A string has a length of 0.0015 km and a mass of 0.2 g. If the tension in the string is 150 N, what are the frequencies of the 1st harmonic, 100th harmonic, and 500th harmonic, it produces when plucked?
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Q: One of the harmonic frequencies for a particular string under tension is 321.00 Hz. The next higher…
A: Given Data: Harmonic frequency under tension is 321.00 Hz The next harmonic frequency is 327.42 Hz
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A: Given, mass=44gram Distance=7m Tension=47N
Q: Problem 3. A wave traveling on a Slinky® that is stretched to 4 m takes 2.4 s to travel the length…
A: Distance traveled:d=2L=2×4=8 mt=2.4 sNumber of nodes=4Number of antinodes=3
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Q: The A-string on a guitar has length L = 0.648 m and lin- ear mass density \mu = 4.25 g/m. If the…
A: Step 1:Given:The third harmonic frequency of a perfectly tuned guitar string is: f3=330HzThe length…
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A: a). Write the formula to calculate the harmonic frequencies of a pipe open at both ends is,
Q: . What is the wavelength
A: Wavelength is 17.55 cm Explanation is in next step.
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Q: 19. A 125 cm length of string has a mass of 2.00 g. It is stretched with a tension of 7.00 N between…
A: We’ll answer the first question since the exact one wasn’t specified. Please submit a new question…
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Q: A transverse wave on a string is given by y(x,t)=0.12 sin (3.0x -15.0t) Determine: For the case t=…
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Q: A distance of 5.00 cm is measured between two adjacent nodes of a standing wave on a 20.0-cm-long…
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Q: The third harmonic frequency of a standing wave is 62 Hz on a string of length 50 cm that is bound…
A: Given data: The frequency of the third harmonic of a standing wave f3 = 62 Hz Length (L) = 50 cm =…
Q: 4) A 125 cm length of string has mass 2.00 g and tension 7.00 N. (a) What is the wave speed for this…
A: Length , L = 125 cm = 1.25 m mass , m = 2 x 10-3 kg Tenison , T = 7 N To find = a) wave speed…
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- Two piano strings are played together producing 3 beats per second. The pitch of the first string is then raised by tightening it until its frequency is 280 Hz. When the strings are now played they produce 4 beats per second. What the is the frequency of vibration of the second string?A 2.5m long string is tied between two walls. It is excited at 707 Hz and produces a standing wave with 5 antinodes. If the tension on the string is known to be 500N, what is the mass of the string?A third harmonic frequency is being played on a pipe organ, Considered the pipe organ to be closed air column. If the speed inside the pipe is 343 metres per second and the frequency is 243 hertz, calculate the length of the pipe.
- For a standing wave on a string, the distance between nodes is 0.125 m, the frequency is 256 Hz, and the amplitude is 1.40 * 10-3 m. What are (a) the speed of waves on this string, (b) the maximum transverse velocity at an antinode, and (c) the maximum transverse acceleration at an antinode?A sinusoidal wave is traveling along a rope. The oscillator that generates the wave completes 45.0 vibrations in 35.0 s. A given crest of the wave travels 410 cm along the rope in 12.0 s. What is the wavelength of the wave?A string has a mass of 7.8g and a length of 1.55m. A second string has a mass of 4.4g and a length of 2.45m. One end of each string is melted to the other to form one long string. This combined string is stretched tight with a tension of 18.7N. How long would it take for a transverse disturbance introduced at one end of the string to reach the opposite end of the string?
- The third harmonic frequency of a standing wave is 285 Hz on a string of length 73 cm that is bound at the two ends and is under tension. What is the speed of traveling waves on this string?Tension is maintained in a string as in the figure below. The observed wave speed is v = 22.0 m/s when the suspended mass is m = 3.00 kg. (a) What is the mass per unit length of the string? |kg/m (b) What is the wave speed when the suspended mass is m = 2.25 kg? m/sA string vibrates at its fifth-harmonic frequency as it makes a standing wave. The amplitude at a point 40 cm from one end is three-quarters of the maximum amplitude. How long is the string?
- If the length of the entire string is L = 3.00 m, what is the wavelength of this transverse wave disturbance?A string of length 100.0 cm is fixed at both ends and is kept under a tension of 25.00N. The linear mass density of the string is 0.650 g/m.(a) What is the lowest resonant frequency of the string?(b) What are the frequencies of the second and third harmonics?(c) What is the wave speed for this string?(d) What is the lowest resonant frequency when the tension is increased to 35.00N?A stretched string fixed at each end has a mass of 40 g and a length of 6 m. The tension in the string is 43 N. What is the vibration frequency for the third harmonic? o 20.08 Hz o 53.75 Hz o 6.69 Hz o 13.39 Hz