Roll No. EEEEEEEE [ ] Total No. of Pages : 02
Total No. of Questions : 09
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B.Tech.(ANE)/(Aerospace Engg.) (2012 Onwards) (Sem.-3)
AERODYNAMICS-I
Subject Code : ANE-203
M.Code : 60502
Time : 3 Hrs. Max. Marks : 60
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INSTRUCTIONS TO CANDIDATES :
- SECTION-A is COMPULSORY consisting of TEN questions carrying TWO marks each.
- SECTION-B contains FIVE questions carrying FIVE marks each and students have to attempt any FOUR questions.
- SECTION-C contains THREE questions carrying TEN marks each and students have to attempt any TWO questions.
SECTION-A
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- a) Differentiate between compressible and incompressible flows.
- b) What instrument is used to measure air speed over an airfoil?
- c) Define mach number and Reynolds number.
- d) What is Reynolds Transport theorem?
- e) Define Helmholtz laws of vortex motion.
- f) For what type of flow; Euler’s equation is valid?
- g) For what type-of flow, Navier-Stoke equation is used?
- h) What is condition on Velocity for incompressible flow?
- i) Differentiate between laminar and turbulent boundary layer.
- j) Draw velocity profile of laminar and turbulent boundary layer.
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SECTION-B
- A 2-D body is placed in a 2-D steady flow with free stream velocity of V., and angle of attack o.. Derive the expression for normal and axial force per unit span.
- Consider the velocity field given by u = y/(x* + y*) and v = — x/(x* + y%). Calculate the equation of streamline passing through point (0, 5).
- A uniform flow with free stream velocity v, is superimposed on a source of strength k located at the origin. The uniform flow is moving from left to right. Draw the resultant flow pattern over the semi-infinite body and obtain the expressions for velocity components v; and vy.
- Explain the poiseuille flow. Obtain the expression for velocity variation across the flow, maximum velocity and shear stress at the walls.
- Explain boundary layer formation over a flat plate and derive the expressions for displacement thickness and momentum thickness.
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SECTION-C
- The velocity field over a wavy wall is given as
U =V, 1+£2—?(cos?]e’z”?y”
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Prove that the flow is irrotational. - A uniform flow with free stream velocity V. and a doublet of strength £ are superimposed on a vortex of strength I'. Determine the stream function, velocity components V;, Vo and expression for lift per unit span over the resulting cylinder.
- Consider the incompressible, 2-D flow over a flat plate at zero angle of attack. Obtain Blasius solution of boundary layer equations and discuss the solution.
NOTE : Disclosure of Identity by writing Mobile No. or Making of passing request on any page of Answer Sheet will lead to UMC against the Student.
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This download link is referred from the post: PTU B.Tech Question Papers 2020 March (All Branches)