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Deck 11: Waves

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Question
A string is stretched with a tension of 100 N.The string has a length of 2.00 meters.The velocity of wave propagation along the string is 220 m/s.The mass of the string is

A) 3.75 gm.
B) 4.13 gm.
C) 4.66 gm.
D) 5.21 gm.
E) 5.74 gm.
Use Space or
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to flip the card.
Question
A string with a length of 1.20 m has a mass of 4.00 gm.The velocity of wave propagation along the string is 185 m/s.The tension of the stretched string is

A) 162 N.
B) 145 N.
C) 130 N.
D) 114 N.
E) 102 N.
Question
A string on a guitar is stretched between two points 35.0 cm apart with a tension of 65.0 N.The mass/length of the string is 0.00400 kg/m.The velocity of wave propagation on the string is

A) 128 m/s.
B) 198 m/s.
C) 210 m/s.
D) 273 m/s.
E) 305 m/s.
Question
What is the distance between nodes?

A) wavelength/4
B) wavelength/3
C) wavelength/2
D) wavelength/1
Question
The intensity of the sound wave from an airplane is 1.0 ×\times 102 W/m2 at 5.0 m.What is the intensity at 100 m?

A) 0.25 W/m2
B) 0.53 W/m2
C) 5.0 W/m2
D) 0.25 mW/m2
Question
A string on a guitar is stretched between two points 35.0 cm apart with a tension of 65.0 N.The mass/length of the string is 0.00400 kg/m.The frequency of the mode of vibration with the lowest frequency is

A) 315 Hz.
B) 276 Hz.
C) 250 Hz.
D) 205 Hz.
E) 182 Hz.
Question
A string on a guitar is stretched between two points 30.0 cm apart with a tension of 100 N.The mass/length of the string is 0.00300 kg/m.The frequency of the mode of vibration with the lowest frequency is

A) 304 Hz.
B) 350 Hz.
C) 376 Hz.
D) 415 Hz.
E) 433 Hz.
Question
A string on a guitar is stretched between two points 30.0 cm apart with a tension of 100 N.The mass/length of the string is 0.00300 kg/m.The velocity of wave propagation on the string is

A) 175 m/s.
B) 183 m/s.
C) 205 m/s.
D) 267 m/s.
E) 300 m/s.
Question
A string with a length of 2.50 m has a mass of 5.00 gm.The velocity of wave propagation along the string is 210 m/s.The tension of the stretched string is

A) 88.2 N.
B) 75.0 N.
C) 70.2 N.
D) 66.7 N.
E) 60.2 N.
Question
Standing waves are produced by the superposition of two waves with

A) the same amplitude,frequency,and direction of propagation.
B) the same amplitude,frequency,and opposite direction of propagation.
C) the same amplitude,different frequencies,and opposite direction of propagation.
D) the same amplitude,different frequencies,and same direction of propagation.
Question
A sound source of 100 watts radiates sound uniformly in all directions.The intensity of the sound at a distance of 4.00 m is

A) 0.301 W/m2.
B) 0.353 W/m2.
C) 0.497 W/m2.
D) 0.535 W/m2.
E) 0.621 W/m2.
Question
What is the distance between a node and an antinode?

A) wavelength/1
B) wavelength/2
C) wavelength/3
D) wavelength/4
Question
A string is stretched with a tension of 120 N.The string has a length of 2.5 meters.The velocity of wave propagation along the string is 220 m/s.The mass per unit length of the string is

A) 5.8 ×\times 10-3 kg/m.
B) 5.0 ×\times 10-3 kg/m.
C) 4.2 ×\times 10-3 kg/m.
D) 3.7 ×\times 10-3 kg/m.
E) 2.4 ×\times 10-3 kg/m.
Question
A string on a violin is stretched between two points 20.0 cm apart with a tension of 120 N.The mass/length of the string is 0.00200 kg/m.The frequency of the mode of vibration with the lowest frequency is

A) 502 Hz.
B) 550 Hz.
C) 598 Hz.
D) 612 Hz.
E) 750 Hz.
Question
A sound source of 150 watts radiates sound uniformly in all directions.The intensity of the sound at a distance of 4.00 m is

A) 0.389 W/m2.
B) 0.403 W/m2.
C) 0.582 W/m2.
D) 0.746 W/m2.
E) 0.927 W/m2.
Question
A string is stretched with a tension of 120 N.The string has a mass of 10.0 grams and has a length of 2.50 meters.The velocity of wave propagation along the string is

A) 125 m/s.
B) 142 m/s.
C) 173 m/s.
D) 185 m/s.
E) 217 m/s.
Question
A string on a violin is stretched between two points 20.00 cm apart with a tension of 120.0 N.The mass/length of the string is 0.002000 kg/m.The frequency of the mode next higher than the fundamental mode is

A) 1,400 Hz.
B) 1,322 Hz.
C) 1,225 Hz.
D) 1,558 Hz.
E) 2,120 Hz.
Question
A string on a guitar is stretched between two points 30.0 cm apart with a tension of 100 N.The mass/length of the string is 0.003 kg/m.The wavelength of the mode of vibration with the lowest frequency is

A) 0.3 m.
B) 0.4 m.
C) 0.5 m.
D) 0.6 m.
E) 0.7 m.
Question
A string on a guitar is stretched between two points 35.0 cm apart with a tension of 65.0 N.The mass/length of the string is 0.00400 kg/m.The wavelength of the mode of vibration with the lowest frequency is

A) 0.5 m.
B) 0.6 m.
C) 0.7 m.
D) 0.8 m.
E) 0.9 m.
Question
A sound source radiates sound uniformly in all directions.The intensity of the sound at a distance of 100 m is 1.00 ×\times 10-4 W/m2.The power of the sound source is

A) 12.6 W.
B) 16.2 W.
C) 20.4 W.
D) 24.5 W.
E) 30.6 W.
Question
A string with a mass/length of 0.00200 kg/m is stretched between two points with a tension of 115 N.If the distance between the points is changed by 1.0%,then what is the percentage change of the frequency?

A) 0.50%
B) 0.75%
C) 1.00%
D) 1.25%
E) 1.50%
Question
The wavelength of a periodic wave is 0.750 m.If the frequency is 425 Hz,then what is the velocity of the wave?

A) 210 m/s
B) 276 m/s
C) 319 m/s
D) 410 m/s
E) 472 m/s
Question
A wave travels at 175 m/s along the x-axis.If the period of the periodic vibrations of the wave is 3.00 milliseconds,then what is the wavelength of the wave?

A) 25.5 cm
B) 35.6 cm
C) 42.9 cm
D) 49.5 cm
E) 52.5 cm
Question
Visible light consists of electromagnetic waves with wavelengths (in air)in the range 400 - 700 nm.What are the frequencies of visible light?

A) 1.33 ×\times 1014 Hz to 2.33 ×\times 1014 Hz
B) 1.33 ×\times 1012 Hz to 2.33 ×\times 1012 Hz
C) 4.28 ×\times 1012 Hz to 7.50 ×\times 1012 Hz
D) 4.28 ×\times 1014 Hz to 7.50 ×\times 1014 Hz
Question
A transverse wave travels at 190 m/s along the x-axis.If the period of the periodic vibrations of the wave is 2.6 milliseconds,then what is the wavelength of the wave?

