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Deck 16: Wave Motion

ملء الشاشة (f)
exit full mode
سؤال
The wavelength of light visible to the human eye is on the order of 5 × 10−7 m. If the speed of light in air is 3 × 108 m/s, find the frequency of the lightwave.

A) 3 × 107 Hz
B) 4 × 109 Hz
C) 5 × 1011 Hz
D) 6 × 1014 Hz
E) 4 × 1015 Hz
استخدم زر المسافة أو
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لقلب البطاقة.
سؤال
For the transverse wave described by <strong>For the transverse wave described by , determine the maximum transverse speed of the particles of the medium.</strong> A) 0.192 m/s B) 0.6π m/s C) 9.6 m/s D) 4 m/s E) 2 m/s <div style=padding-top: 35px> , determine the maximum transverse speed of the particles of the medium.

A) 0.192 m/s
B) 0.6π m/s
C) 9.6 m/s
D) 4 m/s
E) 2 m/s
سؤال
If y = 0.02 sin (30x − 400t) (SI units), the angular frequency of the wave is

A) 30 rad/s
B) 30/2π rad/s
C) 400/2π rad/s
D) 400 rad/s
E) 40/3 rad/s
سؤال
For the wave described by <strong>For the wave described by , determine the x coordinate of the second maximum when t = 0.</strong> A) 20 m B) 18 m C) 24 m D) 28 m E) 16 m <div style=padding-top: 35px> , determine the x coordinate of the second maximum when t = 0.

A) 20 m
B) 18 m
C) 24 m
D) 28 m
E) 16 m
سؤال
Write the equation of a wave, traveling along the +x axis with an amplitude of 0.02 m, a frequency of 440 Hz, and a speed of 330 m/sec.

A) y = 0.02 sin [880π(x/330 − t)]
B) y = 0.02 cos [880π x/330 − 440t]
C) y = 0.02 sin [880π(x/330 + t)]
D) y = 0.02 sin [2π(x/330 + 440t)]
E) y = 0.02 cos [2π(x/330 + 440t)]
سؤال
If y = 0.02 sin (30x − 400t) (SI units), the frequency of the wave is

A) 30 Hz
B) 15/π Hz
C) 200/π Hz
D) 400 Hz
E) 800π Hz
سؤال
If y = 0.02 sin (30x − 400t) (SI units), the wavelength of the wave is

A) π/15 m
B) 15/π m
C) 60π m
D) 4.2 m
E) 30 m
سؤال
A 100-m long transmission cable is suspended between two towers. If the mass density is 2.01 kg/m and the tension in the cable is 3.00 × 104 N, what is the speed of transverse waves on the cable?

A) 60 m/s
B) 122 m/s
C) 244 m/s
D) 310 m/s
E) 1 500 m/s
سؤال
The lowest A on a piano has a frequency of 27.5 Hz. If the tension in the 2.00-m string is 308 N, and one-half wavelength occupies the string, what is the mass of the wire?

A) 0.025 kg
B) 0.049 kg
C) 0.051 kg
D) 0.081 kg
E) 0.037 kg
سؤال
Bats can detect small objects such as insects that are of a size on the order of a wavelength. If bats emit a chirp at a frequency of 60 kHz and the speed of soundwaves in air is 330 m/s, what is the smallest size insect they can detect?

A) 1.5 mm
B) 3.5 mm
C) 5.5 mm
D) 7.5 mm
E) 9.8 mm
سؤال
Transverse waves are traveling on a 1.00-m long piano string at 500 m/s. If the points of zero vibration occur at one-half wavelength (where the string is fastened at both ends), find the frequency of vibration.

A) 250 Hz
B) 500 Hz
C) 1 000 Hz
D) 2 000 Hz
E) 2 500 Hz
سؤال
If y = 0.02 sin (30x − 400t) (SI units) and if the mass density of the string on which the wave propagates is 0.005 kg/m, then the transmitted power is

A) 1.03 W
B) 2.13 W
C) 4.84 W
D) 5.54 W
E) 106 W
سؤال
An earthquake emits both S-waves and P-waves which travel at different speeds through the Earth. A P-wave travels at 9 000 m/s and an S-wave travels at 5 000 m/s. If P-waves are received at a seismic station 1.00 minute before an S-wave arrives, how far away is the earthquake center?

A) 88.9 km
B) 1 200 km
C) 675 km
D) 240 km
E) 480 km
سؤال
Ocean waves with a wavelength of 120 m are coming in at a rate of 8 per minute. What is their speed?

A) 8.0 m/s
B) 16 m/s
C) 24 m/s
D) 30 m/s
E) 4.0 m/s
سؤال
A piano string of density 0.005 0 kg/m is under a tension of 1 350 N. Find the velocity with which a wave travels on the string.

A) 260 m/s
B) 520 m/s
C) 1 040 m/s
D) 2 080 m/s
E) 4 160 m/s
سؤال
The speed of a 10-kHz sound wave in seawater is approximately 1 500 m/s. What is its wavelength in sea water?

A) 5.0 cm
B) 10 cm
C) 15 cm
D) 20 cm
E) 29 cm
سؤال
If y = 0.02 sin (30x − 400t) (SI units), the velocity of the wave is

A) 3/40 m/s
B) 40/3 m/s
C) 60π/400 m/s
D) 400/60π m/s
E) 400 m/s
سؤال
For the wave described by <strong>For the wave described by , determine the first positive x coordinate where y is a maximum when t = 0.</strong> A) 16 m B) 8 m C) 4 m D) 2 m E) 13 m <div style=padding-top: 35px> , determine the first positive x coordinate where y is a maximum when t = 0.

A) 16 m
B) 8 m
C) 4 m
D) 2 m
E) 13 m
سؤال
For the wave described by y = 0.02 sin (kx) at t = 0 s, the first maximum at a positive x coordinate occurs where x = 4 m. Where on the positive x axis does the second maximum occur?

A) 20 m
B) 18 m
C) 24 m
D) 28 m
E) 16 m
سؤال
If y = 0.02 sin (30x − 400t) (SI units), the wave number is

A) 30 rad/m
B) 30/2π rad/m
C) 400/2π rad/m
D) 400 rad/m
E) 60π rad/m
سؤال
To transmit four times as much energy per unit time along a string, you can

A) double the frequency.
B) double the amplitude.
C) increase the tension by a factor of 16.
D) do any one of the above.
E) do only (a) or (b) above.
سؤال
You are holding on to one end of a long string that is fastened to a rigid steel light pole. After producing a wave pulse that was 5 mm high and 4 cm wide, you want to produce a pulse that is 6 cm wide and 7 mm high. You must move your hand up and down once,

A) the same distance up as before, but take a shorter time.
B) the same distance up as before, but take a longer time.
C) a smaller distance up, but take a shorter time.
D) a greater distance up, but take a longer time.
E) a greater distance up, but take the same time.
سؤال
The figure below represents a string which has a heavy section and a light section. The mass per unit length of the heavy section is 16 times as large as the mass per unit length of the light section. When the string is under tension, the speed of a pulse traveling in the heavy section is ____ times the speed of that same pulse traveling in the light section. <strong>The figure below represents a string which has a heavy section and a light section. The mass per unit length of the heavy section is 16 times as large as the mass per unit length of the light section. When the string is under tension, the speed of a pulse traveling in the heavy section is ____ times the speed of that same pulse traveling in the light section. </strong> A) B) C) D) 2 E) 4 <div style=padding-top: 35px>

A)
<strong>The figure below represents a string which has a heavy section and a light section. The mass per unit length of the heavy section is 16 times as large as the mass per unit length of the light section. When the string is under tension, the speed of a pulse traveling in the heavy section is ____ times the speed of that same pulse traveling in the light section. </strong> A) B) C) D) 2 E) 4 <div style=padding-top: 35px>
B)
<strong>The figure below represents a string which has a heavy section and a light section. The mass per unit length of the heavy section is 16 times as large as the mass per unit length of the light section. When the string is under tension, the speed of a pulse traveling in the heavy section is ____ times the speed of that same pulse traveling in the light section. </strong> A) B) C) D) 2 E) 4 <div style=padding-top: 35px>
C)
<strong>The figure below represents a string which has a heavy section and a light section. The mass per unit length of the heavy section is 16 times as large as the mass per unit length of the light section. When the string is under tension, the speed of a pulse traveling in the heavy section is ____ times the speed of that same pulse traveling in the light section. </strong> A) B) C) D) 2 E) 4 <div style=padding-top: 35px>
D) 2
E) 4
سؤال
Exhibit 16-3
Four wave functions are given below.
I.y(x, t) = 5sin(4x - 20t + 4)
II.y(x, t) = 5sin(3x - 12t + 5)
III.y(x, t) = 5cos(4x + 24t + 6)
IV.y(x, t) = 14cos(2x - 8t + 3)
Use this exhibit to answer the following question(s).
Refer to Exhibit 16-3. Rank the wave functions in order of the magnitude of the wave speeds, from least to greatest.

A) IV, II, I, III
B) IV = II, I, III
C) III, I, II, IV
D) IV, I, II, III
E) III, IV, II, I
سؤال
A student attaches a length of nylon fishing line to a fence post. She stretches it out and shakes the end of the rope in her hand back and forth to produce waves on the line. The most efficient way for her to increase the wavelength is to

A) increase the tension on the hose and shake the end more times per second.
B) decrease the tension on the hose and shake the end more times per second.
C) increase the tension on the hose and shake the end fewer times per second.
D) decrease the tension on the hose and shake the end fewer times per second.
E) keep the tension and frequency the same but increase the length of the hose.
سؤال
Exhibit 16-1
The figure below shows a sine wave at one point of a string as a function of time. <strong>Exhibit 16-1 The figure below shows a sine wave at one point of a string as a function of time. Use the exhibit to answer the following question(s). Refer to Exhibit 16-1. Which of the graphs below shows a wave where the amplitude and frequency are each reduced in half?</strong> A) B) C) D) E) <div style=padding-top: 35px> Use the exhibit to answer the following question(s).
Refer to Exhibit 16-1. Which of the graphs below shows a wave where the amplitude and frequency are each reduced in half?

