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Deck 15: Mechanical Waves

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Question
For the wave shown in the figure,the wavelength is <strong>For the wave shown in the figure,the wavelength is </strong> A) 8 m. B) 4 m. C) 2 m. D) 1 m. E) unable to be determined from the given information. <div style=padding-top: 35px>

A) 8 m.
B) 4 m.
C) 2 m.
D) 1 m.
E) unable to be determined from the given information.
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Question
For the wave shown in the figure,the frequency is <strong>For the wave shown in the figure,the frequency is </strong> A) 0.5 Hz. B) 1 Hz. C) 2 Hz. D) 4 Hz. E) unable to be determined from the given information. <div style=padding-top: 35px>

A) 0.5 Hz.
B) 1 Hz.
C) 2 Hz.
D) 4 Hz.
E) unable to be determined from the given information.
Question
The figure shows the displacement y of a traveling wave at a given position as a function of time and the displacement of the same wave at a given time as a function of position.How fast is the wave traveling? <strong>The figure shows the displacement y of a traveling wave at a given position as a function of time and the displacement of the same wave at a given time as a function of position.How fast is the wave traveling? </strong> A) 3.0 m/s B) 0.75 m/s C) 0.66 m/s D) 1.5 m/s E) 2.0 m/s <div style=padding-top: 35px>

A) 3.0 m/s
B) 0.75 m/s
C) 0.66 m/s
D) 1.5 m/s
E) 2.0 m/s
Question
Four traveling waves are described by the following equations,where all quantities are measured in SI units and y represents the displacement. I: y = 0.12 cos(3x - 21t)
II: y = 0.15 sin(6x + 42t)
III: y = 0.13 cos(6x + 21t)
IV: y = -0.27 sin(3x - 42t)
Which of these waves have the same period?

A) I and III, and also II and IV
B) I and IV, and also II and III
C) I and II, and also III and IV
D) All of them have the same period.
E) They all have different periods.
Question
A wave pulse traveling to the right along a thin cord reaches a discontinuity where the rope becomes thinner and lighter.What is the orientation of the reflected and transmitted pulses?

A) Both pulses are right side up.
B) The reflected pulse returns right side up while the transmitted pulse is inverted.
C) The reflected pulse returns inverted while the transmitted pulse is right side up.
D) Both pulses are inverted.
Question
The figure shows the displacement y of a wave at a given position as a function of time and the displacement of the same wave at a given time as a function of position.Determine the frequency of the wave. <strong>The figure shows the displacement y of a wave at a given position as a function of time and the displacement of the same wave at a given time as a function of position.Determine the frequency of the wave. </strong> A) 4.0 Hz B) 0.50 Hz C) 3.0 Hz D) 0.33 Hz E) 0.25 Hz <div style=padding-top: 35px>

A) 4.0 Hz
B) 0.50 Hz
C) 3.0 Hz
D) 0.33 Hz
E) 0.25 Hz
Question
When a weight W is hanging from a light vertical string,the speed of pulses on the string is V.If a second weight W is added without stretching the string,the speed of pulses on this string will now become

A) 2V.
B) <strong>When a weight W is hanging from a light vertical string,the speed of pulses on the string is V.If a second weight W is added without stretching the string,the speed of pulses on this string will now become</strong> A) 2V. B) V. C) V. D) V/ . E) V/2. <div style=padding-top: 35px> V.
C) V.
D) V/ <strong>When a weight W is hanging from a light vertical string,the speed of pulses on the string is V.If a second weight W is added without stretching the string,the speed of pulses on this string will now become</strong> A) 2V. B) V. C) V. D) V/ . E) V/2. <div style=padding-top: 35px> .
E) V/2.
Question
A transverse wave is traveling on a string stretched along the horizontal x-axis.The equation for the vertical displacement y of the string is given by <strong>A transverse wave is traveling on a string stretched along the horizontal x-axis.The equation for the vertical displacement y of the string is given by ,where all quantities are in SI units.The maximum speed of a particle of the string is closest to</strong> A) 0.33 m/s. B) 0.43 m/s. C) 0.53 m/s. D) 0.64 m/s. E) 0.74 m/s. <div style=padding-top: 35px> ,where all quantities are in SI units.The maximum speed of a particle of the string is closest to

A) 0.33 m/s.
B) 0.43 m/s.
C) 0.53 m/s.
D) 0.64 m/s.
E) 0.74 m/s.
Question
In the figure,which of the curves best represents the variation of wave speed as a function of tension for transverse waves on a stretched string? <strong>In the figure,which of the curves best represents the variation of wave speed as a function of tension for transverse waves on a stretched string? </strong> A) A B) B C) C D) D E) E <div style=padding-top: 35px>

A) A
B) B
C) C
D) D
E) E
Question
A transverse wave traveling along a string transports energy at a rate r.If we want to double this rate,we could

A) increase the amplitude of the wave by a factor of 8.
B) increase the amplitude of the wave by a factor of 4.
C) increase the amplitude of the wave by a factor of 2.
D) increase the amplitude by a factor of <strong>A transverse wave traveling along a string transports energy at a rate r.If we want to double this rate,we could</strong> A) increase the amplitude of the wave by a factor of 8. B) increase the amplitude of the wave by a factor of 4. C) increase the amplitude of the wave by a factor of 2. D) increase the amplitude by a factor of . E) increase the amplitude by a factor of . <div style=padding-top: 35px> .
E) increase the amplitude by a factor of <strong>A transverse wave traveling along a string transports energy at a rate r.If we want to double this rate,we could</strong> A) increase the amplitude of the wave by a factor of 8. B) increase the amplitude of the wave by a factor of 4. C) increase the amplitude of the wave by a factor of 2. D) increase the amplitude by a factor of . E) increase the amplitude by a factor of . <div style=padding-top: 35px> .
Question
Ocean tides are waves that have a period of 12 hours,an amplitude (in some places)of 1.50 m,and a speed of 750 km/hr.What is the distance between adjacent crests of these waves?

