A string of length 0.25 m has a mass per unit length of 0.040 kg/m. The...
A string of length 0.25 m has a mass per unit length of 0.040 kg/m. The frequency third harmonic of the string is 270 Hz. What is the tension in the string? No Figure available.
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A string of length 0.25 m has a mass per unit length of 0.040
kg/m. The...
A rope has a length of 5.00 m between its two fixed points and a mass per unit length (linear density) of 40.0 g / m. if the string vibrates at a fundamental frequency of 20 Hz. a) Calculate the tension of the string. b) Calculate the frequency and wavele
A rope has a length of 5.00 m between its two fixed points and a mass per unit length (linear density) of 40.0 g / m. if the string vibrates at a fundamental frequency of 20 Hz. a) Calculate the tension of the string. b) Calculate the frequency and wavelength of the second harmonic (n = 2). c) Calculate the frequency and wavelength of the third harmonic. d) the speed of propagation of the wave.
algebra based physics 1. A steel guitar string has a mass per length of 0.720 g/m....
algebra based physics
1. A steel guitar string has a mass per length of 0.720 g/m. If the length of the string between two fixed ends is 54.6 cm, what tension is needed for fundamental frequency of middle C (261.6 Hz)? a. What is the wavelength of the fundamental mode? b. What is the speed of the waves on the string? c. What tension is needed for the fundamental frequency? 2. Sketch the waveform of the third harmonic for a...
The high E-string of a steel string guitar is about L = 0.7m long. It has a mass per unit length of p = 5.3 *10^-4 kg/m....
The high E-string of a steel string guitar is about L = 0.7m
long. It has a mass per unit length of p = 5.3 *10^-4 kg/m. Find
the tension T required to properly tune the string, given that a
high E has a frequency of f = 1318.51 hertz
(a) The high E-string of a steel string guitar is about L 0.7 m long. It has a mass per unit length of ρ= 5.3 x 10-4 kg/m. Find the...
a 2.0 m length of string with a mass density of 2.95 x 10^-4 kg/m is...
a 2.0 m length of string with a mass density of 2.95 x 10^-4
kg/m is fixed at both ends and driven at 120 Hz. The tension is
varied to obtain standing waves (resonance) on the string.
1. what is the longest wavelength for a standing wave possible
on the string?
2. the tension on the string is varies to obtain fourth
harmonic
a. what is the wavelength of this standing wave?
b. what is the wave speed
3. what...
A rope with a total length of 6.50 m has a mass of 0.689 kg. It...
A rope with a total length of 6.50 m has a mass of 0.689 kg. It vibrates in a standing wave as shown below. The hanging mass provides a tension of 8.26 N. 5.00 m a) What is the mass per unit length of the rope? b) What is the wave speed on the rope? What is the frequency of the wave? A. The mass per unit length is 1.27 kg/m B. The mass per unit length is 0.106 kg/m...
A stretched string fixed at each end has a mass of 34.0 g and a length...
A stretched string fixed at each end has a mass of 34.0 g and a length of 8.60 m. The tension in the string is 47.0 N. (a) Determine the positions of the nodes and antinodes for the third harmonic. (Enter your answers from smallest to largest distance from one end of the string.) nodes: m m m m antinodes: m m m (b) What is the vibration frequency for this harmonic? Hz
A string with a mass density of 4.5 ✕ 10-3 kg/m is under a tension of...
A string with a mass density of 4.5 ✕ 10-3 kg/m is under a tension of 400 N and is fixed at both ends. One of its resonance frequencies is 195 Hz. The next higher resonance frequency is 260 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.) 195 Hz 260 Hz (c) What is the length of the...
A stretched string fixed at each end has a mass of 47.0 g and a length...
A stretched string fixed at each end has a mass of 47.0 g and a length of 7.40 m. The tension in the string is 45.0 N. a) Determine the positions of the nodes and antinodes for the third harmonic. (Enter your answers from smallest to largest distance from one end of the string.) Nodes: in m 1) 2) 3) 4) Antinodes: in m 1) 2) 3) b)What is the vibration frequency for this harmonic in Hz?
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 with a mass per length of 2.00 g/m is stretched between two points that...
A string with a mass per length of 2.00 g/m is stretched between two points that are 0.400 m apart. The second mode of frequency of the stretched string is 50.0 Hz lower than the third mode frequency. What is the tension in the string? Answer is 281 N, not sure of the equations to use.
algebra based physics
1. A steel guitar string has a mass per length of 0.720 g/m. If the length of the string between two fixed ends is 54.6 cm, what tension is needed for fundamental frequency of middle C (261.6 Hz)? a. What is the wavelength of the fundamental mode? b. What is the speed of the waves on the string? c. What tension is needed for the fundamental frequency? 2. Sketch the waveform of the third harmonic for a...
The high E-string of a steel string guitar is about L = 0.7m
long. It has a mass per unit length of p = 5.3 *10^-4 kg/m. Find
the tension T required to properly tune the string, given that a
high E has a frequency of f = 1318.51 hertz
(a) The high E-string of a steel string guitar is about L 0.7 m long. It has a mass per unit length of ρ= 5.3 x 10-4 kg/m. Find the...
a 2.0 m length of string with a mass density of 2.95 x 10^-4
kg/m is fixed at both ends and driven at 120 Hz. The tension is
varied to obtain standing waves (resonance) on the string.
1. what is the longest wavelength for a standing wave possible
on the string?
2. the tension on the string is varies to obtain fourth
harmonic
a. what is the wavelength of this standing wave?
b. what is the wave speed
3. what...
A rope with a total length of 6.50 m has a mass of 0.689 kg. It vibrates in a standing wave as shown below. The hanging mass provides a tension of 8.26 N. 5.00 m a) What is the mass per unit length of the rope? b) What is the wave speed on the rope? What is the frequency of the wave? A. The mass per unit length is 1.27 kg/m B. The mass per unit length is 0.106 kg/m...
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...
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