Heat transfer from the coolant to the air is improved when which condition occurs?

• A. The coolant is at a constant temperature
• B. The surface area of the radiator is minimized
• C. The temperature difference is great
• D. The coolant flow rate is increased

Answer: (C)

The effectiveness of heat transfer from the coolant to the air is significantly enhanced when the temperature difference is substantial. This is based on the principles of thermodynamics, particularly the concept that heat transfer occurs more efficiently when there is a larger gradient between two temperatures.

When the coolant is significantly hotter than the surrounding air, the rate at which heat is transferred increases. This is due to the fact that heat naturally flows from a region of higher temperature to a region of lower temperature. Therefore, when the temperature difference between the coolant and the air is great, the thermal energy moves more rapidly from the coolant into the air, improving the cooling process.

In contrast, if the coolant is at a constant temperature, there is no temperature gradient to drive the heat transfer. Minimizing the surface area of the radiator would decrease the amount of contact area available for heat exchange, and increasing the coolant flow rate may enhance heat transfer in some contexts, but it is primarily the temperature difference that is the most crucial factor for efficient heat transfer.