Summary and Info
Much-needed, fresh approach that brings a greater insight into the physical understanding of aerodynamics Based on the author’s decades of industrial experience with Boeing, this book helps students and practicing engineers to gain a greater physical understanding of aerodynamics. Relying on clear physical arguments and examples, Mcleanprovides a much-needed, fresh approach to this sometimes contentious subject without shying away from addressing "real" aerodynamic situations as opposed to the oversimplified ones frequently used for mathematical convenience. Motivated by the belief that engineering practice is enhanced in the long run by a robust understanding of the basics as well as real cause-and-effect relationships that lie behind the theory, he provides intuitive physical interpretations and explanations, debunking commonly-held misconceptions and misinterpretations, and building upon the contrasts provided by wrong explanations to strengthen understanding of the right ones. Provides a refreshing view of aerodynamics that is based on the author’s decades of industrial experience yet is always tied to basic fundamentals. Provides intuitive physical interpretations and explanations, debunking commonly-held misconceptions and misinterpretations Offers new insights to some familiar topics, for example, what the Biot-Savart law really means and why it causes so much confusion, what “Reynolds number” and “incompressible flow” really mean, and a real physical explanation for how an airfoil produces lift. Addresses "real" aerodynamic situations as opposed to the oversimplified ones frequently used for mathematical convenience, and omits mathematical details whenever the physical understanding can be conveyed without them. Content: Chapter 1 Introduction to the Conceptual Landscape (pages 1–4): Chapter 2 From Elementary Particles to Aerodynamic Flows (pages 5–11): Chapter 3 Continuum Fluid Mechanics and the Navier?Stokes Equations (pages 13–77): Chapter 4 Boundary Layers (pages 79–162): Chapter 5 General Features of Flows around Bodies (pages 163–190): Chapter 6 Drag and Propulsion (pages 191–258): Chapter 7 Lift and Airfoils in 2D at Subsonic Speeds (pages 259–357): Chapter 8 Lift and Wings in 3D at Subsonic Speeds (pages 359–469): Chapter 9 Theoretical Idealizations Revisited (pages 471–490): Chapter 10 Modeling Aerodynamic Flows in Computational Fluid Dynamics (pages 491–525):
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