Navier-Stokes equation; 6.3 Velocity distribution of laminar flow; 6.4 Velocity distribution of turbulent flow; 6.5 Boundary layer; 6.6 Theory of lubrication; 6.7 Problems; CHAPTER 7. FLOW IN PIPES; 7.1 Flow in the inlet region; 7.2 Loss by pipe friction; 7.3 Frictional loss on pipes other than circular pipes; 7.4 Various losses in pipe lines; 7.5 Pumping to higher levels; 7.6 Problems; CHAPTER 8. FLOW IN A WATER CHANNEL; 8.1 Flow in an open channel with constant section and flow velocity; 8.2 Best section shape of an open channel 8.3 Specific energy8.4 Constant discharge; 8.5 Constant specific energy; 8.6 Constant water depth; 8.7 Hydraulic jump; 8.8 Problems; CHAPTER 9. DRAG AND LIFT; 9.1 Flows around a body; 9.2 Forces acting on a body; 9.3 The drag of a body; 9.4 The lift of a body; 9.5 Cavitation; 9.6 Problems; CHAPTER 10. DIMENSIONAL ANALYSIS AND LAW OF SIMILARITY; 10.1 Dimensional analysis; 10.2 Buckingham's p theorem; 10.3 Application examples of dimensional analysis; 10.4 Law of similarity; 10.5 Problems; CHAPTER 11. MEASUREMENT OF FLOW VELOCITY AND FLOW RATE; 11.1 Measurement of flow velocity 11.2 Measurement of flow discharge11.3 Problems; CHAPTER 12. FLOW OF AN IDEAL FLUID; 12.1 Euler's equation of motion; 12.2 Velocity potential; 12.3 Stream function; 12.4 Complex potential; 12.5 Example of potential flow; 12.6 Conformal mapping; 12.7 Problems; CHAPTER 13. FLOW OF A COMPRESSIBLE FLUID; 13.1 Thermodynamical characteristics; 13.2 Sonic velocity; 13.3 Mach number; 13.4 Basic equations for one-dimensional compressible flow; 13.5 Isentropic flow; 13.6 Shock waves; 13.7 Fanno flow and Rayleigh flow; 13.8 Problems; CHAPTER 14. UNSTEADY FLOW; 14.1 Vibration of liquid column in U-tube 14.2 Propagation of pressure in pipe line |
| Record Nr. | UNINA-9910964850903321 |
|
Nakayama Y (Yasuki), <1916->
|
||
| London, : Arnold | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
| ||