A) 9000 km
B) 32,400 km
C) 9000 m
D) 32,400 m
E) 2500 m
Question
You are generating traveling waves on a stretched string by wiggling one end.If you suddenly begin to wiggle more rapidly without appreciably affecting the tension,you will cause the waves to move down the string

A) faster than before.
B) slower than before.
C) at the same speed as before.
Question
The vertical displacement y(x,t)of a string stretched along the horizontal x-axis is given by The vertical displacement y(x,t)of a string stretched along the horizontal x-axis is given by . (a)What is the minimum time for each complete cycle of the wave? (b)What is the distance between adjacent crests of the wave? (c)How fast does this wave travel?<div style=padding-top: 35px> .
(a)What is the minimum time for each complete cycle of the wave?
(b)What is the distance between adjacent crests of the wave?
(c)How fast does this wave travel?
Question
A tube open at one end and closed at the other end produces sound having a fundamental frequency of 350 Hz.If you now open the closed end,the fundamental frequency becomes

A) 87.5 Hz.
B) 175 Hz.
C) 350 Hz.
D) 700 Hz.
E) 1400 Hz.
Question
Find the speed of an ocean wave whose vertical displacement y as a function of time t is given by <strong>Find the speed of an ocean wave whose vertical displacement y as a function of time t is given by ,where all quantities are in SI units.</strong> A) 2.5 m/s B) 1.9 m/s C) 3.5 m/s D) 4.5 m/s <div style=padding-top: 35px> ,where all quantities are in SI units.

A) 2.5 m/s
B) 1.9 m/s
C) 3.5 m/s
D) 4.5 m/s
Question
A guitar string is fixed at both ends.If you tighten it to increase its tension

A) the frequencies of its vibrational modes will increase but its wavelengths will not be affected.
B) the wavelength increases but the frequency is not affected.
C) both the frequency and the wavelength increase.
Question
Four traveling waves are described by the following equations,where all quantities are measured in SI units and y represents the displacement. I: y = 0.12 cos(3x + 2t)
II: y = 0.15 sin(6x - 3t)
III: y = 0.23 cos(3x + 6t)
IV: y = -0.29 sin(1.5x - t)
Which of these waves have the same speed?

A) I and III
B) I and IV
C) II and III
D) I and II
E) III and IV
Question
Consider the waves on a vibrating guitar string and the sound waves the guitar produces in the surrounding air.The string waves and the sound waves must have the same

A) wavelength.
B) velocity.
C) frequency.
D) amplitude.
E) More than one of the above is true.
Question
A wave pulse traveling to the right along a thin cord reaches a discontinuity where the rope becomes thicker and heavier.What is the orientation of the reflected and transmitted pulses?

A) Both pulses are right side up.
B) The reflected pulse returns right side up while the transmitted pulse is inverted.
C) The reflected pulse returns inverted while the transmitted pulse is right side up.
D) Both pulses are inverted.
Question
The figure shows the displacement y of a traveling wave at a given position as a function of time and the displacement of the same wave at a given time as a function of position.Determine the wavelength of the wave. <strong>The figure shows the displacement y of a traveling wave at a given position as a function of time and the displacement of the same wave at a given time as a function of position.Determine the wavelength of the wave. </strong> A) 2.0 cm B) 3.0 m C) 2.0 m D) 4.0 m E) 1.5 m <div style=padding-top: 35px>

A) 2.0 cm
B) 3.0 m
C) 2.0 m
D) 4.0 m
E) 1.5 m
Question
A heavy stone of mass m is hung from the ceiling by a thin 8.25-g wire that is 65.0 cm long.When you gently pluck the upper end of the wire,a pulse travels down the wire and returns 7.84 ms later,having reflected off the lower end.The stone is heavy enough to prevent the lower end of the wire from moving.What is the mass m of the stone?

A) 8.90 kg
B) 23.1 kg
C) 35.6 kg
D) 227 kg
E) 349 kg
Question
A thin taut string is fixed at both ends and stretched along the horizontal x-axis with its left end at x = 0.It is vibrating in its third OVERTONE,and the equation for the vertical displacement of any point on the string is y(x,t)= A thin taut string is fixed at both ends and stretched along the horizontal x-axis with its left end at x = 0.It is vibrating in its third OVERTONE,and the equation for the vertical displacement of any point on the string is y(x,t)= . (a)What are the frequency and wavelength of the fundamental mode of this string? (b)How long is the string? (c)How fast do waves travel on this string?<div style=padding-top: 35px> .
(a)What are the frequency and wavelength of the fundamental mode of this string?
(b)How long is the string?
(c)How fast do waves travel on this string?
Question
A platinum wire that is 1.20 m long has a radius of 0.500 mm and is fixed at both ends.In its third harmonic it vibrates at 512 Hz.The density of platinum is 21.4 × 103 kg/m3.What is the tension in the wire?

