Engineering Questions with Answers - Multiple Choice Questions

# Aerodynamics – Prandtl’s Classical Lifting-Line Theory – 2

1 - Question

The induced angle of attack for an elliptical lift distribution increase when ______
a) Lift decreased
b) Aspect ratio decreased
c) Decrease in planform area
d) Increase in span length
Explanation: If we decrease the planform area or increase the span length, the aspect ratio increases. Since the induced angle of attack is indirectly proportional to the aspect ratio, these options are wrong. We need to decrease the aspect ratio to increase the induced angle of attack. Increasing the lift can also increase the induced angle of attack.

2 - Question

For a finite wing, induced drag increases with an increase in aspect ratio.
a) False
b) True
Explanation: The induced drag coefficient for a finite wing is inversely dependent on the aspect ratio. Thus, the induced drag increases with the decrease in aspect ratio and vice versa for a finite wing with the same lift.

3 - Question

The incorrect statement for a finite wing with elliptical lift distribution out of the following is_____
a) Induced drag coefficient ∝ coefficient of lift
b) Induced drag coefficient increases rapidly with lift
c) Induced drag coefficient is around 25%
d) To reduce induced drag, we want wing with the lowest aspect ratio
Explanation: The induced drag coefficient varies directly with the square of lift coefficient. Thus, it increases rapidly with the lift. At high speeds, it is around 52% of total drag. For least induced drag, we want high aspect ratio for the wing.

4 - Question

For an elliptical lift distribution, the planform area is also elliptical for a wing.
a) True
b) False
Explanation: The chord distribution is elliptical for an elliptical lift distribution. This is observed from the formula. Thus, the planform area is elliptical for an elliptical lift distribution for a finite wing.

5 - Question

The incorrect choice for the general lift distribution for a finite wing is ________
a) Circulation is assumed a Fourier series
b) 0 ≤ θ ≤ 2π
c) Coordinate transformation is for spanwise direction to θ
d) Coefficient of lift depends on aspect ratio directly
Explanation: For a general lift distribution of a finite wing, the circulation is assumed a Fourier series from the expression obtained for elliptic lift distribution. The transformation involves spanwise coordinate transformed to θ, where 0 ≤ θ ≤ π. Using this the lift coefficient obtained depends directly on the aspect ratio.

6 - Question

Select the incorrect equation for the induced drag coefficient for a finite wing.
a) CD,i=C2lπAR(1+δ)
b) CD,i=C2lπAR
c) CD,i=C2lsπeb2
d) CD,i=C2lπeAR
Explanation: The correct formula for induced drag coefficient for a general lift distribution is CD,i=C2lπeAR where e=11+δ and AR=b2S′ where δ is related to the Fourier coefficients and e is the span efficiency factor. Thus, the option CD,i=C2lπAR is wrong.

7 - Question

The elliptical lift distribution has a major interest in making wings because_____
a) Minimum induced drag
b) e = 0
c) δ = 1
d) Aspect ratio lowest
Explanation: The coefficient of induced drag is CD,i=C2lπeAR. For an elliptic wing, e = 1 and/or δ = 0 i.e. the induced drag is minimum. The aspect ratio for the elliptic wing is not lowest. Moreover, we need a higher aspect ratio for lower induced drag.

8 - Question

Tapered wings are used more rather than elliptical wing planforms practically. The reason being______
a) Easy to manufacture than elliptic wings
b) Aspect ratio more important for low induced drag
c) Tapered wing resembles elliptic wing highly
d) Tapered wing is another name for elliptic wing
Explanation: In reality, tapered wings are preferred over elliptic wings because they are easier to manufacture (they have straight edges). But the resemblance to elliptic wings (variation of δ) is secondary to reduce wing induced drag compared to the aspect ratio. Here we are only asked why tapered wings used; the answer is easy to manufacture.

9 - Question

The incorrect difference between airfoil and wings is_______
a) Presence of induced drag in wings
b) Different effective angles of attack seen by
c) Difference in the lift-curve slope
d) Lift slope of the wing is higher than of airfoil
Explanation: The finite wing has a lower lift slope than infinite wing (airfoil). This is another difference than the presence of induced drag between wings and airfoil. Also, the effective angles of attack are different for both, being the same only when the lift is zero (at zero lift angle of attack).

10 - Question

For a finite wing and an infinite wing (airfoil), zero lift angle of attack is zero.
a) True
b) False
Explanation: When the lift is zero, there are no induced effects i.e. induced drag and induced angle of attack are zero. Also, since the induced angle of attack is zero, the geometric angle of attack is the same as the effective angle of attack. This means zero lift angle of attack is the same for wing and airfoil.

11 - Question

The values of lift slope for elliptic wing (ae) and general planform wing (a) is less than that for airfoil (a0).
Mark the false statement.
a) ae=a01+a0πAR
b) a=a01+a0πAR(1+τ)
c) a0 is always 2π
d) τ is a function of Fourier coefficients