A) 25.5 cm
B) 35.4 cm
C) 49.4 cm
D) 50.3 cm
E) 54.4 cm
Question
The wavelength of a periodic wave is 0.750 m.If the frequency is 425 Hz,then what is the angular frequency, ω\omega ,of the wave?

A) 5.44 ×\times 103 rad/s
B) 5.03 ×\times 103 rad/s
C) 4.21 ×\times 103 rad/s
D) 3.76 ×\times 103 rad/s
E) 2.67 ×\times 103 rad/s
Question
The frequency of a periodic wave is 325 Hz.If the wavelength is 50.0 cm,then what is the velocity of the wave?

A) 163 m/s
B) 203 m/s
C) 237 m/s
D) 285 m/s
E) 316 m/s
Question
A transverse wave travels at 230.0 m/s along the y-axis.If the frequency of the periodic vibrations of the wave is 390.0 Hz,then what is the wavelength of the wave?

A) 58.97 cm
B) 47.23 cm
C) 40.89 cm
D) 36.76 cm
E) 68.97 cm
Question
The wavelength of a periodic wave is 0.800 m.If the frequency is 400 Hz,then what is the magnitude of the k vector of the wave?

A) 8.56 m-1
B) 7.85 m-1
C) 7.02 m-1
D) 6.35 m-1
E) 5.98 m-1
Question
A string with a mass/length of 0.00200 kg/m is stretched between two points with a tension of 120 N.If the fundamental frequency is 660 Hz,then what is the distance between the two points?

A) 17.5 cm
B) 18.6 cm
C) 20.3 cm
D) 26.7 cm
E) 30.0 cm
Question
Of these properties of waves,which one is independent of the others?

A) amplitude
B) speed
C) frequency
D) wavelength
Question
The frequency of a periodic wave is 340 Hz.The period of the vibration motion of the wave is

A) 2.56 milliseconds.
B) 2.94 milliseconds.
C) 3.55 milliseconds.
D) 3.94 milliseconds.
E) 4.25 milliseconds.
Question
A transverse wave travels at 250 m/s along the z-axis.If the frequency of the periodic vibrations of the wave is 440 Hz,then what is the wavelength of the wave?

A) 21.9 cm
B) 26.7 cm
C) 35.7 cm
D) 56.8 cm
E) 73.7 cm
Question
Two strings on a violin are stretched between two points 20 cm apart.The tensions of the strings are the same.If the ratio of the frequencies of the fundamental modes is 1.5 to 1.0,then what is the ratio of the mass per lengths in the strings?

A) 0.80
B) 0.90
C) 0.85
D) 0.94
E) 0.78
Question
Two strings on a violin are stretched between two points 20.0 cm apart.The mass per length of the strings are the same.If the ratio of the frequencies of the fundamental modes is 1.5 to 1.0,then what is the ratio of the tensions in the strings?

A) 1.75
B) 1.88
C) 1.00
D) 1.25
E) 1.50
Question
The wavelength of a periodic wave is 0.750 m.If the frequency is 365 Hz,then what is the angular frequency, ω\omega ,of the wave?

A) 3.87 ×\times 103 rad/s
B) 3.10 ×\times 103 rad/s
C) 2.98 ×\times 103 rad/s
D) 2.29 ×\times 103 rad/s
E) 1.75 ×\times 103 rad/s
Question
The speed of waves in stretched string depends on which of the following?

A) the tension in the string
B) the amplitude of the waves
C) the wavelength of the waves
D) the frequency of the waves
Question
The period of a periodic wave is 2.80 milliseconds.The frequency of the vibration motion of the wave is

A) 450 Hz.
B) 437 Hz.
C) 402 Hz.
D) 357 Hz.
E) 306 Hz.
Question
A string on a violin is stretched between two points 20.00 cm apart with a tension of 120.0 N.The mass/length of the string is 0.002000 kg/m.The frequency of the 2nd overtone is

A) 1,502 Hz.
B) 1,837 Hz.
C) 2,237 Hz.
D) 2,568 Hz.
E) 3,250 Hz.
Question
A string with a mass/length of 0.00200 kg/m is stretched between two points with a tension of 120 N.If the fundamental frequency is 440 Hz,then what is the distance between the two points?

A) 17.5 cm
B) 20.3 cm
C) 27.8 cm
D) 30.0 cm
E) 35.0 cm
Question
A transverse periodic wave is represented by the equation y(x,t) = 1.50 cm sin(1,500 rad/s t - 10.0 m-1 x).Another transverse wave is represented by the equation y(x,t) = 1.50 cm sin(1,500 rad/s t - 10.0 m-1 x).What is the equation that represents the superposition of the two waves?

A) y(x,t)= 3.0 cm sin(1,500 rad/s t - 10.0 m-1 x)
B) y(x,t)= 3.0 cm sin(1,500 rad/s t)cos(10.0 m-1 x)
C) y(x,t)= +3.0 cm cos(1,500 rad/s t)sin(10.0 m-1 x)
D) y(x,t)= 3.0 cm sin(1,500 rad/s t + 10.0 m-1 x)
Question
A transverse periodic wave is represented by the equation y(x,t) = A1 sin( ω\omega t - kx).Another transverse wave is represented by the equation y(x,t) = A2 sin( ω\omega t + kx).What is the equation that represents the superposition of the two waves?

A) y(x,t)= (A1+A2)sin( ω\omega t)cos(kx)+ (+A1+A2)cos( ω\omega t)sin(kx)
B) y(x,t)= (A1+A2)sin( ω\omega t)cos(kx)+ (-A1-A2)cos( ω\omega t)sin(kx)
C) y(x,t)= (A1-A2)sin( ω\omega t)cos(kx)+ (-A1+A2)cos( ω\omega t)sin(kx)
D) y(x,t)= (A1+A2)sin( ω\omega t)cos(kx)+ (-A1+A2)cos( ω\omega t)sin(kx)
Question
A longitudinal wave travels on a slinky or any long spring.The wave is represented by the equation x(x,t) = 2.1 cm cos(2000 rad/s t - 40 m-1 x).What is the direction of the velocity of the wave?

A) the - x direction
B) the + x direction
C) the - y direction
D) the + y direction
Question
A transverse periodic wave is represented by the equation z(y,t) = 1.50 cm sin(1,250 rad/s t + 10.0 m-1 y).What is the direction of the velocity of the wave?

A) the x direction
B) the y direction
C) the z direction
D) the t direction
Question
A transverse periodic wave is represented by the equation z(y,t) = 1.50 cm sin(1,250 rad/s t + 10.0 m-1 y).What is the k vector of the wave?

A) 10 m-1 in the + y direction
B) 10 m-1 in the - y direction
C) 20 m-1 in the + z direction
D) 20 m-1 in the - z direction
E) 10 m-1 in the - z direction
Question
The wavelength of a periodic wave is 0.500 m.If the frequency is 400 Hz,then what is the magnitude of the k vector of the wave?

A) 12.6 m-1
B) 14.8 m-1
C) 18.4 m-1
D) 21.0 m-1
E) 25.9 m-1
Question
A transverse periodic wave is represented by the equation z(y,t) = 1.50 cm sin(1,250 rad/s t + 10.0 m-1 y).What is the velocity of the wave?

