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Chapter 9: Problem 47

Most automobile engines are cooled by water circulating through them and a radiator. However, the original Volkswagen Beetle had an air-cooled engine. Why might car designers choose water cooling over air cooling?

Short Answer

Expert verified
Answer: Car designers might choose water cooling over air cooling due to its better heat transfer properties, ability to maintain a stable temperature in various driving conditions, and higher specific heat capacity, which allows it to efficiently cool down high-performance engines. While water cooling requires more space and can produce more noise, it is less prone to issues related to extreme weather conditions compared to air cooling.

Step by step solution

01

Advantages of Water Cooling

Water cooling has a higher specific heat capacity, which means it can absorb more heat without its temperature increasing substantially. It also has better heat transfer properties, allowing it to efficiently cool down the engine. It can also maintain a more stable temperature in various driving conditions.
02

Disadvantages of Air Cooling

Air cooling is less effective in absorbing and transferring heat due to air's low specific heat capacity compared to water. This means that an air-cooled engine might not be as effective in cooling down, especially in high-performance vehicles where engines get extremely hot. Air cooling might also be susceptible to performance issues in different weather conditions, like extreme heat or cold.
03

Space and Noise Considerations

Water-cooled engines typically require a separate radiator and other components for managing the cooling system, taking more space in the car's design compared to air-cooled engines. They might also produce more noise due to the components such as water pumps and fans.
04

Comparison and Conclusion

Car designers might choose water cooling over air cooling due to its better heat transfer properties and the ability to maintain a stable temperature in various driving conditions. Although water cooling requires more space and can be noisier, it provides more efficient cooling for high-performance engines and is less prone to issues related to extreme weather conditions.

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