A)
<strong>Exhibit 16-1 The figure below shows a sine wave at one point of a string as a function of time. Use the exhibit to answer the following question(s). Refer to Exhibit 16-1. Which of the graphs below shows a wave where the amplitude and frequency are each reduced in half?</strong> A) B) C) D) E) <div style=padding-top: 35px>
B)
<strong>Exhibit 16-1 The figure below shows a sine wave at one point of a string as a function of time. Use the exhibit to answer the following question(s). Refer to Exhibit 16-1. Which of the graphs below shows a wave where the amplitude and frequency are each reduced in half?</strong> A) B) C) D) E) <div style=padding-top: 35px>
C)
<strong>Exhibit 16-1 The figure below shows a sine wave at one point of a string as a function of time. Use the exhibit to answer the following question(s). Refer to Exhibit 16-1. Which of the graphs below shows a wave where the amplitude and frequency are each reduced in half?</strong> A) B) C) D) E) <div style=padding-top: 35px>
D)
<strong>Exhibit 16-1 The figure below shows a sine wave at one point of a string as a function of time. Use the exhibit to answer the following question(s). Refer to Exhibit 16-1. Which of the graphs below shows a wave where the amplitude and frequency are each reduced in half?</strong> A) B) C) D) E) <div style=padding-top: 35px>
E)
<strong>Exhibit 16-1 The figure below shows a sine wave at one point of a string as a function of time. Use the exhibit to answer the following question(s). Refer to Exhibit 16-1. Which of the graphs below shows a wave where the amplitude and frequency are each reduced in half?</strong> A) B) C) D) E) <div style=padding-top: 35px>
سؤال
You are holding on to one end of a long string that is fastened to a rigid steel light pole. After producing a wave pulse that was 5 mm high and 4 cm wide, you want to produce a pulse that is 4 cm wide but 7 mm high. You must move your hand up and down once,

A) the same distance up as before, but take a shorter time.
B) the same distance up as before, but take a longer time.
C) a smaller distance up, but take a shorter time.
D) a greater distance up, but take a longer time.
E) a greater distance up, but take the same time.
سؤال
Exhibit 16-3
Four wave functions are given below.
I.y(x, t) = 5sin(4x - 20t + 4)
II.y(x, t) = 5sin(3x - 12t + 5)
III.y(x, t) = 5cos(4x + 24t + 6)
IV.y(x, t) = 14cos(2x - 8t + 3)
Use this exhibit to answer the following question(s).
Refer to Exhibit 16-3. Rank the wave functions in order of the magnitude of the wavelengths, from least to greatest.

A) IV, II, I, III
B) IV, I, II, III
C) I, II, III, IV
D) IV, II, III = I
E) I = III, II, IV
سؤال
Suppose that you were selected for a "Survivor"-type TV show. To help keep your group connected, you suggest that long vines can be tied together and used to transmit signals in cases of emergency. To get the signals to travel faster, you should

A) select lighter vines.
B) increase the tension on the vines.
C) hang weights from the vines at evenly spaced intervals.
D) do all of the above.
E) do (a) or (b) above, preferably both.
سؤال
The wave equation is written down in an exam as <strong>The wave equation is written down in an exam as From dimensional considerations we see that</strong> A) v<sup>2</sup> should be replaced by . B) v<sup>2</sup> should be replaced by . C) v<sup>2</sup> should be replaced by v. D) v<sup>2</sup> should be replaced by . E) v<sup>2</sup> should be replaced by . <div style=padding-top: 35px> From dimensional considerations we see that

A) v2 should be replaced by
<strong>The wave equation is written down in an exam as From dimensional considerations we see that</strong> A) v<sup>2</sup> should be replaced by . B) v<sup>2</sup> should be replaced by . C) v<sup>2</sup> should be replaced by v. D) v<sup>2</sup> should be replaced by . E) v<sup>2</sup> should be replaced by . <div style=padding-top: 35px> .
B) v2 should be replaced by
<strong>The wave equation is written down in an exam as From dimensional considerations we see that</strong> A) v<sup>2</sup> should be replaced by . B) v<sup>2</sup> should be replaced by . C) v<sup>2</sup> should be replaced by v. D) v<sup>2</sup> should be replaced by . E) v<sup>2</sup> should be replaced by . <div style=padding-top: 35px> .
C) v2 should be replaced by v.
D) v2 should be replaced by
<strong>The wave equation is written down in an exam as From dimensional considerations we see that</strong> A) v<sup>2</sup> should be replaced by . B) v<sup>2</sup> should be replaced by . C) v<sup>2</sup> should be replaced by v. D) v<sup>2</sup> should be replaced by . E) v<sup>2</sup> should be replaced by . <div style=padding-top: 35px> .
E) v2 should be replaced by
<strong>The wave equation is written down in an exam as From dimensional considerations we see that</strong> A) v<sup>2</sup> should be replaced by . B) v<sup>2</sup> should be replaced by . C) v<sup>2</sup> should be replaced by v. D) v<sup>2</sup> should be replaced by . E) v<sup>2</sup> should be replaced by . <div style=padding-top: 35px> .
سؤال
Find the period of a wave of 100-m wavelength in deep water where <strong>Find the period of a wave of 100-m wavelength in deep water where .</strong> A) 5.0 s B) 8.0 s C) 12.5 s D) 15 s E) 0.125 s <div style=padding-top: 35px> .

A) 5.0 s
B) 8.0 s
C) 12.5 s
D) 15 s
E) 0.125 s
سؤال
Ariel claims that a pulse is described by the equation <strong>Ariel claims that a pulse is described by the equation where x and y are measured in cm and t in s. Miranda says that it is not possible to represent a pulse with this function because a wave must be a function of x + vt or x − vt. Which one, if either, is correct, and why?</strong> A) Ariel, because x<sup>2</sup> - 6.0xt + 9t<sup>2</sup> = (x - 3.0t)<sup>2</sup>. B) Ariel, because a pulse is not an infinite wave. C) Miranda, because (x - 3.0t)<sup>2</sup> is the same as (3.0t - x)<sup>2</sup>. D) Miranda, because a pulse is not an infinite wave. E) Miranda, because is infinite when x = 0. <div style=padding-top: 35px> where x and y are measured in cm and t in s. Miranda says that it is not possible to represent a pulse with this function because a wave must be a function of x + vt or x − vt. Which one, if either, is correct, and why?

A) Ariel, because x2 - 6.0xt + 9t2 = (x - 3.0t)2.
B) Ariel, because a pulse is not an infinite wave.
C) Miranda, because (x - 3.0t)2 is the same as (3.0t - x)2.
D) Miranda, because a pulse is not an infinite wave.
E) Miranda, because
<strong>Ariel claims that a pulse is described by the equation where x and y are measured in cm and t in s. Miranda says that it is not possible to represent a pulse with this function because a wave must be a function of x + vt or x − vt. Which one, if either, is correct, and why?</strong> A) Ariel, because x<sup>2</sup> - 6.0xt + 9t<sup>2</sup> = (x - 3.0t)<sup>2</sup>. B) Ariel, because a pulse is not an infinite wave. C) Miranda, because (x - 3.0t)<sup>2</sup> is the same as (3.0t - x)<sup>2</sup>. D) Miranda, because a pulse is not an infinite wave. E) Miranda, because is infinite when x = 0. <div style=padding-top: 35px> is infinite when x = 0.
سؤال
Exhibit 16-1
The figure below shows a sine wave at one point of a string as a function of time. <strong>Exhibit 16-1 The figure below shows a sine wave at one point of a string as a function of time. Use the exhibit to answer the following question(s). Refer to Exhibit 16-1. Which of the graphs below shows a wave where the amplitude and the frequency are doubled?</strong> A) B) C) D) E) <div style=padding-top: 35px> Use the exhibit to answer the following question(s).
Refer to Exhibit 16-1. Which of the graphs below shows a wave where the amplitude and the frequency are doubled?

A)
<strong>Exhibit 16-1 The figure below shows a sine wave at one point of a string as a function of time. Use the exhibit to answer the following question(s). Refer to Exhibit 16-1. Which of the graphs below shows a wave where the amplitude and the frequency are doubled?</strong> A) B) C) D) E) <div style=padding-top: 35px>
B)
<strong>Exhibit 16-1 The figure below shows a sine wave at one point of a string as a function of time. Use the exhibit to answer the following question(s). Refer to Exhibit 16-1. Which of the graphs below shows a wave where the amplitude and the frequency are doubled?</strong> A) B) C) D) E) <div style=padding-top: 35px>
C)
<strong>Exhibit 16-1 The figure below shows a sine wave at one point of a string as a function of time. Use the exhibit to answer the following question(s). Refer to Exhibit 16-1. Which of the graphs below shows a wave where the amplitude and the frequency are doubled?</strong> A) B) C) D) E) <div style=padding-top: 35px>
D)
<strong>Exhibit 16-1 The figure below shows a sine wave at one point of a string as a function of time. Use the exhibit to answer the following question(s). Refer to Exhibit 16-1. Which of the graphs below shows a wave where the amplitude and the frequency are doubled?</strong> A) B) C) D) E) <div style=padding-top: 35px>
E)
<strong>Exhibit 16-1 The figure below shows a sine wave at one point of a string as a function of time. Use the exhibit to answer the following question(s). Refer to Exhibit 16-1. Which of the graphs below shows a wave where the amplitude and the frequency are doubled?</strong> A) B) C) D) E) <div style=padding-top: 35px>
سؤال
Earthquake waves are classified as P waves and S waves. Which of the following statements is true about these waves?

A) The P wave is transverse as is the S wave.
B) The P wave is longitudinal as is the S wave.
C) The P wave is transverse and the S wave is longitudinal.
D) The P wave is longitudinal and the S wave is transverse.
E) Both the P and S waves are mixtures of longitudinal and transverse waves.
سؤال
Exhibit 16-3
Four wave functions are given below.
I.y(x, t) = 5sin(4x - 20t + 4)
II.y(x, t) = 5sin(3x - 12t + 5)
III.y(x, t) = 5cos(4x + 24t + 6)
IV.y(x, t) = 14cos(2x - 8t + 3)
Use this exhibit to answer the following question(s).
Refer to Exhibit 16-3. Rank the wave functions in order of the magnitude of the frequencies of the waves, from least to greatest.

