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Problem 3 The 3-m, 6 g wire is fixed at one end and attached at the...
Problem 3 The 3-m, 6 g wire is fixed at one end and attached at the...
Problem 3 The 3-m, 6 g wire is fixed at one end and attached at the other end to a signal generator. At a frequency of 1000 Hz the standing wave shown in the figure is created. Vibrator Determine the a) position of the 4th antinode from the fixed end, b) the tension and c) the wavenumber.
A 5.15-m-long string that is fixed at one end and attached to a long string of...
A 5.15-m-long string that is fixed at one end and attached to a long string of negligible mass at the other end is vibrating in its fifth harmonic, which has a frequency of 396 Hz. The amplitude of the motion at each antinode is 3.09 cm. (a) What is the wavelength of this wave? (b) What is the wave number? m-1 (c) What is the angular frequency? (d) Write the wave function for this standing wave. (Use the following as...
A 5.45-m-long string that is fixed at one end and attached to a long string of...
A 5.45-m-long string that is fixed at one end and attached to a long string of negligible mass at the other end is vibrating in its fifth harmonic, which has a frequency of 392 Hz. The amplitude of emotici at each antinode is 2.38 cm. (a) What is te wavelength of this wave? As - (b) What the wae number? ks (c) Wt is the ngular frequency? (d) Write the wave function for this standing wave. (Use the following as...
An experiment was conducted to test accuracy of a given frequency generator. One end of a...
An experiment was conducted to test accuracy of a given frequency generator. One end of a string was connected to the frequency generator and a hanging mass was attached to the other end of the string, as shown in the Figure. In this experiment, the hanging mass and the wavelength of the standing wave were measured at a certain frequency. The hanging mass and the wavelength were (146.0 ± 0.5) g, and (84.0 ± 0.5) cm, respectively. In addition, the...
A wire is attached to a wall, and the other end is attached to a motor...
A wire is attached to a wall, and the other end is attached to a motor that causes vibrations in the wire that result in the standing wave form of one and half cycles. The length of the wire is 2.0 m, and its mass is 3.2 grams. The tension in the wire is 100 N. What is the wavelength of this wave form? What is the wave speed? What is the frequency? What is the period? Include correct units.
A standing wave pattern is created on a string with mass density u- 3x 10 kg/m....
A standing wave pattern is created on a string with mass density u- 3x 10 kg/m. A wave generator with frequency f- 65 Hz is attached to one end of the string and the other end goes over a pulley and is connected to a mass (ignore the weight of the string between the pulley and mass). The distance between the generator and pulley is L- 0.74 m. Initially the 3rd harmonic wave pattern is formed. What is the wavelength...
A 200 g mass is hanging from a long string draped over a pulley and attached...
A 200 g mass is hanging from a long string draped over a pulley and attached to a fixed frequency generator which can operate in the range 60 – 120 Hz. The mass per unit length of the string is 1.51 g/m. The length of string between the frequency generator and the pulley is 90 cm. a) Which frequencies of the generator will result in standing waves on the string? b) Sketch each standing wave and list the mode (harmonic...
A wire is attached to a wall, and the other end is attached to a motor...
A wire is attached to a wall, and the other end is attached to a
motor that causes vibrations in the wire that result in the
standing wave form shown. The length of the wire is 2.0 m, and its
mass is 3.2 grams. The tension in the wire is 100 N.
(a) What is the wavelength of this wave form? Include correct
units.
(b) What is the wave speed? Include correct units.
(c) What is the frequency? Include correct...
Q. A steel wire with mass 37.0 g and length 7.10 m is stretched tightly between...
Q. A steel wire with mass 37.0 g and length 7.10 m is stretched tightly between its two endpoints. In its fundamental mode, the wire vibrates at a frequency of 59.0 Hz. When plucked, traveling waves bounce from one end to the other. a) What is the speed of waves propagating along the wire? b) Calculate the tension in the wire. c) A standing wave at the fundamental frequency has an amplitude of 0.340 cm . Calculate the magnitude of...
Problem A long string is fixed at one end and a standing wave is generated with...
Problem A long string is fixed at one end and a standing wave is generated with a mechanical oscillator attached at one end. The opposite end of the string can be considered as a node, and treat it as the x = 0 point. The distance between adjacent nodes on the string is 20.0 cm, and an antinode oscillates with a period of 0.659 s and an amplitude of 0.550 cm. (a) Find the displacement of a point on the...
Problem 3 The 3-m, 6 g wire is fixed at one end and attached at the other end to a signal generator. At a frequency of 1000 Hz the standing wave shown in the figure is created. Vibrator Determine the a) position of the 4th antinode from the fixed end, b) the tension and c) the wavenumber.
A 5.15-m-long string that is fixed at one end and attached to a long string of negligible mass at the other end is vibrating in its fifth harmonic, which has a frequency of 396 Hz. The amplitude of the motion at each antinode is 3.09 cm. (a) What is the wavelength of this wave? (b) What is the wave number? m-1 (c) What is the angular frequency? (d) Write the wave function for this standing wave. (Use the following as...
A 5.45-m-long string that is fixed at one end and attached to a long string of negligible mass at the other end is vibrating in its fifth harmonic, which has a frequency of 392 Hz. The amplitude of emotici at each antinode is 2.38 cm. (a) What is te wavelength of this wave? As - (b) What the wae number? ks (c) Wt is the ngular frequency? (d) Write the wave function for this standing wave. (Use the following as...
A standing wave pattern is created on a string with mass density u- 3x 10 kg/m. A wave generator with frequency f- 65 Hz is attached to one end of the string and the other end goes over a pulley and is connected to a mass (ignore the weight of the string between the pulley and mass). The distance between the generator and pulley is L- 0.74 m. Initially the 3rd harmonic wave pattern is formed. What is the wavelength...
A wire is attached to a wall, and the other end is attached to a
motor that causes vibrations in the wire that result in the
standing wave form shown. The length of the wire is 2.0 m, and its
mass is 3.2 grams. The tension in the wire is 100 N.
(a) What is the wavelength of this wave form? Include correct
units.
(b) What is the wave speed? Include correct units.
(c) What is the frequency? Include correct...
Problem A long string is fixed at one end and a standing wave is generated with a mechanical oscillator attached at one end. The opposite end of the string can be considered as a node, and treat it as the x = 0 point. The distance between adjacent nodes on the string is 20.0 cm, and an antinode oscillates with a period of 0.659 s and an amplitude of 0.550 cm. (a) Find the displacement of a point on the...
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