MCQOPTIONS
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MCQOPTIONS
This section includes 5 Mcqs, each offering curated multiple-choice questions to sharpen your Heat Transfer knowledge and support exam preparation. Choose a topic below to get started.
| 1. |
For a given value of Nusselt number, the convective surface coefficient h is directly proportional to |
| A. | Length |
| B. | Mass |
| C. | Thermal conductivity |
| D. | Density |
| Answer» D. Density | |
| 2. |
At the interface of solid body, heat flows by conduction and is given by |
| A. | A (t <sub>s </sub> t <sub>infinity</sub>) |
| B. | h A (t <sub>s </sub> t <sub>infinity</sub>) |
| C. | h (t <sub>s </sub> t <sub>infinity</sub>) |
| D. | h A |
| Answer» C. h (t <sub>s </sub> t <sub>infinity</sub>) | |
| 3. |
Consider the above problem, calculate the temperature gradient at the surface |
| A. | 44636 degree Celsius/m |
| B. | 34636 degree Celsius/m |
| C. | 24636 degree Celsius/m |
| D. | 14636 degree Celsius/m |
| Answer» B. 34636 degree Celsius/m | |
| 4. |
The temperature profile at a particular location on a surface is prescribed by the identity(t s t) / (t s t infinity) = sin ( y/0.015) |
| A. | nIf thermal conductivity of air is stated to be 0.03 W/m K, determine the value of convective heat transfer coefficient |
| B. | 6.48 W/m<sup> 2</sup> K |
| C. | 6.38 W/m<sup> 2</sup> K |
| D. | 6.28 W/m<sup> 2</sup> K |
| E. | 6.18 W/m<sup> 2</sup> K |
| Answer» D. 6.28 W/m<sup> 2</sup> K | |
| 5. |
The temperature profile at a particular location in a thermal boundary layer is prescribed by n expression of the formt (y) = A- B y + C y 2 |
| A. | nWhere, A, B and Care constants. What is the value of heat transfer coefficient? |
| B. | B k/ (t <sub>s</sub> t<sub> infinity</sub>) |
| C. | 2 B k/ (t <sub>s</sub> t<sub> infinity</sub>) |
| D. | 3 B k/ (t <sub>s</sub> t<sub> infinity</sub>) |
| E. | 4 B k/ (t <sub>s</sub> t<sub> infinity</sub>) |
| Answer» B. B k/ (t <sub>s</sub> t<sub> infinity</sub>) | |