An explosion is recorded by two microphones that are 2 miles apart. Microphone Upper M 1 receives the sound 7 seconds before microphone Upper M 2 . Assuming sound travels at 1100 feet per second, determine the possible locations of the explosion relative to the locations of the microphones.

The distance covered by the particle or the body in an hour is called speed. It is a scalar quantity. It is the ratio of distance to time.

We know that the speed formula

Speed = Distance/Time

An explosion is recorded by two microphones that are 2 miles apart.

Microphone Upper M1 receives the sound 7 seconds before microphone Upper M2.

Assuming sound travels at 1100 feet per second.

Then the possible locations of the explosion relative to the locations of the microphones will be

The distance traveled by sound in 7 seconds will be

d = 1100 × 7

d = 7700 ft

Then the distance of M2 from explosion is 7700 ft more than M1 from explosion.

More about the speed link is given below.

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An explosion is recorded by two microphones that are 2 miles apart. Microphone Upper M 1 receives the sound 7 seconds before microphone Upper M 2 . Assuming sound travels at 1100 feet per​ second, determine the possible locations of the explosion relative to the locations of the microphones.

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An explosion is recorded by two microphones that are 2 miles apart. Microphone Upper M 1 receives the sound 7 seconds before microphone Upper M 2 . Assuming sound travels at 1100 feet per second, determine the possible locations of the explosion relative to the locations of the microphones.