Question 1

Two pulses are traveling towards each other at 10 cm/s on a long string at t = 0 s,as shown below.   Which diagram below correctly shows the shape of the string at 0.5 s?&#10;A)  &#10;B)  &#10;C)  &#10;D)  &#10;E)

Accepted Answer

As the pulses approach each other, they superpose (interact), causing constructive interference at the midpoint (where they meet) and destructive interference on either side. At t = 0.5 s, the pulses have traveled a distance of 10 cm/s * 0.5 s = 5 cm each, and they meet at the midpoint. Therefore, the displacement at the midpoint is the sum of their individual displacements, which are both +0.5 cm (positive because they are both moving upwards). This gives a total displacement of +1 cm at the midpoint. On either side of the midpoint, the pulses cancel out (destructive interference) because their individual displacements are in opposite directions. Therefore, the correct shape of the string at 0.5 s should be a single pulse, centered at the midpoint and with an amplitude of +1 cm. Only diagram B matches this description.

Question 2

Two harmonic waves are described by $$y _ { 1 } = ( 5 \mathrm {~m} ) \sin \left( \frac { 6 } { \mathrm {~m} } x - \frac { 900 } { \mathrm {~s} } t \right)$$ $$y _ { 2 } = ( 5 \mathrm {~m} ) \sin \left( \frac { 6 } { m } x - \frac { 900 } { \mathrm {~s} } t - 2 \right)$$ What is the wavelength of the resultant wave?&#10;A)3 m&#10;B)2 m&#10;C)1 m&#10;D)4 m&#10;E)6 m

Accepted Answer

1 m&#10;

Question 3

The path difference between two waves is 5m.If the wavelength of the waves emitted by the two sources is 4m,what is the phase difference (in degrees)?&#10;A)90&#10;B)400&#10;C)1.57&#10;D)7.85&#10;E)15

Accepted Answer

The phase difference is calculated using the formula $\Delta \phi = \frac{2\pi}{\lambda} \Delta x$, where $\Delta x$ is the path difference and $\lambda$ is the wavelength. Substituting the given values, $\Delta \phi = \frac{2\pi}{4} \times 5 = \frac{5\pi}{2}$ radians. Converting to degrees, $\frac{5\pi}{2} \times \frac{180}{\pi} = 450$ degrees. Since phase differences are typically expressed in the range of 0 to 360 degrees, we subtract 360 degrees to get 90 degrees.

Question 4

The superposition of two waves, $$y _ { 1 } = \left( 2 \times 10 ^ { - 8 } \mathrm {~m} \right) \sin \left[ \pi \left( \frac { x } { 2 \mathrm {~m} } - \frac { 170 } { \mathrm {~s} } t \right) \right]$$ and $$y _ { 2 } = \left( 2 \times 10 ^ { - 8 } \mathrm {~m} \right) \sin \left[ \pi \left( \frac { x } { 2 \mathrm {~m} } - \frac { 170 } { \mathrm {~s} } t - \frac { 1 } { 2 } \right) \right]$$ , results in a wave with a phase angle of&#10;A)0 rad.&#10;B)0.5 rad.&#10;C) $\frac { \pi } { 4 }$ rad.&#10;D) $\frac { \pi } { 2 }$ rad.&#10;E) $\pi$ rad.

Accepted Answer

The answer of The superposition of two waves, \[y _...

Question 5

Two harmonic waves are described by $$y _ { 1 } = ( 4 \mathrm {~m} ) \sin \left( \frac { 8 } { m } x - \frac { 300 } { \mathrm {~s} } t \right)$$ $$y _ { 2 } = ( 4 m ) \sin \left( \frac { 8 } { m } x - \frac { 300 } { s } t - 2 \right)$$ What is the frequency (in Hz)of the resultant wave?&#10;A)300&#10;B)48&#10;C)8&#10;D)0.8&#10;E)150

Accepted Answer

The answer of Two harmonic waves are described by \[y...