A) IV, II, I, III
B) IV = II, I, III
C) III, I, II, IV
D) IV, I, II, III
E) III, IV, II, I
سؤال
Which of the following is a solution to the wave equation, <strong>Which of the following is a solution to the wave equation, ?</strong> A) B) (cos kx) (sin ωt) C) e−x sin ωt D) e−x sin (kx − ωt) E) e−x cos t <div style=padding-top: 35px> ?

A)
<strong>Which of the following is a solution to the wave equation, ?</strong> A) B) (cos kx) (sin ωt) C) e−x sin ωt D) e−x sin (kx − ωt) E) e−x cos t <div style=padding-top: 35px>
B) (cos kx) (sin ωt)
C) e−x sin ωt
D) e−x sin (kx − ωt)
E) e−x cos t
سؤال
Exhibit 16-2
The figure below shows a sine wave on a string at one instant of time. <strong>Exhibit 16-2 The figure below shows a sine wave on a string at one instant of time. Use this exhibit to answer the following question(s). Refer to Exhibit 16-2. Which of the graphs below shows a wave where the wavelength is twice as large?</strong> A) B) C) D) E) <div style=padding-top: 35px> Use this exhibit to answer the following question(s).
Refer to Exhibit 16-2. Which of the graphs below shows a wave where the wavelength is twice as large?

A)
<strong>Exhibit 16-2 The figure below shows a sine wave on a string at one instant of time. Use this exhibit to answer the following question(s). Refer to Exhibit 16-2. Which of the graphs below shows a wave where the wavelength is twice as large?</strong> A) B) C) D) E) <div style=padding-top: 35px>
B)
<strong>Exhibit 16-2 The figure below shows a sine wave on a string at one instant of time. Use this exhibit to answer the following question(s). Refer to Exhibit 16-2. Which of the graphs below shows a wave where the wavelength is twice as large?</strong> A) B) C) D) E) <div style=padding-top: 35px>
C)
<strong>Exhibit 16-2 The figure below shows a sine wave on a string at one instant of time. Use this exhibit to answer the following question(s). Refer to Exhibit 16-2. Which of the graphs below shows a wave where the wavelength is twice as large?</strong> A) B) C) D) E) <div style=padding-top: 35px>
D)
<strong>Exhibit 16-2 The figure below shows a sine wave on a string at one instant of time. Use this exhibit to answer the following question(s). Refer to Exhibit 16-2. Which of the graphs below shows a wave where the wavelength is twice as large?</strong> A) B) C) D) E) <div style=padding-top: 35px>
E)
<strong>Exhibit 16-2 The figure below shows a sine wave on a string at one instant of time. Use this exhibit to answer the following question(s). Refer to Exhibit 16-2. Which of the graphs below shows a wave where the wavelength is twice as large?</strong> A) B) C) D) E) <div style=padding-top: 35px>
سؤال
A piano wire of length 1.5 m vibrates so that one-half wavelength is contained on the string. If the frequency of vibration is 65 Hz, the amplitude of vibration is 3.0 mm, and the density is 15 g/m, how much energy is transmitted per second down the wire?

A) 21 W
B) 11 W
C) 5.4 W
D) 2.2 W
E) 1.1 W
سؤال
You are holding on to one end of a long string that is fastened to a rigid steel light pole. After producing a wave pulse that was 5 mm high and 4 cm wide, you want to produce a pulse that is 6 cm wide but still 5 mm high. You must move your hand up and down once,

A) the same distance up as before, but take a shorter time.
B) the same distance up as before, but take a longer time.
C) a smaller distance up, but take a shorter time.
D) a greater distance up, but take a longer time.
E) a greater distance up, but take the same time.
سؤال
Exhibit 16-2
The figure below shows a sine wave on a string at one instant of time. <strong>Exhibit 16-2 The figure below shows a sine wave on a string at one instant of time. Use this exhibit to answer the following question(s). Refer to Exhibit 16-2. Which of the graphs below shows a wave where the frequency and wave velocity are both doubled?</strong> A) B) C) D) E) <div style=padding-top: 35px> Use this exhibit to answer the following question(s).
Refer to Exhibit 16-2. Which of the graphs below shows a wave where the frequency and wave velocity are both doubled?

A)
<strong>Exhibit 16-2 The figure below shows a sine wave on a string at one instant of time. Use this exhibit to answer the following question(s). Refer to Exhibit 16-2. Which of the graphs below shows a wave where the frequency and wave velocity are both doubled?</strong> A) B) C) D) E) <div style=padding-top: 35px>
B)
<strong>Exhibit 16-2 The figure below shows a sine wave on a string at one instant of time. Use this exhibit to answer the following question(s). Refer to Exhibit 16-2. Which of the graphs below shows a wave where the frequency and wave velocity are both doubled?</strong> A) B) C) D) E) <div style=padding-top: 35px>
C)
<strong>Exhibit 16-2 The figure below shows a sine wave on a string at one instant of time. Use this exhibit to answer the following question(s). Refer to Exhibit 16-2. Which of the graphs below shows a wave where the frequency and wave velocity are both doubled?</strong> A) B) C) D) E) <div style=padding-top: 35px>
D)
<strong>Exhibit 16-2 The figure below shows a sine wave on a string at one instant of time. Use this exhibit to answer the following question(s). Refer to Exhibit 16-2. Which of the graphs below shows a wave where the frequency and wave velocity are both doubled?</strong> A) B) C) D) E) <div style=padding-top: 35px>
E)
<strong>Exhibit 16-2 The figure below shows a sine wave on a string at one instant of time. Use this exhibit to answer the following question(s). Refer to Exhibit 16-2. Which of the graphs below shows a wave where the frequency and wave velocity are both doubled?</strong> A) B) C) D) E) <div style=padding-top: 35px>
سؤال
If the breakers at a beach are separated by 5.0 m and hit shore with a frequency of 0.20 Hz, with what speed are they traveling?
سؤال
A pulse is described by <strong>A pulse is described by in SI units. What is the velocity of the pulse?</strong> A) 3 m/s in the +x direction B) 2 m/s in the −x direction C) 2 m/s in the +x direction D) 4 m/s in the −x direction E) 4 m/s in the +x direction <div style=padding-top: 35px> in SI units. What is the velocity of the pulse?

A) 3 m/s in the +x direction
B) 2 m/s in the −x direction
C) 2 m/s in the +x direction
D) 4 m/s in the −x direction
E) 4 m/s in the +x direction
سؤال
The variation in the pressure of helium gas, measured from its equilibrium value, is given by ΔP = 2.9 × 10−5 cos (6.20x − 3 000t) where x and t have units m and s, and ΔP is measured in N/m2. Determine the wavelength (in m) of the wave.

A) 1 500
B) 0.32
C) 477
D) 1.01
E) 0.50
سؤال
The variation in the pressure of helium gas, measured from its equilibrium value, is given by ΔP = 2.9 × 10−5 cos (6.20x − 3 000t) where x and t have units m and s, and ΔP is measured in N/m2. Determine the frequency (in Hz) of the wave.

A) 1 500
B) 477
C) 1.01
D) 0.32
E) 239
سؤال
Bats can detect small objects such as insects that are of a size approximately that of one wavelength. If bats emit a chirp at a frequency of 60 kHz, and the speed of sound in air is 340 m/s, what is the smallest size insect they can detect?
سؤال
The velocity of sound in sea water is 1.53 × 103 m/s. Find the bulk modulus (in N/m2) of sea water if its density is 1.03 × 103 kg/m3.

A) 2.57 × 109
B) 2.19 × 109
C) 2.04 × 109
D) 2.41 × 109
E) 2.82 × 109
سؤال
It is possible to hear an approaching train before you can see it by listening to the sound wave through the track. If the elastic modulus is 2.0 × 1011 N/m2 and the density of steel is 7.8 × 103 kg/m3, approximately how many times faster is the speed of sound in the track than in air? (vair ≈ 340 m/s.)

A) 20
B) 5
C) 10
D) 15
E) 25
سؤال
Calculate the pressure amplitude (in N/m2) of a 500 Hz sound wave in helium if the displacement amplitude is equal to 5.0 × 10−8 m. (ρ = 0.179 kg/m3, v = 972 m/s.)

A) 3.5 × 10−2
B) 1.6 × 10−2
C) 2.7 × 10−2
D) 4.2 × 10−2
E) 2.0 × 10−2
سؤال
A sculptor strikes a piece of marble with a hammer. Find the speed of sound through the marble (in km/s). (The Young's modulus is 50 × 109 N/m2 and its density is 2.7 × 103 kg/m3.)

A) 5.1
B) 4.3
C) 3.5
D) 1.3
E) 1.8
سؤال
By what factor will an intensity change when the corresponding sound level increases by 3 dB?

A) 3
B) 0.5
C) 2
D) 4
E) 0.3
سؤال
The variation in the pressure of helium gas, measured from its equilibrium value, is given by ΔP = 2.9 × 10−5 cos (6.20x − 3 000t) where x and t have units m and s. Determine the speed (in m/s) of the wave.

A) 1 515
B) 153
C) 484
D) 828
E) 101
سؤال
The Young's modulus for aluminum is 7.02 × 1010 N/m2. If the speed of sound in aluminum is measured to be 5.10 km/s, find its density (in kg/m3).

A) 11.3 × 103
B) 7.80 × 103
C) 2.70 × 103
D) 29.3 × 103
E) 1.40 × 103
سؤال
Calculate the intensity level in dB of a sound wave that has an intensity of 15 × 10−4 W/m2.

A) 20
B) 200
C) 92
D) 9
E) 10
سؤال
By what factor is the intensity of sound at a rock concert louder than that of a whisper when the two intensity levels are 120 dB and 20 dB respectively?

A) 1012
B) 108
C) 106
D) 1010
E) 1011
سؤال
Determine the intensity (in W/m2) of a harmonic longitudinal wave with a pressure amplitude of 8.0 × 10−3 N/m2 propagating down a tube filled with helium. (ρ = 0.179 kg/m3, v = 972 m/s.)

A) 3.7 × 10−7
B) 1.8 × 10−7
C) 9.2 × 10−8
D) 4.6 × 10−8
E) 1.5 × 10−9
سؤال
Calculate the displacement amplitude (in m) of a 20 kHz sound wave in helium if it has a pressure amplitude of 8.0 × 10−3 N/m2. (ρ = 0.179 kg/m3, v = 972 m/s.)