A) 4.00 kN
B) 2.00 kN
C) 2.82 kN
D) 1.41 kN
E) 1.00 kN
Question
A 6.00-m long rope is under a tension of 600 N.Waves travel along this rope at 40.0 m/s.What is the mass of the rope?

A) 1.00 kg
B) 1.25 kg
C) 2.25 kg
D) 2.50 kg
E) 1.12 kg
Question
A 2.00-m long piano wire with a mass per unit length of 12.0 g/m is under a tension of 8.00 kN.What is the frequency of the fundamental mode of vibration of this wire?

A) 204 Hz
B) 102 Hz
C) 408 Hz
D) 510 Hz
E) 153 Hz
Question
You and your surfing buddy are waiting to catch a wave a few hundred meters off the beach.The waves are conveniently sinusoidal,and you notice that when you're on the top of one wave and moving toward your friend,she is exactly halfway between you and the trough of the wave.1.50 seconds later,your friend is at the top of the wave.You estimate the horizontal distance between you and your friend at 8.00 m.
(a)What is the frequency of the waves?
(b)Find the speed of the waves.
Question
A guitar string 0.650 m long has a tension of 61.0 N and a mass per unit length of 3.00 g/m.
(a)What is the speed of waves on the string when it is plucked?
(b)What is the string's fundamental frequency of vibration when plucked?
Question
Observer A is 3.0 m from a tiny light bulb and observer B is 12.0 m from the same bulb.Assume that the light spreads out uniformly and undergoes no significant reflections or absorption.If observer B sees a light of intensity I,the light intensity that A sees is

A) I.
B) 9I.
C) 16I.
D) 36I.
E) 144I.
Question
The intensity of sunlight falling on the earth is about 1.4 kW/m2 (before any gets absorbed by our atmosphere).At what rate does the sun emit light energy? (The earth-sun distance = 1.5 × 108 km and the earth's radius = 6.4 × 103 km.)

A) 4.0 × 1026 W
B) 3.2 × 1022 W
C) 7.2 × 1014 W
D) 7.6 × 108 W
Question
Two people are talking at a distance of 3.0 m from where you are and you measure the sound intensity as 1.1 × 10-7 W/m2.Another student is 4.0 m away from the talkers.What sound intensity does the other student measure? Assume that the sound spreads out uniformly and undergoes no significant reflections or absorption.

A) 6.2 × 10-8 W/m2
B) 1.5 × 10-7 W/m2
C) 8.3 × 10-8 W/m2
D) 7.8 × 10-7 W/m2
E) 2.5 × 10-8 W/m2
Question
A 8.0-m long wire with a mass of 10 g is under tension.A transverse wave for which the frequency is <strong>A 8.0-m long wire with a mass of 10 g is under tension.A transverse wave for which the frequency is ,the wavelength is ,and the amplitude is is propagating on the wire.The maximum transverse acceleration of a point on a wire is closest to</strong> A) 47,000 m/s<sup>2</sup>. B) 41,000 m/s<sup>2</sup>. C) 35,000 m/s<sup>2</sup>. D) 29,000 m/s<sup>2</sup>. E) 53,000 m/s<sup>2</sup>. <div style=padding-top: 35px> ,the wavelength is <strong>A 8.0-m long wire with a mass of 10 g is under tension.A transverse wave for which the frequency is ,the wavelength is ,and the amplitude is is propagating on the wire.The maximum transverse acceleration of a point on a wire is closest to</strong> A) 47,000 m/s<sup>2</sup>. B) 41,000 m/s<sup>2</sup>. C) 35,000 m/s<sup>2</sup>. D) 29,000 m/s<sup>2</sup>. E) 53,000 m/s<sup>2</sup>. <div style=padding-top: 35px> ,and the amplitude is <strong>A 8.0-m long wire with a mass of 10 g is under tension.A transverse wave for which the frequency is ,the wavelength is ,and the amplitude is is propagating on the wire.The maximum transverse acceleration of a point on a wire is closest to</strong> A) 47,000 m/s<sup>2</sup>. B) 41,000 m/s<sup>2</sup>. C) 35,000 m/s<sup>2</sup>. D) 29,000 m/s<sup>2</sup>. E) 53,000 m/s<sup>2</sup>. <div style=padding-top: 35px> is propagating on the wire.The maximum transverse acceleration of a point on a wire is closest to

A) 47,000 m/s2.
B) 41,000 m/s2.
C) 35,000 m/s2.
D) 29,000 m/s2.
E) 53,000 m/s2.
Question
A 2.0-m string is fixed at both ends and tightened until the wave speed is <strong>A 2.0-m string is fixed at both ends and tightened until the wave speed is What is the frequency of the standing wave shown in the figure? </strong> A) 120 Hz B) 230 Hz C) 350 Hz D) 470 Hz <div style=padding-top: 35px> What is the frequency of the standing wave shown in the figure? <strong>A 2.0-m string is fixed at both ends and tightened until the wave speed is What is the frequency of the standing wave shown in the figure? </strong> A) 120 Hz B) 230 Hz C) 350 Hz D) 470 Hz <div style=padding-top: 35px>

