Exam 1

Question 1

The atmoshphere is made of _% Nitrogen, _% oxygen, and _% other.

Answer 1

78, 21, 1

Question 2

The higher the temperature, the ____ the molecules are moving

Answer 2

faster

Question 3

affects the density of the air because when air is heated it expands

Answer 3

Temperature

Question 4

Air is ____ _____ when it is hot. Air is ______ when it is cold

Answer 4

less dense, denser

Question 5

affects the density of the air because water vapor is less dense than air

Answer 5

Humidity

Question 6

Air is ____ dense when there is high humidity

Answer 6

less

Question 7

Air is ______ when there is low humidity

Answer 7

denser

Question 8

affects the density of the air because there are fewer air molecules the further up you go

Answer 8

Altitude

Question 9

Air is _____ dense on hot, humid days, and at high altitude

Answer 9

least

Question 10

air is _____ dense on cool, dry days, near sea level.

Answer 10

most

Question 11

____ and ___ fall at a constant rate.

Answer 11

air temperature and pressure

Question 12

four forces on an airplane

Answer 12

lift, drag, thrust, weight

Question 13

CG

Answer 13

center of gravity

Question 14

what is weight

Answer 14

weight is a force caused by the gravitational attraction of the earth

Question 15

what is lift

Answer 15

lift is a mechanical force generated by a solid object moving through a fluid

Question 16

Newton’s 3rd lay applies

Answer 16

for every action there is an equal and opposite reaction

Question 17

what is drag

Answer 17

drag is a mechanical force generated by a solid object moving through a fluid

Question 18

what is thrust

Answer 18

thrust is a mechanical force generated by the engines to move the aircraft through the air

Question 19

aerodynamics

Answer 19

the study of air in motion
a branch of fluid mechanics that deals with the motion of air and other gaseous fluids

Question 20

airfoil

Answer 20

a structure with curved surfaces that results in lift being formed

Question 21

air flows ___ over the top of the wing

Answer 21

faster

Question 22

The Bernoulli Effect accounts for approximately ___% of the lift of the wing

Answer 22

90

Question 23

Newton’s 3rd lay of motion accounts for ___% of the lift.

Answer 23

10

Question 24

bigger difference in pressure means…

Answer 24

more lift that is created

Question 25

a moving stream of fluid in contact with a curved surface will tend to follow the curvature of the surface rather than continue traveling in a straight line

Answer 25

coanda effect

Question 26

How can we increase the camber shape of an airflow

Answer 26

by increasing the angle that the wing meets the air

Question 27

the more cambered the airflow

Answer 27

the greater the lift

Question 28

Center of pressure

Answer 28

a mathematical point, reflecting the lowest air pressure on the top of the wing, on the greatest pressure differential between the top and the bottom of the wing

Question 29

airfoil

Answer 29

anything used to create a useful reaction from the air (lift) (thrust)

Question 30

leading edge

Answer 30

the front part of the airfoil

Question 31

trailing edge

Answer 31

the rear fo the airfoil

Question 32

chord line

Answer 32

a line that extends from the leading edge directly to the trailing edge

Question 33

camber

Answer 33

refers to the curvature of the wing, or the curvature of the air over, or under, the wing

Question 34

span

Answer 34

the lengthwise of the wing

Question 35

chord

Answer 35

he width of the wing

Question 36

aspect ratio

Answer 36

span/chord

Question 37

dihedral angle

Answer 37

angle of wing from plane to wingtip- purpose is stability

Question 38

angle of attack

Answer 38

angle of wing to the oncoming air

Question 39

angle of incidence

Answer 39

angle of elevators to oncoming wind

Question 40

mean camber line

Answer 40

refers to an imaginary line, created mathematically, when you subtract the distance from the chord line to the lower camber from the distance from the chord line to the upper camber

Question 41

mean aerodynamic chord

Answer 41

the distance between the leading and trailing edge of the wing, measured parallel to the normal airflow over the wing

Question 42

LIFT=

Answer 42

Cl 1/2 V^2 Sp

Question 43

what does each part of the lift equation stand for

L=Cl (1/2) V^2 Sp

Answer 43

Cl= AOA to graph
V= velocity of the air in feet per second
S= surface area of the wing in square feet
P= reek letter RHO= density of the air in slugs/ft^3

Question 44

parasite drag

Answer 44

the drag produced by air flowing over surfaces not involved in producing lift

Question 45

induced drag

Answer 45

the part of the drag of an airfoil caused by the lift, that is, the change in the direction of the airflow

Question 46

profile drag

Answer 46

parasite drag of the airfoil

Question 47

what are the 3 types of parasite drag

Answer 47

pressure drag
skin friction drag
interference drag

Question 48

the drag resulting from air impining upon something

Answer 48

pressure drag

Question 49

the drag resulting from the friction of the air sliding across a surface or the adhesion of the air trying to stick to a surface of a wing or aircraft

