Elements of aerodynamics : a concise introduction to physical concepts

Bibliographic Information

Elements of aerodynamics : a concise introduction to physical concepts

Oscar Biblarz

Wiley, 2023

  • : Hardcover

Available at  / 2 libraries

Search this Book/Journal

Note

Includes bibliographical references (p. 181-182) and index

Summary: "Elements of Aerodynamics provides important and modern topics used in aerodynamic courses to date. Comprised of 11 chapters, the author ? a noted expert on the topic ? greets the reader with an introduction and approach chapter where factors affecting aerodynamic forces are expertly explained alongside the characteristic size and shape of airfoils. This book expertly provides information on topics such as viscous boundary layers, transonic and hypersonic aerodynamics and thin airfoils in supersonic flows. Packed with plenty of examples and problems, this book is supported by an online solutions manual designed for students and researchers alike. Elements of Aerodynamics will take the reader from a learner to a professional with the support of additional problems and equations"-- Provided by publisher

Description and Table of Contents

Description

ELEMENTS OF AERODYNAMICS An accessible and hands-on textbook filled with chapter objectives, examples, practice problems, sample tests, and an online aero-calculator In Elements of Aerodynamics, Professor Oscar Biblarz delivers a concise and fundamentals-oriented approach to aerodynamics suitable for both undergraduate and graduate-level students. The text offers numerous problems, examples, and check tests, allowing readers to gain and cement their knowledge through hands-on practice. Using a unique blend of fundamentals, the book provides students with a new approach to high lift airfoils including examples designed to complement the theory. It covers the most vital information on incompressible and compressible flow over two-dimensional and three-dimensional wings. A companion website that includes an interactive aero-calculator and additional student resources makes this a suitable text for online, hybrid, and distance learning. Readers will also find: A concise introduction to units and notation with discussion of the proper usage of dimensionless coefficients in aerodynamics, featuring descriptions of airflow as an incompressible and compressible low-viscosity medium past streamlined wings Comprehensive re-evaluation of the fundamentals of fluid dynamics, including the differential control volume approach and formulation of lift, drag, and pitching moments for thin, attached boundary layers over slender wings at high angles of attack Practical applications of mass, momentum, and energy relations, derived from Euler's equation, Bernoulli's equation, and the Kutta-Joukowski theorem Selected treatment of transonic and hypersonic aerodynamic aspects, including supercritical airfoils, the non-linear small perturbation potential equation, Newtonian theory, and hypersonic lift and drag Well-suited for students enrolled in an introductory aerodynamics course as part of an engineering program, Elements of Aerodynamics will also earn a place in the libraries of physics students and those interested in basic fluid mechanics.

Table of Contents

TO THE STUDENT 1 Introduction and Approach 1.1 Introduction 1.2 Necessary Assumptions 1.3 Units 1.4 Equation of State and Fluid Properties 1.5 Other Concepts Review Questions Problems Glossary of Terms and Symbols [Arranged Alphabetically] 2 Fluid Dynamic Fundamentals 2.1 Introduction 2.2 Objectives 2.3 Control Volume Approach 2.4 Lift, Drag and Pitching Moment 2.5 Dimensional Analysis 2.6 Small Perturbation Theory in Steady Compressible Flows 2.7 Summary Problems Check Test 3 Dynamics of Incompressible Flows 3.1 Introduction 3.2 Objectives 3.3 Elementary Flows 3.4 Circulation 3.5 Superposition of Elementary Flows 3.6 Theorems of Helmholtz and Kelvin 3.7 Real Flows 3.8 Summary Problems Check Test 4 Mass, Momentum and Energy Principles 4.1 Introduction 4.2 Objectives 4.3 Bernoulli's Equation 4.4 Airspeed Indicator 4.5 Kutta-Joukowski Theorem 4.6 Pressure-Energy Equation 4.7 Enrichment Topics 4.8 Summary Problems Check Test 5 Thin Airfoils in Two-Dimensional Incompressible Flow 5.1 Introduction 5.2 Objectives 5.3 The Vortex Filament 5.4 Thin Airfoil Theory in Incompressible Flow 5.5 Symmetric Contribution at Angle of Attack 5.6 Camber Contribution at Zero Angle of Attack 5.7 Flapped Symmetric Airfoil at Zero Angle of Attack 5.8 Enrichment Topics 5.9 Summary Problems Check Test 6 Thin Wings of Finite Span in Incompressible Flow 6.1 Introduction 6.2 Objectives 6.3 Lifting Line Theory 6.4 Downwash Velocity and Elliptic Spanwise Lift Distribution 6.5 Experimental Verification Using Drag Polars 6.6 Non-Elliptic Planforms and Twist 6.7 Effects of Lifting Line Theory on Airplane Performance 6.8 Enrichment Topics 6.9 Summary Problems Check Test 7 Viscous Boundary Layers 7.1 Introduction 7.2 Objectives 7.3 The Boundary Layer Concept 7.4 Contributions to Drag 7.5 Skin-Friction Drag on Airfoils 7.6 Approximate Viscous Boundary Layer Profiles 7.7 Enrichment Topics 7.8 Summary Problems Check Test 8 Fundamentals of Compressible Flow 8.1 Introduction 8.2 Objectives 8.3 Speed of Sound and Mach Waves 8.4 Steady-State Isentropic Flow 8.5 Supersonic Flows 8.6 Critical Mach Number 8.7 Supersonic Flat-Plate Airfoils 8.8 Enrichment Topic 8.9 Summary Problems Check Test 9 Thin Airfoils in Compressible Flow 9.1 Introduction 9.2 Objectives 9.3 Two-dimensional Compressible Flow Around Thin Airfoils 9.4 The Mach Number Dependance 9.5 Supersonic Airfoils 9.6 Aircraft Wings in Compressible Flow 9.7 Enrichment Topic 9.8 Summary Problems Check Test 10 Transonic and Hypersonic Aerodynamics 10.1 Introduction 10.2 Objectives 10.3 Transonic Flow 10.4 Thick Airfoils in High Subsonic and Transonic Flight 10.5 Hypersonic Flow 10.6 Enrichment Topics 10.7 Summary Problems Check Test 11 High-Lift Airfoils in Incompressible Flow 11.1 Introduction and Approach 11.2 Objectives 11.3 Non-linear Thin Airfoil Theory 11.4 Pitching Moment at c/4 and the Aerodynamic Center 11.5 High-lift Wing Mechanisms 11.6 Finite Wings 11.7 Enrichment Topics 11.8 Recapitulation Problems Check Test APPENDICES A Standard Atmosphere S-I Units B Software C Equations for Chapters 5 and 6 SELECTED REFERENCES ANSWERS TO SELECTED PROBLEMS INDEX

by "Nielsen BookData"

Details

  • NCID
    BC18652542
  • ISBN
    • 9781119779971
  • Country Code
    us
  • Title Language Code
    eng
  • Text Language Code
    eng
  • Place of Publication
    Hoboken, NJ
  • Pages/Volumes
    xiii, 190 p.
  • Size
    27 cm
  • Classification
Page Top