A) 120 Hz
B) 230 Hz
C) 350 Hz
D) 470 Hz
Question
A 1.0-g string that is 0.64 m long is fixed at both ends and is under tension.This string produces a 100-Hz tone when it vibrates in the third harmonic.The speed of sound in air is 344 m/s.The tension in the string,in is closest to

A) 2.8 N.
B) 2.3 N.
C) 1.8 N.
D) 3.4 N.
E) 3.9 N.
Question
A tiny vibrating source sends waves uniformly in all directions.An area of 3.25 cm2 on a sphere of radius 2.50 m centered on the source receives energy at a rate o A tiny vibrating source sends waves uniformly in all directions.An area of 3.25 cm<sup>2</sup> on a sphere of radius 2.50 m centered on the source receives energy at a rate o /s. (a)What is the intensity of the waves at 2.50 m from the source and at 10.0 m from the source? (b)At what rate is energy leaving the vibrating source of the waves?<div style=padding-top: 35px> /s.
(a)What is the intensity of the waves at 2.50 m from the source and at 10.0 m from the source?
(b)At what rate is energy leaving the vibrating source of the waves?
Question
Waves travel along a 100-m length of string which has a mass of <strong>Waves travel along a 100-m length of string which has a mass of and is held taut with a tension of .What is the speed of the waves?</strong> A) 3700 m/s B) 370 m/s C) 37 m/s D) 0.37 m/s E) 3.7 m/s <div style=padding-top: 35px> and is held taut with a tension of <strong>Waves travel along a 100-m length of string which has a mass of and is held taut with a tension of .What is the speed of the waves?</strong> A) 3700 m/s B) 370 m/s C) 37 m/s D) 0.37 m/s E) 3.7 m/s <div style=padding-top: 35px> .What is the speed of the waves?

A) 3700 m/s
B) 370 m/s
C) 37 m/s
D) 0.37 m/s
E) 3.7 m/s
Question
A 6.0-m wire with a mass of 50 g,is under tension.A transverse wave,for which the frequency is 810 Hz,the wavelength is 0.40 m,and the amplitude is 4.0 mm,is propagating on the wire.The time for a crest of this wave to travel the length of the wire is closest to

A) 19 ms.
B) 16 ms.
C) 21 ms.
D) 23 ms.
E) 25 ms.
Question
A standing wave is oscillating at 690 Hz on a string,as shown in the figure.What is the speed of traveling waves on this string? <strong>A standing wave is oscillating at 690 Hz on a string,as shown in the figure.What is the speed of traveling waves on this string? </strong> A) 280 m/s B) 410 m/s C) 210 m/s D) 140 m/s <div style=padding-top: 35px>

A) 280 m/s
B) 410 m/s
C) 210 m/s
D) 140 m/s
Question
Calculate the light intensity 1.51 m from a light bulb that emits 100 W of visible light,assuming that the light radiates uniformly in all directions.

A) 3.49 W/m2
B) 4.01 W/m2
C) 43.9 W/m2
D) 50.5 W/m2
Question
The density of aluminum is 2700 kg/m3.If transverse waves propagate at <strong>The density of aluminum is 2700 kg/m<sup>3</sup>.If transverse waves propagate at in a aluminum wire,what is the tension on the wire?</strong> A) 52 N B) 31 N C) 42 N D) 62 N <div style=padding-top: 35px> in a <strong>The density of aluminum is 2700 kg/m<sup>3</sup>.If transverse waves propagate at in a aluminum wire,what is the tension on the wire?</strong> A) 52 N B) 31 N C) 42 N D) 62 N <div style=padding-top: 35px> aluminum wire,what is the tension on the wire?

A) 52 N
B) 31 N
C) 42 N
D) 62 N
Question
A thin 2.00-m string of mass 50.0 g is fixed at both ends and under a tension of 70.0 N.If it is set into small-amplitude oscillation,what is the frequency of the first harmonic mode?

A) 6.61 Hz
B) 13.2 Hz
C) 26.5 Hz
D) 52.9 Hz
Question
Standing waves of frequency 57 Hz are produced on a string that has mass per unit length Standing waves of frequency 57 Hz are produced on a string that has mass per unit length .With what tension must the string be stretched between two supports if adjacent nodes in the standing wave are to be 0.71 meters apart?<div style=padding-top: 35px> .With what tension must the string be stretched between two supports if adjacent nodes in the standing wave are to be 0.71 meters apart?
Question
A heavy stone of mass m is hung from the ceiling by a thin 8.25-g wire that is 65.0 cm long.When you gently pluck the upper end of the wire,a pulse travels down the wire and returns 7.84 ms later,having reflected off the lower end.The speed of sound in the room is 344 m/s,and the stone is heavy enough to prevent the lower end of the wire from moving.If the wire is vibrating in its second overtone,what is the frequency of the sound it will produce?

A) 128 Hz
B) 191 Hz
C) 255 Hz
D) 383 Hz
E) 765 Hz
Question
Two violinists are trying to tune their instruments in an orchestra.One is producing the desired frequency of 440.0 Hz.The other is producing a frequency of 448.4 Hz.By what percentage should the out-of-tune musician change the tension in his string to bring his instrument into tune at 440.0 Hz?