A) 125 m/s in the + z direction
B) 250 m/s in the - z direction
C) 125 m/s in the + y direction
D) 125 m/s in the - y direction
E) 250 m/s in the - y direction
Question
A transverse periodic wave is represented by the equation y(z,t) = 2.0 cm sin(1,200 rad/s t - 20.0 m-1 z).Another transverse wave is represented by the equation y(z,t) = 2.0cm sin(1,200 rad/s t + 20.0 m-1 z).What is the equation that represents the superposition of the two waves?

A) y(z,t)= 4.0 cm sin(1,200 rad/s t - 20.0 m-1 z)
B) y(x,t)= 4.0 cm sin(1,200 rad/s t)cos(20.0 m-1 x)
C) y(x,t)= +4.0 cm cos(1,200 rad/s)sin(20.0 m-1 x)
D) y(x,t)= +4.0 cm cos(1,200 rad/s)+ (20.0 m-1 x)
Question
A transverse periodic wave is represented by the equation y(x,t) = -1.50 cm sin(1,500 rad/s t - 10.0 m-1 x).Another transverse wave is represented by the equation y(x,t) = +1.50 cm sin(1,500 rad/s t + 10.0 m-1 x).What is the equation that represents the superposition of the two waves?

A) y(x,t)= 3.0 cm sin(1,500 rad/s t - 10.0 m-1 x)
B) y(x,t)= 3.0 cm sin(1,500 rad/s t)cos(10.0 m-1 x)
C) y(x,t)= +3.0 cm cos(1,500 rad/s t)sin(10.0 m-1 x)
D) y(x,t)= 3.0 cm sin(1,500 rad/s t + 10.0 m-1 x)
Question
A transverse periodic wave is represented by the equation y(x,t) = 2.50 cm cos(2,500 rad/s t - 15.0 m-1 x).What is the k vector of the wave?

A) 15.0 m-1 in the - x direction
B) 15.0 m-1 in the + x direction
C) 30.0 m-1 in the + y direction
D) 30.0 m-1 in the - y direction
E) 45.0 m-1 in the + x direction
Question
A transverse periodic wave is represented by the equation z(y,t) = 1.50 cm sin(1,250 rad/s t + 10.0 m-1 y).What is the direction of the vibration of the wave?

A) the x direction
B) the y direction
C) the z direction
Question
A transverse periodic wave is represented by the equation y(x,t) = 2.50 cm cos(2,500 rad/s t - 15.0 m-1 x).What is the frequency of the vibration of the wave?

A) 490 Hz
B) 467 Hz
C) 422 Hz
D) 398 Hz
E) 302 Hz
Question
A longitudinal wave travels on a slinky or any long spring.The wave is represented by the equation z(z,t) = 1.2 cm cos(1800 rad/s t + 60 m-1 z).What is the wave vector of the wave?

A) 60 m-1 in the + z direction
B) 60 m-1 in the - z direction
C) 60 m-1 in the + x direction
D) 60 m-1 in the - x direction
Question
A transverse periodic wave is represented by the equation y(x,t) = 1.50 cm sin(1,500 rad/s t - 10.0 m-1 x).Another transverse wave is represented by the equation y(x,t) = 1.50 cm sin(1,500 rad/s t + 10.0 m-1 x).What is the equation that represents the superposition of the two waves?

A) y(x,t)= 3.0 cm sin(1,500 rad/s t - 10.0 m-1 x)
B) y(x,t)= 3.0 cm sin(1,500 rad/s t)cos(10.0 m-1 x)
C) y(x,t)= +3.0 cm cos(1,500 rad/s t)sin(10.0 m-1 x)
D) y(x,t)= 3.0 cm sin(1,500 rad/s t + 10.0 m-1 x)
Question
A transverse periodic wave is represented by the equation y(z,t) = 2.0 cm sin(1,200 rad/s t - 20.0 m-1 z).Another transverse wave is represented by the equation y(z,t) = 2.0 cm sin(1,200 rad/s t - 20.0 m-1 z).What is the equation that represents the superposition of the two waves?

A) y(z,t)= 4.0 cm sin(1,200 rad/s t - 20.0 m-1 z)
B) y(x,t)= 4.0 cm sin(1,200 rad/s t)cos20.0 m-1 x)
C) y(x,t)= +4.0 cm cos(1,200 rad/s)sin(20.0 m-1 x)
D) y(x,t)= +4.0 cm cos(1,200 rad/s)+ (20.0 m-1 x)
Question
A longitudinal wave travels on a slinky or any long spring.The wave is represented by the equation x(x,t) = 2.10 cm cos(2000 rad/s t + 40.0 m-1 x).What is the velocity of the wave?

A) 500 m/s in the + x direction
B) 500 m/s in the - x direction
C) 200 m/s in the + x direction
D) 200 m/s in the - x direction
Question
A transverse periodic wave is represented by the equation z(y,t) = 1.50 cm sin(1,250 rad/s t + 10.0 m-1 y).What is the frequency of the vibration of the wave?

A) 319 Hz
B) 289 Hz
C) 240 Hz
D) 199 Hz
E) 150 Hz
Question
A transverse periodic wave is represented by the equation y(x,t) = 2.50 cm cos(2,500 rad/s t - 15.0 m-1 x).What is the velocity of the wave?

A) 450 m/s in the - y direction
B) 333 m/s in the + y direction
C) 333 m/s in the + x direction
D) 167 m/s in the - x direction
E) 167 m/s in the + x direction
Question
A longitudinal wave travels on a slinky or any long spring.The wave is represented by the equation x(x,t) = 2.1 cm cos(2000 rad/s t - 40 m-1 x).What is the direction of the disturbance of the wave?

A) the + y direction
B) the + z direction
C) the - x direction
D) the + x direction
Question
A transverse periodic wave is represented by the equation y(x,t) = 2.50 cm cos(2,500 rad/s t - 15.0 m-1 x).What is the direction of the vibration of the wave?

A) the z direction
B) the y direction
C) the x direction
Question
A length of piano wire is used to hang a mass from the ceiling.If the total mass of the string is 0.72 g and the mass hung from it is 1850 g,what is the length of the wire,assuming the fundamental frequency when plucked in these circumstances is 1280 Hz?

A) 2.48 cm
B) 6.15 cm
C) 3.08 cm
D) 1.54 cm
Question
A wave is represented by the equation y(x,t) = 3.2 cm sin(1000 rad/s t - 50 m-1 x).Another wave is represented by the equation y(x,t) = 4.2 cm sin(1000 rad/s t - 50 m-1 x).If the two waves interfere destructively,then what is equation that represents the coherent superposition of the two waves?

A) y(x,t)= 7.4 cm sin(1000 rad/s t + 50.0 m-1 x)
B) y(x,t)= 1.0 cm sin(1000 rad/s t - 50.0 m-1 x)
C) y(x,t)= 1.0 cm sin(1000 rad/s t + 50.0 m-1 x)
D) y(x,t)= 7.4 cm sin(1000 rad/s t - 50.0 m-1 x)
Question
Two speakers are driven exactly out of phase with each other at 256 Hz.If a microphone is placed on the line between the two speakers exactly in the middle of the line,what is possibly the distance between the microphone and each speaker? The speed of sound is 340 m/s.

