MCQOPTIONS
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MCQOPTIONS
This section includes 7 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. |
In a one-dimensional flow, the volume integral becomes __________ |
| A. | a line integral |
| B. | an area integral |
| C. | a surface integral |
| D. | a surface integral and the Gauss divergence theorem |
| Answer» B. an area integral | |
| 2. |
For three-dimensional flows, what is the approximation of the volume integral using the midpoint rule? |
| A. | Product of the integrand at the face centre and the volume of the control volume |
| B. | Product of the integrand at the control volume centre and the volume of the control volume |
| C. | Product of the integrand at the control volume centre and the surface area of the control volume |
| D. | Product of the integrand at the face centre and the surface area of the control volume |
| Answer» C. Product of the integrand at the control volume centre and the surface area of the control volume | |
| 3. |
In a two dimensional flow, how many terms does Simpson s rule need to approximate a surface integral? |
| A. | four terms |
| B. | one term |
| C. | two terms |
| D. | three terms |
| Answer» E. | |
| 4. |
Consider a two-dimensional flow. If f is the component of the flux vector normal to the control volume faces, which of these terms represent Sfd ( vec{S} )? |
| A. | ( Sigma_{k=1}^4 int_{S_k} f d vec{S} ) |
| B. | ( Sigma_{k=1}^2 int_{S_k} f d vec{S} ) |
| C. | ( Sigma_{k=1}^6 int_{S_k} f d vec{S} ) |
| D. | ( Sigma_{k=1}^8 int_{S_k} f d vec{S} ) |
| Answer» B. ( Sigma_{k=1}^2 int_{S_k} f d vec{S} ) | |
| 5. |
Which of these terms need a volume integral while modelling steady flows? |
| A. | Convection term |
| B. | Diffusion term |
| C. | Source term |
| D. | Rate of change term |
| Answer» D. Rate of change term | |
| 6. |
Which of these terms need a surface integral? |
| A. | Diffusion and rate of change terms |
| B. | Convection and source terms |
| C. | Convection and diffusion terms |
| D. | Diffusion and source terms |
| Answer» D. Diffusion and source terms | |
| 7. |
Which of these models will directly give the conservative equations suitable for the finite volume method? |
| A. | Finite control volume moving along with the flow |
| B. | Finite control volume fixed in space |
| C. | Infinitesimally small fluid element moving along with the flow |
| D. | Infinitesimally small fluid element fixed in space |
| Answer» C. Infinitesimally small fluid element moving along with the flow | |