A) 2.9 × 10−10
B) 3.7 × 10−10
C) 7.8 × 10−9
D) 2.4 × 10−9
E) 1.9 × 10−10
سؤال
A jet plane has a sound level of 150 dB. What is the intensity in W/m2?

A) 1
B) 100
C) 10
D) 1 000
E) 10 000
سؤال
The equation <strong>The equation is the same as</strong> A) B) C) D) E) <div style=padding-top: 35px> is the same as

A)
<strong>The equation is the same as</strong> A) B) C) D) E) <div style=padding-top: 35px>
B)
<strong>The equation is the same as</strong> A) B) C) D) E) <div style=padding-top: 35px>
C)
<strong>The equation is the same as</strong> A) B) C) D) E) <div style=padding-top: 35px>
D)
<strong>The equation is the same as</strong> A) B) C) D) E) <div style=padding-top: 35px>
E)
<strong>The equation is the same as</strong> A) B) C) D) E) <div style=padding-top: 35px>
سؤال
What is the expression for the transverse velocity of the wave in a string given by <strong>What is the expression for the transverse velocity of the wave in a string given by ?</strong> A) B) C) D) E) <div style=padding-top: 35px> ?

A)
<strong>What is the expression for the transverse velocity of the wave in a string given by ?</strong> A) B) C) D) E) <div style=padding-top: 35px>
B)
<strong>What is the expression for the transverse velocity of the wave in a string given by ?</strong> A) B) C) D) E) <div style=padding-top: 35px>
C)
<strong>What is the expression for the transverse velocity of the wave in a string given by ?</strong> A) B) C) D) E) <div style=padding-top: 35px>
D)
<strong>What is the expression for the transverse velocity of the wave in a string given by ?</strong> A) B) C) D) E) <div style=padding-top: 35px>
E)
<strong>What is the expression for the transverse velocity of the wave in a string given by ?</strong> A) B) C) D) E) <div style=padding-top: 35px>
سؤال
A circus performer stretches a tightrope between two towers. He strikes one end of the rope and sends a wave along it toward the other tower. He notes that it takes 0.8 s for the wave to travel the 20 m to the opposite tower. If one meter of the rope has a mass of 0.35 kg, find the tension in the tightrope.
سؤال
A point source emits sound waves with a power output of 100 watts. What is the sound level (in dB) at a distance of 10 m?

A) 139
B) 119
C) 129
D) 109
E) 10
سؤال
A spherical wave has the form <strong>A spherical wave has the form . The wavelength of the wave is</strong> A) 0.25 m. B) 0.50 m. C) 4.0 m. D) 8.0 m. E) 4.0π m. <div style=padding-top: 35px> . The wavelength of the wave is

A) 0.25 m.
B) 0.50 m.
C) 4.0 m.
D) 8.0 m.
E) 4.0π m.
سؤال
A boy has climbed to the top of a 6.00 m tall tree. When he shouts, the sound waves have an intensity of <strong>A boy has climbed to the top of a 6.00 m tall tree. When he shouts, the sound waves have an intensity of at a 1.00 m distance from the top of the tree. The ratio of intensity at the base of the tree to the intensity 1.00 m from the top of the tree is</strong> A) . B) . C) . D) . E) . <div style=padding-top: 35px> at a 1.00 m distance from the top of the tree. The ratio of intensity at the base of the tree to the intensity 1.00 m from the top of the tree is

A)
<strong>A boy has climbed to the top of a 6.00 m tall tree. When he shouts, the sound waves have an intensity of at a 1.00 m distance from the top of the tree. The ratio of intensity at the base of the tree to the intensity 1.00 m from the top of the tree is</strong> A) . B) . C) . D) . E) . <div style=padding-top: 35px> .
B)
<strong>A boy has climbed to the top of a 6.00 m tall tree. When he shouts, the sound waves have an intensity of at a 1.00 m distance from the top of the tree. The ratio of intensity at the base of the tree to the intensity 1.00 m from the top of the tree is</strong> A) . B) . C) . D) . E) . <div style=padding-top: 35px> .
C)
<strong>A boy has climbed to the top of a 6.00 m tall tree. When he shouts, the sound waves have an intensity of at a 1.00 m distance from the top of the tree. The ratio of intensity at the base of the tree to the intensity 1.00 m from the top of the tree is</strong> A) . B) . C) . D) . E) . <div style=padding-top: 35px> .
D)
<strong>A boy has climbed to the top of a 6.00 m tall tree. When he shouts, the sound waves have an intensity of at a 1.00 m distance from the top of the tree. The ratio of intensity at the base of the tree to the intensity 1.00 m from the top of the tree is</strong> A) . B) . C) . D) . E) . <div style=padding-top: 35px> .
E)
<strong>A boy has climbed to the top of a 6.00 m tall tree. When he shouts, the sound waves have an intensity of at a 1.00 m distance from the top of the tree. The ratio of intensity at the base of the tree to the intensity 1.00 m from the top of the tree is</strong> A) . B) . C) . D) . E) . <div style=padding-top: 35px> .
سؤال
A spherical wave has the form <strong>A spherical wave has the form . The velocity of the wave (in m/s) is</strong> A) 0.005 88. B) 16.0 C) 340. D) 1 360. E) 2 720. <div style=padding-top: 35px> . The velocity of the wave (in m/s) is

A) 0.005 88.
B) 16.0
C) 340.
D) 1 360.
E) 2 720.
سؤال
A truck moving at 36 m/s passes a police car moving at 45 m/s in the opposite direction. If the frequency of the siren is 500 Hz relative to the police car, what is the frequency heard by an observer in the truck after the police car passes the truck? (The speed of sound in air is 343 m/s.)

A) 361
B) 636
C) 393
D) 396
E) 383
سؤال
A car approaches a stationary police car at 36 m/s. The frequency of the siren (relative to the police car) is 500 Hz. What is the frequency (in Hz) heard by an observer in the moving car as he approaches the police car? (Assume the velocity of sound in air is 343 m/s.)

A) 220
B) 448
C) 526
D) 552
E) 383
سؤال
A wave generated in a medium is a longitudinal wave when

A) there is a net transport of matter by the wave.
B) the molecules of the medium are unable to exert forces on each other.
C) molecular displacements are parallel to the wave velocity.
D) molecular displacements are perpendicular to the wave velocity.
E) the density of the medium is less than the density of water.
سؤال
A person standing in the street is unaware of a bird dropping that is falling from a point directly above him with increasing velocity. If the dropping were producing sound of a fixed frequency, as it approaches the person would hear the sound

A) drop in frequency.
B) stay at the same frequency.
C) increase in frequency.
D) decrease in loudness.
E) stay at the same loudness.
سؤال
(Do not try the following: it could kill you. This question is only about a hypothetical possibility.) If you were standing below an object emitting a fixed frequency sound falling at terminal velocity, as it approached you, you would hear the sound

A) drop in frequency.
B) stay at the same frequency.
C) increase in frequency.
D) decrease in loudness.
E) stay at the same loudness.
سؤال
A spherical wave has the form <strong>A spherical wave has the form . The amplitude of the wave a distance r from the source is</strong> A) 0.002 cm. B) . C) . D) . E) . <div style=padding-top: 35px> . The amplitude of the wave a distance r from the source is

A) 0.002 cm.
B)
<strong>A spherical wave has the form . The amplitude of the wave a distance r from the source is</strong> A) 0.002 cm. B) . C) . D) . E) . <div style=padding-top: 35px> .
C)
<strong>A spherical wave has the form . The amplitude of the wave a distance r from the source is</strong> A) 0.002 cm. B) . C) . D) . E) . <div style=padding-top: 35px> .
D)
<strong>A spherical wave has the form . The amplitude of the wave a distance r from the source is</strong> A) 0.002 cm. B) . C) . D) . E) . <div style=padding-top: 35px> .
E)
<strong>A spherical wave has the form . The amplitude of the wave a distance r from the source is</strong> A) 0.002 cm. B) . C) . D) . E) . <div style=padding-top: 35px> .
سؤال
A spherical wave has the form <strong>A spherical wave has the form . The frequency of the wave (in Hz) is</strong> A) 3.68 × 10−<sup>4</sup>. B) 7.35 × 10−<sup>4</sup>. C) 1 360. D) 2 720. E) 2 720π. <div style=padding-top: 35px> . The frequency of the wave (in Hz) is

A) 3.68 × 10−4.
B) 7.35 × 10−4.
C) 1 360.
D) 2 720.
E) 2 720π.
سؤال
A truck moving at 36 m/s passes a police car moving at 45 m/s in the opposite direction. If the frequency of the siren is 500 Hz relative to the police car, what is the change in frequency (in Hz) heard by an observer in the truck as the two vehicles pass each other? (The speed of sound in air is 343 m/s.)

A) 242
B) 238
C) 240
D) 236
E) 234
سؤال
A car moving at 36 m/s passes a stationary police car whose siren has a frequency of 500 hz. What is the change in the frequency (in Hz) heard by an observer in the moving car as he passes the police car? (The speed of sound in air is 343 m/s.)

A) 416
B) 208
C) 105
D) 52
E) 552
سؤال
How fast (in m/s) is the Concorde moving if it reaches Mach 1.5? (The speed of sound in air is 344 m/s.)

A) 229
B) 516
C) 416
D) 728
E) 858
سؤال
To decrease the intensity of the sound you are hearing from your speaker system by a factor of 36, you can

A) reduce the amplitude by a factor of 12 and increase your distance from the speaker by a factor of 3.
B) reduce the amplitude by a factor of 4 and increase your distance from the speaker by a factor of 3.
C) reduce the amplitude by a factor of 2 and increase your distance from the speaker by a factor of 3.
D) reduce the amplitude by a factor of 3 and increase your distance from the speaker by a factor of 4.
E) reduce the amplitude by a factor of 3 and increase your distance from the speaker by a factor of 12.
سؤال
A truck moving at 36 m/s passes a police car moving at 45 m/s in the opposite direction. If the frequency of the siren relative to the police car is 500 Hz, what is the frequency heard by an observer in the truck as the police car approaches the truck? (The speed of sound in air is 343 m/s.)

