Mechanics of fluids / Merle C. Potter, David C. Wiggert, Bassem Ramadan ; with Tom I-P. Shih. 6

By: Potter, Merle C. 4 0 16, [, ] | [, ] |
Contributor(s): 5 6 [] |
Language: Unknown language code Summary language: Unknown language code Original language: Unknown language code Series: ; Australia : Cengage Learning, ©2012;copyright 201246Edition: Fourth editionDescription: + 1 DVD-ROM (4 3/4 inches) 25 cm. xvii, 794 pages : color illustrationsContent type: text Media type: unmediated Carrier type: volumeISBN: 9780495667735 (hardback);9780521721691 (DVD)ISSN: 2Other title: 6 []Uniform titles: | | Related works: 1 40 Wiggert, D.C.,;Ramadan, Bassem,;Shih, Tom I-P., 6 [co-author.;co-author.;co-author.]Subject(s): -- 2 -- 0 -- -- | -- 2 -- 0 -- 6 -- | 2 0 -- | -- -- 20 -- | | -- -- Fluid mechanics -- -- 20 -- Textbooks | -- -- -- 20 -- --Genre/Form: -- 2 -- Additional physical formats: DDC classification: | 620.106 P853m 2012 LOC classification: | TA357 | .P725 20122Other classification:
Contents:
Machine generated contents note ch. 1 Basic Considerations 1.1. Introduction 1.2. Dimensions, Units, and Physical Quantities 1.3. Continuum View of Gases and Liquids 1.4. Pressure and Temperature Scales 1.5. Fluid Properties 1.6. Conservation Laws 1.7. Thermodynamic Properties and Relationships 1.8. Summary Problems ch. 2 Fluid Statics 2.1. Introduction 2.2. Pressure at a Point 2.3. Pressure Variation 2.4. Fluids at Rest 2.5. Linearly Accelerating Containers 2.6. Rotating Containers 2.7. Summary ch. 3 Introduction to Fluids in Motion 3.1. Introduction 3.2. Description of Fluid Motion 3.3. Classification of Fluid Flows 3.4. The Bernoulli Equation 3.5. Summary ch. 4 The Integral Forms of the Fundamental Laws 4.1. Introduction 4.2. The Three Basic Laws 4.3. System-to-Control-Volume Transformation 4.4. Conservation of Mass. 4.5. Energy Equation 4.6. Momentum Equation 4.7. Moment-of-Momentum Equation 4.8. Summary ch. 5 The Differential Forms of the Fundamental Laws 5.1. Introduction 5.2. Differential Continuity Equation 5.3. Differential Momentum Equation 5.4. Differential Energy Equation 5.5. Summary ch. 6 Dimensional Analysis and Similitude 6.1. Introduction 6.2. Dimensional Analysis 6.3. Similitude 6.4. Normalized Differential Equations 6.5. Summary ch. 7 Internal Flows 7.1. Introduction 7.2. Entrance Flow and Developed Flow 7.3. Laminar Flow in a Pipe 7.4. Laminar Flow between Parallel Plates 7.5. Laminar Flow between Rotating Cylinders 7.6. Turbulent Flow in a Pipe 7.7. Uniform Turbulent Flow in Open Channels 7.8. Summary ch. 8 External Flows 8.1. Introduction 8.2. Separation 8.3. Flow Around Immersed Bodies 8.4. Lift and Drag on Airfoils 8.5. Potential-Flow Theory. 8.6. Boundary-Layer Theory 8.7. Summary ch. 9 Compressible Flow 9.1. Introduction 9.2. Speed of Sound and the Mach Number 9.3. Isentropic Nozzle Flow 9.4. Normal Shock Wave 9.5. Shock Waves in Converging-Diverging Nozzles 9.6. Vapor Flow through a Nozzle 9.7. Oblique Shock Wave 9.8. Isentropic Expansion Waves 9.9. Summary ch. 10 Flow in Open Channels 10.1. Introduction 10.2. Open-Channel Flows 10.3. Uniform Flow 10.4. Energy Concepts 10.5. Momentum Concepts 10.6. Nonuniform Gradually Varied Flow 10.7. Numerical Analysis of Water Surface Profiles 10.8. Summary ch. 11 Flows in Piping Systems 11.1. Introduction 11.2. Losses in Piping Systems 11.3. Simple Pipe Systems 11.4. Analysis of Pipe Networks 11.5. Unsteady Flow in Pipelines 11.6. Summary ch. 12 Turbomachinery 12.1. Introduction 12.2. Turbopumps 12.3. Dimensional Analysis and Similitude for Turbomachinery. 12.4. Use of Turbopumps in Piping Systems 12.5. Turbines 12.6. Summary ch. 13 Measurements in Fluid Mechanics 13.1. Introduction 13.2. Measurement of Local Flow Parameters 13.3. Flow Rate Measurement 13.4. Flow Visualization 13.5. Data Acquisition and Analysis 13.6. Summary ch. 14 Computational Fluid Dynamics 14.1. Introduction 14.2. Examples of Finite-Difference Methods 14.3. Stability, Convergence, and Error 14.4. Solution of Couette Flow 14.5. Solution of Two-Dimensional Steady-State Potential Flow 14.6. Summary References APPENDIX A. Units and Conversions and Vector Relationships B. Fluid Properties C. Properties of Areas and Volumes D. Compressible-Flow Tables for Air E. Numerical Solutions for Chapter 10 F. Numerical Solutions for Chapter 11 BIBLIOGRAPHY General Interest.
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DVD ROM inserted, entitled Multimedia fluid mechanics, second edition, by G.M. Homsy, et al., originally published by Cambridge University Press, ©2007.;Includes index. 56

