| No
| Contents
| Hours
|
| Practice 1.
| Definition of Parameters of Boundary Layer on Plate.
| 2hs
|
| Practice 2.
| Definition of Coefficient of Velocity Head Field in Wind Tunnel Working Section.
| 2hs
|
| Practice 3.
| Definition of Pressure Distribution over Wing Surface.
| 4hs
|
| Practice 4.
| Definition of Sphere Drag Coefficient.
| 2hs
|
| Practice 5.
| Definition of Wing Model Aerodynamic Characteristics.
| 4hs
|
| Practice 6.
| Definition of Aerodynamic Characteristics of Fuselage and “Fuselage + Wing” system.
| 4hs
|
| Practice 7.
| Calculation of Total Interference Factor of «Fuselage + Wing» System.
| 2hs
|
| Practice 8.
| Definition of Wing Model Aerodynamic Characteristics with Deflected Flap.
| 2hs
|
| Practice 9.
| Definition of Airplane Polar and Trim Curve.
| 4hs
|
| Practice 10.
| Calculation Airplane Aerodynamic Characteristics.
| 2hs
|
| No
| Contents
| Hours
|
| Lecture 1.
| Introduction. Base flight characteristics of aircraft. External forces acted at an aircraft. Equation of motion of aircraft in general case. Particular cases of aircraft motion.
| 4hs
|
| Lecture 2.
| Aerodynamic calculation of aircraft. Steady mode of light. Zukovsky method of thrusts.
| 4hs
|
| Lecture 3.
| Minimum, optimal, cruising and maximum velocities of horizontal steady flight. I -st and II-nd modes of flight.
| 2hs
|
| Lecture 4.
| Diagram of possible range of altitudes and velocities of flight in vertical plane. Static ceiling and zoom of aircraft.
| 2hs
|
| Lecture 5.
| Climb and descent of aircraft. Rate of climb and Barogram of an aircraft. Optimal climb mode.
| 4hs
|
| Lecture 6.
| Banking of aircraft in vertical plane.
| 2hs
|
| Lecture 7.
| Calculation of flight range of aircraft.
| 2hs
|
| Lecture 8.
| Take off and landing characteristics of aircraft.
| 4hs
|
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