Question 6

Two waves are described by y₁ = 6 cos 180t and y₂ = 6 cos 186t,(both in meters). What effective frequency does the resultant vibration have at a point? A)92 Hz B)183 Hz C)6 Hz D)3 Hz E)366 Hz

Accepted Answer

We can use the formula for the resultant of two waves with different frequencies and the same amplitude:
y = 2Acos((ω1 - ω2)t/2)sin((ω1 + ω2)t/2)
where A is the amplitude, ω1 and ω2 are the angular frequencies of the two waves.
Plugging in the values for our waves, we get:
y = 2(6)cos(3t)sin(183t)
The effective frequency is the frequency of the sine term, which is 183 Hz.

Question 7

Two speakers in an automobile emit sound waves that are in phase at the speakers.One speaker is 40 cm ahead of and 30 cm to the left of the driver's left ear.The other speaker is 50 cm ahead of and 120 cm to the right of the driver's right ear.Which of the following wavelengths is(are)in phase at the left ear for the speaker on the left and the right ear for the speaker on the right?

A)10 cm
B)20 cm
C)650 cm
D)All of the wavelengths listed above.
E)Only the wavelengths listed in (a)and (b).

Accepted Answer

The answer of Two speakers in an automobile emit sound...

Question 8

Exhibit 18-1&#10;The figure below shows wave crests after a stone is thrown into a pond.&#10; &#10;Use this exhibit to answer the following question.&#10;&#10;-Refer to Exhibit 18-1.The phase difference in radians between points A and D is&#10;A) $\pi$.&#10;B)2 $\pi$.&#10;C)3 $\pi$.&#10;D)4 $\pi$.&#10;E)5 $\pi$.

Accepted Answer

The distance between points A and D is half the wavelength, which corresponds to a phase difference of π radians or 180 degrees. Since the question is asking for the phase difference in radians, the answer is 3π/1 or 3π.

Question 9

Two harmonic waves are described by $$y _ { 1 } = ( 3 \mathrm {~m} ) \sin \left( \frac { 4 } { m } x - \frac { 700 } { s } t \right)$$ $$y _ { 2 } = ( 3 m ) \sin \left( \frac { 4 } { m } x - \frac { 700 } { s } t - 2 \right)$$ What is the amplitude of the resultant wave?&#10;A)8.0 m&#10;B)4.3 m&#10;C)6.0 m&#10;D)3.2 m&#10;E)3.0 m

Accepted Answer

The answer of Two harmonic waves are described by \[y...

Question 10

Two ropes are spliced together as shown.   A short time after the incident pulse shown in the diagram reaches the splice,the rope's appearance will be that in&#10;A)  &#10;B)  &#10;C)  &#10;D)  &#10;E)

Accepted Answer

The answer of Two ropes are spliced together as shown....

Question 11

Superposition of waves can occur&#10;A)in transverse waves.&#10;B)in longitudinal waves.&#10;C)in sinusoidal waves.&#10;D)in all of the above.&#10;E)only in (a)and (c)above.

Accepted Answer

The answer of Superposition of waves can occur&#10;A)in transverse waves.&#10;B)in...

Question 12

The superposition of two waves, $$y _ { 1 } = \left( 2 \times 10 ^ { - 8 } \mathrm {~m} \right) \sin \left[ \pi \left( \frac { x } { 2 \mathrm {~m} } - \frac { 170 } { \mathrm {~s} } t \right) \right]$$ and $$y _ { 2 } = \left( 2 \times 10 ^ { - 8 } \mathrm {~m} \right) \sin \left[ \pi \left( \frac { x } { 2 \mathrm {~m} } - \frac { 170 } { \mathrm {~s} } t - \frac { 1 } { 2 } \right) \right]$$ , results in a wave with a frequency of&#10;A)85 Hz.&#10;B)170 Hz.&#10;C)85 $\pi$ Hz.&#10;D)340 Hz.&#10;E)170 $\pi$Hz.

Accepted Answer

The answer of The superposition of two waves, \[y _...