Machine generated contents note ch. 1 Basic Considerations 1.1. Introduction 1.2. Dimensions, Units, and Physical Quantities 1.3. Continuum View of Gases and Liquids 1.4. Pressure and Temperature Scales 1.5. Fluid Properties 1.6. Conservation Laws 1.7. Thermodynamic Properties and Relationships 1.8. Summary Problems ch. 2 Fluid Statics 2.1. Introduction 2.2. Pressure at a Point 2.3. Pressure Variation 2.4. Fluids at Rest 2.5. Linearly Accelerating Containers 2.6. Rotating Containers 2.7. Summary ch. 3 Introduction to Fluids in Motion 3.1. Introduction 3.2. Description of Fluid Motion 3.3. Classification of Fluid Flows 3.4. The Bernoulli Equation 3.5. Summary ch. 4 The Integral Forms of the Fundamental Laws 4.1. Introduction 4.2. The Three Basic Laws 4.3. System-to-Control-Volume Transformation 4.4. Conservation of Mass. 4.5. Energy Equation 4.6. Momentum Equation 4.7. Moment-of-Momentum Equation 4.8. Summary ch. 5 The Differential Forms of the Fundamental Laws 5.1. Introduction 5.2. Differential Continuity Equation 5.3. Differential Momentum Equation 5.4. Differential Energy Equation 5.5. Summary ch. 6 Dimensional Analysis and Similitude 6.1. Introduction 6.2. Dimensional Analysis 6.3. Similitude 6.4. Normalized Differential Equations 6.5. Summary ch. 7 Internal Flows 7.1. Introduction 7.2. Entrance Flow and Developed Flow 7.3. Laminar Flow in a Pipe 7.4. Laminar Flow between Parallel Plates 7.5. Laminar Flow between Rotating Cylinders 7.6. Turbulent Flow in a Pipe 7.7. Uniform Turbulent Flow in Open Channels 7.8. Summary ch. 8 External Flows 8.1. Introduction 8.2. Separation 8.3. Flow Around Immersed Bodies 8.4. Lift and Drag on Airfoils 8.5. Potential-Flow Theory. 8.6. Boundary-Layer Theory 8.7. Summary ch. 9 Compressible Flow 9.1. Introduction 9.2. Speed of Sound and the Mach Number 9.3. Isentropic Nozzle Flow 9.4. Normal Shock Wave 9.5. Shock Waves in Converging-Diverging Nozzles 9.6. Vapor Flow through a Nozzle 9.7. Oblique Shock Wave 9.8. Isentropic Expansion Waves 9.9. Summary ch. 10 Flow in Open Channels 10.1. Introduction 10.2. Open-Channel Flows 10.3. Uniform Flow 10.4. Energy Concepts 10.5. Momentum Concepts 10.6. Nonuniform Gradually Varied Flow 10.7. Numerical Analysis of Water Surface Profiles 10.8. Summary ch. 11 Flows in Piping Systems 11.1. Introduction 11.2. Losses in Piping Systems 11.3. Simple Pipe Systems 11.4. Analysis of Pipe Networks 11.5. Unsteady Flow in Pipelines 11.6. Summary ch. 12 Turbomachinery 12.1. Introduction 12.2. Turbopumps 12.3. Dimensional Analysis and Similitude for Turbomachinery. 12.4. Use of Turbopumps in Piping Systems 12.5. Turbines 12.6. Summary ch. 13 Measurements in Fluid Mechanics 13.1. Introduction 13.2. Measurement of Local Flow Parameters 13.3. Flow Rate Measurement 13.4. Flow Visualization 13.5. Data Acquisition and Analysis 13.6. Summary ch. 14 Computational Fluid Dynamics 14.1. Introduction 14.2. Examples of Finite-Difference Methods 14.3. Stability, Convergence, and Error 14.4. Solution of Couette Flow 14.5. Solution of Two-Dimensional Steady-State Potential Flow 14.6. Summary References APPENDIX A. Units and Conversions and Vector Relationships B. Fluid Properties C. Properties of Areas and Volumes D. Compressible-Flow Tables for Air E. Numerical Solutions for Chapter 10 F. Numerical Solutions for Chapter 11 BIBLIOGRAPHY General Interest.

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