A) 0.75 m
B) 0.38 m
C) Can be any distance at all
D) 1.50 m
E) 0.94 m
Question
A wave is represented by the equation y(x,t) = 3.2 cm sin(1000 rad/s t - 50 m-1 x).Another wave is represented by the equation y(x,t) = 4.2cm sin(1000 rad/s t - 50 m-1 x).If the two waves interfere constructively,then what is equation that represents the coherent superposition of the two waves?

A) y(x,t)= 7.4 cm sin(1000 rad/s t + 50.0 m-1 x)
B) y(x,t)= 1.0 cm sin(1000 rad/s t - 50.0 m-1 x)
C) y(x,t)= 1.0 cm sin(1000 rad/s t + 50.0 m-1 x)
D) y(x,t)= 7.4 cm sin(1000 rad/s t - 50.0 m-1 x)
Question
What is the frequency of the wave? <strong>What is the frequency of the wave? </strong> A) 80 Hz B) 50 Hz C) 120 Hz D) 140 Hz E) 160 Hz <div style=padding-top: 35px>

A) 80 Hz
B) 50 Hz
C) 120 Hz
D) 140 Hz
E) 160 Hz
Question
Two guitar strings are under the same tension and have the same length.If their fundamental frequencies are in a ratio of 3:2,what is the ratio of their masses?

A) 3/2
B) 2/3
C) 9/4
D) 4/9
Question
Two speakers emit coherent sound waves into the open air.One of them produces 75 W of power.If a microphone placed at 12 m from each of the two speakers receives a total intensity of 0.25 W/m2,what is the power output of the second speaker?

A) 151 W
B) 377 W
C) Need more info to solve.
D) 38 W
Question
A microphone records sound produced from two speakers in a room with no other sound sources.If the intensity of one of the sound waves at a given location is 0.055 W/m2 and if the microphone receives a minimum intensity of 0.004 W/m2 when both speakers are active what is a possible value for the intensity of the other source at the microphone's location?

A) Need more info to solve.
B) 0.088 W/m2
C) 0.051 W/m2
D) 0.048 W/m2
Question
A guitar string is supposed to be played with a fundamental frequency of 880 Hz.If it is determined to have,instead,a fundamental frequency of 882 Hz,by what amount (as a percentage)must the tension in the string be changed in order that the fundamental frequency be restored to 880 Hz?

A) -0.45%
B) +0.45%
C) -0.11%
D) -0.23%
Question
A wave is traveling with a velocity of 350 m/s and strikes a surface at an angle of 30.0 degrees with the normal to the surface.The wave splits into a reflected part and a refracted part.The refracted wave travels with a velocity of 300 m/s.What is the angle of refraction?

A) 50.4 degrees
B) 45.2 degrees
C) 40.4 degrees
D) 38.4 degrees
E) 25.4 degrees
Question
A guitar string has a tension of 95 N on it and is 75 cm long.If its mass is 0.27 g,what is the frequency of the first harmonic above the fundamental?

A) 685 Hz
B) 69 Hz
C) 217 Hz
D) 470 kHz
Question
A wave is traveling with a velocity of 300 m/s and strikes a surface at an angle of 30.0 degrees with the normal to the surface.The wave splits into a reflected part and a refracted part.The refracted wave travels with a velocity of 400 m/s.What is the angle of refraction?

A) 20.5 degrees
B) 25.9 degrees
C) 30.5 degrees
D) 41.8 degrees
E) 50.3 degrees
Question
A pair of sound wave sources interfere destructively at a point that is 3/4 of the way from one speaker to the other.If the speed of sound is 343 m/s,and the sound waves are emitted at 880 Hz,which of the following is a possible distance between the two speakers?

A) 2.7 m
B) 0.58 m
C) 1.16 m
D) 1.9 m
E) 77 cm
Question
What is the mass of a 1.25 m long piano wire that has a fundamental frequency of 256 Hz when under a tension of 138 N?

A) 6.4 g
B) 1.7 g
C) 3.4 g
D) 41 g
E) 4.1 g
Question
A transverse periodic wave is represented by the equation y(z,t) = -2.0 cm sin(1,200 rad/s t - 20.0 m-1 x).Another transverse wave is represented by the equation y(z,t) = +2.0 cm sin(1,200 rad/s t + 20.0 m-1 z).What is the equation that represents the superposition of the two waves?

A) y(z,t)= 4.0 cm sin(1,200 rad/s t - 20.0 m-1 z)
B) y(x,t)= 4.0 cm sin(1,200 rad/s t)cos (20.0 m-1 x)
C) y(x,t)= +4.0 cm cos(1,200 rad/s)sin (20.0 m-1 x)
D) y(x,t)= +4.0 cm cos(1,200 rad/s)+ (20.0 m-1 x)
Question
A longitudinal wave is represented by the equation z(z,t) = -2.0 cm sin(1,200 rad/s t - 20 m-1 z).Another longitudinal wave is represented by the equation z(z,t) = +2.0 cm sin(1,200 rad/s t + 20 m-1 z).What is the equation that represents the superposition of the two waves?

A) z(z,t)= +4.0 cm cos(1,200 rad/s t)cos(20 m-1 z).
B) z(z,t)= +4.0 cm cos(1,200 rad/s t)sin(20 m-1 z)
C) z(z,t)= +4.0 cm cos(1,200 rad/s t)cos(20 m-1 z)
D) z(z,t)= -2.0 cm cos(1,200 rad/s t)sin(20 m-1 z)
Question
The following figure is a graph of a wave at a fixed position. <strong>The following figure is a graph of a wave at a fixed position. The following figure is a graph of the same wave at a fixed time. What is the velocity of the wave in the above figure?</strong> A) 150 m/s B) 200 m/s C) 250 m/s D) 300 m/s E) 450 m/s <div style=padding-top: 35px> The following figure is a graph of the same wave at a fixed time. <strong>The following figure is a graph of a wave at a fixed position. The following figure is a graph of the same wave at a fixed time. What is the velocity of the wave in the above figure?</strong> A) 150 m/s B) 200 m/s C) 250 m/s D) 300 m/s E) 450 m/s <div style=padding-top: 35px> What is the velocity of the wave in the above figure?

A) 150 m/s
B) 200 m/s
C) 250 m/s
D) 300 m/s
E) 450 m/s
Question
The speed of sound in air is dependent upon the air temperature and other factors.The speed of sound increases from 334 m/s to 341 m/s between 8:00am and 11:00am.If a horn produces sound with wavelength 0.75 m at 8:00am,what would it produce at 11:00am?

A) 73 cm
B) 77 cm
C) Not enough info given to solve.
D) 75 cm
Question
A pair of speakers emits coherent sound waves at a frequency of 440 Hz.A microphone is placed such that it is 1.0 m from one speaker on a line that is perpendicular to the line between the speakers.Which of the following distances reflects a possible distance between the speakers if there is complete destructive interference at the location of the microphone? The speed of sound is 340 m/s.

A) 1.0 m
B) 0.77 m
C) 2.16 m
D) 1.3 m
E) 1.77 m
Question
When light travelling in air passes into a sheet of glass,it is observed to change in wavelength to 58% of its wavelength in air.What is the speed of light in the glass?