Question 13

Transverse waves y₁ = A₁ sin(k₁x - $ \omega $₁t)and y₂ = A₂ sin(k₂x - $ \omega $₂t),with A₂ > A₁,start at opposite ends of a long rope when t = 0.The magnitude of the maximum displacement,y,of the rope at any point is A)A₁- A₂. B)A₂- A₁. C)A₁ + A₂. D) $\left( A _ { 1 } - A _ { 2 } \right) \frac { k _ { 1 } } { k _ { 2 } }$ . E) $\left( A _ { 2 } - A _ { 1 } \right) \frac { k _ { 2 } } { k _ { 1 } }$ .

Accepted Answer

The answer of Transverse waves y₁ = A₁ sin(k₁x -...

Question 14

The superposition of two waves, $$y _ { 1 } = \left( 2 \times 10 ^ { - 8 } \mathrm {~m} \right) \sin \left[ \pi \left( \frac { x } { 2 \mathrm {~m} } - \frac { 170 } { \mathrm {~s} } t \right) \right]$$ and $$y _ { 2 } = \left( 2 \times 10 ^ { - 8 } \mathrm {~m} \right) \sin \left[ \pi \left( \frac { x } { 2 \mathrm {~m} } - \frac { 170 } { \mathrm {~s} } t - \frac { 1 } { 2 } \right) \right]$$ , results in a wave with a wavelength of&#10;A) $\frac { \pi } { 2 }$ m.&#10;B)2 m.&#10;C) $\pi$  m.&#10;D)4 m.&#10;E)4 $\pi$ m.

Accepted Answer

The answer of The superposition of two waves, \[y _...

Question 15

Two ropes are spliced together as shown.   A short time after the incident pulse shown in the diagram reaches the splice,the rope's appearance will be that in&#10;A)  &#10;B)  &#10;C)  &#10;D)  &#10;E)

Accepted Answer

The answer of Two ropes are spliced together as shown....

Question 16

Two point sources emit sound waves of 1.0-m wavelength.The sources,2.0 m apart,as shown below,emit waves which are in phase with each other at the instant of emission.Where,along the line between the sources,are the waves out of phase with each other by  $\pi$radians?  &#10;A)x = 0,1.0 m,2.0 m&#10;B)x = 0.50 m,1.5 m&#10;C)x = 0.50 m,1.0 m,1.5 m&#10;D)x = 0.75 m,1.25 m&#10;E)x = 0.25 m,0.75 m,1.25 m,1.75 m

Accepted Answer

The answer of Two point sources emit sound waves of...

Question 17

An observer stands 3 m from speaker A and 4 m from speaker B.Both speakers,oscillating in phase,produce 170 Hz waves.The speed of sound in air is 340 m/s.What is the phase difference (in radians)between the waves from A and B at the observer's location,point P?  &#10;A)0&#10;B) $\frac { \pi } { 2 }$&#10;C) $\pi$&#10;D)2 $\pi$&#10;E)4 $\pi$

Accepted Answer

The answer of An observer stands 3 m from speaker...

Question 18

Two harmonic waves are described by $$y _ { 1 } = ( 7 \mathrm {~m} ) \sin \left( \frac { 5 } { m } x - \frac { 100 } { s } t \right)$$ $$y _ { 2 } = ( 7 m ) \sin \left( \frac { 5 } { m } x - \frac { 100 } { s } t + 2 \right)$$ What is the phase (in rad)of the resultant wave when x = t = 0?&#10;A)3&#10;B)0&#10;C)2&#10;D)1&#10;E)4

Accepted Answer

The answer of Two harmonic waves are described by \[y...

Question 19

Two waves are described by y₁ = 6 cos 180t and y₂ = 6 cos 186t,(both in meters).
With what angular frequency does the maximum amplitude of the resultant wave vary with time?

A)366 rad/s
B)6 rad/s
C)3 rad/s
D)92 rad/s
E)180 rad/s

Accepted Answer

The answer of Two waves are described by y₁ =...

