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A massiess String is attached to a wall. Jack holds one end and shakes it up...
Cousin Throcky holds one end of the string and wiggles it up and down sinusoidally with...
Cousin Throcky holds one end of the string and wiggles it up and
down sinusoidally with frequency 2.00 Hz and amplitude 0.075 m. The
wave speed on the string is 12 m/s. At t = 0 s, Throcky’s end has
maximum positive displacement and is instantaneously at rest.
Assume the wave travels to the right and no wave bounces back from
the far end.
(vi)Derive an equation for maximum transverse velocity. Calculate the value. (3 marks) (vii)At what maximum power...
A string is stretched to a tension of 100 N, and has a linear density of...
A string is stretched to a tension of 100 N, and has a linear density of 0.025 kg/m. An input disturbance causing a sinusoidal wave has a frequency of 150 Hz, with an amplitude of 5 cm. Determine the speed of the wave. Determine the wavelength. Write down the equation describing the displacement of the string as a function of the position and time.
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...
One end of horizontal string of linear density kg/m is attached to a small amplitude 60-Hz vibrator....
One end of horizontal string of linear density kg/m is attached to a small amplitude 60-Hz vibrator. The string passes over a pulley, a distance 1.40 m away and weights are hung from this end. What mass must be hung from this end of the string to produce (a) one loop, (b) two loops, (c) five loops of a standing wave. Assume that the end of the string with the vibrator is a node, which is nearly true. (d) Why can the...
One end of a 1,20 m long string is attached to a tuning fork with the...
One end of a 1,20 m long string is attached to a tuning fork
with the frequency of 200Hz. On the other end of the string, hangs
a weight with the mass of 2kg over a pulley and stretches the
string. If the tuning fork is struck, a standing wave with 4 curves
is formed. (Standing wave is when one end of the wave is
fixed.)
a) What is the wavelength of this curve?
b) From the string, sound waves...
By wiggling one end, a sinusoidal wave is made to travel along a stretched string that...
By wiggling one end, a sinusoidal wave is made to travel along a stretched string that has a mass per unit length of 22.0 g/m. The wave may be described by the wave function y 0.20 sin (0.90x-42) where x and y are in meters and t s in seconds. 1. (a) Determine the speed of the wave. Is the wave moving in the +x direction or the -x direction? b) What is the tension in the stretched string? (c)...
A string of length L = 1.2 m is attached at one end to a wave...
A string of length L = 1.2 m is attached at one end to a wave oscillator, which is vibrating at a frequency f = 80 Hz. The other end of the string is attached to a mass hanging over a pulley as shown in the diagram below. When a particular hanging mass is suspended from the string, a standing wave with two segments is formed. When the weight is reduced by 2.2 kg, a standing wave with five segments...
Question 11 (2 points) The end of a string is attached to an oscillator with a...
Question 11 (2 points) The end of a string is attached to an oscillator with a frequency of 60 Hz, while the other end is attached to a stationary wall. When standing waves were formed on the string, the distance between the third node and the sixth node was measured to be 48 cm. What is the speed of the wave? 38.4 m/s 14.4 m/s 19.2 m/s 28.8 m/s Question 12 (2 points) When light passes between media with different...
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 a standing wave with a maximum displacement of 3 cm is created. Vibrator3 m 0.7 m and t= 0.2 s? What is the vertical displacement at x
Cousin Throcky holds one end of the string and wiggles it up and
down sinusoidally with frequency 2.00 Hz and amplitude 0.075 m. The
wave speed on the string is 12 m/s. At t = 0 s, Throcky’s end has
maximum positive displacement and is instantaneously at rest.
Assume the wave travels to the right and no wave bounces back from
the far end.
(vi)Derive an equation for maximum transverse velocity. Calculate the value. (3 marks) (vii)At what maximum power...
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...
One end of a 1,20 m long string is attached to a tuning fork
with the frequency of 200Hz. On the other end of the string, hangs
a weight with the mass of 2kg over a pulley and stretches the
string. If the tuning fork is struck, a standing wave with 4 curves
is formed. (Standing wave is when one end of the wave is
fixed.)
a) What is the wavelength of this curve?
b) From the string, sound waves...
By wiggling one end, a sinusoidal wave is made to travel along a stretched string that has a mass per unit length of 22.0 g/m. The wave may be described by the wave function y 0.20 sin (0.90x-42) where x and y are in meters and t s in seconds. 1. (a) Determine the speed of the wave. Is the wave moving in the +x direction or the -x direction? b) What is the tension in the stretched string? (c)...
A string of length L = 1.2 m is attached at one end to a wave oscillator, which is vibrating at a frequency f = 80 Hz. The other end of the string is attached to a mass hanging over a pulley as shown in the diagram below. When a particular hanging mass is suspended from the string, a standing wave with two segments is formed. When the weight is reduced by 2.2 kg, a standing wave with five segments...
Question 11 (2 points) The end of a string is attached to an oscillator with a frequency of 60 Hz, while the other end is attached to a stationary wall. When standing waves were formed on the string, the distance between the third node and the sixth node was measured to be 48 cm. What is the speed of the wave? 38.4 m/s 14.4 m/s 19.2 m/s 28.8 m/s Question 12 (2 points) When light passes between media with different...
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 a standing wave with a maximum displacement of 3 cm is created. Vibrator3 m 0.7 m and t= 0.2 s? What is the vertical displacement at x
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