106 Through Exam 2

Question 1

Define flight controls

Answer 1

a moveable airfoil that can be manipulated by the pilot

Question 2

Normal category

Answer 2

non acrobatic operations
+3.8 - -1.52 G

Question 3

Utility

Answer 3

limited acrobatic
+4.4 - -1.76

Question 4

Acrobatic

Answer 4

unrestricted
+6 - -3G

Question 5

Why do positive Gs make you feel heavier

Answer 5

centrifugal force acts in the same direction as weight

Question 6

When is the stability of the aircraft?

Answer 6

the time between manipulation of the flight controls

Question 7

Static stability

Answer 7

will the aircraft return if displaced

Question 8

dynamic stability

Answer 8

how the aircraft will return if displaced

Question 9

What does dihedral do

Answer 9

contributes to stability in the roll axis
helps restore wings level

Question 10

Yaw stability is around what axis

Answer 10

vertical

Question 11

what contributes to yaw stability

Answer 11

vertical stabilizer
swept back wings

Question 12

How do swept back wings help with yaw stability

Answer 12

back wing has less frontal area: less lift, less drag
front wing has more frontal area: more lift, more drag

Question 13

pitch stability is about the ____ axis

Answer 13

lateral

Question 14

Flap which hinges down

Answer 14

Split flap

Question 15

hinge of trailing edge leaves gap between wing and flap

Answer 15

slotted

Question 16

extends out and down
inside wing when retracted

Answer 16

Fowler
only wing to increase surface area when deployed

Question 17

winglets and sharklets do what

Answer 17

reduce induced drag

Question 18

straight taper characteristics

Answer 18

CP moves more with AoA
max Cl greater
Cd lower

Question 19

why is thickness taper combined with planform taper

Answer 19

Decreased Cp movement from thickness taper offsets increased cp from planform taper

Question 20

mean aerodynamic chord

Answer 20

way of measuring chord length on non rectangular wings

Question 21

high wing pros

Answer 21

better lift/drag ratio
better lateral stability
shorter landing distance

Question 22

Low wing pros

Answer 22

easier to build
better roll maneuverability (less lateral stability)
shorter take off distance

Question 23

Tee Tail advantages

Answer 23

allows for flow of air over rudder at high AoA
horizontal stabilizer is out of the way of engines
keeps horizontal stabilizer and rudder out of main wing downwash

Question 24

Vee Tail advantages

Answer 24

decreases interference drag
decreases pressure and skin friction by combining “ruddervator”

Question 25

Why do fighters have two tails?

Answer 25

stabilization in event of damage and reduce the height needed for full flight control

Question 26

What do flying wires do

Answer 26

transmit lift back to fuselage

Question 27

what do landing wires do

Answer 27

transmit downward impact of landing, or negative G loads, on wings back to fuselage

Question 28

what do interplanetary struts do

Answer 28

transmit lift loads and landing loads between top and bottom wings

Question 29

what do cabane struts do

Answer 29

support top section of wing above fuselage and transmit lift loads of wing roots to fuselage

Question 30

what is the Center Section

Answer 30

airfoil shaped section above fuselage to which upper wings attach

Question 31

when does interplanetary interference become a problem

Answer 31

when gap is less than one chord length apart

Question 32

What is decalage (fixed wing)

Answer 32

Angle of difference between upper and lower wings of biplane
When one of the wings set to a higher angle of incidence than the other

Question 33

What did the NASA AD-1 demonstrate and who was the designer

Answer 33

an aircraft wing can be pivoted obliquely from zero to sixty degrees in flight
Burt Rutan

Question 34

Ruddervator (V tail) advantages

Answer 34

lighter
less wetted surface
reduced drag
increased stealth
canted surfaces reflect radar away from surface and engine mounting reduces infrared signature
improve safety and cabin noise reduction

Question 35

Ruddervator disadvantages

Answer 35

more complex control system
have to be structurally more robust
control forces required for operation are higher

Question 36

What is the tandem wing aircraft

Answer 36

both wings left up, no horizontal stabilizer pulling down

Question 37

Tandem wing disadvantages

Answer 37

very difficult pitch stability
very limited CoG

Question 38

What type of aircraft did the wright brother’s make? (in respect to wings)

