A vulture is flying at a speed of 8.806 m/s, producing a sound wave at a frequency of 1600 Hz. The speed of sound in air is 343 m/s. A crow is flying such that the vulture and the crow are flying directly towards each other. The crow is flying at 3.551 m/s. Calculate the frequency of the sound detected by the crow as the two birds approach each other. Submit your answer after rounding it to zero decimal place. You are required to show your work in the file you submit. QUESTION 2 Question 1 continued.... The crow is scared of the vulture. It turns back and starts to fly away from the vulture with a speed of 8.354 m/s. The vulture is now following the crow at a speed of 13.44 m/s. Calculate the frequency of the sound as detected by the crow. The frequency of the sound produced by the crow and the speed of the sound in air are same as in Question 1.
A vulture is flying at a speed of 8.806 m/s, producing a sound wave at a frequency of 1600 Hz. The speed of sound in air is 343 m/s. A crow is flying such that the vulture and the crow are flying directly towards each other. The crow is flying at 3.551 m/s. Calculate the frequency of the sound detected by the crow as the two birds approach each other. Submit your answer after rounding it to zero decimal place. You are required to show your work in the file you submit. QUESTION 2 Question 1 continued.... The crow is scared of the vulture. It turns back and starts to fly away from the vulture with a speed of 8.354 m/s. The vulture is now following the crow at a speed of 13.44 m/s. Calculate the frequency of the sound as detected by the crow. The frequency of the sound produced by the crow and the speed of the sound in air are same as in Question 1.
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![A vulture is flying at a speed of 8.806 m/s, producing a sound wave at a frequency of 1600 Hz. The speed of sound in air is 343 m/s. A crow is
flying such that the vulture and the crow are flying directly towards each other. The crow is flying at 3.551 m/s. Calculate the frequency of the
sound detected by the crow as the two birds approach each other.
Submit your answer after rounding it to zero decimal place.
You are required to show your work in the file you submit.
QUESTION 2
Question 1 continued....
The crow is scared of the vulture. It turns back and starts to fly away from the vulture with a speed of 8.354 m/s. The vulture is now following the
crow at a speed of 13.44 m/s. Calculate the frequency of the sound as detected by the crow. The frequency of the sound produced by the crow
and the speed of the sound in air are same as in Question 1.
Submit your answer after rounding it to zero decimal place.
You are required to show your work in the file you submit.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F84f39a0e-1c16-43ec-bcb3-7f889ca233a2%2F85b5f357-104d-4f3d-93db-92c04bc94cbc%2Fceq7nab_processed.jpeg&w=3840&q=75)
Transcribed Image Text:A vulture is flying at a speed of 8.806 m/s, producing a sound wave at a frequency of 1600 Hz. The speed of sound in air is 343 m/s. A crow is
flying such that the vulture and the crow are flying directly towards each other. The crow is flying at 3.551 m/s. Calculate the frequency of the
sound detected by the crow as the two birds approach each other.
Submit your answer after rounding it to zero decimal place.
You are required to show your work in the file you submit.
QUESTION 2
Question 1 continued....
The crow is scared of the vulture. It turns back and starts to fly away from the vulture with a speed of 8.354 m/s. The vulture is now following the
crow at a speed of 13.44 m/s. Calculate the frequency of the sound as detected by the crow. The frequency of the sound produced by the crow
and the speed of the sound in air are same as in Question 1.
Submit your answer after rounding it to zero decimal place.
You are required to show your work in the file you submit.
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