A) 5.2 ×\times 108 m/s
B) 1.7 ×\times 108 m/s
C) 3.0 ×\times 108 m/s
D) 2.3 ×\times 108 m/s
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Deck 11: Waves
1
A string is stretched with a tension of 100 N.The string has a length of 2.00 meters.The velocity of wave propagation along the string is 220 m/s.The mass of the string is

A) 3.75 gm.
B) 4.13 gm.
C) 4.66 gm.
D) 5.21 gm.
E) 5.74 gm.
4.13 gm.
2
A string with a length of 1.20 m has a mass of 4.00 gm.The velocity of wave propagation along the string is 185 m/s.The tension of the stretched string is

A) 162 N.
B) 145 N.
C) 130 N.
D) 114 N.
E) 102 N.
114 N.
3
A string on a guitar is stretched between two points 35.0 cm apart with a tension of 65.0 N.The mass/length of the string is 0.00400 kg/m.The velocity of wave propagation on the string is

A) 128 m/s.
B) 198 m/s.
C) 210 m/s.
D) 273 m/s.
E) 305 m/s.
128 m/s.
4
What is the distance between nodes?

A) wavelength/4
B) wavelength/3
C) wavelength/2
D) wavelength/1
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5
The intensity of the sound wave from an airplane is 1.0 ×\times 102 W/m2 at 5.0 m.What is the intensity at 100 m?

A) 0.25 W/m2
B) 0.53 W/m2
C) 5.0 W/m2
D) 0.25 mW/m2
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6
A string on a guitar is stretched between two points 35.0 cm apart with a tension of 65.0 N.The mass/length of the string is 0.00400 kg/m.The frequency of the mode of vibration with the lowest frequency is

A) 315 Hz.
B) 276 Hz.
C) 250 Hz.
D) 205 Hz.
E) 182 Hz.
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7
A string on a guitar is stretched between two points 30.0 cm apart with a tension of 100 N.The mass/length of the string is 0.00300 kg/m.The frequency of the mode of vibration with the lowest frequency is

A) 304 Hz.
B) 350 Hz.
C) 376 Hz.
D) 415 Hz.
E) 433 Hz.
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8
A string on a guitar is stretched between two points 30.0 cm apart with a tension of 100 N.The mass/length of the string is 0.00300 kg/m.The velocity of wave propagation on the string is

A) 175 m/s.
B) 183 m/s.
C) 205 m/s.
D) 267 m/s.
E) 300 m/s.
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9
A string with a length of 2.50 m has a mass of 5.00 gm.The velocity of wave propagation along the string is 210 m/s.The tension of the stretched string is

A) 88.2 N.
B) 75.0 N.
C) 70.2 N.
D) 66.7 N.
E) 60.2 N.
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10
Standing waves are produced by the superposition of two waves with

A) the same amplitude,frequency,and direction of propagation.
B) the same amplitude,frequency,and opposite direction of propagation.
C) the same amplitude,different frequencies,and opposite direction of propagation.
D) the same amplitude,different frequencies,and same direction of propagation.
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11
A sound source of 100 watts radiates sound uniformly in all directions.The intensity of the sound at a distance of 4.00 m is

A) 0.301 W/m2.
B) 0.353 W/m2.
C) 0.497 W/m2.
D) 0.535 W/m2.
E) 0.621 W/m2.
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12
What is the distance between a node and an antinode?

A) wavelength/1
B) wavelength/2
C) wavelength/3
D) wavelength/4
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13
A string is stretched with a tension of 120 N.The string has a length of 2.5 meters.The velocity of wave propagation along the string is 220 m/s.The mass per unit length of the string is

A) 5.8 ×\times 10-3 kg/m.
B) 5.0 ×\times 10-3 kg/m.
C) 4.2 ×\times 10-3 kg/m.
D) 3.7 ×\times 10-3 kg/m.
E) 2.4 ×\times 10-3 kg/m.
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14
A string on a violin is stretched between two points 20.0 cm apart with a tension of 120 N.The mass/length of the string is 0.00200 kg/m.The frequency of the mode of vibration with the lowest frequency is

A) 502 Hz.
B) 550 Hz.
C) 598 Hz.
D) 612 Hz.
E) 750 Hz.
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15
A sound source of 150 watts radiates sound uniformly in all directions.The intensity of the sound at a distance of 4.00 m is

A) 0.389 W/m2.
B) 0.403 W/m2.
C) 0.582 W/m2.
D) 0.746 W/m2.
E) 0.927 W/m2.
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16
A string is stretched with a tension of 120 N.The string has a mass of 10.0 grams and has a length of 2.50 meters.The velocity of wave propagation along the string is

A) 125 m/s.
B) 142 m/s.
C) 173 m/s.
D) 185 m/s.
E) 217 m/s.
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17
A string on a violin is stretched between two points 20.00 cm apart with a tension of 120.0 N.The mass/length of the string is 0.002000 kg/m.The frequency of the mode next higher than the fundamental mode is

A) 1,400 Hz.
B) 1,322 Hz.
C) 1,225 Hz.
D) 1,558 Hz.
E) 2,120 Hz.
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18
A string on a guitar is stretched between two points 30.0 cm apart with a tension of 100 N.The mass/length of the string is 0.003 kg/m.The wavelength of the mode of vibration with the lowest frequency is

A) 0.3 m.
B) 0.4 m.
C) 0.5 m.
D) 0.6 m.
E) 0.7 m.
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19
A string on a guitar is stretched between two points 35.0 cm apart with a tension of 65.0 N.The mass/length of the string is 0.00400 kg/m.The wavelength of the mode of vibration with the lowest frequency is

A) 0.5 m.
B) 0.6 m.
C) 0.7 m.
D) 0.8 m.
E) 0.9 m.
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20
A sound source radiates sound uniformly in all directions.The intensity of the sound at a distance of 100 m is 1.00 ×\times 10-4 W/m2.The power of the sound source is

A) 12.6 W.
B) 16.2 W.
C) 20.4 W.
D) 24.5 W.
E) 30.6 W.
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21
A string with a mass/length of 0.00200 kg/m is stretched between two points with a tension of 115 N.If the distance between the points is changed by 1.0%,then what is the percentage change of the frequency?

A) 0.50%
B) 0.75%
C) 1.00%
D) 1.25%
E) 1.50%
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22
The wavelength of a periodic wave is 0.750 m.If the frequency is 425 Hz,then what is the velocity of the wave?

A) 210 m/s
B) 276 m/s
C) 319 m/s
D) 410 m/s
E) 472 m/s
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23
A wave travels at 175 m/s along the x-axis.If the period of the periodic vibrations of the wave is 3.00 milliseconds,then what is the wavelength of the wave?

A) 25.5 cm
B) 35.6 cm
C) 42.9 cm
D) 49.5 cm
E) 52.5 cm
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24
Visible light consists of electromagnetic waves with wavelengths (in air)in the range 400 - 700 nm.What are the frequencies of visible light?

A) 1.33 ×\times 1014 Hz to 2.33 ×\times 1014 Hz
B) 1.33 ×\times 1012 Hz to 2.33 ×\times 1012 Hz
C) 4.28 ×\times 1012 Hz to 7.50 ×\times 1012 Hz
D) 4.28 ×\times 1014 Hz to 7.50 ×\times 1014 Hz
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25
A transverse wave travels at 190 m/s along the x-axis.If the period of the periodic vibrations of the wave is 2.6 milliseconds,then what is the wavelength of the wave?