A) +1.9%
B) -1.9%
C) +3.7%
D) -3.7%
E) +8.4%
Question
A heavy stone of mass m is hung from the ceiling by a thin 8.25-g wire that is 65.0 cm long.When you gently pluck the upper end of the wire,a pulse travels down the wire and returns 7.84 ms later,having reflected off the lower end.The speed of sound in the room is 344 m/s,and the stone is heavy enough to prevent the lower end of the wire from moving.If the wire is vibrating in its second overtone,what is the wavelength of the sound it will produce?

A) 0.217 m
B) 0.433 m
C) 0.650 m
D) 0.899 m
E) 1.35 m
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Deck 15: Mechanical Waves
1
For the wave shown in the figure,the wavelength is <strong>For the wave shown in the figure,the wavelength is </strong> A) 8 m. B) 4 m. C) 2 m. D) 1 m. E) unable to be determined from the given information.

A) 8 m.
B) 4 m.
C) 2 m.
D) 1 m.
E) unable to be determined from the given information.
unable to be determined from the given information.
2
For the wave shown in the figure,the frequency is <strong>For the wave shown in the figure,the frequency is </strong> A) 0.5 Hz. B) 1 Hz. C) 2 Hz. D) 4 Hz. E) unable to be determined from the given information.

A) 0.5 Hz.
B) 1 Hz.
C) 2 Hz.
D) 4 Hz.
E) unable to be determined from the given information.
0.5 Hz.
3
The figure shows the displacement y of a traveling wave at a given position as a function of time and the displacement of the same wave at a given time as a function of position.How fast is the wave traveling? <strong>The figure shows the displacement y of a traveling wave at a given position as a function of time and the displacement of the same wave at a given time as a function of position.How fast is the wave traveling? </strong> A) 3.0 m/s B) 0.75 m/s C) 0.66 m/s D) 1.5 m/s E) 2.0 m/s

A) 3.0 m/s
B) 0.75 m/s
C) 0.66 m/s
D) 1.5 m/s
E) 2.0 m/s
0.75 m/s
4
Four traveling waves are described by the following equations,where all quantities are measured in SI units and y represents the displacement. I: y = 0.12 cos(3x - 21t)
II: y = 0.15 sin(6x + 42t)
III: y = 0.13 cos(6x + 21t)
IV: y = -0.27 sin(3x - 42t)
Which of these waves have the same period?

A) I and III, and also II and IV
B) I and IV, and also II and III
C) I and II, and also III and IV
D) All of them have the same period.
E) They all have different periods.
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5
A wave pulse traveling to the right along a thin cord reaches a discontinuity where the rope becomes thinner and lighter.What is the orientation of the reflected and transmitted pulses?

A) Both pulses are right side up.
B) The reflected pulse returns right side up while the transmitted pulse is inverted.
C) The reflected pulse returns inverted while the transmitted pulse is right side up.
D) Both pulses are inverted.
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6
The figure shows the displacement y of a wave at a given position as a function of time and the displacement of the same wave at a given time as a function of position.Determine the frequency of the wave. <strong>The figure shows the displacement y of a wave at a given position as a function of time and the displacement of the same wave at a given time as a function of position.Determine the frequency of the wave. </strong> A) 4.0 Hz B) 0.50 Hz C) 3.0 Hz D) 0.33 Hz E) 0.25 Hz

A) 4.0 Hz
B) 0.50 Hz
C) 3.0 Hz
D) 0.33 Hz
E) 0.25 Hz
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7
When a weight W is hanging from a light vertical string,the speed of pulses on the string is V.If a second weight W is added without stretching the string,the speed of pulses on this string will now become

A) 2V.
B) <strong>When a weight W is hanging from a light vertical string,the speed of pulses on the string is V.If a second weight W is added without stretching the string,the speed of pulses on this string will now become</strong> A) 2V. B) V. C) V. D) V/ . E) V/2. V.
C) V.
D) V/ <strong>When a weight W is hanging from a light vertical string,the speed of pulses on the string is V.If a second weight W is added without stretching the string,the speed of pulses on this string will now become</strong> A) 2V. B) V. C) V. D) V/ . E) V/2. .
E) V/2.
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8
A transverse wave is traveling on a string stretched along the horizontal x-axis.The equation for the vertical displacement y of the string is given by <strong>A transverse wave is traveling on a string stretched along the horizontal x-axis.The equation for the vertical displacement y of the string is given by ,where all quantities are in SI units.The maximum speed of a particle of the string is closest to</strong> A) 0.33 m/s. B) 0.43 m/s. C) 0.53 m/s. D) 0.64 m/s. E) 0.74 m/s. ,where all quantities are in SI units.The maximum speed of a particle of the string is closest to

A) 0.33 m/s.
B) 0.43 m/s.
C) 0.53 m/s.
D) 0.64 m/s.
E) 0.74 m/s.
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9
In the figure,which of the curves best represents the variation of wave speed as a function of tension for transverse waves on a stretched string? <strong>In the figure,which of the curves best represents the variation of wave speed as a function of tension for transverse waves on a stretched string? </strong> A) A B) B C) C D) D E) E

A) A
B) B
C) C
D) D
E) E
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10
A transverse wave traveling along a string transports energy at a rate r.If we want to double this rate,we could

A) increase the amplitude of the wave by a factor of 8.
B) increase the amplitude of the wave by a factor of 4.
C) increase the amplitude of the wave by a factor of 2.
D) increase the amplitude by a factor of <strong>A transverse wave traveling along a string transports energy at a rate r.If we want to double this rate,we could</strong> A) increase the amplitude of the wave by a factor of 8. B) increase the amplitude of the wave by a factor of 4. C) increase the amplitude of the wave by a factor of 2. D) increase the amplitude by a factor of . E) increase the amplitude by a factor of . .
E) increase the amplitude by a factor of <strong>A transverse wave traveling along a string transports energy at a rate r.If we want to double this rate,we could</strong> A) increase the amplitude of the wave by a factor of 8. B) increase the amplitude of the wave by a factor of 4. C) increase the amplitude of the wave by a factor of 2. D) increase the amplitude by a factor of . E) increase the amplitude by a factor of . .
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11
Ocean tides are waves that have a period of 12 hours,an amplitude (in some places)of 1.50 m,and a speed of 750 km/hr.What is the distance between adjacent crests of these waves?