Answer 49

skin friction drag

Question 50

the drag resulting from the turbulence where surfaces meet at 90 degree angles or less

Answer 50

Interference drag

Question 51

pressure drag solution

Answer 51

make frontal area smaller and add boat tail

Question 52

skin friction drag solution

Answer 52

make wing or aircraft shorter, make the surface smoother

Question 53

interference drag solution

Answer 53

add fillets and fairings to cover gaps and eliminate acute angles

Question 54

what is a result of induced drag

Answer 54

wing vortex

Question 55

wingtip vortex

Answer 55

high pressure air from below the wing trying to reach the low pressure air above the wing

Question 56

a combination of the effects of the wake tip vortices and tilted lift vector result in induced ___

Answer 56

drag

Question 57

things that make induced drag worse

Answer 57

a high AOA

flying at a high altitude

flying slow

flying with a heavy aircraft

wing design

Question 58

induced drag solutions

Answer 58

high aspect ratio wings

rounded wing design

winglets

Question 59

when does a stall occur

Answer 59

when the angle of attack exceeds the value at which the maximum lift is created

it can happen at any speed

Question 60

what is the drag calculation

Answer 60

Drag= Cd 1/2 V^2 Sp

Question 61

what does each part of the drag equation stand for

D= Cd 1/2 V^2 Sp

Answer 61

Cd= compute AOA with the graph

V= velocity of the air in feet per second

S= surface are of the wing in square feet

P = density of the air in slugs/ft^3

solution will be in LBS

Question 62

PP1
what is the drag on the wing of an aircraft if
the aircraft speed is 180mph
the aircraft is flying at 3000 feet
the wing surface area is 200 square feet
the aircraft is flying at an AOA of 12 degrees

Answer 62

1061.61

Question 63

PP2
Cd=0,02
altitude=28000ft
p=0.000957
speed= 202mph = 296.26734 feet/second
wing area 590 square feet

Answer 63

495.60

Question 64

PP3
Cd=0.06
altitude- 15000 ft=p=0.001496
speed=240 knots= 405.0744 feet/second
wing area 135 square feet

Answer 64

994.14

Question 65

PP4
Cd=0.13
altitude=8000ft=p=0.001869
speed =150 knots=253.1715 feet/second
wing area 100 square feet

Answer 65

778.67

Question 66

what is ground effect

Answer 66

when an aircraft flies less than one-half its wingspan above the ground the air is forced down and deflected which effectively increases the AOA without increasing drag

Question 67

what it boundary layer

Answer 67

the airflow next to the airfoil

Question 68

what does a turbulent boundary layer do

Answer 68

ncrease drag

Question 69

what do wing fences do

Answer 69

prevent entire wing from stalling at once
obstruct span wise airflow

Question 70

what do vortex generators do

Answer 70

they pull high energy air down to the surface preventing airflow separation (stall)

Question 71

what is planform

Answer 71

shape of the wing as viewed from above

Question 72

is there a best wing shape for flight

Answer 72

no

Question 73

what is aspect ratio

Answer 73

span/width

Question 74

greater aspect ratio means

Answer 74

less induced drag

Question 75

Rectangular wing stall characteristics and price

Answer 75

roots stall first
gives advance stall warning
cheap and easy to produce and repair

Question 76

moderate taper wing stall characteristics and aerodynamic contributions

Answer 76

whole wing tends to stall at once (many planes have change in camber to counteract)
more lift
less drag
less weight

Question 77

High taper wing aerodynamic charactersticks and stall

Answer 77

much more lift
much less drag and weight
tends to stall from wingtips first

Question 78

pointed wing tip stall characteristics

Answer 78

stalls from wing tip first

Question 79

sweptback wing pros

Answer 79

efficient at high speeds
delays shock waves- can fly closer to speed of sound

Question 80

sweptback wing cons

Answer 80

can get dutch roll
need a yaw dampener to prevent dutch roll
stall from wingtips first
unfavorable at slow speeds

Question 81

elliptical wing stall and earodynamic characteristics

Answer 81

little warning of stall
entire wing will stall at the same time
most efficient subsonic wing
much less induced drag

Question 82

fuselage

Answer 82

the body of an aircraft

Question 83

empanage

Answer 83

the whole tail assembly

Question 84

nacelle

Answer 84

powerplant - engine and mounting location

Question 85

wings

Answer 85

provides the majority of the lift an airplane requires for flight

Question 86

landing gear

Answer 86

struts- absorb th eimpact of the landing

Question 87

formers

Answer 87

placed in a fuselage to give the fuselage skin its shape and rigidity

Question 88

stringers

Answer 88

metal or wood braces placed between wing ribs, or bulkheads in fuselage, to give stiffening strength to the wing skin or structure

