a string is fixed at both ends and is vibrating at 130 Hz l, which is...
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string is fixed at both ends and is vibrating at 130 Hz l, which is...
A string 3.30 m long and fixed at both ends is vibrating in its third harmonic....
A string 3.30 m long and fixed at both ends is vibrating in its third harmonic. The maximum displacement of any point on the string is 4.00 mm. The speed of transverse waves on this string is 59.5 m/s. (a) What are the wavelength and frequency of this standing wave? wavelength m frequency Hz (b) Write the wave function for this standing wave.
A string with both ends held fixed is vibrating in its third harmonic. The waves have...
A string with both ends held fixed is vibrating in its third harmonic. The waves have a speed of 194 m/s and a frequency of 225 Hz . The amplitude of the standing wave at an antinode is 0.390 cm . A. Calculate the maximum transverse velocity of the string at this point. B. Calculate the maximum transverse acceleration of the string at this point.
A guitar string of length 80 cm is fixed at both ends. The string has a...
A guitar string of length 80 cm is fixed at both ends. The string has a uniform volume density of 9000 kg/m and has a diameter of 0.75 mm. The string is under a tension of 40 N. Determine the wavelength of the fundamental harmonic on the guitar string. Calculate the wavelength of the sound wave traveling through air emitted by the first guitar string if the string is oscillating in the fundamental harmonic.
A string has a linear density of 6.00 × 10-3 kg/m and is under a tension...
A string has a linear density of 6.00 × 10-3 kg/m and is under a tension of 290 N. The string is 2.3 m long, is fixed at both ends, and is vibrating in the standing wave pattern (3rd harmonic). Determine the frequency of the traveling waves that make up the standing wave.
Problem 3: Vibrating string The string is fixed at two ends with distance 1.5m. Its mass...
Problem 3: Vibrating string The string is fixed at two ends with distance 1.5m. Its mass is 5g and the tension in the string is 50N and it vibrates on its third harmonic. a) What is the wavelength of waves of the string b) What is the frequency of the waves. c) The vibrations produce the sound with the same frequency. What is the wavelength of the sound emitted by the string?
A string with a mass density of 4.2 x 10-3 kg/m is under a tension of...
A string with a mass density of 4.2 x 10-3 kg/m is under a tension of 305 N and is fixed at both ends. One of its resonance frequencies is 1200 Hz. The next higher resonance frequency is 1350 Hz. (a) What is the fundamental frequency of this string? Hz (b) Which harmonics have the given frequencies? (Enter 1 for the first harmonic, 2 for the second harmonic, etc.) 1200 Hz 1350 Hz (C) What is the length of the...
A string is fixed at both ends. The mass of the string is 0.0010 kg and...
A string is fixed at both ends. The mass of the string is 0.0010 kg and the length is 2.4 m. The string is under a tension of 210 N. The string is driven by a variable frequency source to produce standing waves on the string. Find the wavelengths and frequencies of the first four modes of standing waves. Express all wavelengths rounded to two decimal places and all frequencies rounded to one decimal place. λ1=____ m λ2=___ m λ3=_____...
The third harmonic of a guitar string produces a note with a frequency of 330 Hz...
The third harmonic of a guitar string produces a note with a frequency of 330 Hz from a string with a linear mass density of 4.47*10-3 kg/m. The length of the guitar string is 0.65 meters. Draw a picture of the standing wave described above. Label the nodes and antinodes. Determine the wavelength of the standing wave that produces this note. What is the length of the guitar string (just the part that’s vibrating)? What is the tension in the...
The tension in a nylon monofilament fixed at both ends is 17.0 N. The mass per...
The tension in a nylon monofilament fixed at both ends is 17.0 N. The mass per unit length is 5.00 ✕ 10−3 kg/m, and its length is 41.0 cm. (a) What is the fundamental frequency (in Hz)? (b) What are the next three frequencies (in Hz) that could result in standing wave patterns? List them smallest to largest. second harmonic (Hz)= third harmonic (Hz)= fourth harmonic (Hz)=
PON TEACHER PRACTICE ANOTHER A string with mass density of 1.9 x 10 kg/m is under...
PON TEACHER PRACTICE ANOTHER A string with mass density of 1.9 x 10 kg/m is under a tension of 400 N and is fixed at both ends. One of its resonance frequencies is 405 Hz. The next higher resonance frequency is 40 Hz. (a) Vhat is the fundamental frequency of this string? Hz ( Which monies have the given frequencies? (Enter 1 for the first harmonic, 2 for the second harmonic, etc.) 45 Hz 40 HE (c) What is the...
Problem 3: Vibrating string The string is fixed at two ends with distance 1.5m. Its mass is 5g and the tension in the string is 50N and it vibrates on its third harmonic. a) What is the wavelength of waves of the string b) What is the frequency of the waves. c) The vibrations produce the sound with the same frequency. What is the wavelength of the sound emitted by the string?
A string with a mass density of 4.2 x 10-3 kg/m is under a tension of 305 N and is fixed at both ends. One of its resonance frequencies is 1200 Hz. The next higher resonance frequency is 1350 Hz. (a) What is the fundamental frequency of this string? Hz (b) Which harmonics have the given frequencies? (Enter 1 for the first harmonic, 2 for the second harmonic, etc.) 1200 Hz 1350 Hz (C) What is the length of the...
PON TEACHER PRACTICE ANOTHER A string with mass density of 1.9 x 10 kg/m is under a tension of 400 N and is fixed at both ends. One of its resonance frequencies is 405 Hz. The next higher resonance frequency is 40 Hz. (a) Vhat is the fundamental frequency of this string? Hz ( Which monies have the given frequencies? (Enter 1 for the first harmonic, 2 for the second harmonic, etc.) 45 Hz 40 HE (c) What is the...
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