A) 25.5 cm
B) 35.4 cm
C) 49.4 cm
D) 50.3 cm
E) 54.4 cm
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26
The wavelength of a periodic wave is 0.750 m.If the frequency is 425 Hz,then what is the angular frequency, ω\omega ,of the wave?

A) 5.44 ×\times 103 rad/s
B) 5.03 ×\times 103 rad/s
C) 4.21 ×\times 103 rad/s
D) 3.76 ×\times 103 rad/s
E) 2.67 ×\times 103 rad/s
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27
The frequency of a periodic wave is 325 Hz.If the wavelength is 50.0 cm,then what is the velocity of the wave?

A) 163 m/s
B) 203 m/s
C) 237 m/s
D) 285 m/s
E) 316 m/s
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28
A transverse wave travels at 230.0 m/s along the y-axis.If the frequency of the periodic vibrations of the wave is 390.0 Hz,then what is the wavelength of the wave?

A) 58.97 cm
B) 47.23 cm
C) 40.89 cm
D) 36.76 cm
E) 68.97 cm
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29
The wavelength of a periodic wave is 0.800 m.If the frequency is 400 Hz,then what is the magnitude of the k vector of the wave?

A) 8.56 m-1
B) 7.85 m-1
C) 7.02 m-1
D) 6.35 m-1
E) 5.98 m-1
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30
A string with a mass/length of 0.00200 kg/m is stretched between two points with a tension of 120 N.If the fundamental frequency is 660 Hz,then what is the distance between the two points?

A) 17.5 cm
B) 18.6 cm
C) 20.3 cm
D) 26.7 cm
E) 30.0 cm
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31
Of these properties of waves,which one is independent of the others?

A) amplitude
B) speed
C) frequency
D) wavelength
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32
The frequency of a periodic wave is 340 Hz.The period of the vibration motion of the wave is

A) 2.56 milliseconds.
B) 2.94 milliseconds.
C) 3.55 milliseconds.
D) 3.94 milliseconds.
E) 4.25 milliseconds.
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33
A transverse wave travels at 250 m/s along the z-axis.If the frequency of the periodic vibrations of the wave is 440 Hz,then what is the wavelength of the wave?

A) 21.9 cm
B) 26.7 cm
C) 35.7 cm
D) 56.8 cm
E) 73.7 cm
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34
Two strings on a violin are stretched between two points 20 cm apart.The tensions of the strings are the same.If the ratio of the frequencies of the fundamental modes is 1.5 to 1.0,then what is the ratio of the mass per lengths in the strings?

A) 0.80
B) 0.90
C) 0.85
D) 0.94
E) 0.78
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35
Two strings on a violin are stretched between two points 20.0 cm apart.The mass per length of the strings are the same.If the ratio of the frequencies of the fundamental modes is 1.5 to 1.0,then what is the ratio of the tensions in the strings?

A) 1.75
B) 1.88
C) 1.00
D) 1.25
E) 1.50
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36
The wavelength of a periodic wave is 0.750 m.If the frequency is 365 Hz,then what is the angular frequency, ω\omega ,of the wave?

A) 3.87 ×\times 103 rad/s
B) 3.10 ×\times 103 rad/s
C) 2.98 ×\times 103 rad/s
D) 2.29 ×\times 103 rad/s
E) 1.75 ×\times 103 rad/s
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37
The speed of waves in stretched string depends on which of the following?

A) the tension in the string
B) the amplitude of the waves
C) the wavelength of the waves
D) the frequency of the waves
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38
The period of a periodic wave is 2.80 milliseconds.The frequency of the vibration motion of the wave is

A) 450 Hz.
B) 437 Hz.
C) 402 Hz.
D) 357 Hz.
E) 306 Hz.
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39
A string on a violin is stretched between two points 20.00 cm apart with a tension of 120.0 N.The mass/length of the string is 0.002000 kg/m.The frequency of the 2nd overtone is

A) 1,502 Hz.
B) 1,837 Hz.
C) 2,237 Hz.
D) 2,568 Hz.
E) 3,250 Hz.
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40
A string with a mass/length of 0.00200 kg/m is stretched between two points with a tension of 120 N.If the fundamental frequency is 440 Hz,then what is the distance between the two points?

A) 17.5 cm
B) 20.3 cm
C) 27.8 cm
D) 30.0 cm
E) 35.0 cm
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41
A transverse periodic wave is represented by the equation y(x,t) = 1.50 cm sin(1,500 rad/s t - 10.0 m-1 x).Another transverse wave is represented by the equation y(x,t) = 1.50 cm sin(1,500 rad/s t - 10.0 m-1 x).What is the equation that represents the superposition of the two waves?

A) y(x,t)= 3.0 cm sin(1,500 rad/s t - 10.0 m-1 x)
B) y(x,t)= 3.0 cm sin(1,500 rad/s t)cos(10.0 m-1 x)
C) y(x,t)= +3.0 cm cos(1,500 rad/s t)sin(10.0 m-1 x)
D) y(x,t)= 3.0 cm sin(1,500 rad/s t + 10.0 m-1 x)
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42
A transverse periodic wave is represented by the equation y(x,t) = A1 sin( ω\omega t - kx).Another transverse wave is represented by the equation y(x,t) = A2 sin( ω\omega t + kx).What is the equation that represents the superposition of the two waves?

A) y(x,t)= (A1+A2)sin( ω\omega t)cos(kx)+ (+A1+A2)cos( ω\omega t)sin(kx)
B) y(x,t)= (A1+A2)sin( ω\omega t)cos(kx)+ (-A1-A2)cos( ω\omega t)sin(kx)
C) y(x,t)= (A1-A2)sin( ω\omega t)cos(kx)+ (-A1+A2)cos( ω\omega t)sin(kx)
D) y(x,t)= (A1+A2)sin( ω\omega t)cos(kx)+ (-A1+A2)cos( ω\omega t)sin(kx)
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43
A longitudinal wave travels on a slinky or any long spring.The wave is represented by the equation x(x,t) = 2.1 cm cos(2000 rad/s t - 40 m-1 x).What is the direction of the velocity of the wave?

A) the - x direction
B) the + x direction
C) the - y direction
D) the + y direction
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44
A transverse periodic wave is represented by the equation z(y,t) = 1.50 cm sin(1,250 rad/s t + 10.0 m-1 y).What is the direction of the velocity of the wave?

A) the x direction
B) the y direction
C) the z direction
D) the t direction
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45
A transverse periodic wave is represented by the equation z(y,t) = 1.50 cm sin(1,250 rad/s t + 10.0 m-1 y).What is the k vector of the wave?

A) 10 m-1 in the + y direction
B) 10 m-1 in the - y direction
C) 20 m-1 in the + z direction
D) 20 m-1 in the - z direction
E) 10 m-1 in the - z direction
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46
The wavelength of a periodic wave is 0.500 m.If the frequency is 400 Hz,then what is the magnitude of the k vector of the wave?

A) 12.6 m-1
B) 14.8 m-1
C) 18.4 m-1
D) 21.0 m-1
E) 25.9 m-1
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47
A transverse periodic wave is represented by the equation z(y,t) = 1.50 cm sin(1,250 rad/s t + 10.0 m-1 y).What is the velocity of the wave?

