using sound wave concepts to explain real - world scenarios\nas elevation increases, temperature decreases…

using sound wave concepts to explain real - world scenarios\nas elevation increases, temperature decreases. at which elevation will sound travel fastest?\n500 meters\n1,000 meters\n1,500 meters\n2,000 meters\nelevation (meters) temperature of air (°c)\n500 11.8\n1,000 8.5\n1,500 5.3\n2,000 2.0

using sound wave concepts to explain real - world scenarios\nas elevation increases, temperature decreases. at which elevation will sound travel fastest?\n500 meters\n1,000 meters\n1,500 meters\n2,000 meters\nelevation (meters) temperature of air (°c)\n500 11.8\n1,000 8.5\n1,500 5.3\n2,000 2.0

Answer

Explanation:

Step1: Recall sound - speed and temperature relation

The speed of sound in air is approximately proportional to the square - root of the absolute temperature. Higher temperature means higher sound speed.

Step2: Compare given temperatures

We have temperatures at different elevations: 11.8°C at 500 meters, 8.5°C at 1000 meters, 5.3°C at 1500 meters, and 2.0°C at 2000 meters.

Step3: Determine the elevation with highest temperature

The highest temperature among the given values is 11.8°C which corresponds to an elevation of 500 meters.

Answer:

500 meters