Fluid Mechanics, SI Edition
Námskeið
- T-536-RENN Straumfræði
Lýsing:
For Fluid Mechanics courses found in Civil and Environmental, General Engineering, and Engineering Technology and Industrial Management departments. Fluid Mechanics is intended to provide a comprehensive guide to a full understanding of the theory and many applications of fluid mechanics. The text features many of the hallmark pedagogical aids unique to Hibbeler texts, including its student-friendly, clear organisation.
The text supports the development of student problem-solving skills through a large variety of problems, representing a broad range of engineering disciplines that stress practical, realistic situations encountered in professional practice, and provide varying levels of difficulty. The text offers flexibility in that basic principles are covered in chapters 1-6, and the remaining chapters can be covered in any sequence without the loss of continuity.
Updates to the 2nd Edition result from comments and suggestions from colleagues, reviewers in the teaching profession, and many of the author’s students, and include expanded topic coverage and new Example and Fundamental Problems intended to further students’ understanding of the theory and its applications. The full text downloaded to your computer With eBooks you can: search for key concepts, words and phrases make highlights and notes as you study share your notes with friends eBooks are downloaded to your computer and accessible either offline through the Bookshelf (available as a free download), available online and also via the iPad and Android apps.
Annað
- Höfundur: Russell C. Hibbeler
- Útgáfa:2
- Útgáfudagur: 2019-12-02
- Hægt að prenta út 2 bls.
- Hægt að afrita 2 bls.
- Format:Page Fidelity
- ISBN 13: 9781292247397
- Print ISBN: 9781292247304
- ISBN 10: 1292247398
Efnisyfirlit
- Title Page
- Copyright Page
- Preface
- Contents
- 1 Fundamental Concepts
- Chapter Objectives
- 1.1 Introduction
- 1.2 Characteristics of Matter
- 1.3 The International System of Units
- 1.4 Calculations
- 1.5 Problem Solving
- 1.6 Some Basic Fluid Properties
- 1.7 Viscosity
- 1.8 Viscosity Measurement
- 1.9 Vapor Pressure
- 1.10 Surface Tension and Capillarity
- 2 Fluid Statics
- Chapter Objectives
- 2.1 Pressure
- 2.2 Absolute and Gage Pressure
- 2.3 Static Pressure Variation
- 2.4 Pressure Variation for Incompressible Fluids
- 2.5 Pressure Variation for Compressible Fluids
- 2.6 Measurement of Static Pressure
- 2.7 Hydrostatic Force on a Plane Surface—Formula Method
- 2.8 Hydrostatic Force on a Plane Surface—Geometrical Method
- 2.9 Hydrostatic Force on a Plane Surface—Integration Method
- 2.10 Hydrostatic Force on an Inclined Plane or Curved Surface Determined by Projection
- 2.11 Buoyancy
- 2.12 Stability
- 2.13 Constant Translational Acceleration of a Liquid
- 2.14 Steady Rotation of a Liquid
- 3 Kinematics of Fluid Motion
- Chapter Objectives
- 3.1 Types of Fluid Flow
- 3.2 Graphical Descriptions of Fluid Flow
- 3.3 Fluid Flow Descriptions
- 3.4 Fluid Acceleration
- 3.5 Streamline Coordinates
- 4 Conservation of Mass
- Chapter Objectives
- 4.1 Volumetric Flow, Mass Flow, and Average Velocity
- 4.2 Finite Control Volumes
- 4.3 The Reynolds Transport Theorem
- 4.4 Conservation of Mass
- 5 Work and Energy of Moving Fluids
- Chapter Objectives
- 5.1 Euler’s Equations of Motion
- 5.2 The Bernoulli Equation
- 5.3 Applications of the Bernoulli Equation
- 5.4 Energy and Hydraulic Grade Lines
- 5.5 The Energy Equation
- 6 Fluid Momentum
- Chapter Objectives
- 6.1 The Linear Momentum Equation
- 6.2 Applications to Bodies at Rest
- 6.3 Applications to Bodies Having Constant Velocity