Question 20

Two harmonic waves are described by $$y _ { 1 } = ( 3 \mathrm {~cm} ) \sin \left( \frac { 8.0 } { \mathrm {~m} } x + \frac { 2.0 } { \mathrm {~s} } t \right)$$ $$y _ { 2 } = ( 3 \mathrm {~cm} ) \sin \left( \frac { 8.0 } { m } x - \frac { 2.0 } { \mathrm {~s} } t \right)$$ What is the magnitude of the speed (in m/s)of the two traveling waves?&#10;A)16&#10;B)4.0&#10;C)8.0&#10;D)0.25&#10;E)2.0

Accepted Answer

The answer of Two harmonic waves are described by \[y...

Question 21

Two harmonic waves traveling in opposite directions interfere to produce a standing wave described by y = 4 sin (5x)cos (6t)where x is in m and t is in s.What is the approximate frequency of the interfering waves?

A)3 Hz
B)1 Hz
C)6 Hz
D)12 Hz
E)5 Hz

Accepted Answer

The answer of Two harmonic waves traveling in opposite directions...

Question 22

Two strings are respectively 1.00 m and 2.00 m long.Which of the following wavelengths,in meters,could represent harmonics present on both strings?&#10;A)0.800,0.670,0.500&#10;B)1.33,1.00,0.500&#10;C)2.00,1.00,0.500&#10;D)2.00,1.33,1.00&#10;E)4.00,2.00,1.00

Accepted Answer

The answer of Two strings are respectively 1.00 m and...

Question 23

Two harmonic waves traveling in opposite directions interfere to produce a standing wave described by y = 4 sin (5x)cos (6t)where x is in m and t is in s.What is the approximate frequency of the interfering waves?

A)3 Hz
B)1 Hz
C)6 Hz
D)12 Hz
E)5 Hz

Accepted Answer

The answer of Two harmonic waves traveling in opposite directions...

Question 24

A stretched string is observed to vibrate in three equal segments when driven by a 480 Hz oscillator.What is the fundamental frequency of vibration for this string?&#10;A)480 Hz&#10;B)320 Hz&#10;C)160 Hz&#10;D)640 Hz&#10;E)240 Hz

Accepted Answer

The answer of A stretched string is observed to vibrate...

Question 25

An organ pipe open at both ends has a radius of 4.0 cm and a length of 6.0 m.What is the frequency (in Hz)of the third harmonic? (Assume the velocity of sound is 344 m/s. )&#10;A)76&#10;B)86&#10;C)54&#10;D)28&#10;E)129

Accepted Answer

The answer of An organ pipe open at both ends...

Question 26

A string with a fixed frequency vibrator at one end is subjected to varying tensions.When the tension is 20 N,a resonance with 3 antinodes results.What tension would cause a resonance with 2 antinodes in this string?

A)30 N
B)45 N
C)80 N
D)8.9 N
E)13 N

Accepted Answer

The answer of A string with a fixed frequency vibrator...

Question 27

Two identical strings have the same length and same mass per unit length.String B is stretched with four times as great a tension as that applied to string A.Which statement is correct for all n harmonics on the two strings,n = 1,2,3...?

A)

f _ { \mathrm { nb } } = \frac { 1 } { 4 } f _ { \mathrm { nA } }

.
B)

f _ { \mathrm { nb } } = \frac { 1 } { 2 } f _ { \mathrm { nA } }

.
C)

f _ { n , B } = \sqrt { 2 } f _ { n , A }

.
D)f_n,B = 2f_n,A.
E)f_n,B = 4f_n,A.

Accepted Answer

The answer of Two identical strings have the same length...

Question 28

A very long string is tied to a rigid wall at one end while the other end is attached to a simple harmonic oscillator.Which of the following can be changed by changing the frequency of the oscillator?&#10;A)The speed of the waves traveling along the string.&#10;B)The tension in the string.&#10;C)The wavelength of the waves on the string.&#10;D)All of the above.&#10;E)None of the above.

Accepted Answer

The answer of A very long string is tied to...

Question 29

In a standing wave,not necessarily at the fundamental frequency,on a string of length L,the distance between nodes is&#10;A)$\lambda$/4.&#10;B)$\lambda$/2.&#10;C)$\lambda$.&#10;D)L/4.&#10;E)L/2.

Accepted Answer

The answer of In a standing wave,not necessarily at the...

