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- Category: Aerodynamic measurements (continued)
- Laser anemometry
- Intensity of turbulence in the direction of the average speed
- Turbulence in the direction of the average speed
- Measurements in turbulent flows
- Triaxial probe
- Directional sensitivity in 3D fields
- The X probe
- Directional sensitivity in the plane wire/supports
- Measurements of absolute value and direction of average velocity
- The linearizer
- Compensation of the stream temperature
- Operating temperature of the wire
- Comparison of CCA and CTA
- Dynamic balancing
- Time constant
- Constant temperature anemometer (CTA)
- Dynamic balancing
- Time constant
- Constant current anemometer (CCA)
- King’s law
- Forced convection
- Free convection
- Radiation
- Operating principle
- Probes
- Materials for probes
- Hot wire anemometer
- Variable area orifices
- Sonic nozzle
- Mouthpiece orifice
- Plate orifice
- Mass flow measurement by throttling devices
- Mass flow measurement by the velocity profile
- Mass flow measurements
- Fast-response multi-hole probes
- Omniprobe
- Seven-holes probe
- Cylindrical five-holes probe
- Spherical five-holes probe
- The cobra probe
- Supersonic probes
- Cylindrical probe
- Claw probe
- Flow direction measurements
- Pitot-static tube
- Effect of stream turbulence
- Effects of the Mach number
- Effect of shear rate and proximity of a wall
- Effects of the position of pressure taps
- Prandtl tube
- Effect of stream turbulence
- Effects of the Reynolds number
- Effects of the Mach number
- Effects of the proximity of a wall
- Effect of gradients of stagnation pressure
- The Pitot tube in yaw
- Pitot tube
- Measurement of flow speed by pressures
- Velocity and mass flow by. pressure measurements
- Pressure-sensitive paints
- Pneumatic and electronic scanning of multiple pressures
- Piezoelectric transducers
- Piezoresistive transducers
- Strain gage transducers
- Capsule transducers
- Pressure transducers
- Mechanical manometers
- Multi-tube manometer
- Betz (or projection) manometer
- Inclined manometer
- The single tube manometer
- Response time of the U-tube manometer
- Measurable pressure range
- Hydrostatic manometers
- Pressure sensors
- Category: AERODYNAMICS
- SAMPLE SOLUTIONS WITH PANEL CODES
- HIGHER-ORDER PANEL METHODS
- FIRST-ORDER POTENTIAL-BASED PANEL METHODS
- INTRODUCTION TO PANEL CODES: A BRIEF HISTORY
- LIFTING-SURFACE SOLUTION BY VORTEX RING ELEMENTS
- MODELING OF REFLECTIONS FROM SOLID BOUNDARIES
- LIFTING-LINE SOLUTION BY HORSESHOE ELEMENTS
- THREE - DIMENSIONAL NUMERICAL SOLUTIONS
- SOME CONCLUSIONS ABOUT PANEL METHODS
- Quadratic Doublet Method
- Linear Source/Quadratic Doublet Method
- METHODS BASED ON QUADRATIC DOUBLET DISTRIBUTION (USING THE DIRICHLET B. C.)
- Linear Doublet Method
- LINEARLY VARYING SINGULARITY STRENGTH METHODS (USING THE DIRICHLET B. C.)
- Linear-Strength Vortex Method
- LINEARLY VARYING SINGULARITY STRENGTH METHODS (USING THE NEUMANN B. C.)
- Constant-Strength Doublet Method
- Combined Source and Doublet Method
- CONSTANT-POTENTIAL (DIR1CHLET BOUNDARY CONDITION) METHODS
- Constant-Strength Vortex Method
- Constant-Strength Doublet Method
- Constant-Strength Source Method
- CONSTANT-STRENGTH SINGULARITY SOLUTIONS (USING THE NEUMANN BOUNDARY CONDITION)
- Discrete Source Method