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Posts
- Category: BASIC AERODYNAMICS (continued)
- Properties of the Defining Equations
- Comments Regarding the Total Derivative
- Acceleration of a Fluid Particle: The Total Derivative
- Differential-Continuity Equation
- Physical Laws in Differential-Equation Form
- The Energy Equation in Control-Volume Form
- Problem Solving with the Momentum Equation in Control-Volume Form
- The Momentum Equation in Control-Volume Form
- Applications of the Continuity Equation in Control-Volume Form
- Mass Flow Rate and Volume Flow Rate
- The Reynolds’ Transport Theorem
- Physical Laws in Control-Volume Form
- The Second Law of Thermodynamics
- The First Law of Thermodynamics
- Newton’s Laws of Motion
- Mass Conservation
- Physical Laws for Motion of a System
- Approach
- Atmospheric Property Variations in Isothermal Layers
- Atmospheric Property Variations in Gradient Layers
- Standard-Atmosphere Models
- Modeling a Fluid at Rest
- Behavior of Gases at Rest: Fluid Statics
- Stream Tubes
- Streamlines
- Flow Lines
- System
- Mathematical Description of Fluid Flows
- Dynamic Similarity Principle
- Aerodynamic-Force Coefficients
- Similarity Parameters
- Dimensional Analysis
- Dependence of Forces on Flow Parameters and Geometry
- Aerodynamic Variables
- Effects of Compressibility
- Molecular Origin of Viscous Forces
- Molecular Origin of the Thermodynamic Pressure
- Continuum
- Physics of Fluids
- Plan for Study of Aerodynamics
- The Lift-to-Drag Ratio: Aerodynamic Efficiency
- Galilean Transformation
- Aerodynamic Force System
- The Fundamental Problem of Aerodynamics
- Basic Aerodynamics
- the fundamentals of aerodynamic analysis
- For Howard
- BASIC AERODYNAMICS
- Category: BASIC HELICOPTER AERODYNAMICS
- Calculation Method
- Mission Analysis
- Calculation of the Performance of a Helicopter
- Engine Limits
- Calculation of Engine Fuel Consumption
- Assemble Overall Aircraft Powers and Allow for Transmission Losses
- . Calculate Tail Rotor Thrust
- Calculate Main Rotor Downwash
- Main Rotor
- Glossary of Terms
- Performance and Mission Calculation
- A Personal Look at the Future
- Autostabilization
- Hingeless Rotor
- Special Case of Hover
- 8.4 Dynamic Stability
- Sideslip Disturbance
- Forward Speed Disturbance
- Static Stability
- Treatment of Stability and Control
- Trim, Stability and Control1
- Shipborne Operation
- An Exercise in High-Altitude Operation
- Speculation on the Really Low-Drag Helicopter
- A World Speed Record
- Accurate Performance Prediction
- Rotor Limits Envelope
- Maximum Level Speed
- Optimum Speeds
- Climb in Forward Flight
- Forward Level Flight
- Hover and Vertical Flight
- Performance
- Aerodynamic Design Process
- Higher Harmonic Control
- Rear Fuselage Upsweep
- Parasite Drag
- Example - Sea King
- Precession - Yaw Agility
- Propeller Moment
- 6.4 Tail Rotors[5]
- Advanced Planforms
- Blade Tip Shapes
- Blade Section Design
- Aerodynamic Design
- Typical Numerical Values
- Flapping Coefficients
- Torque and Power
- In-Plane H-force
- Thrust
- Blade Element Theory