Question 30

A string is stretched and fixed at both ends,200 cm apart.If the density of the string is 0.015 g/cm,and its tension is 600 N,what is the wavelength (in cm)of the first harmonic?&#10;A)600&#10;B)400&#10;C)800&#10;D)1 000&#10;E)200

Accepted Answer

The answer of A string is stretched and fixed at...

Question 31

A string is stretched and fixed at both ends,200 cm apart.If the density of the string is 0.015 g/cm,and its tension is 600 N,what is the fundamental frequency?&#10;A)316 Hz&#10;B)632 Hz&#10;C)158 Hz&#10;D)215 Hz&#10;E)79 Hz

Accepted Answer

The answer of A string is stretched and fixed at...

Question 32

A clarinet behaves like a tube closed at one end.If its length is 1.0 m,and the velocity of sound is 344 m/s,what is its fundamental frequency (in Hz)?&#10;A)264&#10;B)140&#10;C)86&#10;D)440&#10;E)172

Accepted Answer

The answer of A clarinet behaves like a tube closed...

Question 33

Two harmonic waves are described by $$y _ { 1 } = ( 6.00 \mathrm {~cm} ) \sin \left( \pi \left( \frac { 2.00 } { \mathrm {~m} } x + \frac { 3.00 } { \mathrm {~s} } t \right) \right)$$ $$y _ { 2 } = ( 6.00 \mathrm {~cm} ) \sin \left( \pi \left( \frac { 2.00 } { \mathrm {~m} } x - \frac { 3.00 } { \mathrm {~s} } t \right) \right)$$ What is the magnitude of the displacement (in cm)of this wave at x = 3 cm and t = 5 sec?&#10;A)12.0&#10;B)3.00&#10;C)6.00&#10;D)2.25&#10;E)0

Accepted Answer

The answer of Two harmonic waves are described by \[y...

Question 34

Two harmonic waves traveling in opposite directions interfere to produce a standing wave described by y = 4 sin (5x)cos (6t)where x is in m and t is in s.What is the approximate frequency of the interfering waves?

A)3 Hz
B)1 Hz
C)6 Hz
D)12 Hz
E)5 Hz

Accepted Answer

The answer of Two harmonic waves traveling in opposite directions...

Question 35

Two harmonic waves traveling in opposite directions interfere to produce a standing wave described by y = 4 sin (5x)cos (6t)where x is in m and t is in s.What is the approximate frequency of the interfering waves?

A)3 Hz
B)1 Hz
C)6 Hz
D)12 Hz
E)5 Hz

Accepted Answer

The answer of Two harmonic waves traveling in opposite directions...

Question 36

Two harmonic waves are described by $y _ { 1 } = ( 6 \mathrm {~cm} ) \sin \left( \pi \left( \frac { 8 } { \mathrm {~m} } x + \frac { 2 } { \mathrm {~s} } t \right) \right)$
$y _ { 2 } = ( 6 \mathrm {~cm} ) \sin \left( \pi \left( \frac { 8 } { \mathrm {~m} } x - \frac { 2 } { \mathrm {~s} } t \right) \right)$ From the choices given,determine the smallest positive value of x (in cm)corresponding to a node of the resultant standing wave.

A)3
B)0.25
C)0
D)6
E)1.5

Accepted Answer

The answer of Two harmonic waves are described by \(y...

Question 37

A string with a fixed frequency vibrator at one end is undergoing resonance with 4 antinodes when under tension T₁.When the tension is slowly increased the resonance condition disappears until tension T₂ is reached,there being no resonances occurring between these two tensions.How many antinodes are there in this new resonance?

A)3
B)4,since all resonances in this situation have the same number of nodes
C)5
D)2,since resonances only involve whole wavelengths
E)6,since resonances only involve whole wavelength

Accepted Answer

The answer of A string with a fixed frequency vibrator...

Question 38

Which of the following wavelengths could NOT be present as a harmonic on a 2 m long string?&#10;A)4 m&#10;B)2 m&#10;C)1 m&#10;D)0.89 m&#10;E)0.5 m

Accepted Answer

The answer of Which of the following wavelengths could NOT...