A) 9000 km
B) 32,400 km
C) 9000 m
D) 32,400 m
E) 2500 m
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12
You are generating traveling waves on a stretched string by wiggling one end.If you suddenly begin to wiggle more rapidly without appreciably affecting the tension,you will cause the waves to move down the string

A) faster than before.
B) slower than before.
C) at the same speed as before.
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13
The vertical displacement y(x,t)of a string stretched along the horizontal x-axis is given by The vertical displacement y(x,t)of a string stretched along the horizontal x-axis is given by . (a)What is the minimum time for each complete cycle of the wave? (b)What is the distance between adjacent crests of the wave? (c)How fast does this wave travel? .
(a)What is the minimum time for each complete cycle of the wave?
(b)What is the distance between adjacent crests of the wave?
(c)How fast does this wave travel?
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14
A tube open at one end and closed at the other end produces sound having a fundamental frequency of 350 Hz.If you now open the closed end,the fundamental frequency becomes

A) 87.5 Hz.
B) 175 Hz.
C) 350 Hz.
D) 700 Hz.
E) 1400 Hz.
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15
Find the speed of an ocean wave whose vertical displacement y as a function of time t is given by <strong>Find the speed of an ocean wave whose vertical displacement y as a function of time t is given by ,where all quantities are in SI units.</strong> A) 2.5 m/s B) 1.9 m/s C) 3.5 m/s D) 4.5 m/s ,where all quantities are in SI units.

A) 2.5 m/s
B) 1.9 m/s
C) 3.5 m/s
D) 4.5 m/s
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16
A guitar string is fixed at both ends.If you tighten it to increase its tension

A) the frequencies of its vibrational modes will increase but its wavelengths will not be affected.
B) the wavelength increases but the frequency is not affected.
C) both the frequency and the wavelength increase.
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17
Four traveling waves are described by the following equations,where all quantities are measured in SI units and y represents the displacement. I: y = 0.12 cos(3x + 2t)
II: y = 0.15 sin(6x - 3t)
III: y = 0.23 cos(3x + 6t)
IV: y = -0.29 sin(1.5x - t)
Which of these waves have the same speed?

A) I and III
B) I and IV
C) II and III
D) I and II
E) III and IV
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18
Consider the waves on a vibrating guitar string and the sound waves the guitar produces in the surrounding air.The string waves and the sound waves must have the same

A) wavelength.
B) velocity.
C) frequency.
D) amplitude.
E) More than one of the above is true.
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19
A wave pulse traveling to the right along a thin cord reaches a discontinuity where the rope becomes thicker and heavier.What is the orientation of the reflected and transmitted pulses?

A) Both pulses are right side up.
B) The reflected pulse returns right side up while the transmitted pulse is inverted.
C) The reflected pulse returns inverted while the transmitted pulse is right side up.
D) Both pulses are inverted.
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20
The figure shows the displacement y of a traveling wave at a given position as a function of time and the displacement of the same wave at a given time as a function of position.Determine the wavelength of the wave. <strong>The figure shows the displacement y of a traveling wave at a given position as a function of time and the displacement of the same wave at a given time as a function of position.Determine the wavelength of the wave. </strong> A) 2.0 cm B) 3.0 m C) 2.0 m D) 4.0 m E) 1.5 m

A) 2.0 cm
B) 3.0 m
C) 2.0 m
D) 4.0 m
E) 1.5 m
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21
A heavy stone of mass m is hung from the ceiling by a thin 8.25-g wire that is 65.0 cm long.When you gently pluck the upper end of the wire,a pulse travels down the wire and returns 7.84 ms later,having reflected off the lower end.The stone is heavy enough to prevent the lower end of the wire from moving.What is the mass m of the stone?

A) 8.90 kg
B) 23.1 kg
C) 35.6 kg
D) 227 kg
E) 349 kg
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22
A thin taut string is fixed at both ends and stretched along the horizontal x-axis with its left end at x = 0.It is vibrating in its third OVERTONE,and the equation for the vertical displacement of any point on the string is y(x,t)= A thin taut string is fixed at both ends and stretched along the horizontal x-axis with its left end at x = 0.It is vibrating in its third OVERTONE,and the equation for the vertical displacement of any point on the string is y(x,t)= . (a)What are the frequency and wavelength of the fundamental mode of this string? (b)How long is the string? (c)How fast do waves travel on this string? .
(a)What are the frequency and wavelength of the fundamental mode of this string?
(b)How long is the string?
(c)How fast do waves travel on this string?
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23
A platinum wire that is 1.20 m long has a radius of 0.500 mm and is fixed at both ends.In its third harmonic it vibrates at 512 Hz.The density of platinum is 21.4 × 103 kg/m3.What is the tension in the wire?

