What is DWFf for the second-order upwind scheme?

\(\frac{1}{2(1-\tilde{\phi_c})}\)

\(\frac{\tilde{\phi_c}}{2(1-\tilde{\phi_c})}\)

\(\frac{1}{2(1-\tilde{\phi_c})}\)

\(\frac{\tilde{\phi_c}}{4(1-\tilde{\phi_c})}\)

\(\frac{1}{4(1-\tilde{\phi_c})}\)

DWFf for the FROMM scheme is ___________

\(\frac{1}{2(1-\tilde{\phi_c})}\)

\(\frac{1}{4(1-\tilde{\phi_c})}\)

The Downwind Weighing Factor in the normalized form is given by __________

\(\frac{\tilde{\phi_c}-\tilde{\phi_f}}{1-\tilde{\phi_c}}\)

\(\frac{\tilde{\phi_f}-\tilde{\phi_c}}{1-\tilde{\phi_c}}\)

\(\frac{\tilde{\phi_c}-\tilde{\phi_f}}{1-\tilde{\phi_c}}\)

\(\frac{\tilde{\phi_f}-\tilde{\phi_c}}{1-\tilde{\phi_f}}\)

\(\frac{\tilde{\phi_c}-\tilde{\phi_f}}{1-\tilde{\phi_f}}\)

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.	Along the downwind line of the NVD, the values of _____________ are changed to make the system stable.
A.	ac
B.	(l,k)
C.	Φc
D.	Φf
Answer» C. Φc

Discussion

2.	What is DWFf for the second-order upwind scheme?
A.	\(\frac{\tilde{\phi_c}}{2(1-\tilde{\phi_c})}\)
B.	\(\frac{1}{2(1-\tilde{\phi_c})}\)
C.	\(\frac{\tilde{\phi_c}}{4(1-\tilde{\phi_c})}\)
D.	\(\frac{1}{4(1-\tilde{\phi_c})}\)
Answer» B. \(\frac{1}{2(1-\tilde{\phi_c})}\)

Discussion

3.	The deferred correction source term of the NWF method using he normalized interpolation profile \(\tilde{\phi_f}=l\tilde{\phi_c}+k\) is _________
A.	(1-l-k)Φu
B.	(k)Φu
C.	(-l)Φu
D.	(l-k)Φu
Answer» B. (k)Φu

Discussion

4.	The value of DWFf for the central difference scheme is __________
A.	1
B.	\(\frac{1}{3}\)
C.	\(\frac{1}{4}\)
D.	\(\frac{1}{2}\)
Answer» E.

Discussion

5.	For a scheme modelled using the DWF method, the diagonal coefficient becomes zero when ___________
A.	DWFf > 0
B.	DWFf > 1
C.	DWFf > 0.5
D.	DWFf > 2
Answer» D. DWFf > 2

Discussion

6.	DWFf for the FROMM scheme is ___________
A.	\(\frac{1}{2(1-\tilde{\phi_c})}\)
B.	\(\frac{1}{4(1-\tilde{\phi_c})}\)
C.	\(\frac{1}{2}\)
D.	\(\frac{1}{4}\)
Answer» C. \(\frac{1}{2}\)

Discussion

7.	The value of DWF for the downwind scheme is __________
A.	0
B.	1
C.	2
D.	3
Answer» C. 2

Discussion

8.	The value of the Downwind Weighing Factor (DWF) lies between ___________
A.	0≤DWF≤∞
B.	DWF≥0
C.	0≤DWF≤1
D.	DWF≤1
Answer» D. DWF≤1

Discussion

9.	The Downwind Weighing Factor in the normalized form is given by __________
A.	\(\frac{\tilde{\phi_f}-\tilde{\phi_c}}{1-\tilde{\phi_c}}\)
B.	\(\frac{\tilde{\phi_c}-\tilde{\phi_f}}{1-\tilde{\phi_c}}\)
C.	\(\frac{\tilde{\phi_f}-\tilde{\phi_c}}{1-\tilde{\phi_f}}\)
D.	\(\frac{\tilde{\phi_c}-\tilde{\phi_f}}{1-\tilde{\phi_f}}\)
Answer» B. \(\frac{\tilde{\phi_c}-\tilde{\phi_f}}{1-\tilde{\phi_c}}\)

Discussion

Explore topic-wise MCQs in Computational Fluid Dynamics.

Along the downwind line of the NVD, the values of _____________ are changed to make the system stable.

What is DWFf for the second-order upwind scheme?

The deferred correction source term of the NWF method using he normalized interpolation profile \(\tilde{\phi_f}=l\tilde{\phi_c}+k\) is _________

The value of DWFf for the central difference scheme is __________

For a scheme modelled using the DWF method, the diagonal coefficient becomes zero when ___________

DWFf for the FROMM scheme is ___________

The value of DWF for the downwind scheme is __________

The value of the Downwind Weighing Factor (DWF) lies between ___________

The Downwind Weighing Factor in the normalized form is given by __________