The ratio of the friction velocity to velocity parallel to the wall

The ratio of velocity parallel to the wall to the friction velocity

The ratio of the friction velocity to velocity parallel to the wall

The ratio of free-stream velocity and friction velocity

The ratio of friction velocity and free-stream velocity

For flows over a flat plate, at length scales near to the length of the flat plate, which of these is correct?

Inertial force is equal to viscous force

Explore topic-wise MCQs in Computational Fluid Dynamics.

This section includes 9 Mcqs, each offering curated multiple-choice questions to sharpen your Computational Fluid Dynamics knowledge and support exam preparation. Choose a topic below to get started.

1.	What is the range of y+ in the log-law layer?
A.	30<y+<500
B.	20<y+<500
C.	30<y+<400
D.	20<y+<400
Answer» B. 20<y+<500

Discussion

2.	What is the other name of the velocity-defect law?
A.	Linear law
B.	Log law
C.	Law of the wall
D.	Law of the wake
Answer» E.

Discussion

3.	The layer with viscous and turbulent stresses in equal magnitude is called _____________
A.	Viscous sub-layer
B.	Log-law layer
C.	Buffer layer
D.	Velocity-defect layer
Answer» D. Velocity-defect layer

Discussion

4.	What is the range of y+ in the viscous sub-layer?
A.	0<y+<20
B.	0<y+<5
C.	0<y+<10
D.	0<y+<15
Answer» C. 0<y+<10

Discussion

5.	The fluid layer which is in contact with a smooth wall is called ____________
A.	Inviscid layer
B.	Linear sub-layer
C.	Log-law layer
D.	Wake-law layer
Answer» C. Log-law layer

Discussion

6.	The velocity at a point far away from the wall is defined by ____________
A.	Power law
B.	Log-law
C.	Velocity-defect law
D.	Newton’s law of viscosity
Answer» D. Newton’s law of viscosity

Discussion

7.	What is u+?
A.	The ratio of velocity parallel to the wall to the friction velocity
B.	The ratio of the friction velocity to velocity parallel to the wall
C.	The ratio of free-stream velocity and friction velocity
D.	The ratio of friction velocity and free-stream velocity
Answer» B. The ratio of the friction velocity to velocity parallel to the wall

Discussion

8.	Which of these laws define the dimensionless quantities u+ and y+?
A.	Velocity-defect law
B.	Log-law
C.	Newton’s law of viscosity
D.	Law of the wall
Answer» E.

Discussion

9.	For flows over a flat plate, at length scales near to the length of the flat plate, which of these is correct?
A.	Inertial force is zero
B.	Inertial force is large
C.	Inertial force is equal to viscous force
D.	Viscous force is large
Answer» C. Inertial force is equal to viscous force

Discussion

Explore topic-wise MCQs in Computational Fluid Dynamics.

What is the range of y+ in the log-law layer?

What is the other name of the velocity-defect law?

The layer with viscous and turbulent stresses in equal magnitude is called _____________

What is the range of y+ in the viscous sub-layer?

The fluid layer which is in contact with a smooth wall is called ____________

The velocity at a point far away from the wall is defined by ____________

What is u+?

Which of these laws define the dimensionless quantities u+ and y+?

For flows over a flat plate, at length scales near to the length of the flat plate, which of these is correct?