INTRODUCTION TO FLUID DYNAMICS
A concise resource that presents a physics-based introduction to fluid dynamics and helps students bridge the gap between mathematical theory and real-world physical properties
Introduction to Fluid Dynamics offers a unique physics-based approach to fluid dynamics. Instead of emphasizing specific problem-solving methodologies, this book explains and interprets the physics behind the theory, which helps mathematically-inclined students develop physical intuition while giving more physically-inclined students a better grasp of the underlying mathematics. Real-world examples and end-of-chapter practice problems are included to further enhance student understanding.
Written by a highly-qualified author and experienced educator, topics are covered in a progressive manner, enabling maximum reader comprehension from start to finish. Sample topics covered in the book include: - How forces originate in fluids - How to define pressure in a fluid in motion - How to apply conservation laws to deformable substances - How viscous stresses are related to strain rates - How centrifugal forces and viscosity play a role in curved motions and vortex dynamics - How vortices and centrifugal forces are related in external viscous flows - How energy is viscously dissipated in internal viscous flows - How compressibility is related to wave and wave speed
Students and instructors in advanced undergraduate or graduate fluid dynamics courses will find immense value in this concise yet comprehensive resource. It enables readers to easily understand complex fluid phenomena, regardless of the academic background they come from.
A concise resource that presents a physics-based introduction to fluid dynamics and helps students bridge the gap between mathematical theory and real-world physical properties
Introduction to Fluid Dynamics offers a unique physics-based approach to fluid dynamics. Instead of emphasizing specific problem-solving methodologies, this book explains and interprets the physics behind the theory, which helps mathematically-inclined students develop physical intuition while giving more physically-inclined students a better grasp of the underlying mathematics. Real-world examples and end-of-chapter practice problems are included to further enhance student understanding.
Written by a highly-qualified author and experienced educator, topics are covered in a progressive manner, enabling maximum reader comprehension from start to finish. Sample topics covered in the book include: - How forces originate in fluids - How to define pressure in a fluid in motion - How to apply conservation laws to deformable substances - How viscous stresses are related to strain rates - How centrifugal forces and viscosity play a role in curved motions and vortex dynamics - How vortices and centrifugal forces are related in external viscous flows - How energy is viscously dissipated in internal viscous flows - How compressibility is related to wave and wave speed
Students and instructors in advanced undergraduate or graduate fluid dynamics courses will find immense value in this concise yet comprehensive resource. It enables readers to easily understand complex fluid phenomena, regardless of the academic background they come from.
Table of Contents
Preface xv
Acknowledgments xvii
About the Companion Website xix
1 Pressure 1
2 Macroscopic Balance of Mass, Momentum, and Energy 29
3 Differential Equations of Motions 71
4 Curved Motions 105
5 Vortex Dynamics 137
6 External Viscous Flows 181
7 Internal Viscous Flows 231
8 Compressible Flows 267
Index 303