A) 125 m/s in the + z direction
B) 250 m/s in the - z direction
C) 125 m/s in the + y direction
D) 125 m/s in the - y direction
E) 250 m/s in the - y direction
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48
A transverse periodic wave is represented by the equation y(z,t) = 2.0 cm sin(1,200 rad/s t - 20.0 m-1 z).Another transverse wave is represented by the equation y(z,t) = 2.0cm sin(1,200 rad/s t + 20.0 m-1 z).What is the equation that represents the superposition of the two waves?

A) y(z,t)= 4.0 cm sin(1,200 rad/s t - 20.0 m-1 z)
B) y(x,t)= 4.0 cm sin(1,200 rad/s t)cos(20.0 m-1 x)
C) y(x,t)= +4.0 cm cos(1,200 rad/s)sin(20.0 m-1 x)
D) y(x,t)= +4.0 cm cos(1,200 rad/s)+ (20.0 m-1 x)
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49
A transverse periodic wave is represented by the equation y(x,t) = -1.50 cm sin(1,500 rad/s t - 10.0 m-1 x).Another transverse wave is represented by the equation y(x,t) = +1.50 cm sin(1,500 rad/s t + 10.0 m-1 x).What is the equation that represents the superposition of the two waves?

A) y(x,t)= 3.0 cm sin(1,500 rad/s t - 10.0 m-1 x)
B) y(x,t)= 3.0 cm sin(1,500 rad/s t)cos(10.0 m-1 x)
C) y(x,t)= +3.0 cm cos(1,500 rad/s t)sin(10.0 m-1 x)
D) y(x,t)= 3.0 cm sin(1,500 rad/s t + 10.0 m-1 x)
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50
A transverse periodic wave is represented by the equation y(x,t) = 2.50 cm cos(2,500 rad/s t - 15.0 m-1 x).What is the k vector of the wave?

A) 15.0 m-1 in the - x direction
B) 15.0 m-1 in the + x direction
C) 30.0 m-1 in the + y direction
D) 30.0 m-1 in the - y direction
E) 45.0 m-1 in the + x direction
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51
A transverse periodic wave is represented by the equation z(y,t) = 1.50 cm sin(1,250 rad/s t + 10.0 m-1 y).What is the direction of the vibration of the wave?

A) the x direction
B) the y direction
C) the z direction
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52
A transverse periodic wave is represented by the equation y(x,t) = 2.50 cm cos(2,500 rad/s t - 15.0 m-1 x).What is the frequency of the vibration of the wave?

A) 490 Hz
B) 467 Hz
C) 422 Hz
D) 398 Hz
E) 302 Hz
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53
A longitudinal wave travels on a slinky or any long spring.The wave is represented by the equation z(z,t) = 1.2 cm cos(1800 rad/s t + 60 m-1 z).What is the wave vector of the wave?

A) 60 m-1 in the + z direction
B) 60 m-1 in the - z direction
C) 60 m-1 in the + x direction
D) 60 m-1 in the - x direction
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54
A transverse periodic wave is represented by the equation y(x,t) = 1.50 cm sin(1,500 rad/s t - 10.0 m-1 x).Another transverse wave is represented by the equation y(x,t) = 1.50 cm sin(1,500 rad/s t + 10.0 m-1 x).What is the equation that represents the superposition of the two waves?

A) y(x,t)= 3.0 cm sin(1,500 rad/s t - 10.0 m-1 x)
B) y(x,t)= 3.0 cm sin(1,500 rad/s t)cos(10.0 m-1 x)
C) y(x,t)= +3.0 cm cos(1,500 rad/s t)sin(10.0 m-1 x)
D) y(x,t)= 3.0 cm sin(1,500 rad/s t + 10.0 m-1 x)
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55
A transverse periodic wave is represented by the equation y(z,t) = 2.0 cm sin(1,200 rad/s t - 20.0 m-1 z).Another transverse wave is represented by the equation y(z,t) = 2.0 cm sin(1,200 rad/s t - 20.0 m-1 z).What is the equation that represents the superposition of the two waves?

A) y(z,t)= 4.0 cm sin(1,200 rad/s t - 20.0 m-1 z)
B) y(x,t)= 4.0 cm sin(1,200 rad/s t)cos20.0 m-1 x)
C) y(x,t)= +4.0 cm cos(1,200 rad/s)sin(20.0 m-1 x)
D) y(x,t)= +4.0 cm cos(1,200 rad/s)+ (20.0 m-1 x)
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56
A longitudinal wave travels on a slinky or any long spring.The wave is represented by the equation x(x,t) = 2.10 cm cos(2000 rad/s t + 40.0 m-1 x).What is the velocity of the wave?

A) 500 m/s in the + x direction
B) 500 m/s in the - x direction
C) 200 m/s in the + x direction
D) 200 m/s in the - x direction
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57
A transverse periodic wave is represented by the equation z(y,t) = 1.50 cm sin(1,250 rad/s t + 10.0 m-1 y).What is the frequency of the vibration of the wave?

A) 319 Hz
B) 289 Hz
C) 240 Hz
D) 199 Hz
E) 150 Hz
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58
A transverse periodic wave is represented by the equation y(x,t) = 2.50 cm cos(2,500 rad/s t - 15.0 m-1 x).What is the velocity of the wave?

A) 450 m/s in the - y direction
B) 333 m/s in the + y direction
C) 333 m/s in the + x direction
D) 167 m/s in the - x direction
E) 167 m/s in the + x direction
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59
A longitudinal wave travels on a slinky or any long spring.The wave is represented by the equation x(x,t) = 2.1 cm cos(2000 rad/s t - 40 m-1 x).What is the direction of the disturbance of the wave?

A) the + y direction
B) the + z direction
C) the - x direction
D) the + x direction
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60
A transverse periodic wave is represented by the equation y(x,t) = 2.50 cm cos(2,500 rad/s t - 15.0 m-1 x).What is the direction of the vibration of the wave?

A) the z direction
B) the y direction
C) the x direction
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61
A length of piano wire is used to hang a mass from the ceiling.If the total mass of the string is 0.72 g and the mass hung from it is 1850 g,what is the length of the wire,assuming the fundamental frequency when plucked in these circumstances is 1280 Hz?

A) 2.48 cm
B) 6.15 cm
C) 3.08 cm
D) 1.54 cm
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62
A wave is represented by the equation y(x,t) = 3.2 cm sin(1000 rad/s t - 50 m-1 x).Another wave is represented by the equation y(x,t) = 4.2 cm sin(1000 rad/s t - 50 m-1 x).If the two waves interfere destructively,then what is equation that represents the coherent superposition of the two waves?

A) y(x,t)= 7.4 cm sin(1000 rad/s t + 50.0 m-1 x)
B) y(x,t)= 1.0 cm sin(1000 rad/s t - 50.0 m-1 x)
C) y(x,t)= 1.0 cm sin(1000 rad/s t + 50.0 m-1 x)
D) y(x,t)= 7.4 cm sin(1000 rad/s t - 50.0 m-1 x)
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63
Two speakers are driven exactly out of phase with each other at 256 Hz.If a microphone is placed on the line between the two speakers exactly in the middle of the line,what is possibly the distance between the microphone and each speaker? The speed of sound is 340 m/s.

