Wing Design

Question 1

High Aspect Ratio on lift/drag

Answer 1

High Cl
Less wing tip vortices less induced drag from lower span wise pressure gradient

Question 2

Wing Loading

Answer 2

How much lift needed to produce weight
Measured in kg/m2

Small span heavy ac - High wing loaded
Large span light ac - Low wing loaded

Question 3

Span Wise Distribution

Answer 3

Change in lift across the span

Question 4

Methods for reducing Cl peak at tip

Answer 4

Camber changes (less towards tip)
Washout - reduce AOI to reduce local AOA at tip
Surface area reduction at tip

Question 5

Ellipetical Wing

Answer 5

Constant CL
Lift drops towards span
Expensive not used on CAT

Question 6

Rectangular Wing

Answer 6

Greatest lift at root
Cl reduces towards tip
IAOA increases/EAOA reduces/Induced drag increases
More downwash towards tip

Question 7

Tapered Wing

Answer 7

CL peak at mid span
Ideal taper ratio of 0.5

Question 8

Sweep back wing

Answer 8

Greatest downwash at root
EAOA greatest towards tip
Wing tip vortex thanks to downwash

Question 9

Modern A/C design

Answer 9

Swept + Tapered
Not great stall characters tip stalling
Economical
Closest to elipetical design

Question 10

Sweep Angle

Answer 10

Angle at which wing is inclined to the lateral axis
Usually measure at 25% of the chord

Question 11

Taper Ratio Formula

Answer 11

Tip Chord/Root

Question 12

Aspect Ratio Formula

Answer 12

Wingspan2/wing area

Span2/ area

Span/chord

Question 13

Thickness/Chord Ratio

Answer 13

The ratio of max thickness of an aerofoil on the chord length expressed as a percentage

Usually between 10% to 12%

Question 14

Mean Aerodynamic Chord is

Answer 14

The chord of an equivalent untwisted rectangular wing with the same pitching moment and lift characteristics as the actual wing

Question 15

Spanwise flow is higher in

Answer 15

Slow speed/high aspect ratio ac

(Slow flight less KE so more inclined to flow Spanwise)

(Faster planes/shorter cord less)

Question 16

Effective AOA is the angle between

Answer 16

The angle between the effective airflow and the chord line

Question 17

Induced AOA is the angle between

Answer 17

Between the relative airflow and the effect air flow

Question 18

Smaller wing tip vortices means

Answer 18

Greater effective AOA and smaller Induced AOA as Effective airflow is less inclined

Question 19

Strong vortices does what to downwash and EAF

Answer 19

Increases the downwash inclining the EAF upwards

Question 20

Smaller vortices means

Answer 20

Shallow effective airflow angle
Bigger effective AOA
Smaller induced AOA
Less induced drag

Question 21

Wing tip vs wing root on a rectangular ac

Answer 21

Wing tip = strong vortices/greater effective airflow/smaller eAOA/larger induced AOA

Wing root = weaker vortices/greater effective AOA

Question 22

Directional flow of trailing tip vortex

Answer 22

Span wise flow is always outward from under wing to upper surface

Anti clockwise around right wing
Clockwise around left wing

When viewed from behind

Question 23

What wing produces the lowest induced drag

Answer 23

Ellipetical wings produce the most lift for the smallest wing tip vortices

At there tips the pressure differential is almost 0

Question 24

Wing Loading

Answer 24

Measured in kg/m2
Weight per unit of the wing area

Greatest on heavy ac with smaller wings = higher wing loading

More intense vortices

Question 25

Which wing planform has the lowest induced drag

Answer 25

Ellipetical wing

Question 26

Which wing has the highest induced drag

Answer 26

Rectangular (longer tip chord)

Question 27

Swept back wing advantages and disadvantages

Answer 27

+ Increases the critical Mach number
+ Positive contribution to static directional stability
+ Positive significant contribution to static lateral stability

• tip stall and pitch up at stall
• lower cl for given AOA which increases stall speed
• clmax less and occurs at higher AOA
• change in CL per change in alpha is less
• must have complex high lift devices to to/ld
• must be flown at high AOA than straight wings for cl

Question 28

Wing AOA

Answer 28

Chord to the relative airflow

Question 29

Aeroplane AOA

Answer 29

Longitudinal axis to relative air flow (speed vector)

Question 30

Angle of incidence

Answer 30

Wing root chord to longitudinal axis