LEADER 05219nam 22006733u 450 001 9911006994403321 005 20230803040256.0 010 $a1-5231-0955-6 010 $a0-486-31753-6 035 $a(CKB)3710000000322155 035 $a(EBL)1897402 035 $a(SSID)ssj0001117647 035 $a(PQKBManifestationID)12490949 035 $a(PQKBTitleCode)TC0001117647 035 $a(PQKBWorkID)11099814 035 $a(PQKB)10796127 035 $a(MiAaPQ)EBC1897402 035 $a(Au-PeEL)EBL1897402 035 $a(CaONFJC)MIL563859 035 $a(OCoLC)868278886 035 $a(EXLCZ)993710000000322155 100 $a20141229d2013|||| u|| | 101 0 $aeng 135 $aur|n|---||||| 181 $ctxt 182 $cc 183 $acr 200 13$aAn Introduction to Theoretical and Computational Aerodynamics 205 $a1st ed. 210 $aNewburyport $cDover Publications$d2013 215 $a1 online resource (869 p.) 225 1 $aDover Books on Aeronautical Engineering 300 $aDescription based upon print version of record. 311 08$a0-486-42879-6 327 $aCover; Title Page; Copyright Page; Dedication; Preface; Contents; 1. Wings; 1.1. Function; 1.2. Geometry; 1.3. References; 1.4. Problems; 2. Review of Basic Fluid Dynamics; 2.1. Forces and Moments Due to Pressure; 2.2. The Basic Conservation Laws of Fluid Mechanics; 2.3. Vector Calculus; 2.4. Differential Forms of the Conservation Laws; 2.5. Rotational Velocity and Irrotational Flow; 2.6. Two-Dimensional Incompressible Flow; 2.6.1. Uniform Flow; 2.6.2. Source Flow; 2.6.3. Vortex Flow; 2.7. Bibliography; 2.8. Problems; 3. Incompressible Irrotational Flow About Symmetric Airfoils at Zero Lift 327 $a3.1. Uniform Two-Dimensional Irrotational Incompressible Flow About an Isolated Body3.2. Superposition of Fundamental Solutions; 3.3. Dimensionless Variables; 3.4. Rankine Ovals; 3.5. Line Source Distributions; 3.6. Flow Past Thin Symmetric Airfoils; 3.7. Errors Near The Stagnation Points; 3.8. Numerical Solution Based on Line Doublet Distributions; 3.9. Relation of Numerical to Analytical Solutions; 3.10. Complex-Variable Methods; 3.10.1. Flow Past an Ellipse; 3.10.2. Joukowsky Airfoils; 3.11. Problems; 3.12. Computer Programs; 4. Lifting Airfoils in Incompressible Irrotational Flow 327 $a4.1. The Thin Airfoil: Thickness and Camber Problems4.2. Forces and Moments on a Thin Airfoil; 4.3. The Kutta Condition; 4.4. Circulation Specification; 4.5. The Cambered Thin Airfoil; 4.6. Aerodynamics of The Thin Airfoil; 4.7. The Lumped-Vortex Method; 4.8. Panel Methods; 4.8.1. Program Panel; 4.9. Complex-Variables Methods; 4.10. References; 4.11. Problems; 4.12. Computer Program; 5. Wings of Finite Span; 5.1. The Vortex System for a Thin Planar Wing of Finite Span; 5.2. The Vortex-Lattice Method; 5.3. Induced Drag; 5.4. Lifting-Line Theory; 5.5. The Elliptic Lift Distribution 327 $a5.6. The Optimal Wing5.7. Nonelliptic Lift Distributions; 5.8. References; 5.9. Problems; 5.10. Computer Program; 6. The Navier-Stokes Equations; 6.1. The Stress at a Point; 6.2. Newton's Second Law For Fluids; 6.3. Symmetry of Stresses; 6.4. Molecular View of Stress in a Fluid; 6.5. The No-Slip Condition; 6.6. Unidirectional Flows; 6.7. The Viscosity Coefficient; 6.8. Pascal's Law; 6.9. Strain Versus Rotation; 6.10. Isotropy; 6.11. Vectors and Tensors; 6.12. The Stress Tensor; 6.13. The Rate-of-Strain Tensor; 6.14. The Two Coefficients of Viscosity; 6.15. The Navier-Stokes Equations 327 $a6.16. Problems7. The Boundary Layer; 7.1. The Laminar Boundary Layer; 7.2. Use of the Boundary-Layer Equations; 7.2.1. Skin Friction; 7.2.2. Displacement Thickness; 7.2.3. Momentum Thickness; 7.3. The Momentum Integral Equation; 7.4. Velocity Profile Fitting: Laminar Boundary Layers; 7.5. Thwaites's Method For Laminar Boundary Layers; 7.6. Form Drag; 7.7. Turbulent Flows; 7.8. Velocity Profile Fitting: Turbulent Boundary Layers; 7.9. Head's Method For Turbulent Boundary Layers; 7.10. Transition From Laminar to Turbulent Flow; 7.11. Boundary Layer Separation 327 $a7.12. Airfoil Performance Characteristics 330 $a
This concise and highly readable introduction to theoretical and computational aerodynamics integrates both classical and modern developments, focusing on applying methods to actual wing design. Designed for a junior- or senior-level course and as a resource for practicing engineers, it features 221 figures.
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