Fluid MechanicsAcademic Press, 2010 M01 20 - 904 páginas Fluid mechanics, the study of how fluids behave and interact under various forces and in various applied situations—whether in the liquid or gaseous state or both—is introduced and comprehensively covered in this widely adopted text. Fluid Mechanics, Fourth Edition is the leading advanced general text on fluid mechanics.
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... Body................................ 184 12. Source near a Wall: Method of Images ............................. 189 ... Body of Revolution ..................... 206 21. Flow around an Arbitrary Body of Revolution ...
... Body................................ 184 12. Source near a Wall: Method of Images ............................. 189 ... Body of Revolution ..................... 206 21. Flow around an Arbitrary Body of Revolution ...
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... body around which flow is taking place) must be much larger than the mean free path of the molecules. For ordinary cases, however, this is not a great restriction, since the mean free path is usually very small. For example, the mean ...
... body around which flow is taking place) must be much larger than the mean free path of the molecules. For ordinary cases, however, this is not a great restriction, since the mean free path is usually very small. For example, the mean ...
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... body moving from right to left in a fluid that is stationary at an infinite distance from the body (Figure 3.7). The flow pattern observed by a stationary observer (that is, an observer stationary with respect to the undisturbed fluid) ...
... body moving from right to left in a fluid that is stationary at an infinite distance from the body (Figure 3.7). The flow pattern observed by a stationary observer (that is, an observer stationary with respect to the undisturbed fluid) ...
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... body are essentially directed forward as the body pushes forward, and those on the two sides are directed laterally. The path line (shown dashed in Figure 3.7) of the particle that is now at point P therefore loops outward and forward ...
... body are essentially directed forward as the body pushes forward, and those on the two sides are directed laterally. The path line (shown dashed in Figure 3.7) of the particle that is now at point P therefore loops outward and forward ...
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... body rotating rigidly at angular velocity is ×x. The second term in equation (3.25) therefore represents the relative velocity at point P due to rotation of the element at angular velocity ω/2. (Recall that the angular velocity is half ...
... body rotating rigidly at angular velocity is ×x. The second term in equation (3.25) therefore represents the relative velocity at point P due to rotation of the element at angular velocity ω/2. (Recall that the angular velocity is half ...
Contenido
1 | |
25 | |
53 | |
81 | |
139 | |
Irrotational Flow | 165 |
Gravity Waves | 213 |
Dynamic Similarity | 279 |
Turbulence | 537 |
Geophysical Fluid Dynamics | 603 |
Aerodynamics | 679 |
Compressible Flow | 713 |
Introduction to Biofluid
Mechanics | 765 |
Some Properties of
Common Fluids | 841 |
Curvilinear Coordinates | 845 |
Founders of
Modern Fluid Dynamics | 851 |
Laminar Flow | 295 |
Boundary Layers and Related
Topics | 339 |
Computational Fluid
Dynamics | 411 |
Instability | 467 |
Visual Resources | 855 |
Index | 857 |
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Términos y frases comunes
approximation assumed atmosphere average becomes blood body boundary conditions boundary layer called Chapter circulation components Consider constant continuity coordinates cylinder decreases defined density depends derivative determined developed direction discussed distribution drag dynamics effects element energy equal equation example expressed field Figure finite flow fluid follows force function given gives gravity heat horizontal important increases initial instability integral irrotational length limit linear mass mean Mechanics method momentum motion moving normal Note obtain particle plane plate positive potential pressure problem propagation region relation represents requires result Reynolds number rotation scale shear shock shown shows side similarity solution speed steady streamlines stress surface surface tension temperature tensor theory tube turbulent unit variables vector velocity viscous volume vortex vorticity wall wave written zero