MCQOPTIONS

Explore topic-wise MCQs in Aerodynamics.

This section includes 14 Mcqs, each offering curated multiple-choice questions to sharpen your Aerodynamics knowledge and support exam preparation. Choose a topic below to get started.

1.	The circulation at the center for an elliptical wing distribution does not depend upon ________
A.	Lift distribution
B.	Density of fluid at center
C.	Free-stream velocity
D.	Total span length
Answer» C. Free-stream velocity

2.	Which of the following is not implied by the elliptical lift distribution?
A.	Chord length is constant along the span
B.	Induced angle of attack is zero for infinite wing span
C.	Downwash is zero for infinite wing span
D.	Constant downwash along the span
Answer» B. Induced angle of attack is zero for infinite wing span

3.	Which is the wrong implication of the elliptical lift distribution for a wing?
A.	Circulation varies elliptically along span
B.	Span length does not affect circulation
C.	Lift is zero at the tips
D.	Maximum lift is at the center
Answer» C. Lift is zero at the tips

4.	The induced drag (Di ) in terms of lift per unit span (L ) for a finite wing is_____
A.	Di =L sin sin <sub>i</sub>
B.	Di =L <sub>i</sub>
C.	Di = L <sub>i</sub>
D.	Di =L cos cos <sub>i</sub>
Answer» B. Di =L <sub>i</sub>

5.	Downwash for an elliptic wing circulation distribution is constant.
A.	True
B.	False
Answer» B. False

6.	The incorrect statement in relation to the fundamental equation of Prandtls lifting line theory is_____
A.	Geometric AoA is sum of effective AoA and induced AoA
B.	Integro-differential equation
C.	is known
D.	Finite wing design, geometric AoA and free-stream velocity is known
Answer» D. Finite wing design, geometric AoA and free-stream velocity is known

7.	The lift coefficient for the airfoil section on a wing ______
A.	Depends on local lift slope for airfoil
B.	Is same for the entire wing
C.	Is equal to the aerodynamic twist
D.	Is constant always
Answer» B. Is same for the entire wing

8.	The induced angle of attack in terms of flow parameters for a wing is_____
A.	<sub>i</sub>= ( frac {w}{V_ } )
B.	<sub>i</sub>= ( frac {2w}{V_ } )
C.	<sub>i</sub>= ( frac {V_ }{w} )
D.	<sub>i</sub>= ( frac {w}{V_ } )
Answer» B. <sub>i</sub>= ( frac {2w}{V_ } )

9.	For the case of infinite horseshoe vortices along the lifting line, a vortex sheet exists which_________
A.	Is formed by continuous trailing vortices
B.	Is perpendicular to free-stream velocity
C.	Total strength is zero
D.	Equal and opposite trailing vortices
Answer» C. Total strength is zero

10.	The infinite downwash at the wing tips for a single horseshoe vortex in Prandtls lifting line theory was a wrong result. Which of the following does not relate to the correction made?
A.	Superimposition of horseshoe vortices
B.	Lifting line along the span
C.	Trailing vortices only at the tip
D.	Different length of bound vortices
Answer» D. Different length of bound vortices

11.	The incorrect statement regarding the downwash for a single horseshoe vortex in Prandtl s lifting line theory is____
A.	Downwash has contribution from trailing vortices
B.	Downwash becomes infinite at the tips
C.	Downwash is given by w= ( frac {- Gamma}{4 pi } frac {b}{( frac {b}{2})^2-y^2} )
D.	The contribution of two semi-infinite trailing vortices is same as an infinite vortex
Answer» E.

12.	The downwash along the wing in the downward direction in Prandtl s lifting line theory comes from______
A.	Bound vortex
B.	Horseshoe vortex
C.	Free vortex
D.	Trailing vortices
Answer» E.

13.	Circulation varies along the lifting line.
A.	False
B.	True
Answer» C.

14.	According to the reasoning given by Prandtl for his lifting line theory, finite wing is like a ________
A.	Bound vortex
B.	Horseshoe vortex
C.	Free vortex
D.	Trailing vortex
Answer» B. Horseshoe vortex