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Quiz von Albert Font, aktualisiert more than 1 year ago
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Erstellt von Albert Font
vor fast 5 Jahre
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Frage 1
Frage
Under which circumstances may the volume rate-of-change entail viscous shear stresses?
Antworten
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Never for incompressible flow.
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Always under the Stokes hypothesis.
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Always.
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Never
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None of the other options.
Frage 2
Frage
What is true about viscous blockage?
Antworten
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All options are correct.
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It corresponds to a massflow reduction in the near-wall region due to the effects of viscosity
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It corresponds to a momentum flux reduction in the near-wall region due to the effects of viscosity.
-
It follows from the no-slip condition at the wall due to viscous effects.
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It may be quantified by the displacement and momen- tum thicknesses of the boundary layer.
Frage 3
Frage
Which of the following factors may be held responsible for both advancing turbulent transition and inducing early separation of a boundary layer?
Antworten
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An adverse pressure gradient.
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Wall roughness.
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High preturbulence levels in the outer flow.
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High Reynolds number.
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None of the other options.
Frage 4
Frage
Laminar boundary layers, as opposed to turbulent,...
Antworten
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have lower friction but separate earlier.
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have lower friction and separate later.
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have higher friction and separate earlier
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have higher friction but separate later.
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None of the other options.
Frage 5
Frage
Which of the following properties of the Navier-Stokes equations do the Euler equations retain?
Antworten
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None of the other options.
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The no-slip condition can be applied on all solid walls.
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They allow computation of friction drag.
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They allow computation of form drag of closed bodies.
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They can anticipate the occurrence of turbulence and wakes.
Frage 6
Frage
Whichofthefollowingtermsofthestreamwisemomentum equation drops under the boundary layer hypothesis?
Antworten
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Streamwise diffusion.
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Wall-normal diffusion.
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Streamwise advection.
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Wall-normal advection.
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Streamwise pressure gradient.
Frage 7
Frage
The boundary layer (BL) integral equations...
Antworten
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result from integrating the BL local equations in the wall-normal coordinate over the BL thickness.
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result from integrating the BL local equations along the streamwise coordinate.
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differ for laminar and turbulent BLs.
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result in as many unknowns as there are equations.
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None of the other options.
Frage 8
Frage
How is the D’Alembert’s paradox removed and the form drag obtained in an inviscid flow – boundary layer coupling calculation?
Antworten
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By solving the inviscid problem for a second time over a body enlarged by the displacement thickness and extended with the wake.
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By directly solving the boundary layer equations.
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The paradox remains no matter what.
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By solving the inviscid problem over the original body.
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The paradox was never there in the first place.
Frage 9
Frage
Which of the following inviscid potential flows admit self- similar solutions for the two-dimensional incompressible laminar boundary layer equations?
Antworten
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Wedge/corner flows.
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Source and sink flows.
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Irrotational vortex flow.
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Doublet flow.
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None of the other options.
Frage 10
Frage
For the laminar boundary layer developing in the vicinity of a stagnation point...
Antworten
-
momentum thickness is locally finite and constant.
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displacement thickness grows linearly.
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wall shear stress is locally finite and constant.
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the form factor is larger than for the Blasius solution.
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None of the other options.
Frage 11
Frage
Which of the following statements does NOT describe tur- bulent flows?
Antworten
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Low energy dissipation.
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Intrinsic three-dimensionality.
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Intrinsically time-dependence.
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Deterministic chaos.
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Enhanced mixing capabilities.
Frage 12
Frage
Which of the following methods for solving turbulent flows simulates the large turbulent structures but filters out (and then models) the smaller scales?
Antworten
-
Large Eddy Simulation (LES)
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Reynolds Averaged Navier-Sokes (RANS).
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Direct Navier-Stokes (DNS).
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Direct Numerical Simulation (DNS).
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None of the others.
Frage 13
Frage
What is the actual origin of the Reynolds stresses in the RANS equations?
Antworten
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Advective momentum transport due to turbulent fluc- tuations.
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Diffusive momentum transport due to enhanced fluid viscosity.
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Turbulent pressure fluctuations.
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Mass conservation in the presence of turbulent fluctu- ations.
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None of the other options
Frage 14
Frage
How do viscous (foto)
compare within an incompressible, statistically twodimensional, turbulent boundary layer (TBL)?
Antworten
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mu*(du/dy) prevails in the inmediate vicinity of the wall.
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-densidad·u'·v' (tot adimensional) prevails over the full TBL thickness
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mu*(du/dy) prevails over the full TBL thickness
-
-densidad·u'·v' (tot adimensional) prevails in the inmediate vicinity of the wall.
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They compete in size over the full TBL thickness.
Frage 15
Frage
What is the sign of the streamwise-wall-normal velocity
fluctuation correlations (u'v') (adimensional todo) within a turbulent boundary
layer?
Antworten
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(u'v') (adimensional todo) < 0
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(u'v') (adimensional todo) > 0
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(u'v') (adimensional todo) = 0
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(u'v') (adimensional todo) <0 close to the wall and (u'v') (adimensional todo) >0 far from it.
