Engineering Fluid MechanicsCRC Press, 2001 M01 19 - 752 páginas Fluid mechanics is a core component of many undergraduate engineering courses. It is essential for both students and lecturers to have a comprehensive, highly illustrated textbook, full of exercises, problems and practical applications to guide them through their study and teaching. Engineering Fluid Mechanics By William P. Grabel is that book The ISE version of this comprehensive text is especially priced for the student market and is an essential textbook for undergraduates (particularly those on mechanical and civil engineering courses) designed to emphasis the physical aspects of fluid mechanics and to develop the analytical skills and attitudes of the engineering student. Example problems follow most of the theory to ensure that students easily grasp the calculations, step by step processes outline the procedure used, so as to improve the students' problem solving skills. An Appendix is included to present some of the more general considerations involved in the design process. The author also links fluid mechanics to other core engineering courses an undergraduate must take (heat transfer, thermodynamics, mechanics of materials, statistics and dynamics) wherever possible, to build on previously learned knowledge. |
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... number facilities . b . Mach number facilities . c . Cavitation number facilities Suggestions for Further Reading ... Reynolds Contents vii.
... number facilities . b . Mach number facilities . c . Cavitation number facilities Suggestions for Further Reading ... Reynolds Contents vii.
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Contenido
NonNewtonian Fluids | 28 |
Hydrostatics and RigidBody Motions | 41 |
Fluid Dynamics | 109 |
Conservation of MomentofMomentum and Rotating Control Volumes | 163 |
Differential Analysis | 193 |
Rates of Deformation | 240 |
Constitutive Relations | 246 |
Some Solutions to the NavierStokes Equations When Convective | 253 |
Flow in a Nozzle | 479 |
Adiabatic Pipe Flow with Friction | 487 |
Measurement of Flow and Fluid Properties | 501 |
Volume Ratemeasuring Devices | 507 |
Mass Ratemeasuring Devices | 518 |
SurfaceTensionmeasuring Device | 526 |
Calibration | 527 |
Hydraulic Machinery | 533 |
Dimensional Analysis | 265 |
Experimental Facilities | 284 |
Laminar Viscous Flow | 295 |
Stability of Tube Flow | 317 |
Flow Separation | 331 |
Turbulent Viscous Flow | 347 |
Drag and Lift Forces | 381 |
Open Channel Flows | 403 |
Channels with Gradual Slope | 428 |
Compressible Flows | 447 |
Ideal Gas Thermodynamics | 459 |
Normal Shock Waves | 471 |
Positive Displacement Pumps | 546 |
Other Pumps | 552 |
Conclusion | 567 |
Appendix A Conversion of Units and Useful Constants | 577 |
Abbreviations | 583 |
Kinematic viscosity vs temperature British units | 589 |
Approximate physical properties of some common liquids | 590 |
Compressible Flow Table for Air k 1 4 | 607 |
References on the History of Fluid Mechanics | 626 |
Glossary | 641 |
657 | |
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