These are so-called nasal sounds of which examples in English would be "m", "n", and "ng" are created by having air expelled through the vocal cords leave almost entirely through the nose not the mouth. The pharynx and nasal cavity combine to form a resonanting chamber that is open at one end. (a) if the overall length of the chamber is 22 cm what is the chambers fundamental frequency? (b) what is the frequency of the chambers third harmonic? The air being expelled through the vocal cords has been warmed by the body's temperature, so assume the speed of sound in air conditions is 353 m/s pls helppppppp
These are so-called nasal sounds of which examples in English would be "m", "n", and "ng" are created by having air expelled through the vocal cords leave almost entirely through the nose not the mouth. The pharynx and nasal cavity combine to form a resonanting chamber that is open at one end. (a) if the overall length of the chamber is 22 cm what is the chambers fundamental frequency? (b) what is the frequency of the chambers third harmonic? The air being expelled through the vocal cords has been warmed by the body's temperature, so assume the speed of sound in air conditions is 353 m/s pls helppppppp
University Physics Volume 1
18th Edition
ISBN:9781938168277
Author:William Moebs, Samuel J. Ling, Jeff Sanny
Publisher:William Moebs, Samuel J. Ling, Jeff Sanny
Chapter17: Sound
Section: Chapter Questions
Problem 82P: A crude approximation of voice production is to consider the breathing passages and mouth to be a...
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These are so-called nasal sounds of which examples in English would be "m", "n", and "ng" are created by having air expelled through the vocal cords leave almost entirely through the nose not the mouth. The pharynx and nasal cavity combine to form a resonanting chamber that is open at one end. (a) if the overall length of the chamber is 22 cm what is the chambers fundamental frequency? (b) what is the frequency of the chambers third harmonic? The air being expelled through the vocal cords has been warmed by the body's temperature, so assume the speed of sound in air conditions is 353 m/s pls helppppppp
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