Principles of Flight - Section C - Aerodynamics of Maneuvering Flight

 0    48 kartičky    marekjoniec
stáhnout mp3 Vytisknout hrát zkontrolovat se
 
otázka odpověď
axes of rotation
The three axes of flight pass through the airplane’s center of gravity.
začněte se učit
osie obrotu
longitudinal
začněte se učit
podłużna
lateral
začněte se učit
boczny
vertical
začněte se učit
pionowy/kierunkowy
reference point
začněte se učit
Punkt odniesienia
center of gravity
začněte se učit
Środek ciężkości
pitch attitude
začněte se učit
położenie samolotu
yaw
Yaw movement about the vertical axis is produced by rudder.
začněte se učit
zmieniac kurs/kierunek
flight path
začněte se učit
tor lotu
momentum
Momentum will cause a brief increase in altitude, but airspeed will soon decrease.
začněte se učit
pęd
excess
An airplane climbs because of excess thrust, not excess lift.
začněte se učit
nadmiar
sustained
Sustained climb
začněte se učit
trwały
component
When an airplane is climbing, though, the force of weight consists of two components.
začněte se učit
składnik/składowa
glide angle
Glide angle is an angle between actual glide path of your plane and the horizon.
začněte se učit
kąt szybowania
best glide speed
Best glide speed is a speed that results in the most favorable lift-to-drag ratio.
začněte se učit
najlepsza prędkość szybowania
steepen
If drag increases, the angle between the lift vector and the resultant vector increases and, consequently, the glide angle steepens.
začněte se učit
podnieść się stromo
lift to drag ratio
The lift to drag ratio can be used to measure the gliding efficiency of your airplane.
začněte se učit
doskonałość aerodynamiczna
glide ratio
The glide ratio represents the distance an airplane will travel forward, without power, in relation to altitude loss.
začněte se učit
zasieg szybowania
promptly
Promptly establishing the correct gliding attitude and airspeed is critical.
začněte se učit
niezwłocznie
sink
Although the heavier airplane sinks faster and will reach the ground sooner, it will travel the same distance as a lighter airplane as long as you maintain the correct higher glide speed for the increased weight.
začněte se učit
opdadać
bank
You use the ailerons to roll into or out of a bank and, at the same time, you use rudder to control yaw.
začněte se učit
przechylać, przechylenie
overcome
začněte se učit
przezwyciężać
inertia
Before your plane turns, however, it must overcome inertia, or its tendency to continue in a straight line.
začněte se učit
bezwładność
centripetal force
The horizontal component of lift, called centripetal force.
začněte se učit
siła dośrodkowa
centrifugal force
Centrifugal force acts outward from the center of rotation.
začněte se učit
siła odśrodkowa
adverse yaw
Adverse yaw is a tendency to yaw toward the outside of the turn caused by increase of the lift on the wing that is up during the turn.
začněte se učit
niekorzystny moment kierunkowy
overbanking tendency
Overbanking tendecy is caused by the additional lift on the outside, or raised, wing.
začněte se učit
tendencja do zwiekszania przechylenia
load factor
Load factor is the ratio od the load supported by the airplane’s wing to the actual weight of the aircraft and its contents.
začněte se učit
Współczynnik obciążenia
abruptly
For example, if you abruptly push the control wheel forward while flying, you would experience a sensation as if your weight suddenly decreased.
začněte se učit
nagle
sideward
Sideward G’s are called transverse G-forces.
začněte se učit
na bok/ boczny
transverse
začněte se učit
poprzeczny
severe
Stalls also can occur at unusually high speeds in severe turbulence or in low level wind shear
začněte se učit
ostry, przenikliwy (o bólu)/ silny
is subject to
začněte se učit
podlega
gust
začněte se učit
poryw wiatru
imminent
There are any number of ways to recognize that a stall is imminent.
začněte se učit
bliski/ nadchodzacy
impend
Ideally, you should be able to detect the first signs of an impending stall and make appropriate corrections before it actually occurs.
začněte se učit
zbliżać się
revolution
A loss of revolutions per minute (r.p.m.) may be noticable as you approach a stall in power-on conditions.
začněte se učit
obrót silnika
fixed pitch propeller
In fixed-pitch propeller airplanes.
začněte se učit
śmigło o stałym skoku
torque
Torque effect is greatest in a single engine airplane during a low airspeed, high power flight condition.
začněte se učit
moment obrotowy
slipstream
začněte se učit
strumień
counterclockwise
začněte se učit
przeciwnie do kierunku wskazówek zegara
to exhibit
The turning propeller of an airplane also exhibits characteristics of a gyroscope-rigitidy in space and precession.
začněte se učit
przedstawiać
rigitidy
začněte se učit
sztywność
apparent
In level cruising flight, P-factor is not apparent, since both ascending and descendinf propeller blades are at nearly the same angle of attack.
začněte se učit
widoczny
spiraling slipstream
As the propeller rotates, it produces a backward flow of air, or slipstream, which wraps around the airplane. This spiraling slipstream causes a change in the airflow around the vertical stabilizer.
začněte se učit
strumień zasmigłowy
phenomenon
Another significant aerodynamic consideration is the phenomenon of ground effect.
začněte se učit
zjawisko
vortex
This causes a reduction in wingtip vorrices and a decrease in upwash and downwash.
začněte se učit
wir
flare
Power reduction usually is required during the flare to help the airplane land.
začněte se učit
wytrzymanie

Chcete-li přidat komentář, musíte se přihlásit.