- 6.4 The Angular Momentum Equation
- 6.5 Propellers and Wind Turbines
- 6.6 Applications for Control Volumes Having Accelerated Motion
- 6.7 Turbojets and Turbofans
- 6.8 Rockets
- 7 Differential Fluid Flow
- Chapter Objectives
- 7.1 Differential Analysis
- 7.2 Kinematics of Differential Fluid Elements
- 7.3 Circulation and Vorticity
- 7.4 Conservation of Mass
- 7.5 Equations of Motion for a Fluid Particle
- 7.6 The Euler and Bernoulli Equations
- 7.7 Potential Flow Hydrodynamics
- 7.8 The Stream Function
- 7.9 The Potential Function
- 7.10 Basic Two-Dimensional Flows
- 7.11 Superposition of Flows
- 7.12 The Navier–Stokes Equations
- 7.13 Computational Fluid Dynamics
- 8 Dimensional Analysis and Similitude
- Chapter Objectives
- 8.1 Dimensional Analysis
- 8.2 Important Dimensionless Numbers
- 8.3 The Buckingham Pi Theorem
- 8.4 Some General Considerations Related to Dimensional Analysis
- 8.5 Similitude
- 9 Viscous Flow Within Enclosed Conduits
- Chapter Objectives
- 9.1 Steady Laminar Flow Between Parallel Plates
- 9.2 Navier–Stokes Solution for Steady Laminar Flow Between Parallel Plates
- 9.3 Steady Laminar Flow Within a Smooth Pipe
- 9.4 Navier–Stokes Solution for Steady Laminar Flow Within a Smooth Pipe
- 9.5 The Reynolds Number
- 9.6 Fully Developed Flow from an Entrance
- 9.7 Laminar and Turbulent Shear Stress Within a Smooth Pipe
- 9.8 Steady Turbulent Flow Within a Smooth Pipe
- 10 Analysis and Design for Pipe Flow
- Chapter Objectives
- 10.1 Resistance to Flow in Rough Pipes
- 10.2 Losses Occurring from Pipe Fittings and Transitions
- 10.3 Single-Pipeline Flow
- 10.4 Pipe Systems
- 10.5 Flow Measurement
- 11 Viscous Flow over External Surfaces
- Chapter Objectives
- 11.1 The Concept of the Boundary Layer
- 11.2 Laminar Boundary Layers
- 11.3 The Momentum Integral Equation
- 11.4 Turbulent Boundary Layers
- 11.5 Laminar and Turbulent Boundary Layers
- 11.6 Drag and Lift
- 11.7 Pressure Gradient Effects
- 11.8 The Drag Coefficient
- 11.9 Drag Coefficients for Bodies Having Various Shapes
- 11.10 Methods for Reducing Drag
- 11.11 Lift and Drag on an Airfoil
- 12 Open-Channel Flow
- Chapter Objectives
- 12.1 Types of Flow in Open Channels
- 12.2 Open-Channel Flow Classifications
- 12.3 Specific Energy
- 12.4 Open-Channel Flow over a Rise or Bump
- 12.5 Open-Channel Flow Under a Sluice Gate
- 12.6 Steady Uniform Channel Flow
- 12.7 Gradually Varied Flow
- 12.8 The Hydraulic Jump
- 12.9 Weirs
- 13 Compressible Flow
- Chapter Objectives
- 13.1 Thermodynamic Concepts
- 13.2 Wave Propagation Through a Compressible Fluid
- 13.3 Types of Compressible Flow
- 13.4 Stagnation Properties
- 13.5 Isentropic Flow Through a Variable Area
- 13.6 Isentropic Flow Through Converging and Diverging Nozzles
- 13.7 The Effect of Friction on Compressible Flow
- 13.8 The Effect of Heat Transfer on Compressible Flow
- 13.9 Normal Shock Waves
- 13.10 Shock Waves in Nozzles
- 13.11 Oblique Shock Waves
- 13.12 Compression and Expansion Waves
- 13.13 Compressible Flow Measurement
- 14 Turbomachines
- Chapter Objectives
- 14.1 Types of Turbomachines
- 14.2 Axial-Flow Pumps
- 14.3 Radial-Flow Pumps
- 14.4 Ideal Performance for Pumps
- 14.5 Turbines
- 14.6 Pump Performance
- 14.7 Cavitation and the Net Positive Suction Head
- 14.8 Pump Selection Related to the Flow System
- 14.9 Turbomachine Similitude
- Appendix
- A Physical Properties of Fluids
- B Compressible Properties of a Gas (k = 1.4)
- Fundamental Solutions
- Answers to Selected Problems
- Index
- Back Cover
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- Gerð : 208
- Höfundur : 10291
- Útgáfuár : 2019
- Leyfi : 380