Tata McGraw - Hill Education
|Number of Pages
e concepts in an organized manner. The book is broadly divided into four main parts - Fundamental Principles, Inviscid, Incompressible Flow, Inviscid, Compressible Flow, and Viscous Flow.
Aerodynamics is the study of airflow through and around an object. It is a branch of fluid dynamics that studies the forces that act on an object as it moves. Objects that fly through air are governed by the rule of aerodynamics, and it affects everything from kites and airplanes to rockets.
Fundamentals Of Aerodynamics (SI Units) starts with a little history, and talks about the evolution of aerodynamics. The author cites a few interesting examples, like the lighter and maneuverable design of British ships and how such design helped them win during their confrontation with the mighty Spanish Armada in the sixteenth century. He also explains how the Wright brothers experimented with various aerodynamic designs for their gliders before they could come up with one that succeeded in staying up in the air for a long time and flying efficiently.
Starting with these interesting historical anecdotes, the author proceeds to explore the subject of aerodynamics in detail. The first part has two chapters - Some Introductory Thoughts and Some Fundamental Principles and Equations.
Part Two covers Fundamentals of Inviscid, Incompressible Flow, Incompressible Flow Over AirFoils, Incompressible Flow Over Finite Wings, and Three-Dimensional Incompressible Flow.
Part Three takes the readers through chapters like Compressible Flow: Some Preliminary Aspects, Normal Shock Waves and Related Topics, Oblique Shock and Expansion Waves, and Compressible Flow Through Nozzles, Diffusers and Wind Tunnels.
This part also provides a detailed look into Subsonic Compressible Flow Over Airfoils: Linear Theory, Linearized Supersonic Flow, Introduction to Numerical Techniques for Nonlinear Supersonic Flow, and Elements of Hypersonic Flow.
Part Four covers chapters such as Introduction to the Fundamental Principles and Equations of Viscous Flow, Some Special Cases; Couette and Poiseuille Flows, Introduction to Boundary Layers, Laminar Boundary Layers, Turbulent Boundary Layers, and Navier-Stokes Solutions: Some Examples.
This book is a special Indian edition, and it is written using SI Units. It also includes information about Indian research activities. It includes teaching aids and road maps that guide the readers through the material.
The book also features Preview Boxes and Design Boxes. Preview Boxes, present at the beginning of each chapter, provide an overview of what is covered in that chapter and why it is important. Design Boxes highlight some interesting applications of the concepts explained.
About John D. Anderson, Jr.
John D. Anderson, Jr. is a retired Professor of Aerospace Engineering.
Other books by Anderson include Gas Dynamic Lasers: An Introduction, Introduction to Flight, Modern Compressible Flow, and Hypersonic and High Temperature Gas Dynamics.
His books revolve around aerodynamics and aircraft design.
John D. Anderson, Jr, was born in Pennsylvania in 1937. He obtained a degree in Aeronautical Engineering from the University of Florida. He has a doctorate from Ohio State University in Aeronautical and Astronautical Engineering. He is Professor Emeritus in the Department of Aerospace Engineering at the University of Maryland. He is also the Curator of Aerodynamics at the Smithsonian Institution's National Air and Space Museum. TABLE OF CONTENTS
1. Aerodynamics: Some Introductory Thoughts.
2. Aerodynamics: Some Fundamental Principles and Equations.
3. Fundamentals of Inviscid, Incompressible Flow.
4. Incompressible Flow over Airfoils.
5. Incompressible Flow over Finite Wings.
6. Three-Dimensional Incompressible Flow.
7. Compressible Flow: Some Preliminary Aspects.
8. Normal Shock Waves and Related Topics.
9. Oblique Shock and Expansion Waves.
10. Compressible Flow Through Nozzles, Diffusers and Wind Tunnels.
11. Subsonic Compressible Flow over Airfoils: Linear Theory.
12. Linearized Supersonic Flow.
13. Introduction to Numerical Techniques for Nonlinear Supersonic Flow.
14. Elements of Hypersonic Flow.
15. Introduction to the Fundamental Principles and Equations of Viscous Flow.
16. Some Special Cases; Couette and Poiseuille Flows.
17. Introduction to Boundary Layers.
18. Laminar Boundary Layers.
19. Turbulent Boundary Layers.
20. Navier-Stokes Solutions: Some Examples.