A) 0.75 m
B) 0.38 m
C) Can be any distance at all
D) 1.50 m
E) 0.94 m
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64
A wave is represented by the equation y(x,t) = 3.2 cm sin(1000 rad/s t - 50 m-1 x).Another wave is represented by the equation y(x,t) = 4.2cm sin(1000 rad/s t - 50 m-1 x).If the two waves interfere constructively,then what is equation that represents the coherent superposition of the two waves?

A) y(x,t)= 7.4 cm sin(1000 rad/s t + 50.0 m-1 x)
B) y(x,t)= 1.0 cm sin(1000 rad/s t - 50.0 m-1 x)
C) y(x,t)= 1.0 cm sin(1000 rad/s t + 50.0 m-1 x)
D) y(x,t)= 7.4 cm sin(1000 rad/s t - 50.0 m-1 x)
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65
What is the frequency of the wave? <strong>What is the frequency of the wave? </strong> A) 80 Hz B) 50 Hz C) 120 Hz D) 140 Hz E) 160 Hz

A) 80 Hz
B) 50 Hz
C) 120 Hz
D) 140 Hz
E) 160 Hz
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66
Two guitar strings are under the same tension and have the same length.If their fundamental frequencies are in a ratio of 3:2,what is the ratio of their masses?

A) 3/2
B) 2/3
C) 9/4
D) 4/9
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67
Two speakers emit coherent sound waves into the open air.One of them produces 75 W of power.If a microphone placed at 12 m from each of the two speakers receives a total intensity of 0.25 W/m2,what is the power output of the second speaker?

A) 151 W
B) 377 W
C) Need more info to solve.
D) 38 W
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68
A microphone records sound produced from two speakers in a room with no other sound sources.If the intensity of one of the sound waves at a given location is 0.055 W/m2 and if the microphone receives a minimum intensity of 0.004 W/m2 when both speakers are active what is a possible value for the intensity of the other source at the microphone's location?

A) Need more info to solve.
B) 0.088 W/m2
C) 0.051 W/m2
D) 0.048 W/m2
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69
A guitar string is supposed to be played with a fundamental frequency of 880 Hz.If it is determined to have,instead,a fundamental frequency of 882 Hz,by what amount (as a percentage)must the tension in the string be changed in order that the fundamental frequency be restored to 880 Hz?

A) -0.45%
B) +0.45%
C) -0.11%
D) -0.23%
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70
A wave is traveling with a velocity of 350 m/s and strikes a surface at an angle of 30.0 degrees with the normal to the surface.The wave splits into a reflected part and a refracted part.The refracted wave travels with a velocity of 300 m/s.What is the angle of refraction?

A) 50.4 degrees
B) 45.2 degrees
C) 40.4 degrees
D) 38.4 degrees
E) 25.4 degrees
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71
A guitar string has a tension of 95 N on it and is 75 cm long.If its mass is 0.27 g,what is the frequency of the first harmonic above the fundamental?

A) 685 Hz
B) 69 Hz
C) 217 Hz
D) 470 kHz
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72
A wave is traveling with a velocity of 300 m/s and strikes a surface at an angle of 30.0 degrees with the normal to the surface.The wave splits into a reflected part and a refracted part.The refracted wave travels with a velocity of 400 m/s.What is the angle of refraction?

A) 20.5 degrees
B) 25.9 degrees
C) 30.5 degrees
D) 41.8 degrees
E) 50.3 degrees
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73
A pair of sound wave sources interfere destructively at a point that is 3/4 of the way from one speaker to the other.If the speed of sound is 343 m/s,and the sound waves are emitted at 880 Hz,which of the following is a possible distance between the two speakers?

A) 2.7 m
B) 0.58 m
C) 1.16 m
D) 1.9 m
E) 77 cm
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74
What is the mass of a 1.25 m long piano wire that has a fundamental frequency of 256 Hz when under a tension of 138 N?

A) 6.4 g
B) 1.7 g
C) 3.4 g
D) 41 g
E) 4.1 g
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75
A transverse periodic wave is represented by the equation y(z,t) = -2.0 cm sin(1,200 rad/s t - 20.0 m-1 x).Another transverse wave is represented by the equation y(z,t) = +2.0 cm sin(1,200 rad/s t + 20.0 m-1 z).What is the equation that represents the superposition of the two waves?

A) y(z,t)= 4.0 cm sin(1,200 rad/s t - 20.0 m-1 z)
B) y(x,t)= 4.0 cm sin(1,200 rad/s t)cos (20.0 m-1 x)
C) y(x,t)= +4.0 cm cos(1,200 rad/s)sin (20.0 m-1 x)
D) y(x,t)= +4.0 cm cos(1,200 rad/s)+ (20.0 m-1 x)
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76
A longitudinal wave is represented by the equation z(z,t) = -2.0 cm sin(1,200 rad/s t - 20 m-1 z).Another longitudinal wave is represented by the equation z(z,t) = +2.0 cm sin(1,200 rad/s t + 20 m-1 z).What is the equation that represents the superposition of the two waves?

A) z(z,t)= +4.0 cm cos(1,200 rad/s t)cos(20 m-1 z).
B) z(z,t)= +4.0 cm cos(1,200 rad/s t)sin(20 m-1 z)
C) z(z,t)= +4.0 cm cos(1,200 rad/s t)cos(20 m-1 z)
D) z(z,t)= -2.0 cm cos(1,200 rad/s t)sin(20 m-1 z)
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77
The following figure is a graph of a wave at a fixed position. <strong>The following figure is a graph of a wave at a fixed position. The following figure is a graph of the same wave at a fixed time. What is the velocity of the wave in the above figure?</strong> A) 150 m/s B) 200 m/s C) 250 m/s D) 300 m/s E) 450 m/s The following figure is a graph of the same wave at a fixed time. <strong>The following figure is a graph of a wave at a fixed position. The following figure is a graph of the same wave at a fixed time. What is the velocity of the wave in the above figure?</strong> A) 150 m/s B) 200 m/s C) 250 m/s D) 300 m/s E) 450 m/s What is the velocity of the wave in the above figure?

A) 150 m/s
B) 200 m/s
C) 250 m/s
D) 300 m/s
E) 450 m/s
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78
The speed of sound in air is dependent upon the air temperature and other factors.The speed of sound increases from 334 m/s to 341 m/s between 8:00am and 11:00am.If a horn produces sound with wavelength 0.75 m at 8:00am,what would it produce at 11:00am?

A) 73 cm
B) 77 cm
C) Not enough info given to solve.
D) 75 cm
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79
A pair of speakers emits coherent sound waves at a frequency of 440 Hz.A microphone is placed such that it is 1.0 m from one speaker on a line that is perpendicular to the line between the speakers.Which of the following distances reflects a possible distance between the speakers if there is complete destructive interference at the location of the microphone? The speed of sound is 340 m/s.

A) 1.0 m
B) 0.77 m
C) 2.16 m
D) 1.3 m
E) 1.77 m
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80
When light travelling in air passes into a sheet of glass,it is observed to change in wavelength to 58% of its wavelength in air.What is the speed of light in the glass?

A) 5.2 ×\times 108 m/s
B) 1.7 ×\times 108 m/s
C) 3.0 ×\times 108 m/s
D) 2.3 ×\times 108 m/s
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