A) 396
B) 636
C) 361
D) 393
E) 617
سؤال
A point source emits sound with a power output of 100 watts. What is the intensity (in W/m2) at a distance of 10.0 m from the source?

A) 7.96 × 10−2
B) 7.96 × 10−1
C) 7.96 × 100
D) 7.96 × 101
E) 7.96 × 10−3
سؤال
While you are sounding a tone on a toy whistle, you notice a friend running toward you. If you want her to hear the same frequency that you hear even though she is approaching, you must

A) stay put.
B) run towards her at the same speed.
C) run away from her at the same speed.
D) stay put and play a note of higher frequency.
E) run towards her and play a note of higher frequency.
سؤال
A stone is thrown into a quiet pool of water. With no fluid friction, the amplitude of the waves falls off with distance r from the impact point as

A) 1/r3
B) 1/r2
C) 1/r3/2
D) 1/r1/2
E) 1/r
سؤال
When you hear the horn of a car that is approaching you, the frequency that you hear is larger than that heard by a person in the car because for the sound you hear

A) wave crests are farther apart by the distance the car travels in one period.
B) wave crests are closer together by the distance the car travels in one period.
C) the car gets ahead of each wave crest before it emits the next one.
D) the speed of sound in air is increased by the speed of the car.
E) a speeding car emits more wavecrests in each period.
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Deck 16: Wave Motion
1
The wavelength of light visible to the human eye is on the order of 5 × 10−7 m. If the speed of light in air is 3 × 108 m/s, find the frequency of the lightwave.

A) 3 × 107 Hz
B) 4 × 109 Hz
C) 5 × 1011 Hz
D) 6 × 1014 Hz
E) 4 × 1015 Hz
6 × 1014 Hz
2
For the transverse wave described by <strong>For the transverse wave described by , determine the maximum transverse speed of the particles of the medium.</strong> A) 0.192 m/s B) 0.6π m/s C) 9.6 m/s D) 4 m/s E) 2 m/s , determine the maximum transverse speed of the particles of the medium.

A) 0.192 m/s
B) 0.6π m/s
C) 9.6 m/s
D) 4 m/s
E) 2 m/s
0.6π m/s
3
If y = 0.02 sin (30x − 400t) (SI units), the angular frequency of the wave is

A) 30 rad/s
B) 30/2π rad/s
C) 400/2π rad/s
D) 400 rad/s
E) 40/3 rad/s
400 rad/s
4
For the wave described by <strong>For the wave described by , determine the x coordinate of the second maximum when t = 0.</strong> A) 20 m B) 18 m C) 24 m D) 28 m E) 16 m , determine the x coordinate of the second maximum when t = 0.

A) 20 m
B) 18 m
C) 24 m
D) 28 m
E) 16 m
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5
Write the equation of a wave, traveling along the +x axis with an amplitude of 0.02 m, a frequency of 440 Hz, and a speed of 330 m/sec.

A) y = 0.02 sin [880π(x/330 − t)]
B) y = 0.02 cos [880π x/330 − 440t]
C) y = 0.02 sin [880π(x/330 + t)]
D) y = 0.02 sin [2π(x/330 + 440t)]
E) y = 0.02 cos [2π(x/330 + 440t)]
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6
If y = 0.02 sin (30x − 400t) (SI units), the frequency of the wave is

A) 30 Hz
B) 15/π Hz
C) 200/π Hz
D) 400 Hz
E) 800π Hz
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7
If y = 0.02 sin (30x − 400t) (SI units), the wavelength of the wave is

A) π/15 m
B) 15/π m
C) 60π m
D) 4.2 m
E) 30 m
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8
A 100-m long transmission cable is suspended between two towers. If the mass density is 2.01 kg/m and the tension in the cable is 3.00 × 104 N, what is the speed of transverse waves on the cable?

A) 60 m/s
B) 122 m/s
C) 244 m/s
D) 310 m/s
E) 1 500 m/s
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9
The lowest A on a piano has a frequency of 27.5 Hz. If the tension in the 2.00-m string is 308 N, and one-half wavelength occupies the string, what is the mass of the wire?

A) 0.025 kg
B) 0.049 kg
C) 0.051 kg
D) 0.081 kg
E) 0.037 kg
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10
Bats can detect small objects such as insects that are of a size on the order of a wavelength. If bats emit a chirp at a frequency of 60 kHz and the speed of soundwaves in air is 330 m/s, what is the smallest size insect they can detect?

A) 1.5 mm
B) 3.5 mm
C) 5.5 mm
D) 7.5 mm
E) 9.8 mm
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11
Transverse waves are traveling on a 1.00-m long piano string at 500 m/s. If the points of zero vibration occur at one-half wavelength (where the string is fastened at both ends), find the frequency of vibration.

A) 250 Hz
B) 500 Hz
C) 1 000 Hz
D) 2 000 Hz
E) 2 500 Hz
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12
If y = 0.02 sin (30x − 400t) (SI units) and if the mass density of the string on which the wave propagates is 0.005 kg/m, then the transmitted power is

A) 1.03 W
B) 2.13 W
C) 4.84 W
D) 5.54 W
E) 106 W
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13
An earthquake emits both S-waves and P-waves which travel at different speeds through the Earth. A P-wave travels at 9 000 m/s and an S-wave travels at 5 000 m/s. If P-waves are received at a seismic station 1.00 minute before an S-wave arrives, how far away is the earthquake center?

A) 88.9 km
B) 1 200 km
C) 675 km
D) 240 km
E) 480 km
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14
Ocean waves with a wavelength of 120 m are coming in at a rate of 8 per minute. What is their speed?

A) 8.0 m/s
B) 16 m/s
C) 24 m/s
D) 30 m/s
E) 4.0 m/s
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15
A piano string of density 0.005 0 kg/m is under a tension of 1 350 N. Find the velocity with which a wave travels on the string.

A) 260 m/s
B) 520 m/s
C) 1 040 m/s
D) 2 080 m/s
E) 4 160 m/s
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16
The speed of a 10-kHz sound wave in seawater is approximately 1 500 m/s. What is its wavelength in sea water?

A) 5.0 cm
B) 10 cm
C) 15 cm
D) 20 cm
E) 29 cm
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17
If y = 0.02 sin (30x − 400t) (SI units), the velocity of the wave is

A) 3/40 m/s
B) 40/3 m/s
C) 60π/400 m/s
D) 400/60π m/s
E) 400 m/s
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18
For the wave described by <strong>For the wave described by , determine the first positive x coordinate where y is a maximum when t = 0.</strong> A) 16 m B) 8 m C) 4 m D) 2 m E) 13 m , determine the first positive x coordinate where y is a maximum when t = 0.

A) 16 m
B) 8 m
C) 4 m
D) 2 m
E) 13 m
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19
For the wave described by y = 0.02 sin (kx) at t = 0 s, the first maximum at a positive x coordinate occurs where x = 4 m. Where on the positive x axis does the second maximum occur?

A) 20 m
B) 18 m
C) 24 m
D) 28 m
E) 16 m
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20
If y = 0.02 sin (30x − 400t) (SI units), the wave number is

A) 30 rad/m
B) 30/2π rad/m
C) 400/2π rad/m
D) 400 rad/m
E) 60π rad/m
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21
To transmit four times as much energy per unit time along a string, you can

A) double the frequency.
B) double the amplitude.
C) increase the tension by a factor of 16.
D) do any one of the above.
E) do only (a) or (b) above.
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22
You are holding on to one end of a long string that is fastened to a rigid steel light pole. After producing a wave pulse that was 5 mm high and 4 cm wide, you want to produce a pulse that is 6 cm wide and 7 mm high. You must move your hand up and down once,

A) the same distance up as before, but take a shorter time.
B) the same distance up as before, but take a longer time.
C) a smaller distance up, but take a shorter time.
D) a greater distance up, but take a longer time.
E) a greater distance up, but take the same time.
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23
The figure below represents a string which has a heavy section and a light section. The mass per unit length of the heavy section is 16 times as large as the mass per unit length of the light section. When the string is under tension, the speed of a pulse traveling in the heavy section is ____ times the speed of that same pulse traveling in the light section. <strong>The figure below represents a string which has a heavy section and a light section. The mass per unit length of the heavy section is 16 times as large as the mass per unit length of the light section. When the string is under tension, the speed of a pulse traveling in the heavy section is ____ times the speed of that same pulse traveling in the light section. </strong> A) B) C) D) 2 E) 4

A)
<strong>The figure below represents a string which has a heavy section and a light section. The mass per unit length of the heavy section is 16 times as large as the mass per unit length of the light section. When the string is under tension, the speed of a pulse traveling in the heavy section is ____ times the speed of that same pulse traveling in the light section. </strong> A) B) C) D) 2 E) 4
B)
<strong>The figure below represents a string which has a heavy section and a light section. The mass per unit length of the heavy section is 16 times as large as the mass per unit length of the light section. When the string is under tension, the speed of a pulse traveling in the heavy section is ____ times the speed of that same pulse traveling in the light section. </strong> A) B) C) D) 2 E) 4
C)
<strong>The figure below represents a string which has a heavy section and a light section. The mass per unit length of the heavy section is 16 times as large as the mass per unit length of the light section. When the string is under tension, the speed of a pulse traveling in the heavy section is ____ times the speed of that same pulse traveling in the light section. </strong> A) B) C) D) 2 E) 4
D) 2
E) 4
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24
Exhibit 16-3
Four wave functions are given below.
I.y(x, t) = 5sin(4x - 20t + 4)
II.y(x, t) = 5sin(3x - 12t + 5)
III.y(x, t) = 5cos(4x + 24t + 6)
IV.y(x, t) = 14cos(2x - 8t + 3)
Use this exhibit to answer the following question(s).
Refer to Exhibit 16-3. Rank the wave functions in order of the magnitude of the wave speeds, from least to greatest.

