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A rescue plane flies horizontally at a constant speed searching for a disabled boat. When the plane is directly above the boat, the boat’s
Question
A rescue plane flies horizontally at a constant speed searching for a disabled boat. When the plane is directly above the boat, the boat’s crew blows a loud horn. By the time the plane’s sound detector receives the horn’s sound, the plane has traveled a distance equal to one-fourth its altitude above the ocean. Assuming it takes the sound 2.02 s to reach the plane, and taking the speed of sound to be 343 m/s, determine the following.(a) The speed of the plane. (Take the speed of sound to be 343 m/s.) ___m/s (b) What is its altitude? ___m
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Physics
5 years
2021-08-27T08:34:23+00:00
2021-08-27T08:34:23+00:00 1 Answers
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Answers ( )
Answer:
a The speed of the plane is
b The altitude of the plane is
Explanation:
Let the altitude of the plane is Z
The distance at which the plane hears the horn is
The time taken for the sound to reach the plane is
The speed of sound is
The distance from the point the plane hears the sound to the boat is mathematically evaluated as
substituting values
This is the diagonal distance of the boat to the plane (hypotenuse)
The altitude of the plane is the vertical distance of the plane from the boat
and the horizontal distance of the plane from the boat is d
Applying Pythagoras theorem
=>![D^2 = Z^2 +[ \frac{1}{4} * Z ]^2](https://documen.tv/wp-content/ql-cache/quicklatex.com-5a2a4af61c2f723c5f58f4f2aaffda11_l3.png "Rendered by QuickLaTeX.com")
substituting values
=>
=>
=>
=>
Now the velocity of the plane is