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Posts
- Category: Principles of Helicopter Aerodynamics Second Edition (continued)
- Thrust Approximations
- Blade Element Analysis in Hover and Axial Flight
- Blade Element Analysis
- Chapter Review
- Tandem Rotor Systems
- Other Applications of the Momentum Theory
- Rotor Power Requirements in Forward Flight
- Validity of the Inflow Equation
- Numerical Solution to Inflow Equation
- Special Case, a = 0
- Momentum Analysis in Forward Flight
- Autorotation
- Vortex Ring State
- Four Working States of the Rotor in Axial Flight
- Power Required in Axial Climbing and Descending Flight
- Region between Hover and Windmill State
- Axial Descent
- Momentum Analysis in Axial Climb and Descent
- Power Loading
- Rotor Solidity and Blade Loading Coefficient
- Induced Tip Loss
- Estimating Nonideal Effects from Rotor Measurements
- Worked Example 2
- Worked Example 1
- Figure of Merit
- Comparison of Theory with Measured Rotor Performance
- Induced Inflow Ratio
- Disk Loading and Power Loading
- Pressure Variation
- Induced Velocity and Rotor Power
- Application to a Hovering Rotor
- Conservation Laws of Aerodynamics
- Flow Near a Hovering Rotor
- Momentum Theory Analysis in Hovering Flight
- Fundamentals of Rotor Aerodynamics
- Compounds, Tilt-Wings, and Tilt-Rotors
- Maturing Technology
- Toward Mass Production
- The First Successes
- On the Verge of Success
- Engines: A Key Enabling Technology
- Not Quite a Helicopter
- . The First Hoverers
- The Hoppers
- Early Thinking
- Key Technical Problems in Attaining Vertical Flight
- Producing Thrust
- Introduction: A History of Helicopter Flight
- Acknowledgments
- Principles of Helicopter Aerodynamics Second Edition
- Category: Production
- Category: Propellor Aerodynamics
- Safety Around the Prop
- Reverse Thrust
- Simulated Zero Thrust
- Negative Torque System
- Ground Feathering
- Windmilling
- Overspeed Condition
- Reducing power
- Governor Check
- Propeller Operation
- The Curtiss Electric Propeller
- The Hydromatic CSU
- The Beech & McCauley Types
- The Oil/Counterweight Type
- Constant-speed Units
- Propfans
- Propulsors
- Turboprops, Propulsors & Propfans
- The Balanced Prop
- Prop Stress
- Reverse Thrust Forces
- Windmilling Prop Forces
- Propeller Forces & Stress
- Synchronizing
- Tips, Blade Shape & Materials
- Tip Speed
- High-speed Aerodynamics
- - Prop Tip Speed & Noise
- Contra-rotating Propellers
- Counter-rotating Propellers
- Centreline Thrust
- Gyroscopic Effect
- ‘P' Factor
- Helical Propwash
- Prop Location
- - Effect on the Aircraft's Stability
- Propeller Icing
- Prop Blade Drag
- Propwash Thrust
- Prop Disc Loading
- Prop Blade Loading
- Aspect Ratio
- Number of Blades
- Prop Diameter