A string on a stringed instrument has a length of 1.5m and a mass of 5g....
A string on a stringed instrument has a length of 1.5m and a mass of 5g. The string is held taut by being pegged down at each end. The tension in the string is 200N. What would the second harmonic frequency be? Please include all equations used and units.
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A string on a stringed instrument has a length of 1.5m and a
mass of 5g....
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?
008 10.0 points A stringed instrument has a maximum string length of 0.4 m and is tuned so that a wave travels alon...
008 10.0 points A stringed instrument has a maximum string length of 0.4 m and is tuned so that a wave travels along the string at 120 m/s. What is the string's fundamental frequency at this length and wave speed? Answer in units of Hz.
1. a.) A stretched string held by two students has a length of 1.5m and a...
1. a.) A stretched string held by two students has a length of 1.5m and a mass of 0.25kg. How much tension must the two kids pull on the rope to produce waves on the string that would travel 5 m/s? b.) With what frequency must one student shake the string to produce the first standing wave? 2. Design the length of a organ pipe, open at both ends that would produce note A (110Hz) as a fundamental frequency (v=343m/s)...
8. A string with mass 1 g has a length of 0.5 m, and is held...
8. A string with mass 1 g has a length of 0.5 m, and is held fixed at either end under a tension of 200 N. a) What is the speed of a wave on the string? b) What is the fundamental wavelength of the string? c) What is the frequency of the third harmonic? d) What is the frequency of the second overtone?
For a stringed instrument, the tension on each string must be roughly the same to avoid...
For a stringed instrument, the tension on each string must be roughly the same to avoid warping. Suppose each string on an acoustic guitar has a tension of 79 N and is 64 cm long. The steel core of the string has a density of 7970 kg/m3. If the wavelength on a string is twice its length, then what is the linear density for the low E string (f = 82.4 Hz)? Answer=7.10e-03 kg/m What is the string's diameter? Traditionally,...
Consider a string with a length of 48.5 cm tied at both end (like on a...
Consider a string with a length of 48.5 cm tied at both end (like on a stringed instrument). If the frequency of the first harmonic on the string is 259 Hz, determine the speed of the wave in the string. Post your answer in m/s and with 3 significant figures.
Consider a string with a length of (47.5 +A) cm tied at both end (like on...
Consider a string with a length of (47.5 +A) cm tied at both end (like on a stringed instrument). If the frequency of the first harmonic on the string is (245+B) Hz, determine the speed of the wave in the string. Post your answer in m/s and with 3 significant figures. A= 1 B=11
Consider a string with a length of (47.5 +A) cm tied at both end (like on...
Consider a string with a length of (47.5 +A) cm tied at both end (like on a stringed instrument). If the frequency of the first harmonic on the string is (245+B) Hz, determine the speed of the wave in the string. Post your answer in m/s and with 3 significant figures. A=0 B=10
A string of length L, mass per unit length mu, and tension T is vibrating at...
A string of length L, mass per unit length mu, and tension T is vibrating at its fundamental frequency. What effect will the following have on the fundamental frequency? The length of the string is doubled, with all other factors held constant. The mass per unit length is doubled, with all other factors held constant. The tension is doubled, with all other factors held constant.
A mass m = 0.6kg is attached to a string of length L = 1.5m. The...
A mass m = 0.6kg is attached to a string of length L = 1.5m. The
string is pulled in such a way that it makes an angle of 25 degrees
with the vertical direction as shown in the figure below. The mass
is released from rest.
a. Find the speed of
as the mass passes through the bottom of its trajectory.
b. What is the tension in the string when the mass passes
through the bottom of its trajectory?...
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?
008 10.0 points A stringed instrument has a maximum string length of 0.4 m and is tuned so that a wave travels along the string at 120 m/s. What is the string's fundamental frequency at this length and wave speed? Answer in units of Hz.
A string of length L, mass per unit length mu, and tension T is vibrating at its fundamental frequency. What effect will the following have on the fundamental frequency? The length of the string is doubled, with all other factors held constant. The mass per unit length is doubled, with all other factors held constant. The tension is doubled, with all other factors held constant.
A mass m = 0.6kg is attached to a string of length L = 1.5m. The
string is pulled in such a way that it makes an angle of 25 degrees
with the vertical direction as shown in the figure below. The mass
is released from rest.
a. Find the speed of
as the mass passes through the bottom of its trajectory.
b. What is the tension in the string when the mass passes
through the bottom of its trajectory?...
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