A) 4.00 kN
B) 2.00 kN
C) 2.82 kN
D) 1.41 kN
E) 1.00 kN
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24
A 6.00-m long rope is under a tension of 600 N.Waves travel along this rope at 40.0 m/s.What is the mass of the rope?

A) 1.00 kg
B) 1.25 kg
C) 2.25 kg
D) 2.50 kg
E) 1.12 kg
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25
A 2.00-m long piano wire with a mass per unit length of 12.0 g/m is under a tension of 8.00 kN.What is the frequency of the fundamental mode of vibration of this wire?

A) 204 Hz
B) 102 Hz
C) 408 Hz
D) 510 Hz
E) 153 Hz
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26
You and your surfing buddy are waiting to catch a wave a few hundred meters off the beach.The waves are conveniently sinusoidal,and you notice that when you're on the top of one wave and moving toward your friend,she is exactly halfway between you and the trough of the wave.1.50 seconds later,your friend is at the top of the wave.You estimate the horizontal distance between you and your friend at 8.00 m.
(a)What is the frequency of the waves?
(b)Find the speed of the waves.
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27
A guitar string 0.650 m long has a tension of 61.0 N and a mass per unit length of 3.00 g/m.
(a)What is the speed of waves on the string when it is plucked?
(b)What is the string's fundamental frequency of vibration when plucked?
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28
Observer A is 3.0 m from a tiny light bulb and observer B is 12.0 m from the same bulb.Assume that the light spreads out uniformly and undergoes no significant reflections or absorption.If observer B sees a light of intensity I,the light intensity that A sees is

A) I.
B) 9I.
C) 16I.
D) 36I.
E) 144I.
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29
The intensity of sunlight falling on the earth is about 1.4 kW/m2 (before any gets absorbed by our atmosphere).At what rate does the sun emit light energy? (The earth-sun distance = 1.5 × 108 km and the earth's radius = 6.4 × 103 km.)

A) 4.0 × 1026 W
B) 3.2 × 1022 W
C) 7.2 × 1014 W
D) 7.6 × 108 W
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30
Two people are talking at a distance of 3.0 m from where you are and you measure the sound intensity as 1.1 × 10-7 W/m2.Another student is 4.0 m away from the talkers.What sound intensity does the other student measure? Assume that the sound spreads out uniformly and undergoes no significant reflections or absorption.

A) 6.2 × 10-8 W/m2
B) 1.5 × 10-7 W/m2
C) 8.3 × 10-8 W/m2
D) 7.8 × 10-7 W/m2
E) 2.5 × 10-8 W/m2
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31
A 8.0-m long wire with a mass of 10 g is under tension.A transverse wave for which the frequency is <strong>A 8.0-m long wire with a mass of 10 g is under tension.A transverse wave for which the frequency is ,the wavelength is ,and the amplitude is is propagating on the wire.The maximum transverse acceleration of a point on a wire is closest to</strong> A) 47,000 m/s<sup>2</sup>. B) 41,000 m/s<sup>2</sup>. C) 35,000 m/s<sup>2</sup>. D) 29,000 m/s<sup>2</sup>. E) 53,000 m/s<sup>2</sup>. ,the wavelength is <strong>A 8.0-m long wire with a mass of 10 g is under tension.A transverse wave for which the frequency is ,the wavelength is ,and the amplitude is is propagating on the wire.The maximum transverse acceleration of a point on a wire is closest to</strong> A) 47,000 m/s<sup>2</sup>. B) 41,000 m/s<sup>2</sup>. C) 35,000 m/s<sup>2</sup>. D) 29,000 m/s<sup>2</sup>. E) 53,000 m/s<sup>2</sup>. ,and the amplitude is <strong>A 8.0-m long wire with a mass of 10 g is under tension.A transverse wave for which the frequency is ,the wavelength is ,and the amplitude is is propagating on the wire.The maximum transverse acceleration of a point on a wire is closest to</strong> A) 47,000 m/s<sup>2</sup>. B) 41,000 m/s<sup>2</sup>. C) 35,000 m/s<sup>2</sup>. D) 29,000 m/s<sup>2</sup>. E) 53,000 m/s<sup>2</sup>. is propagating on the wire.The maximum transverse acceleration of a point on a wire is closest to

A) 47,000 m/s2.
B) 41,000 m/s2.
C) 35,000 m/s2.
D) 29,000 m/s2.
E) 53,000 m/s2.
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32
A 2.0-m string is fixed at both ends and tightened until the wave speed is <strong>A 2.0-m string is fixed at both ends and tightened until the wave speed is What is the frequency of the standing wave shown in the figure? </strong> A) 120 Hz B) 230 Hz C) 350 Hz D) 470 Hz What is the frequency of the standing wave shown in the figure? <strong>A 2.0-m string is fixed at both ends and tightened until the wave speed is What is the frequency of the standing wave shown in the figure? </strong> A) 120 Hz B) 230 Hz C) 350 Hz D) 470 Hz

A) 120 Hz
B) 230 Hz
C) 350 Hz
D) 470 Hz
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33
A 1.0-g string that is 0.64 m long is fixed at both ends and is under tension.This string produces a 100-Hz tone when it vibrates in the third harmonic.The speed of sound in air is 344 m/s.The tension in the string,in is closest to

