Question 5. On a cold frigid day, Prayush blows on a 0.500 m long toy flute that is openat both ends. The fundamental frequency of the flute is 350 Hz.(a) Determine the temperature of the air in the flute.(b) If the temperature is increased by 20.0° C, what is the new fundamental frequency ofthe Bute?(c) How many overtones are present within the audible range at 20.0° C?(Hint: Be sure to include the effects of temperature on both the speed of sound in the air andthe length of the flute, and the coefficient of linear expansion of flute as 19 x 10-e cr'.)

This is an organ pipe open at both ends. Length of the Organ pipe, L=0.5 m Fundamental frequency of…

Question 5. On a cold frigid day, Prayush blows on a 0.500 m long toy fute that is open at both ends. The fundamental frequrncy of the flute is 350 Hz. (a) Determine the temperature of the air in the flute. (b) If the temperature is increased by 20.0° C, what is the new fundamental frequency of the flute? (e) How many overtones are present within the andible range at 20.0° C? (Hint: Be sure to include the effects of temperature on both the speed of sound in the air end the length of the flute, and the corfficient of linear espension of flute as 19 x 10e cr)

Question 5. On a cold frigid day, Prayush blows on a 0.500 m long toy fute that is open at both ends. The fundamental frequrncy of the flute is 350 Hz. (a) Determine the temperature of the air in the flute. (b) If the temperature is increased by 20.0° C, what is the new fundamental frequency of the flute? (e) How many overtones are present within the andible range at 20.0° C? (Hint: Be sure to include the effects of temperature on both the speed of sound in the air end the length of the flute, and the corfficient of linear espension of flute as 19 x 10e cr)

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