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(u'v') (adimensional todo) >0 close to the wall and (u'v') (adimensional todo) <0 far from it.
Frage 16
Frage
How can lift be estimated for an airfoil immersed in inviscid incompressible flow?
Antworten
-
By introducing a circulation to enforce the Kutta condition.
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In no way because potential flow is irrotational.
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Enforcing wall impermeability, lift naturally arises
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By enforcing the no-slip condition on the walls to the potential flow equations.
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None of the other options.
Frage 17
Frage
Which statement is true about the lifting problem within
the frame of linear potential theory?
Antworten
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The perturbation potential is anti-symmetric in the vertical coordinate.
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The vertical perturbation velocity is anti-symmetric in the vertical coordinate.
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Both the vertical and horizontal perturbation velocities are symmetric in the vertical coordinate
-
The horizontal perturbation velocity is symmetric in the vertical coordinate.
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None of the other options are correct.
Frage 18
Frage
A problem that aims at computing the pressure distribution given the airfoil shape is known as...
Antworten
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a direct problem
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an inverse problem
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a symmetric problem.
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an anti-symmetric problem
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None of the others options are correct.
Frage 19
Frage
On a finite wing producing lift...
Antworten
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None of the other options are correct.
-
Wingtip vortices roll from suction to pressure side
-
The lift distribution is homogeneous along the span
-
There may still be no lift-induced drag
-
Streamlines are deflected towards the fuselage on the pressure side and towards wingtip on the suction side.
Frage 20
Frage
Prandtl’s lifting-line theory for finite wings...
Antworten
-
All options are correct.
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leads to an integro-differential equation for the circulation distribution along the span.
-
shows that minimum lift-induced drag is obtained for an elliptical distribution of circulation along the span.
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is based on assessing the span-dependent effective angle of attack that results from wingtip vortices.
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provides both wing global lift and lift-induced drag coefficients.
Frage 21
Frage
Into which terms may the total rate-of-change of a small
fluid volume be split, provided nonlinear effects are neglected?
Antworten
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Translation, rotation, volume change, shear deformation.
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Translation, rotation, volume change.
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Translation, rotation, shear deformation.
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Rotation, volume change, shear deformation.
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Volume change, shear deformation.
Frage 22
Frage
Why is the drag on a sphere smaller when the separating
boundary layer is turbulent rather than laminar?
Antworten
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Because wake drag dominates and is smaller
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Because friction drag dominates and is smaller.
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Because both wake and friction drag are smaller.
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Because wake drag is zero.
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The assertion is plain wrong. The opposite is true.
Frage 23
Frage
23. What is true about the streamwise evolution of a boundary
layer (possibly involving a turbulent transition) developing
on a flat plate?
Antworten
-
Its momentum thickness grows monotonically
-
Its friction coecient decreases monotonically
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Its momentum thickness decreases monotonically.
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Its friction coecient increases monotonically.
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None of the other options.
Frage 24
Frage
Which statement is correct under the boundary layer hypothesis?
Antworten
-
None of the other options.
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Streamwise diffusion outweighs streamwise advection
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Streamwise diffusion outweighs wall-normal diffusion.
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Wall-normal pressure gradients are large.
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Fluid particles slip at the wall.
Frage 25
Frage
Which of the following interpretations of the displacement
thickness is plain FALSE?
Antworten
-
It quantifies the friction drag coefficient to be expected
-
It quantifies the deviation of streamlines outside of the boundary layer
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It quantifies the massflow blockage due to viscous effects.
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It quantifies the amount of wall-normal momentum that must appear for mass preservation within the boundary layer.
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All statements are TRUE
Frage 26
Frage
26. Which of the following boundary layers is at a higher risk
of separation, all other parameters unaltered?
Antworten
-
One that has a larger thickness
-
One that has a larger outer velocity
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One that is subject to a stronger negative (favorable) pressure gradient.
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One that is turbulent.
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One that is subject to a milder deceleration of the outer flow
Frage 27
Frage
27. What are the usual assumptions in order to devise an integral method for both laminar and turbulent boundary
layers?
Antworten
-
H and Cf/2 Re o taken from flat plate values
-
H and Cf/2 Re o taken from stagnation point values.
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H and Cf/2 Re o taken from separation profile values.
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H taken from stagnation point and Cf/2 Re o from separation profile values
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H taken from flat plate and Cf/2 Re o from stagnation point values.
Frage 28
Frage
28. Which term of the Navier-Stokes equations is responsible
for the appearance of the Reynolds stresses in the RANS
equations?
Antworten
-
The advection term
-
The pressure term.
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The time-derivative term.
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The viscous diffusion term.
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The volume forces term.
Frage 29
Frage
29. Which of the following statements is true about the
Reynolds stresses inside a turbulent, statistically twodimensional, incompressible boundary layer?