A) IV, II, I, III
B) IV = II, I, III
C) III, I, II, IV
D) IV, I, II, III
E) III, IV, II, I
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25
A student attaches a length of nylon fishing line to a fence post. She stretches it out and shakes the end of the rope in her hand back and forth to produce waves on the line. The most efficient way for her to increase the wavelength is to

A) increase the tension on the hose and shake the end more times per second.
B) decrease the tension on the hose and shake the end more times per second.
C) increase the tension on the hose and shake the end fewer times per second.
D) decrease the tension on the hose and shake the end fewer times per second.
E) keep the tension and frequency the same but increase the length of the hose.
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26
Exhibit 16-1
The figure below shows a sine wave at one point of a string as a function of time. <strong>Exhibit 16-1 The figure below shows a sine wave at one point of a string as a function of time. Use the exhibit to answer the following question(s). Refer to Exhibit 16-1. Which of the graphs below shows a wave where the amplitude and frequency are each reduced in half?</strong> A) B) C) D) E) Use the exhibit to answer the following question(s).
Refer to Exhibit 16-1. Which of the graphs below shows a wave where the amplitude and frequency are each reduced in half?

A)
<strong>Exhibit 16-1 The figure below shows a sine wave at one point of a string as a function of time. Use the exhibit to answer the following question(s). Refer to Exhibit 16-1. Which of the graphs below shows a wave where the amplitude and frequency are each reduced in half?</strong> A) B) C) D) E)
B)
<strong>Exhibit 16-1 The figure below shows a sine wave at one point of a string as a function of time. Use the exhibit to answer the following question(s). Refer to Exhibit 16-1. Which of the graphs below shows a wave where the amplitude and frequency are each reduced in half?</strong> A) B) C) D) E)
C)
<strong>Exhibit 16-1 The figure below shows a sine wave at one point of a string as a function of time. Use the exhibit to answer the following question(s). Refer to Exhibit 16-1. Which of the graphs below shows a wave where the amplitude and frequency are each reduced in half?</strong> A) B) C) D) E)
D)
<strong>Exhibit 16-1 The figure below shows a sine wave at one point of a string as a function of time. Use the exhibit to answer the following question(s). Refer to Exhibit 16-1. Which of the graphs below shows a wave where the amplitude and frequency are each reduced in half?</strong> A) B) C) D) E)
E)
<strong>Exhibit 16-1 The figure below shows a sine wave at one point of a string as a function of time. Use the exhibit to answer the following question(s). Refer to Exhibit 16-1. Which of the graphs below shows a wave where the amplitude and frequency are each reduced in half?</strong> A) B) C) D) E)
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27
You are holding on to one end of a long string that is fastened to a rigid steel light pole. After producing a wave pulse that was 5 mm high and 4 cm wide, you want to produce a pulse that is 4 cm wide but 7 mm high. You must move your hand up and down once,

A) the same distance up as before, but take a shorter time.
B) the same distance up as before, but take a longer time.
C) a smaller distance up, but take a shorter time.
D) a greater distance up, but take a longer time.
E) a greater distance up, but take the same time.
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28
Exhibit 16-3
Four wave functions are given below.
I.y(x, t) = 5sin(4x - 20t + 4)
II.y(x, t) = 5sin(3x - 12t + 5)
III.y(x, t) = 5cos(4x + 24t + 6)
IV.y(x, t) = 14cos(2x - 8t + 3)
Use this exhibit to answer the following question(s).
Refer to Exhibit 16-3. Rank the wave functions in order of the magnitude of the wavelengths, from least to greatest.

A) IV, II, I, III
B) IV, I, II, III
C) I, II, III, IV
D) IV, II, III = I
E) I = III, II, IV
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29
Suppose that you were selected for a "Survivor"-type TV show. To help keep your group connected, you suggest that long vines can be tied together and used to transmit signals in cases of emergency. To get the signals to travel faster, you should

A) select lighter vines.
B) increase the tension on the vines.
C) hang weights from the vines at evenly spaced intervals.
D) do all of the above.
E) do (a) or (b) above, preferably both.
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30
The wave equation is written down in an exam as <strong>The wave equation is written down in an exam as From dimensional considerations we see that</strong> A) v<sup>2</sup> should be replaced by . B) v<sup>2</sup> should be replaced by . C) v<sup>2</sup> should be replaced by v. D) v<sup>2</sup> should be replaced by . E) v<sup>2</sup> should be replaced by . From dimensional considerations we see that

A) v2 should be replaced by
<strong>The wave equation is written down in an exam as From dimensional considerations we see that</strong> A) v<sup>2</sup> should be replaced by . B) v<sup>2</sup> should be replaced by . C) v<sup>2</sup> should be replaced by v. D) v<sup>2</sup> should be replaced by . E) v<sup>2</sup> should be replaced by . .
B) v2 should be replaced by
<strong>The wave equation is written down in an exam as From dimensional considerations we see that</strong> A) v<sup>2</sup> should be replaced by . B) v<sup>2</sup> should be replaced by . C) v<sup>2</sup> should be replaced by v. D) v<sup>2</sup> should be replaced by . E) v<sup>2</sup> should be replaced by . .
C) v2 should be replaced by v.
D) v2 should be replaced by
<strong>The wave equation is written down in an exam as From dimensional considerations we see that</strong> A) v<sup>2</sup> should be replaced by . B) v<sup>2</sup> should be replaced by . C) v<sup>2</sup> should be replaced by v. D) v<sup>2</sup> should be replaced by . E) v<sup>2</sup> should be replaced by . .
E) v2 should be replaced by
<strong>The wave equation is written down in an exam as From dimensional considerations we see that</strong> A) v<sup>2</sup> should be replaced by . B) v<sup>2</sup> should be replaced by . C) v<sup>2</sup> should be replaced by v. D) v<sup>2</sup> should be replaced by . E) v<sup>2</sup> should be replaced by . .
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31
Find the period of a wave of 100-m wavelength in deep water where <strong>Find the period of a wave of 100-m wavelength in deep water where .</strong> A) 5.0 s B) 8.0 s C) 12.5 s D) 15 s E) 0.125 s .

A) 5.0 s
B) 8.0 s
C) 12.5 s
D) 15 s
E) 0.125 s
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32
Ariel claims that a pulse is described by the equation <strong>Ariel claims that a pulse is described by the equation where x and y are measured in cm and t in s. Miranda says that it is not possible to represent a pulse with this function because a wave must be a function of x + vt or x − vt. Which one, if either, is correct, and why?</strong> A) Ariel, because x<sup>2</sup> - 6.0xt + 9t<sup>2</sup> = (x - 3.0t)<sup>2</sup>. B) Ariel, because a pulse is not an infinite wave. C) Miranda, because (x - 3.0t)<sup>2</sup> is the same as (3.0t - x)<sup>2</sup>. D) Miranda, because a pulse is not an infinite wave. E) Miranda, because is infinite when x = 0. where x and y are measured in cm and t in s. Miranda says that it is not possible to represent a pulse with this function because a wave must be a function of x + vt or x − vt. Which one, if either, is correct, and why?

A) Ariel, because x2 - 6.0xt + 9t2 = (x - 3.0t)2.
B) Ariel, because a pulse is not an infinite wave.
C) Miranda, because (x - 3.0t)2 is the same as (3.0t - x)2.
D) Miranda, because a pulse is not an infinite wave.
E) Miranda, because
<strong>Ariel claims that a pulse is described by the equation where x and y are measured in cm and t in s. Miranda says that it is not possible to represent a pulse with this function because a wave must be a function of x + vt or x − vt. Which one, if either, is correct, and why?</strong> A) Ariel, because x<sup>2</sup> - 6.0xt + 9t<sup>2</sup> = (x - 3.0t)<sup>2</sup>. B) Ariel, because a pulse is not an infinite wave. C) Miranda, because (x - 3.0t)<sup>2</sup> is the same as (3.0t - x)<sup>2</sup>. D) Miranda, because a pulse is not an infinite wave. E) Miranda, because is infinite when x = 0. is infinite when x = 0.
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33
Exhibit 16-1
The figure below shows a sine wave at one point of a string as a function of time. <strong>Exhibit 16-1 The figure below shows a sine wave at one point of a string as a function of time. Use the exhibit to answer the following question(s). Refer to Exhibit 16-1. Which of the graphs below shows a wave where the amplitude and the frequency are doubled?</strong> A) B) C) D) E) Use the exhibit to answer the following question(s).
Refer to Exhibit 16-1. Which of the graphs below shows a wave where the amplitude and the frequency are doubled?

A)
<strong>Exhibit 16-1 The figure below shows a sine wave at one point of a string as a function of time. Use the exhibit to answer the following question(s). Refer to Exhibit 16-1. Which of the graphs below shows a wave where the amplitude and the frequency are doubled?</strong> A) B) C) D) E)
B)
<strong>Exhibit 16-1 The figure below shows a sine wave at one point of a string as a function of time. Use the exhibit to answer the following question(s). Refer to Exhibit 16-1. Which of the graphs below shows a wave where the amplitude and the frequency are doubled?</strong> A) B) C) D) E)
C)
<strong>Exhibit 16-1 The figure below shows a sine wave at one point of a string as a function of time. Use the exhibit to answer the following question(s). Refer to Exhibit 16-1. Which of the graphs below shows a wave where the amplitude and the frequency are doubled?</strong> A) B) C) D) E)
D)
<strong>Exhibit 16-1 The figure below shows a sine wave at one point of a string as a function of time. Use the exhibit to answer the following question(s). Refer to Exhibit 16-1. Which of the graphs below shows a wave where the amplitude and the frequency are doubled?</strong> A) B) C) D) E)
E)
<strong>Exhibit 16-1 The figure below shows a sine wave at one point of a string as a function of time. Use the exhibit to answer the following question(s). Refer to Exhibit 16-1. Which of the graphs below shows a wave where the amplitude and the frequency are doubled?</strong> A) B) C) D) E)
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34
Earthquake waves are classified as P waves and S waves. Which of the following statements is true about these waves?

A) The P wave is transverse as is the S wave.
B) The P wave is longitudinal as is the S wave.
C) The P wave is transverse and the S wave is longitudinal.
D) The P wave is longitudinal and the S wave is transverse.
E) Both the P and S waves are mixtures of longitudinal and transverse waves.
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35
Exhibit 16-3
Four wave functions are given below.
I.y(x, t) = 5sin(4x - 20t + 4)
II.y(x, t) = 5sin(3x - 12t + 5)
III.y(x, t) = 5cos(4x + 24t + 6)
IV.y(x, t) = 14cos(2x - 8t + 3)
Use this exhibit to answer the following question(s).
Refer to Exhibit 16-3. Rank the wave functions in order of the magnitude of the frequencies of the waves, from least to greatest.