Question 89

longeron

Answer 89

a principle fore and aft structural framing member of a fuselage that typically crosses several points

Question 90

bulkeads

Answer 90

a vertical wall within the fuselage

Question 91

firewall

Answer 91

a special bulkhead that goes between the engine and the fuselage or wing

Question 92

starboard

Answer 92

right side

Question 93

port

Answer 93

left side

Question 94

forward

Answer 94

the front of the aircraft

Question 95

aft

Answer 95

the back of the aircraft

Question 96

fuselage stations

Answer 96

nose to tail

Question 97

datum

Answer 97

where all measurements start

is wherever the manufacturer decides it is

Question 98

wing station

Answer 98

distance in inches from ceterline of the fuselage to the wing tips

Question 99

waterline stations

Answer 99

verticle distance in inches from centerline fo the fuselage
distances up are positive
distances down are negative

Question 100

vertical fin

Answer 100

vertical surface sticking up above the fuselage at the tail

Question 101

vertical stabilizer

Answer 101

vertical surface sticking up above the fuselage at the tail

Question 102

dorsal fin

Answer 102

extension of the verticle stabilizer running forward from the vertical stabilizer

Question 103

ventral fin

Answer 103

vertical stabilizer on the bottom of the aircraft

Question 104

lift struts

Answer 104

transmit lift loads from the wings to the fuselage

Question 105

wign ribs

Answer 105

the chordwise structural member in a wing that gives the wing its shape

Question 106

wing spar

Answer 106

a structural beam that transmits lift and load and loading loads to and from the fuselage

Question 107

main landing gear

Answer 107

the wheels that suppost most of the weight of the aircraft

Question 108

auxiliary landing gear

Answer 108

stabilize the aircraft and support less weight

Question 109

control surface

Answer 109

a movable airfoil, or any surface used to control the aircraft in flight

Question 110

primary flight controls

Answer 110

elevator, rudder, ailerons

Question 111

secondary flight controls

Answer 111

modify the effects of the primary flight controls or air flows

Question 112

aileron

Answer 112

roll
longitudinal rotation about the longitudinal axis
lateral stability

Question 113

elevator

Answer 113

pitch
rotation about the lateral axis
longitudinal stability

Question 114

rudder

Answer 114

yaw
rotation about the vertical axis
directional stability

Question 115

adverse yaw

Answer 115

the aircraft may roll one way but directionally turn the opposite

the adverse yaw is due to an imbalance of drag at the wing tips between he left and right wing

Question 116

how to fix adverse yaw

Answer 116

we make the parasite drag on the one side great enough to offset the induced drag on the other side

we raise the up aileron more so it catches more air than the down aileron. This is called differential ailerons

Question 117

hat makes flight controls perform better

Answer 117

distance from CG
amount fo deflection
size of control surface
velocity of the air over the surface

Question 118

slats

Answer 118

high lift device typically found on jets
like flaps but on leading edge
assist in changing camber/ curvature of the wing

Question 119

trim tabs

Answer 119

econdary flight controls, which modify the position of the primary flight controls
used to get flight control settings just right

Question 120

flight spoilers

Answer 120

kill lift and create more drage

Question 121

ground spoilers

Answer 121

to maximize wheel brake efficiency

Question 122

speed brakes

Answer 122

speed brakes are used to create drag to slow the airplane

Question 123

what is the standard day

Answer 123

59 F, sea level, 0 humidity

Question 124

what happens if the four forces of flight are all equal

Answer 124

velocity and altitude are constant

Question 125

what is newtons 1st law

Answer 125

the four forces

Question 126

what is Bernoulli’s principle

Answer 126

As velocity increases, pressure decreases. Pressure
on top of the wing lower than beneath the wing. Pressure
differential between the top and bottom = lift.

Question 127

why were early wing designs ditched

Answer 127

Flat lower surface is not optimal aerodynamically. We started to
make more streamlined, more lift/less drag, and smoother wings

Question 128

Transonic airfoils and their unique design, why?

Answer 128

Circular arc supersonic airfoil (flying saucer)
➔ Double wedge supersonic airfoil (diamond shaped)
➔ They reduce air velocity over upper surface and delays the drag
that occurs near the speed of sound

Question 129

boundary layer- laminar

Answer 129

near leading edge, air is still smooth

Question 130

boundary layer- transition

Answer 130

air beginning to become turbulent but not building up
in height yet

Question 131

boundary layer- turbulent

Answer 131

at end of wing, air is taller in height and not flowing
smoothly

Question 132

what are longer antennas used for

Answer 132

radio comms and nav

Question 133

what are shorter antennas used for

Answer 133

high frequency data

Question 134

slipping turn

Answer 134

means uncoordinated turn- not enough rudder or even
opposite rudder

Question 135

skidding turn

Answer 135

means too much rudder in direction of turn