Answer 38

biplane canard

Question 39

What’s the difference between a tandem and canard

Answer 39

tandem: two full wings
Canard: main wings and smaller wings that can only carry 25% of weight

Question 40

Canard characteristics

Answer 40

both wings provide lift (more efficient)
canard stalls before main
not as stable as conventional aircraft

Question 41

Conventional tail characteristics

Answer 41

best pitch stability
Drag from horizontal stabilizer
interference drag (tail surfaces to fuselage)
Pressure drag from horizontal and vertical stabilizer

Question 42

Flying wing characteristics

Answer 42

no horizontal tail - drastically reduced drag
sharp swept back wings for yaw stability

Question 43

What are split rudders

Answer 43

split control at wingtips for rudders

Question 44

What are elevons

Answer 44

ailerons moved inboard and combined with elevators

Question 45

As air approaches the speed of sound…

Answer 45

it becomes compressible

Question 46

What is the mach number

Answer 46

the speed of the aircraft in relation to speed of sound

Question 47

Define Subsonic

Answer 47

any region below transonic

Question 48

define transonic

Answer 48

first evidence of localized sonic or supersonic airflows and begins at critical mach number
ends when all flows around aircraft are supersonic

Question 49

Define sonic

Answer 49

speed of sound

Question 50

define supersonic

Answer 50

any speed faster than speed of sound

Question 51

define hypersonic

Answer 51

any speed above Mach 5
where plasma begins to affect the airflow

Question 52

How does drag react in transonic flight

Answer 52

drag rises quickly at Mcrit then drops off when fully supersonic

Question 53

Normal shockwave characteristics

Answer 53

perpendicular to direction flow
air slows from supersonic to subsonic
pressure, temperature, density increase BEHIND shock
air flow direction does not change
tremendous drag

Question 54

Oblique shock wave

Answer 54

generated by nose and leading edges
shock inclined to flow direction
supersonic speed to lower supersonic speed
airflow changes directions ACROSS shock
pressure, temperature, density increase THROUGH shock
creates some drag

Question 55

Supersonic lift

Answer 55

Caused purely by AoA
shock produced at leading edge
shock going down is stronger than shock going up
(pressure jump down is larger than pressure jump up)
causes greater pressure under the airfoil

Question 56

describe the supercritical wing

Answer 56

long flat upper camber with downward turn near trailing edge

keeps airspeeds constant across wing

lowest pressure concentrated around highest camber
smaller pressure differentials spread out over bigger area of wing which keeps lift produced the same

Question 57

supersonic aircraft have a _____ overall cross-sectional area and ____ aspect ratio

Answer 57

larger, smaller

this creates smooth transitions from wings to fuselage cross-section

Question 58

What is the Whitcomb area rule

Answer 58

essentially a series of tests looking at different factors in order to get reduced drag between Mach ,75 and 1.2

Question 59

Why is wing sweep beneficial when supersonic

Answer 59

keeps wing tips out of the shock waves
(if the shock wave contacts the wing tips, airflow over the tips and ailerons can be disrupted)

Question 60

For a helicopter in hover, the forces

Answer 60

are all acting vertically

Question 61

What does the collective stick do (left of pilot)

Answer 61

increases (or decreases) AoA of all main rotor blades together in order to increase lift

Question 62

What does the cyclic stick do (in front of pilot)

Answer 62

changes blade pitch at only one part of rotating cycle
tips rotor disk forward and moves helicopter forward

Question 63

Why do helicopter rotors run at a constant rpm

Answer 63

increasing rotor speed to get more lift takes too long (changing pitch is instantaneous)

rotor blades need centrifugal force to hold them straight out or lift forces will fold up and break the blades

Question 64

In North America, the main rotor spins ____ as viewed from top

Answer 64

counter clockwise

Question 65

Moving the foot pedals____

Answer 65

changes the pitch of the tail rotor

Question 66

If tail rotor quits, the helicopter____

Answer 66

spins around in a circle in the opposite direction of main rotor

Question 67

what is translating tendency

Answer 67

in a hover, the sideways thrust of the tail rotor tries to drag the helicopter sideways - if uncorrected, drifts to right