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Posts
- Category: Aerodynamics of V/STOL Flight (continued)
- Aerodynamics of the wing
- Compressibility Effects
- Scale Effects
- Drag Estimation
- Vortex Filaments and the Biot-Savart Law
- Construction of Flow Fields by the Superposition of Elementary Flow Functions
- Energy Theorem
- Theoretical and applied aerodynamics
- Submerged Fans. Fan-in-Wing
- Deflected Jet
- Tilt-Wing
- Types of V/STOL Aircraft
- Introduction to V/STOL concepts
- Aerodynamics of V/STOL Flight
- Category: Aerodynamics of Wings and Bodies
- Aerodynamics of Wings and Bodies
- Fundamentals of Fluid Mechanics
- Conservation Laws for a Barotropic Fluid. in a Conservative Body Force Field
- Some Geometric or Kinematic Properties of the Velocity Field
- Vortex Theorems for the Ideal Fluid
- Integral Conservation Theorems for Inviscid Fluid
- Irrotational Flow
- Constant-Density Inviscid Flow
- The Representation of Ф in Terms of Boundary Values
- Further Examination of the Rigid, Impermeable Solid
- Examples of Two - and Three-Dimensional Flows Without Circulation
- Circulation and the Topology of Flow Regimes
- Examples of Constant-Density Flows Where Circulation May Be Generated
- The Kutta Condition and Lift
- Singular Perturbatio Problems
- Expansion in a Small Parameter; Singular Perturbation Problems
- Effects of Viscosity
- Qualitative Effects of Viscosity
- Boundary Layer on a Flat Plate
- Thin-wing Theory
- Thin Airfoils in Incompressible Flow
- Thin Airfoils in Supersonic Flow
- Slender-Body Theory
- Solutions for Subsonic and Supersonic Flows
- General Slender Body
- Examples of Lifting Slender-Body Flow
- The Pressure Drag of a Slender Body in Supersonic Flow
- Three-Dimensional Wings in Steady, Subsonic Flow
- Constant-Density Flow; the Thickness Problem
- Constant-Density Flow; the Lifting Problem
- Interference and Nonplanar Lifting-Surface Theories
- Interfering or Nonplanar Lifting Surfaces in Subsonic Flow
- Nonplanar Lifting Surfaces in Supersonic Flow
- Transonic Small-Disturbance Flow
- Methods of Solution
- Unsteady Flow
- Three-Dimensional Oscillating Wings
- Category: AERODYNAMICS, AERONAUTICS, AND FLIGHT MECHANICS
- NOMENCLATURE AND ABBREVIATIONS
- AIRPLANE DATA
- STANDARD ATMOSPHERE
- THE SI SYSTEM
- Spiral Stability
- Roll Mode
- LATERAL DIRECTIONAL FLYING QUALITIES
- Oscillatory or “Dutch Roll" Mode
- Mode Shapes
- LATERAL-DIRECTIONAL EQUATIONS FOR THE CHEROKEE 180
- I Derivatives
- A SUMMARY LOOK AT THE STABILITY DERIVATIVES AND OTHER PARAMETERS AFFECTING LATERAL-DIRECTIONAL DYNAMIC MOTION
- REDUCTION OF THE LATERAL-DIRECTIONAL EQUATIONS OF MOTION
- EULER ANGLES
- LA TERAL-DIRECTIONAL DYNAMIC STABILITY AND CONTROL
- Flight Path Stability
- LONGITUDINAL FLYING QUALITIES
- SOLUTION OF THE LONGITUDINAL EQUATIONS OF MOTION USING AN ANALOG COMPUTER
- Phugoid (Long-Period Mode)
- Mode Shapes
- EXAMINATION AND REDUCTION OF EQUATIONS OF LONGITUDINAL MOTION
- A SUMMARY LOOK AT THE STABILITY DERIVATIVES AND OTHER PARAMETERS AFFECTING LONGITUDINAL DYNAMIC MOTION
- Linearization of the Equations
- LONGITUDINAL DYNAMIC STABILITY AND CONTROL
- Yawing Moment with Boll Rate
- Rolling Moment with Rudder
- Coupling Effects
- Steady Rolling Motion
- Aileron Reversal
- Roll Control by the Use of Spoilers
- 534 STATIC STABILITY AND CONTROL Adverse Yaw
- Lateral Control
- Directional Control
- LATERAL AND DIRECTIONAL STATIC STABILITY AND CONTROL
- Ground Effect
- Effects of Propulsion System
- Effect of Fuselage and Nacelles
- Stabilator Angle per g
- Steady Maneuvering
- Stabilator Configuration
- Stick-Free Longitudinal Static Stability
- Example Calculation of Stick Force
- Estimation of Aerodynamic Hinge Moments
- Stick Force for a Horizontal Stabilizer-Elevator Combination
- Stick Force for a Stabilator
- Control Forces
- Stabilizer-Elevator