The velocity of sound in air at room temperature is 333 m/s. An air column is 33.3 cm in length. Find the frequency of its fifth overtone if it is (1) closed at one end and (2) open at both ends.
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A: Given data: Adjustable length closed to taut is, l=62 cm=0.62 m. Mass of wire is, m=7.25 g=7.25×10-3…
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Q: The 2nd harmonic of a string of length 80cm and linear mass density 2.6g/m has the same frequency as…
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Q: If two successive resonant frequencies for an open ended organ pipe (open at both ends) are 148 Hz…
A: Given data The first successive resonant frequency is given as f1 = 148 Hz. The second successive…
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A: We need to compute-Resonating length for open pipe=?The data given as-Resonating length for closed…
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Q: The first harmonic of a series created by a standing air wave in a tube open at one end only is 36.8…
A: Given in question - First harmonic frequency (f) = 36.8 Hz Length…
Q: A 3.00 m long air column is open at both ends. The frequency of a certain harmonic is 410 Hz, and…
A: Since you have asked multiple questions, we will solve the first question for you. If you want any…
Q: A pipe open at both ends has an n = 1 harmonic of 452 Hz. Find the pipe's length in meters if the…
A: Given data: A pipe opens at both ends n = 1 Frequency (f) = 452 Hz Speed of sound (v) = 344 m/s…
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Q: Question 9: A tube with only the left end (x = 0m) closed has a length of 2.5m and contains air at…
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Q: Suppose you want to build a musical instrument with a hollow pipe that is open at one end and closed…
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Q: What is the first overtone frequency
A: Answer is 210 Hz Explanation is in next step.
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Q: When a metal pipe is cut into two pieces, the lowest resonance frequency in one piece is 274 Hz and…
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A: We know that frequency f=v/λ
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Q: A flute is a 66.0 cm pipe that is open at both ends. What are the first three harmonics when all…
A: Given, Length = 66 cm = 0.66 m Speed of light (v) = 340 m/s
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Q: Suppose you want to build a musical instrument with a hollow pipe that is open at both ends. You…
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Q: A pipe, 30.0 cm long, is open at both ends. Which harmonic mode of the pipe resonates a 1.1 kHz…
A: Given:Length of pipe = 30 cm = 0.3 mFrequency = 1.1 kHz = 1100 HzSpeed of sound = 330 m/s
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Q: A low C (f = 65Hz) is sounded on a piano. If the length of the piano wire is 2.0 m and its mass…
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Q: the fundamental frequency of a system is 375hz. if the system is a cylindrical pipe with one end…
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Q: What would be the length (in cm) of a closed - end organ pipe has a 7th harmonic resonance frequency…
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Q: The overall length of a piccolo is 38.0 cm. The resonating air column is open at both ends. (a) Find…
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- A pipe that is open at both ends has a fundamental frequency of 311 Hz when the speed of sound in air is 346 m/s. (a) What is the length of the pipe? m(b) What are the next two harmonics? 1st Harmonic = Hz 2nd Harmonic = HzThe compression forces and mass densities of two solid materials are related as follows: Bs(1) = 3Bs(2)and ρ0(1) = 4ρ0(2). Calculate the speed of sound ratio V2/V1.A flute may be thought of as a pipe open at both ends. When all the holes of a well-designed flute are covered and the temperature is 20.0°C, it will produce sound with a frequency of 261.6 Hz (middle C). The speed of sound in air at 20.0°C is 343 m/s. (a) Find the length of the flute (in m), assuming middle C is the fundamental. m (b) When an identical flute is played at the same time and in the same manner (all holes covered) in a nearby cold room, a beat frequency of 5.49 Hz is heard. Determine the temperature in the cold room (in °C). °℃
- (a) If two sound waves, one in a gas medium and one in a liquid medium, are equal in intensity, what is the ratio of the pressure amplitude of the wave in the liquid to that of the wave in the gas? Assume that the density of the gas is 1.81 kg/m and the density of the liquid is 997 kg/m3. The speed of sound is 319 m/s in the gas medium and 1180 m/s in the liquid. (b) If the pressure amplitudes are equal instead, what is the ratio of the intensities of the waves (of the one in the liquid to that in the gas)? (a) Number Units Units (b) NumberA pipe of air closed at one end is measured to have a fundamental frequency of 583 Hz on a 20.0 ◦C day. The pipe is then filled with water. What is the frequency of the second overtone? Recall that the speed of sound in water is 1480 m/s. Focus on the formula used please, thanks in advance.The overall length of a piccolo is 33.0 cm. The resonating air column is open at both ends. (a) Find the frequency of the lowest note a piccolo can sound. (Assume that the speed of sound in air is 343 m/s.) Hz (b) Opening holes in the side of a piccolo effectively shortens the length of the resonant column. Assume the highest note a piccolo can sound is 3 500 Hz. Find the distance between adjacent antinodes for this mode of vibration. mm
- You are trying to design a musical instrument that consists of a pipe filled with air at 20oC, so that it produces two successive harmonics that have frequencies of 240 Hz and 280 Hz. The speed of sound in air at 20oC is 343 m/s. (a) Should the pipe be open at both ends, or closed at one end? Justify your response. (b) How long should the pipe be?A flute may be thought of as a pipe open at both ends. When all the holes of a well-designed flute are covered and the temperature is 20.0°C, it will produce sound with a frequency of 261.6 Hz (middle C). The speed of sound in air at 20.0°C is 343 m/s. (a) Find the length of the flute (in m), assuming middle C is the fundamental. 0.655 m (b) When an identical flute is played at the same time and in the same manner (all holes covered) in a nearby cold room, the cold room (in °C). beat frequency of 1.60 Hz is heard. Determine the temperature in x First, establish if the frequency in the cold room will be greater or smaller than in the warm room. See if you can write an expression which shows how the frequency depends on speed of sound and the length of the flute for both the warm and cold room and then combine these expressions to obtain the speed of sound in the cold room. Knowing the speed of sound in the cold room and how the speed of sound depends on the temperature, you can now…The A string on a violin has a fundamental frequency of 440 Hz . The length of the vibrating portion is 35 cm , and it has a mass of 0.40 g Under what tension must the string be placed?
- a vocal tract acts as an air column closed at one end. The vocal tract of a singer is 25.0cm long and its vibrating in the second overtone (3rd resonant length). if the speed of sound is 352 m/s, what frequency is the singer producing?A pipe has a length of 0.582 m and is open at both ends. Take the speed ofsound to be v = 343 m/s.(a)Calculate the two lowest harmonics of the pipe (in Hz).(b)Calculate the two lowest harmonics (in Hz) after one end of the pipe is closed.If the vocal tract of a human is considered a closed tube 17 cm in length, what is the frequency of what would become the second harmonic? Consider 340 m/s as the speed of sound. The answer must be in Hz units.