MCQOPTIONS
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MCQOPTIONS
This section includes 28 Mcqs, each offering curated multiple-choice questions to sharpen your Thermodynamics knowledge and support exam preparation. Choose a topic below to get started.
| 1. |
A radiant heating lamp has a surface temperature of 1000 K with ε = 0.8. How large a surface area is needed to provide 250 W of radiation heat transfer? |
| A. | 0.0035 m2 |
| B. | 0.0045 m2 |
| C. | 0.0055 m2 |
| D. | 0.0065 m2 |
| Answer» D. 0.0065 m2 | |
| 2. |
A 2 m2 window has a surface temperature of 15°C and the outside wind is blowing air at 2°C across it with a convection heat transfer coefficient of h = 125 W/m2K. What is the total heat transfer loss? |
| A. | 2350 W |
| B. | 1250 W |
| C. | 2250 W |
| D. | 3250 W |
| Answer» E. | |
| 3. |
Find the rate of conduction heat transfer through a 1.5 cm thick hardwood board, k = 0.16 W/m K, with a temperature difference between the two sides of 20°C. |
| A. | 113 W/m2 |
| B. | 213 W/m2 |
| C. | 230 W/m2 |
| D. | 312 W/m2 |
| Answer» C. 230 W/m2 | |
| 4. |
A water-heater is covered up with insulation boards over a total surface area of 3 m2. The inside board surface is at 75°C and the outside surface is at 20°C and the board material has a conductivity of 0.08 W/m K. How thick a board should it be to limit the heat transfer loss to 200 W ? |
| A. | 0.066 m |
| B. | 0.166 m |
| C. | 0.266 m |
| D. | 0.366 m |
| Answer» B. 0.166 m | |
| 5. |
A radiant heat lamp is a rod, 0.5 m long, 0.5 cm in diameter, through which 400 W of electric energy is deposited. Assume the surface emissivity to be 0.9 and neglecting incoming radiation, find the rod surface temperature? |
| A. | 700K |
| B. | 800K |
| C. | 900K |
| D. | 1000K |
| Answer» E. | |
| 6. |
A burning wood in the fireplace has a surface temperature of 450°C. Assume the emissivity to be 1 and find the radiant emission of energy per unit area. |
| A. | 15.5 kW/m2 |
| B. | 16.5 kW/m2 |
| C. | 17.5 kW/m2 |
| D. | 18.5 kW/m2 |
| Answer» B. 16.5 kW/m2 | |
| 7. |
As the car slows down, the brake shoe and steel drum continuously absorbs 25 W. Assume a total outside surface area of 0.1 m2 with a convective heat transfer coefficient of 10 W/Km2 to the air at 20°C. How hot does the outside brake and drum surface become when steady conditions are reached? |
| A. | 25°C |
| B. | 35°C |
| C. | 45°C |
| D. | 55°C |
| Answer» D. 55°C | |
| 8. |
A small light bulb (25 W) inside a refrigerator is kept on and 50 W of energy from the outside seeps into the refrigerated space. How much of temperature difference to the ambient(at 20°C) must the refrigerator have in its heat exchanger having an area of 1 m2 and heat transfer coefficient of 15 W/Km2 to reject the leak of energy. |
| A. | 0°C |
| B. | 5°C |
| C. | 10°C |
| D. | 15°C |
| Answer» C. 10°C | |
| 9. |
The black grille on the back of a refrigerator has a surface temperature of 35°C with a surface area of 1 m2. Heat transfer to the room air at 20°C takes place with convective heat transfer coefficient of 15 W/Km^2. How much energy is removed during 15 minutes of operation? |
| A. | 202.5 kJ |
| B. | 212.5 kJ |
| C. | 222.5 kJ |
| D. | 232.5 kJ |
| Answer» B. 212.5 kJ | |
| 10. |