A) 2.8 N.
B) 2.3 N.
C) 1.8 N.
D) 3.4 N.
E) 3.9 N.
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34
A tiny vibrating source sends waves uniformly in all directions.An area of 3.25 cm2 on a sphere of radius 2.50 m centered on the source receives energy at a rate o A tiny vibrating source sends waves uniformly in all directions.An area of 3.25 cm<sup>2</sup> on a sphere of radius 2.50 m centered on the source receives energy at a rate o /s. (a)What is the intensity of the waves at 2.50 m from the source and at 10.0 m from the source? (b)At what rate is energy leaving the vibrating source of the waves? /s.
(a)What is the intensity of the waves at 2.50 m from the source and at 10.0 m from the source?
(b)At what rate is energy leaving the vibrating source of the waves?
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35
Waves travel along a 100-m length of string which has a mass of <strong>Waves travel along a 100-m length of string which has a mass of and is held taut with a tension of .What is the speed of the waves?</strong> A) 3700 m/s B) 370 m/s C) 37 m/s D) 0.37 m/s E) 3.7 m/s and is held taut with a tension of <strong>Waves travel along a 100-m length of string which has a mass of and is held taut with a tension of .What is the speed of the waves?</strong> A) 3700 m/s B) 370 m/s C) 37 m/s D) 0.37 m/s E) 3.7 m/s .What is the speed of the waves?

A) 3700 m/s
B) 370 m/s
C) 37 m/s
D) 0.37 m/s
E) 3.7 m/s
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36
A 6.0-m wire with a mass of 50 g,is under tension.A transverse wave,for which the frequency is 810 Hz,the wavelength is 0.40 m,and the amplitude is 4.0 mm,is propagating on the wire.The time for a crest of this wave to travel the length of the wire is closest to

A) 19 ms.
B) 16 ms.
C) 21 ms.
D) 23 ms.
E) 25 ms.
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37
A standing wave is oscillating at 690 Hz on a string,as shown in the figure.What is the speed of traveling waves on this string? <strong>A standing wave is oscillating at 690 Hz on a string,as shown in the figure.What is the speed of traveling waves on this string? </strong> A) 280 m/s B) 410 m/s C) 210 m/s D) 140 m/s

A) 280 m/s
B) 410 m/s
C) 210 m/s
D) 140 m/s
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38
Calculate the light intensity 1.51 m from a light bulb that emits 100 W of visible light,assuming that the light radiates uniformly in all directions.

A) 3.49 W/m2
B) 4.01 W/m2
C) 43.9 W/m2
D) 50.5 W/m2
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39
The density of aluminum is 2700 kg/m3.If transverse waves propagate at <strong>The density of aluminum is 2700 kg/m<sup>3</sup>.If transverse waves propagate at in a aluminum wire,what is the tension on the wire?</strong> A) 52 N B) 31 N C) 42 N D) 62 N in a <strong>The density of aluminum is 2700 kg/m<sup>3</sup>.If transverse waves propagate at in a aluminum wire,what is the tension on the wire?</strong> A) 52 N B) 31 N C) 42 N D) 62 N aluminum wire,what is the tension on the wire?

A) 52 N
B) 31 N
C) 42 N
D) 62 N
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40
A thin 2.00-m string of mass 50.0 g is fixed at both ends and under a tension of 70.0 N.If it is set into small-amplitude oscillation,what is the frequency of the first harmonic mode?

A) 6.61 Hz
B) 13.2 Hz
C) 26.5 Hz
D) 52.9 Hz
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41
Standing waves of frequency 57 Hz are produced on a string that has mass per unit length Standing waves of frequency 57 Hz are produced on a string that has mass per unit length .With what tension must the string be stretched between two supports if adjacent nodes in the standing wave are to be 0.71 meters apart? .With what tension must the string be stretched between two supports if adjacent nodes in the standing wave are to be 0.71 meters apart?
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42
A heavy stone of mass m is hung from the ceiling by a thin 8.25-g wire that is 65.0 cm long.When you gently pluck the upper end of the wire,a pulse travels down the wire and returns 7.84 ms later,having reflected off the lower end.The speed of sound in the room is 344 m/s,and the stone is heavy enough to prevent the lower end of the wire from moving.If the wire is vibrating in its second overtone,what is the frequency of the sound it will produce?

A) 128 Hz
B) 191 Hz
C) 255 Hz
D) 383 Hz
E) 765 Hz
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43
Two violinists are trying to tune their instruments in an orchestra.One is producing the desired frequency of 440.0 Hz.The other is producing a frequency of 448.4 Hz.By what percentage should the out-of-tune musician change the tension in his string to bring his instrument into tune at 440.0 Hz?

A) +1.9%
B) -1.9%
C) +3.7%
D) -3.7%
E) +8.4%
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44
A heavy stone of mass m is hung from the ceiling by a thin 8.25-g wire that is 65.0 cm long.When you gently pluck the upper end of the wire,a pulse travels down the wire and returns 7.84 ms later,having reflected off the lower end.The speed of sound in the room is 344 m/s,and the stone is heavy enough to prevent the lower end of the wire from moving.If the wire is vibrating in its second overtone,what is the wavelength of the sound it will produce?

A) 0.217 m
B) 0.433 m
C) 0.650 m
D) 0.899 m
E) 1.35 m
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