A) IV, II, I, III
B) IV = II, I, III
C) III, I, II, IV
D) IV, I, II, III
E) III, IV, II, I
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36
Which of the following is a solution to the wave equation, <strong>Which of the following is a solution to the wave equation, ?</strong> A) B) (cos kx) (sin ωt) C) e−x sin ωt D) e−x sin (kx − ωt) E) e−x cos t ?

A)
<strong>Which of the following is a solution to the wave equation, ?</strong> A) B) (cos kx) (sin ωt) C) e−x sin ωt D) e−x sin (kx − ωt) E) e−x cos t
B) (cos kx) (sin ωt)
C) e−x sin ωt
D) e−x sin (kx − ωt)
E) e−x cos t
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37
Exhibit 16-2
The figure below shows a sine wave on a string at one instant of time. <strong>Exhibit 16-2 The figure below shows a sine wave on a string at one instant of time. Use this exhibit to answer the following question(s). Refer to Exhibit 16-2. Which of the graphs below shows a wave where the wavelength is twice as large?</strong> A) B) C) D) E) Use this exhibit to answer the following question(s).
Refer to Exhibit 16-2. Which of the graphs below shows a wave where the wavelength is twice as large?

A)
<strong>Exhibit 16-2 The figure below shows a sine wave on a string at one instant of time. Use this exhibit to answer the following question(s). Refer to Exhibit 16-2. Which of the graphs below shows a wave where the wavelength is twice as large?</strong> A) B) C) D) E)
B)
<strong>Exhibit 16-2 The figure below shows a sine wave on a string at one instant of time. Use this exhibit to answer the following question(s). Refer to Exhibit 16-2. Which of the graphs below shows a wave where the wavelength is twice as large?</strong> A) B) C) D) E)
C)
<strong>Exhibit 16-2 The figure below shows a sine wave on a string at one instant of time. Use this exhibit to answer the following question(s). Refer to Exhibit 16-2. Which of the graphs below shows a wave where the wavelength is twice as large?</strong> A) B) C) D) E)
D)
<strong>Exhibit 16-2 The figure below shows a sine wave on a string at one instant of time. Use this exhibit to answer the following question(s). Refer to Exhibit 16-2. Which of the graphs below shows a wave where the wavelength is twice as large?</strong> A) B) C) D) E)
E)
<strong>Exhibit 16-2 The figure below shows a sine wave on a string at one instant of time. Use this exhibit to answer the following question(s). Refer to Exhibit 16-2. Which of the graphs below shows a wave where the wavelength is twice as large?</strong> A) B) C) D) E)
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38
A piano wire of length 1.5 m vibrates so that one-half wavelength is contained on the string. If the frequency of vibration is 65 Hz, the amplitude of vibration is 3.0 mm, and the density is 15 g/m, how much energy is transmitted per second down the wire?

A) 21 W
B) 11 W
C) 5.4 W
D) 2.2 W
E) 1.1 W
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39
You are holding on to one end of a long string that is fastened to a rigid steel light pole. After producing a wave pulse that was 5 mm high and 4 cm wide, you want to produce a pulse that is 6 cm wide but still 5 mm high. You must move your hand up and down once,

A) the same distance up as before, but take a shorter time.
B) the same distance up as before, but take a longer time.
C) a smaller distance up, but take a shorter time.
D) a greater distance up, but take a longer time.
E) a greater distance up, but take the same time.
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40
Exhibit 16-2
The figure below shows a sine wave on a string at one instant of time. <strong>Exhibit 16-2 The figure below shows a sine wave on a string at one instant of time. Use this exhibit to answer the following question(s). Refer to Exhibit 16-2. Which of the graphs below shows a wave where the frequency and wave velocity are both doubled?</strong> A) B) C) D) E) Use this exhibit to answer the following question(s).
Refer to Exhibit 16-2. Which of the graphs below shows a wave where the frequency and wave velocity are both doubled?

A)
<strong>Exhibit 16-2 The figure below shows a sine wave on a string at one instant of time. Use this exhibit to answer the following question(s). Refer to Exhibit 16-2. Which of the graphs below shows a wave where the frequency and wave velocity are both doubled?</strong> A) B) C) D) E)
B)
<strong>Exhibit 16-2 The figure below shows a sine wave on a string at one instant of time. Use this exhibit to answer the following question(s). Refer to Exhibit 16-2. Which of the graphs below shows a wave where the frequency and wave velocity are both doubled?</strong> A) B) C) D) E)
C)
<strong>Exhibit 16-2 The figure below shows a sine wave on a string at one instant of time. Use this exhibit to answer the following question(s). Refer to Exhibit 16-2. Which of the graphs below shows a wave where the frequency and wave velocity are both doubled?</strong> A) B) C) D) E)
D)
<strong>Exhibit 16-2 The figure below shows a sine wave on a string at one instant of time. Use this exhibit to answer the following question(s). Refer to Exhibit 16-2. Which of the graphs below shows a wave where the frequency and wave velocity are both doubled?</strong> A) B) C) D) E)
E)
<strong>Exhibit 16-2 The figure below shows a sine wave on a string at one instant of time. Use this exhibit to answer the following question(s). Refer to Exhibit 16-2. Which of the graphs below shows a wave where the frequency and wave velocity are both doubled?</strong> A) B) C) D) E)
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41
If the breakers at a beach are separated by 5.0 m and hit shore with a frequency of 0.20 Hz, with what speed are they traveling?
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42
A pulse is described by <strong>A pulse is described by in SI units. What is the velocity of the pulse?</strong> A) 3 m/s in the +x direction B) 2 m/s in the −x direction C) 2 m/s in the +x direction D) 4 m/s in the −x direction E) 4 m/s in the +x direction in SI units. What is the velocity of the pulse?

A) 3 m/s in the +x direction
B) 2 m/s in the −x direction
C) 2 m/s in the +x direction
D) 4 m/s in the −x direction
E) 4 m/s in the +x direction
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43
The variation in the pressure of helium gas, measured from its equilibrium value, is given by ΔP = 2.9 × 10−5 cos (6.20x − 3 000t) where x and t have units m and s, and ΔP is measured in N/m2. Determine the wavelength (in m) of the wave.

A) 1 500
B) 0.32
C) 477
D) 1.01
E) 0.50
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44
The variation in the pressure of helium gas, measured from its equilibrium value, is given by ΔP = 2.9 × 10−5 cos (6.20x − 3 000t) where x and t have units m and s, and ΔP is measured in N/m2. Determine the frequency (in Hz) of the wave.

A) 1 500
B) 477
C) 1.01
D) 0.32
E) 239
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45
Bats can detect small objects such as insects that are of a size approximately that of one wavelength. If bats emit a chirp at a frequency of 60 kHz, and the speed of sound in air is 340 m/s, what is the smallest size insect they can detect?
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46
The velocity of sound in sea water is 1.53 × 103 m/s. Find the bulk modulus (in N/m2) of sea water if its density is 1.03 × 103 kg/m3.

A) 2.57 × 109
B) 2.19 × 109
C) 2.04 × 109
D) 2.41 × 109
E) 2.82 × 109
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47
It is possible to hear an approaching train before you can see it by listening to the sound wave through the track. If the elastic modulus is 2.0 × 1011 N/m2 and the density of steel is 7.8 × 103 kg/m3, approximately how many times faster is the speed of sound in the track than in air? (vair ≈ 340 m/s.)

A) 20
B) 5
C) 10
D) 15
E) 25
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48
Calculate the pressure amplitude (in N/m2) of a 500 Hz sound wave in helium if the displacement amplitude is equal to 5.0 × 10−8 m. (ρ = 0.179 kg/m3, v = 972 m/s.)

A) 3.5 × 10−2
B) 1.6 × 10−2
C) 2.7 × 10−2
D) 4.2 × 10−2
E) 2.0 × 10−2
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49
A sculptor strikes a piece of marble with a hammer. Find the speed of sound through the marble (in km/s). (The Young's modulus is 50 × 109 N/m2 and its density is 2.7 × 103 kg/m3.)

A) 5.1
B) 4.3
C) 3.5
D) 1.3
E) 1.8
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50
By what factor will an intensity change when the corresponding sound level increases by 3 dB?

A) 3
B) 0.5
C) 2
D) 4
E) 0.3
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51
The variation in the pressure of helium gas, measured from its equilibrium value, is given by ΔP = 2.9 × 10−5 cos (6.20x − 3 000t) where x and t have units m and s. Determine the speed (in m/s) of the wave.

A) 1 515
B) 153
C) 484
D) 828
E) 101
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52
The Young's modulus for aluminum is 7.02 × 1010 N/m2. If the speed of sound in aluminum is measured to be 5.10 km/s, find its density (in kg/m3).

A) 11.3 × 103
B) 7.80 × 103
C) 2.70 × 103
D) 29.3 × 103
E) 1.40 × 103
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53
Calculate the intensity level in dB of a sound wave that has an intensity of 15 × 10−4 W/m2.

A) 20
B) 200
C) 92
D) 9
E) 10
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54
By what factor is the intensity of sound at a rock concert louder than that of a whisper when the two intensity levels are 120 dB and 20 dB respectively?

A) 1012
B) 108
C) 106
D) 1010
E) 1011
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55
Determine the intensity (in W/m2) of a harmonic longitudinal wave with a pressure amplitude of 8.0 × 10−3 N/m2 propagating down a tube filled with helium. (ρ = 0.179 kg/m3, v = 972 m/s.)

A) 3.7 × 10−7
B) 1.8 × 10−7
C) 9.2 × 10−8
D) 4.6 × 10−8
E) 1.5 × 10−9
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56
Calculate the displacement amplitude (in m) of a 20 kHz sound wave in helium if it has a pressure amplitude of 8.0 × 10−3 N/m2. (ρ = 0.179 kg/m3, v = 972 m/s.)

A) 2.9 × 10−10
B) 3.7 × 10−10
C) 7.8 × 10−9
D) 2.4 × 10−9
E) 1.9 × 10−10
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57
A jet plane has a sound level of 150 dB. What is the intensity in W/m2?