Question 39

As shown below,a garden room has three walls,a floor and a roof,but is open to the garden on one side.The wall widths are L and w.The roof height is h.When traveling sound waves enter the room,standing sound waves can be present in the room if the wavelength of the standing waves is  &#10;A) $\frac { 2 L } { n }$ ,where n is a positive integer.&#10;B) $\frac { 4 w } { n }$ ,where n is an odd integer.&#10;C) $\frac { h } { n }$ ,where n is an even integer.&#10;D)in all cases listed above.&#10;E)given by (a)or (b)above,but not by (c).

Accepted Answer

The answer of As shown below,a garden room has three...

Question 40

A vertical tube one meter long is open at the top.It is filled with 75 cm of water.If the velocity of sound is 344 m/s,what will the fundamental resonant frequency be (in Hz)?&#10;A)3.4&#10;B)172&#10;C)344&#10;D)1.7&#10;E)688

Accepted Answer

The answer of A vertical tube one meter long is...

Question 41

Which of the following frequencies could NOT be present as a standing wave in a 2m long organ pipe open at both ends? The fundamental frequency is 85 Hz.&#10;A)85 Hz.&#10;B)170 Hz.&#10;C)255 Hz.&#10;D)340 Hz.&#10;E)382 Hz.

Accepted Answer

The answer of Which of the following frequencies could NOT...

Question 42

A student wants to establish a standing wave on a wire 1.8 m long clamped at both ends.The wave speed is 540 m/s.What is the minimum frequency she should apply to set up standing waves?&#10;

Accepted Answer

The answer of A student wants to establish a standing...

Question 43

Tuning forks #1,#2,and #3 each have slightly different frequencies.When #1 and #2 are sounded together,a beat frequency of 3 Hz results.When #2 and #3 are sounded together,a beat frequency of 5 Hz results.If the frequency of #1 is 100 Hz,which of the following cannot be the frequency of #3?

A)92 Hz
B)95 Hz
C)98 Hz
D)102 Hz
E)108 Hz

Accepted Answer

The answer of Tuning forks #1,#2,and #3 each have slightly...

Question 44

Two tuning forks with frequencies 264 and 262 Hz produce &#34;beats&#34;.What is the beat frequency (in Hz)?&#10;A)4&#10;B)2&#10;C)1&#10;D)3&#10;E)0 (no beats are produced)

Accepted Answer

The answer of Two tuning forks with frequencies 264 and...

Question 45

When two organ pipes each closed at one end sound a perfect fifth,such as two notes with fundamental frequencies at 440 Hz and 660 Hz,both pipes produce overtones.Which choice below correctly describes overtones present in both pipes?

A)440,880 and 1 320 Hz.
B)660,1 320 and 1 980 Hz.
C)880,1 320 and 1 760 Hz.
D)1 320,2 640 and 3 960 Hz.
E)They have no overtones in common.

Accepted Answer

The answer of When two organ pipes each closed at...

Question 46

A harmonic longitudinal wave propagating down a tube filled with a compressible gas has the form s(x,t)= s_m cos (kx -$ \omega $t).Its velocity can be obtained from A)$ \omega $/k B)k/$ \omega $ C)k D)$ \omega $ E)$ \omega $k

Accepted Answer

The answer of A harmonic longitudinal wave propagating down a...

Question 47

When two organ pipes open at both ends sound a perfect fifth,such as two notes with fundamental frequencies at 440 Hz and 660 Hz,both pipes produce overtones.Which choice below correctly describes overtones present in both pipes?

A)440,880 and 1 320 Hz.
B)660,1 320 and 1 980 Hz.
C)880,1 320 and 1 760 Hz.
D)1 320,2 640 and 3 960 Hz.
E)They have no overtones in common.

Accepted Answer

The answer of When two organ pipes open at both...

Question 48

Find the frequencies of the first three harmonics of a 1.0-m long string which has a mass per unit length of 2.0 *10 ^- ³ kg/m and a tension of 80 N when both ends are fixed in place.

Accepted Answer

The answer of Find the frequencies of the first three...