Antworten
-
u'v' (adim) < 0
-
v'^2 adim > u'^2 adimd
-
w'^2 adim = 0
-
u'v' (adim) =/ 0 at the wall
-
u'^2 v'^2 w'^2 (adim) =/ 0
Frage 30
Frage
Pregunta 30 To which of the following regions in a turbulent boundary layer does the near wall hypothesis (constant shear
@⌧/@y ' 0, linear mixing length l ' y+) apply?
Antworten
-
All options are correct.
-
To the inner region.
-
To the viscous sublayer.
-
To the buffer/overlap/blending region
-
To the log-law layer.
Frage 31
Frage
31. What does viscosity depend on for Newtonian fluids such
as water or air?
Antworten
-
Temperature
-
Shear deformation rate.
-
Both temperature and shear deformation rate.
-
Neither temperature nor shear deformation rate.
-
Reynolds number
Frage 32
Frage
32. Which of the following conditions entails separation of a
two-dimensional flow?
Antworten
-
Zero wall friction
-
Zero wall velocity
-
Infinite wall-normal gradient of streamwise velocity
-
Zero boundary layer momentum thickness
-
Zero boundary layer form factor.
Frage 33
Frage
Which momentum transport mechanisms are mainly competing within a laminar boundary layer?
Antworten
-
Streamwise advection and wall-normal diffusion
-
Streamwise diffusion and wall-normal advection
-
Streamwise diffusion and streamwise advection.
-
Wall-normal advection and wall-normal diffusion.
-
Wall-normal and streamwise diffusion.
Frage 34
Frage
34. How are the integral boundary layer equations obtained?
Antworten
-
By integrating the local equations over the boundary layer thickness.
-
By integrating the local equations along the streamwise coordinate.
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By searching for self-similar solutions of the local equations
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By applying the boundary layer hypothesis to the Navier-Stokes equations in their integral form.
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By adding whole wheat to the fluid.
Frage 35
Frage
35. How does the momentum thickness evolve for a laminar
boundary layer in the close vicinity of a stagnation point?
Antworten
-
It is finite and constant.
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It remains of negligible size.
-
It debuts with a finite value and grows linearly.
-
It debuts at zero and grows linearly
-
It debuts at infinity and decreases hyperbolically
Frage 36
Frage
What can be said about the friction coecient Cf when
comparing growing laminar and turbulent boundary layers (BLs) developing under the same outer velocity conditions?
Antworten
-
It is higher and decreases slowlier for turbulent BL.
-
It is higher and decreases slowlier for laminar BL.
-
It is higher but decreases faster for turbulent BL.
-
It is higher but decreases faster for laminar BL.
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None of the others.
Frage 37
Frage
37. Theoretical-empirical turbulent friction laws result from
the matching of the velocity profile in what regions/layers
of the turbulent boundary layer universal profile?
Antworten
-
Inner and outer regions
-
Viscous sublayer and buffer region
-
Buffer region and log-law layer
-
Viscous sublayer and log-law layer
-
Buffer region and inner region.
Frage 38
Frage
38. Which of the following phenomena can be ultimately ascribed to the action of viscosity?
Antworten
-
All of them
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Lift
-
Friction drag
-
Wake drag
-
Flow separation
Frage 39
Frage
39. Which of the following actions might be beneficial in terms
of drag coefficient reduction of a streamlined body (e.g.
flat plate at alpha = 0) with a laminar boundary layer naturally developing on its surface?
Antworten
-
Preserving laminarity of the boundary layer all the way down to the trailing edge.
-
Artificially triggering turbulent transition in the boundary layer before it separates.
-
Reducing the Reynolds number
-
Favouring surface rugosity.
-
None of the others.
Frage 40
Frage
40. Which of the following is NOT a consequence of the boundary layer hypothesis?
Antworten
-
Negligible streamwise advection
-
Wall-normal pressure gradient must cancel.
-
The local BL equations are parabolic
-
Negligible streamwise diffusion
-
Streamwise velocity outweighs wall-normal velocity.
Frage 41
Frage
41. When do boundary layers grow faster?
Antworten
-
In adverse pressure gradient conditions
-
In favourable pressure gradient conditions.
-
In conditions of accelerated outer flow.
-
In conditions of accelerated (decelerated) outer flow if the boundary layer is laminar (turbulent).
-
In adverse (favourable) pressure gradient conditions if the boundary layer is laminar (turbulent).
Frage 42
Frage
Upon averaging which term of the Navier-Stokes equations
does the Reynolds stress tensor arise?
Antworten
-
Advection term
-
Diffusion term.
-
Time-derivative term.
-
Pressure gradient term.
-
None of the others.
Frage 43
Frage
43. What is true when comparing solution methods for laminar and turbulent boundary layers (BLs)?
Antworten
-
The BL integral equations are formally the same.
-
The BL local equations are formally the same.
-
The Falkner-Skan self-similar solutions apply all the same, provided that the outer flow is a wedge flow.
-
Experimental input is needed for solving both laminar and turbulent BLs.
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All of the others.
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