A) 1
B) 100
C) 10
D) 1 000
E) 10 000
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58
The equation <strong>The equation is the same as</strong> A) B) C) D) E) is the same as

A)
<strong>The equation is the same as</strong> A) B) C) D) E)
B)
<strong>The equation is the same as</strong> A) B) C) D) E)
C)
<strong>The equation is the same as</strong> A) B) C) D) E)
D)
<strong>The equation is the same as</strong> A) B) C) D) E)
E)
<strong>The equation is the same as</strong> A) B) C) D) E)
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59
What is the expression for the transverse velocity of the wave in a string given by <strong>What is the expression for the transverse velocity of the wave in a string given by ?</strong> A) B) C) D) E) ?

A)
<strong>What is the expression for the transverse velocity of the wave in a string given by ?</strong> A) B) C) D) E)
B)
<strong>What is the expression for the transverse velocity of the wave in a string given by ?</strong> A) B) C) D) E)
C)
<strong>What is the expression for the transverse velocity of the wave in a string given by ?</strong> A) B) C) D) E)
D)
<strong>What is the expression for the transverse velocity of the wave in a string given by ?</strong> A) B) C) D) E)
E)
<strong>What is the expression for the transverse velocity of the wave in a string given by ?</strong> A) B) C) D) E)
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60
A circus performer stretches a tightrope between two towers. He strikes one end of the rope and sends a wave along it toward the other tower. He notes that it takes 0.8 s for the wave to travel the 20 m to the opposite tower. If one meter of the rope has a mass of 0.35 kg, find the tension in the tightrope.
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61
A point source emits sound waves with a power output of 100 watts. What is the sound level (in dB) at a distance of 10 m?

A) 139
B) 119
C) 129
D) 109
E) 10
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62
A spherical wave has the form <strong>A spherical wave has the form . The wavelength of the wave is</strong> A) 0.25 m. B) 0.50 m. C) 4.0 m. D) 8.0 m. E) 4.0π m. . The wavelength of the wave is

A) 0.25 m.
B) 0.50 m.
C) 4.0 m.
D) 8.0 m.
E) 4.0π m.
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63
A boy has climbed to the top of a 6.00 m tall tree. When he shouts, the sound waves have an intensity of <strong>A boy has climbed to the top of a 6.00 m tall tree. When he shouts, the sound waves have an intensity of at a 1.00 m distance from the top of the tree. The ratio of intensity at the base of the tree to the intensity 1.00 m from the top of the tree is</strong> A) . B) . C) . D) . E) . at a 1.00 m distance from the top of the tree. The ratio of intensity at the base of the tree to the intensity 1.00 m from the top of the tree is

A)
<strong>A boy has climbed to the top of a 6.00 m tall tree. When he shouts, the sound waves have an intensity of at a 1.00 m distance from the top of the tree. The ratio of intensity at the base of the tree to the intensity 1.00 m from the top of the tree is</strong> A) . B) . C) . D) . E) . .
B)
<strong>A boy has climbed to the top of a 6.00 m tall tree. When he shouts, the sound waves have an intensity of at a 1.00 m distance from the top of the tree. The ratio of intensity at the base of the tree to the intensity 1.00 m from the top of the tree is</strong> A) . B) . C) . D) . E) . .
C)
<strong>A boy has climbed to the top of a 6.00 m tall tree. When he shouts, the sound waves have an intensity of at a 1.00 m distance from the top of the tree. The ratio of intensity at the base of the tree to the intensity 1.00 m from the top of the tree is</strong> A) . B) . C) . D) . E) . .
D)
<strong>A boy has climbed to the top of a 6.00 m tall tree. When he shouts, the sound waves have an intensity of at a 1.00 m distance from the top of the tree. The ratio of intensity at the base of the tree to the intensity 1.00 m from the top of the tree is</strong> A) . B) . C) . D) . E) . .
E)
<strong>A boy has climbed to the top of a 6.00 m tall tree. When he shouts, the sound waves have an intensity of at a 1.00 m distance from the top of the tree. The ratio of intensity at the base of the tree to the intensity 1.00 m from the top of the tree is</strong> A) . B) . C) . D) . E) . .
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64
A spherical wave has the form <strong>A spherical wave has the form . The velocity of the wave (in m/s) is</strong> A) 0.005 88. B) 16.0 C) 340. D) 1 360. E) 2 720. . The velocity of the wave (in m/s) is

A) 0.005 88.
B) 16.0
C) 340.
D) 1 360.
E) 2 720.
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65
A truck moving at 36 m/s passes a police car moving at 45 m/s in the opposite direction. If the frequency of the siren is 500 Hz relative to the police car, what is the frequency heard by an observer in the truck after the police car passes the truck? (The speed of sound in air is 343 m/s.)

A) 361
B) 636
C) 393
D) 396
E) 383
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66
A car approaches a stationary police car at 36 m/s. The frequency of the siren (relative to the police car) is 500 Hz. What is the frequency (in Hz) heard by an observer in the moving car as he approaches the police car? (Assume the velocity of sound in air is 343 m/s.)

A) 220
B) 448
C) 526
D) 552
E) 383
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67
A wave generated in a medium is a longitudinal wave when

A) there is a net transport of matter by the wave.
B) the molecules of the medium are unable to exert forces on each other.
C) molecular displacements are parallel to the wave velocity.
D) molecular displacements are perpendicular to the wave velocity.
E) the density of the medium is less than the density of water.
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68
A person standing in the street is unaware of a bird dropping that is falling from a point directly above him with increasing velocity. If the dropping were producing sound of a fixed frequency, as it approaches the person would hear the sound

A) drop in frequency.
B) stay at the same frequency.
C) increase in frequency.
D) decrease in loudness.
E) stay at the same loudness.
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69
(Do not try the following: it could kill you. This question is only about a hypothetical possibility.) If you were standing below an object emitting a fixed frequency sound falling at terminal velocity, as it approached you, you would hear the sound

A) drop in frequency.
B) stay at the same frequency.
C) increase in frequency.
D) decrease in loudness.
E) stay at the same loudness.
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70
A spherical wave has the form <strong>A spherical wave has the form . The amplitude of the wave a distance r from the source is</strong> A) 0.002 cm. B) . C) . D) . E) . . The amplitude of the wave a distance r from the source is

A) 0.002 cm.
B)
<strong>A spherical wave has the form . The amplitude of the wave a distance r from the source is</strong> A) 0.002 cm. B) . C) . D) . E) . .
C)
<strong>A spherical wave has the form . The amplitude of the wave a distance r from the source is</strong> A) 0.002 cm. B) . C) . D) . E) . .
D)
<strong>A spherical wave has the form . The amplitude of the wave a distance r from the source is</strong> A) 0.002 cm. B) . C) . D) . E) . .
E)
<strong>A spherical wave has the form . The amplitude of the wave a distance r from the source is</strong> A) 0.002 cm. B) . C) . D) . E) . .
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71
A spherical wave has the form <strong>A spherical wave has the form . The frequency of the wave (in Hz) is</strong> A) 3.68 × 10−<sup>4</sup>. B) 7.35 × 10−<sup>4</sup>. C) 1 360. D) 2 720. E) 2 720π. . The frequency of the wave (in Hz) is

A) 3.68 × 10−4.
B) 7.35 × 10−4.
C) 1 360.
D) 2 720.
E) 2 720π.
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72
A truck moving at 36 m/s passes a police car moving at 45 m/s in the opposite direction. If the frequency of the siren is 500 Hz relative to the police car, what is the change in frequency (in Hz) heard by an observer in the truck as the two vehicles pass each other? (The speed of sound in air is 343 m/s.)

A) 242
B) 238
C) 240
D) 236
E) 234
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73
A car moving at 36 m/s passes a stationary police car whose siren has a frequency of 500 hz. What is the change in the frequency (in Hz) heard by an observer in the moving car as he passes the police car? (The speed of sound in air is 343 m/s.)

A) 416
B) 208
C) 105
D) 52
E) 552
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74
How fast (in m/s) is the Concorde moving if it reaches Mach 1.5? (The speed of sound in air is 344 m/s.)

A) 229
B) 516
C) 416
D) 728
E) 858
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75
To decrease the intensity of the sound you are hearing from your speaker system by a factor of 36, you can

A) reduce the amplitude by a factor of 12 and increase your distance from the speaker by a factor of 3.
B) reduce the amplitude by a factor of 4 and increase your distance from the speaker by a factor of 3.
C) reduce the amplitude by a factor of 2 and increase your distance from the speaker by a factor of 3.
D) reduce the amplitude by a factor of 3 and increase your distance from the speaker by a factor of 4.
E) reduce the amplitude by a factor of 3 and increase your distance from the speaker by a factor of 12.
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76
A truck moving at 36 m/s passes a police car moving at 45 m/s in the opposite direction. If the frequency of the siren relative to the police car is 500 Hz, what is the frequency heard by an observer in the truck as the police car approaches the truck? (The speed of sound in air is 343 m/s.)

A) 396
B) 636
C) 361
D) 393
E) 617
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77
A point source emits sound with a power output of 100 watts. What is the intensity (in W/m2) at a distance of 10.0 m from the source?

A) 7.96 × 10−2
B) 7.96 × 10−1
C) 7.96 × 100
D) 7.96 × 101
E) 7.96 × 10−3
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78
While you are sounding a tone on a toy whistle, you notice a friend running toward you. If you want her to hear the same frequency that you hear even though she is approaching, you must

A) stay put.
B) run towards her at the same speed.
C) run away from her at the same speed.
D) stay put and play a note of higher frequency.
E) run towards her and play a note of higher frequency.
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79
A stone is thrown into a quiet pool of water. With no fluid friction, the amplitude of the waves falls off with distance r from the impact point as

A) 1/r3
B) 1/r2
C) 1/r3/2
D) 1/r1/2
E) 1/r
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80
When you hear the horn of a car that is approaching you, the frequency that you hear is larger than that heard by a person in the car because for the sound you hear

A) wave crests are farther apart by the distance the car travels in one period.
B) wave crests are closer together by the distance the car travels in one period.
C) the car gets ahead of each wave crest before it emits the next one.
D) the speed of sound in air is increased by the speed of the car.
E) a speeding car emits more wavecrests in each period.
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