A large heat exchanger transfers a total of 100 MW. Assume the wall separating steam and seawater is 4 mm of steel, conductivity 15 W/m K and that a maximum of 5°C difference between the two fluids is allowed. Find the required minimum area for the heat transfer. |
| A. | 180 m2 |
| B. | 280 m2 |
| C. | 380 m2 |
| D. | 480 m2 |
| Answer» E. | |
| 11. |
On a winter day with atmospheric air at −15°C, the outside front wind-shield of a car has surface temperature of +2°C, maintained by blowing hot air on the inside surface. If the wind-shield is 0.5 m2 and the outside convection coefficient is 250 W/Km2, find the rate of energy loss through front wind-shield. |
| A. | 125 W |
| B. | 1125 W |
| C. | 2125 W |
| D. | 3125 W |
| Answer» D. 3125 W | |
| 12. |
A water-heater is covered with insulation boards over a total surface area of 3 m2. The inside board surface is at 75°C and the outside being at 20°C and the conductivity of material being 0.08 W/m K. Find the thickness of board to limit the heat transfer loss to 200 W ? |
| A. | 0.036 m |
| B. | 0.046 m |
| C. | 0.056 m |
| D. | 0.066 m |
| Answer» E. | |
| 13. |
A pot of steel(conductivity 50 W/m K), with a 5 mm thick bottom is filled with liquid water at 15°C. The pot has a radius of 10 cm and is now placed on a stove that delivers 250 W as heat transfer. Find the temperature on the outer pot bottom surface assuming the inner surface to be at 15°C. |
| A. | 15.8°C |
| B. | 16.8°C |
| C. | 18.8°C |
| D. | 19.8°C |
| Answer» B. 16.8°C | |
| 14. |
The sun shines on a 150 m2 road surface so it is at 45°C. Below the 5cm thick asphalt(average conductivity of 0.06 W/m K), is a layer of rubbles at 15°C. Find the rate of heat transfer to the rubbles. |
| A. | 5300 W |
| B. | 5400 W |
| C. | 5500 W |
| D. | 5600 W |
| Answer» C. 5500 W | |
| 15. |
A_BURNING_WOOD_IN_THE_FIREPLACE_HAS_A_SURFACE_TEMPERATURE_OF_450¬¨ àûC._ASSUME_THE_EMISSIVITY_TO_BE_1_AND_FIND_THE_RADIANT_EMISSION_OF_ENERGY_PER_UNIT_AREA.?$# |
| A. | 15.5 kW/m<sup>2</sup> |
| B. | 16.5 kW/m<sup>2</sup> |
| C. | 17.5 kW/m<sup>2</sup> |
| D. | 18.5 kW/m<sup>2</sup> |
| Answer» B. 16.5 kW/m<sup>2</sup> | |
| 16. |
A water-heater is covered up with insulation boards over a total surface area of 3 m2. The inside board surface is at 75°C and the outside surface is at 20°C and the board material has a conductivity of 0.08 W/m K. How thick a board should it be to limit the heat transfer loss to 200 W ?$# |
| A. | 0.066 m |
| B. | 0.166 m |
| C. | 0.266 m |
| D. | 0.366 m |
| Answer» B. 0.166 m | |
| 17. |
A_radiant_heat_lamp_is_a_rod,_0.5_m_long,_0.5_cm_in_diameter,_through_which_400_W_of_electric_energy_is_deposited._Assume_the_surface_emissivity_to_be_0.9_and_neglecting_incoming_radiation,_find_the_rod_surface_temperature?$ |
| A. | 700K |
| B. | 800K |
| C. | 900K |
| D. | 1000K |
| Answer» E. | |
| 18. |
A radiant heating lamp has a surface temperature of 1000 K with ε = 0.8. How large a surface area is needed to provide 250 W of radiation heat transfer?$ |
| A. | 0.0035 m2 |
| B. | 0.0045 m2 |
| C. | 0.0055 m2 |
| D. | 0.0065 m2 |
| Answer» D. 0.0065 m2 | |
| 19. |
A 2 m2 window has a surface temperature of 15°C and the outside wind is blowing air at 2°C across it with a convection heat transfer coefficient of h = 125 W/m2K. What is the total heat transfer loss?$ |
| A. | 2350 W |
| B. | 1250 W |
| C. | 2250 W |
| D. | 3250 W |
| Answer» E. | |
| 20. |
