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Fluid mechanics / John F. Douglas, Janusz M. Gasiorek, John A. Swaffield, Lynne B. Jack.

By: Contributor(s): Material type: TextTextAnalytics: Show analyticsPublisher: Harlow, England : Pearson, 2011Copyright date: ©2011Edition: Sixth editionDescription: xxxii, 1012 pages : illustrations (chiefly colour), maps (some colour) ; 25 cmContent type:
  • text
Media type:
  • unmediated
Carrier type:
  • volume
ISBN:
  • 9780273717720
  • 0273717723
Subject(s): DDC classification:
  • 620.106 23
LOC classification:
  • TA357 .D68 2011
Contents:
pt. I. Elements of fluid mechanics -- pt. II. Concepts of fluid flow -- pt III. Dimensional analysis and similarity -- pt IV. behavior of real fluids -- pt. V. Steady flow in pipes, ducts and open channels -- pt. VI. Fluid mechanics for environmental change -- pt. VII. Unsteady flow in bounded systems --pt. VIII. Fluid machinery, theory performance and application --
Part I. Elements of Fluid Mechanics-- 1. Fluids and their Properties-- 2. Pressure and Head-- 3. Static Forces on Surfaces. Buoyancy-- Part II. Concepts of Fluid Flow-- 4. Motion of Fluid Particles and Streams-- 5. The Momentum Equation and its Applications-- 6. The Energy Equation and its Applications-- 7. Two-dimensional Ideal Flow-- Part III. I Dimensional Analysis and Similarity-- 8. Dimensional Analysis-- 9. Similarity-- Part IV. Behaviour of Real Fluids-- 10. Laminar and Turbulent Flows in Bounded Systems-- 11. Boundary Layer-- 12. Incompressible Flow around a Body-- 13. Compressible flow around a Body-- Part V. Steady Flow in Pipes, Ducts and Open Channels-- 14. Steady Incompressible Flow in Pipe and Duct Systems-- 15. Uniform Flow in Open Channels-- 16. Non-uniform Flow in Open Channels-- 17. Compressible Flow in Pipes-- Part VI. Fluid Mechanics for Environmental Change-- 18. Environmental Change and Renewable Energy Technologies-- 19. Environmental Change and Rainfall Runoff Flow Modelling-- Part VII. Unsteady Flow in Bounded Systems-- 20. Pressure Transient Theory and Surge Control-- 21. Simulation of Unsteady Flow Phenomena in Pipe, Channel and Duct Systems.
Summary: This work comprehensively covers the statics and dynamics of liquids and gases. Broad-based, it takes an applications-led approach, treating fluid mechanics as a truly cross-disciplinary topic.
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Holdings
Item type Current library Call number Copy number Status Date due Barcode
Book City Campus City Campus Main Collection 620.106 DOU (Browse shelf(Opens below)) 1 Available A558195B

Includes bibliographical references and index.

pt. I. Elements of fluid mechanics -- pt. II. Concepts of fluid flow -- pt III. Dimensional analysis and similarity -- pt IV. behavior of real fluids -- pt. V. Steady flow in pipes, ducts and open channels -- pt. VI. Fluid mechanics for environmental change -- pt. VII. Unsteady flow in bounded systems --pt. VIII. Fluid machinery, theory performance and application --

Part I. Elements of Fluid Mechanics-- 1. Fluids and their Properties-- 2. Pressure and Head-- 3. Static Forces on Surfaces. Buoyancy-- Part II. Concepts of Fluid Flow-- 4. Motion of Fluid Particles and Streams-- 5. The Momentum Equation and its Applications-- 6. The Energy Equation and its Applications-- 7. Two-dimensional Ideal Flow-- Part III. I Dimensional Analysis and Similarity-- 8. Dimensional Analysis-- 9. Similarity-- Part IV. Behaviour of Real Fluids-- 10. Laminar and Turbulent Flows in Bounded Systems-- 11. Boundary Layer-- 12. Incompressible Flow around a Body-- 13. Compressible flow around a Body-- Part V. Steady Flow in Pipes, Ducts and Open Channels-- 14. Steady Incompressible Flow in Pipe and Duct Systems-- 15. Uniform Flow in Open Channels-- 16. Non-uniform Flow in Open Channels-- 17. Compressible Flow in Pipes-- Part VI. Fluid Mechanics for Environmental Change-- 18. Environmental Change and Renewable Energy Technologies-- 19. Environmental Change and Rainfall Runoff Flow Modelling-- Part VII. Unsteady Flow in Bounded Systems-- 20. Pressure Transient Theory and Surge Control-- 21. Simulation of Unsteady Flow Phenomena in Pipe, Channel and Duct Systems.

This work comprehensively covers the statics and dynamics of liquids and gases. Broad-based, it takes an applications-led approach, treating fluid mechanics as a truly cross-disciplinary topic.

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