Find_the_rate_of_conduction_heat_transfer_through_a_1.5_cm_thick_hardwood_board,_k_=_0.16_W/m_K,_with_a_temperature_difference_between_the_two_sides_of_20°C.$ |
| A. | 113 W/m<sup>2</sup> |
| B. | 213 W/m<sup>2</sup> |
| C. | 230 W/m<sup>2</sup> |
| D. | 312 W/m<sup>2</sup> |
| Answer» C. 230 W/m<sup>2</sup> | |
| 21. |
As the car slows down, the brake shoe and steel drum continuously absorbs 25 W. Assume a total outside surface area of 0.1 m2 with a convective heat transfer coefficient of 10 W/Km2 to the air at 20°C. How hot does the outside brake and drum surface become when steady conditions are reached?# |
| A. | 25°C |
| B. | 35°C |
| C. | 45°C |
| D. | 55°C |
| Answer» D. 55¬¨¬®‚Äö√†√ªC | |
| 22. |
A small light bulb (25 W) inside a refrigerator is kept on and 50 W of energy from the outside seeps into the refrigerated space. How much of temperature difference to the ambient(at 20°C) must the refrigerator have in its heat exchanger having an area of 1 m2 and heat transfer coefficient of 15 W/Km2 to reject the leak of energy.$ |
| A. | 0°C |
| B. | 5°C |
| C. | 10°C |
| D. | 15°C |
| Answer» C. 10¬¨¬®‚Äö√†√ªC | |
| 23. |
The black grille on the back of a refrigerator has a surface temperature of 35°C with a surface area of 1 m2. Heat transfer to the room air at 20°C takes place with convective heat transfer coefficient of 15 W/Km^2. How much energy is removed during 15 minutes of operation?$ |
| A. | 202.5 kJ |
| B. | 212.5 kJ |
| C. | 222.5 kJ |
| D. | 232.5 kJ |
| Answer» B. 212.5 kJ | |
| 24. |
A large heat exchanger transfers a total of 100 MW. Assume the wall separating steam and seawater is 4 mm of steel, conductivity 15 W/m K and that a maximum of 5°C difference between the two fluids is allowed. Find the required minimum area for the heat transfer.$ |
| A. | 180 m<sup>2</sup> |
| B. | 280 m<sup>2</sup> |
| C. | 380 m<sup>2</sup> |
| D. | 480 m<sup>2</sup> |
| Answer» E. | |
| 25. |
On a winter day with atmospheric air at −15°C, the outside front wind-shield of a car has surface temperature of +2°C, maintained by blowing hot air on the inside surface. If the wind-shield is 0.5 m2 and the outside convection coefficient is 250 W/Km2, find the rate of energy loss through front wind-shield.$ |
| A. | 125 W |
| B. | 1125 W |
| C. | 2125 W |
| D. | 3125 W |
| Answer» D. 3125 W | |
| 26. |
A water-heater is covered with insulation boards over a total surface area of 3 m2. The inside board surface is at 75°C and the outside being at 20°C and the conductivity of material being 0.08 W/m K. Find the thickness of board to limit the heat transfer loss to 200 W ?$ |
| A. | 0.036 m |
| B. | 0.046 m |
| C. | 0.056 m |
| D. | 0.066 m |
| Answer» E. | |
| 27. |
A pot of steel(conductivity 50 W/m K), with a 5 mm thick bottom is filled with liquid water at 15°C. The pot has a radius of 10 cm and is now placed on a stove that delivers 250 W as heat transfer. Find the temperature on the outer pot bottom surface assuming the inner surface to be at 15°C.$ |
| A. | 15.8°C |
| B. | 16.8°C |
| C. | 18.8°C |
| D. | 19.8°C |
| Answer» B. 16.8¬¨¬®‚Äö√†√ªC | |
| 28. |
The sun shines on a 150 m2 road surface so it is at 45°C. Below the 5cm thick asphalt(average conductivity of 0.06 W/m K), is a layer of rubbles at 15°C. Find the rate of heat transfer to the rubbles. |
| A. | 5300 W |
| B. | 5400 W |
| C. | 5500 W |
| D. | 5600 W |
| Answer» C. 5500 W | |