Question 49

A fire engine approaches a wall at 5 m/s while the siren emits a tone of 500 Hz frequency.At the time,the speed of sound in air is 340 m/s.How many beats per second do the people on the fire engine hear?&#10;A)0&#10;B)15&#10;C)29&#10;D)63&#10;E)250

Accepted Answer

The answer of A fire engine approaches a wall at...

Question 50

The figure below shows the positions of particles in a longitudinal standing wave.One quarter period later the particle distribution is shown in  &#10;A)  &#10;B)  &#10;C)  &#10;D)  &#10;E)

Accepted Answer

The answer of The figure below shows the positions of...

Question 51

Which of the following wavelengths could NOT be present as a standing wave in a 2 m long organ pipe open at both ends?&#10;A)4 m&#10;B)2 m&#10;C)1 m&#10;D)0.89 m&#10;E)0.5 m

Accepted Answer

The answer of Which of the following wavelengths could NOT...

Question 52

A steel wire in a piano has a length of 0.700 m and a mass of 4.30 grams.To what tension must this wire be stretched to make the fundamental frequency correspond to middle C,(f_c = 261.6 Hz)?

Accepted Answer

The answer of A steel wire in a piano has...

Question 53

Two organ pipes,a pipe of fundamental frequency 440 Hz,closed at one end,and a pipe of fundamental frequency 660 Hz,open at both ends,produce overtones.Which choice below correctly describes overtones present in both pipes?&#10;A)After the first overtone of each pipe,every second overtone of the first pipe matches every second overtone of the second pipe.&#10;B)After the first overtone of each pipe,every second overtone of the first pipe matches every third overtone of the second pipe.&#10;C)After the first overtone of each pipe,every third overtone of the first pipe matches every second overtone of the second pipe.&#10;D)After the first overtone of each pipe,every second overtone of the first pipe matches every fourth overtone of the second pipe.&#10;E)After the first overtone of each pipe,every third overtone of the first pipe matches every fourth overtone of the second pipe.

Accepted Answer

The answer of Two organ pipes,a pipe of fundamental frequency...

Question 54

The superposition of two waves $$y _ { 1 } = ( 0.006 \mathrm {~cm} ) \cos \left[ 2 \pi \left( \frac { 156 } { \mathrm {~s} } t \right) \right]$$ and $$y _ { 2 } = ( 0.006 \mathrm {~cm} ) \cos \left[ 2 \pi \left( \frac { 150 } { \mathrm {~s} } t \right) \right]$$ at the location x = 0 in space results in&#10;A)beats at a beat frequency of 3 Hz.&#10;B)a pure tone at a frequency of 153 Hz.&#10;C)a pure tone at a frequency of 156 Hz.&#10;D)beats at a beat frequency of 6 Hz in a 153 Hz tone.&#10;E)a tone at a frequency of 156 Hz,as well as beats at a beat frequency of 6 Hz in a 153 Hz tone.

Accepted Answer

The answer of The superposition of two waves \[y _...

Question 55

A length of organ pipe is closed at one end.If the speed of sound is 344 m/s,what length of pipe (in cm)is needed to obtain a fundamental frequency of 50 Hz?&#10;A)28&#10;B)86&#10;C)344&#10;D)172&#10;E)688

Accepted Answer

The answer of A length of organ pipe is closed...

Question 56

Two instruments produce a beat frequency of 5 Hz.If one has a frequency of 264 Hz,what could be the frequency of the other instrument?&#10;A)269 Hz&#10;B)254 Hz&#10;C)264 Hz&#10;D)5 Hz&#10;E)274 Hz

Accepted Answer

The answer of Two instruments produce a beat frequency of...

Question 57

An organ pipe open at both ends is 1.5 m long.A second organ pipe that is closed at one end and open at the other is 0.75 m long.The speed of sound in the room is 330 m/s.Which of the following sets of frequencies consists of frequencies which can be produced by both pipes?&#10;A)110 Hz,220 Hz,330 Hz&#10;B)220 Hz,440 Hz,660 Hz&#10;C)110 Hz,330 Hz,550 Hz&#10;D)330 Hz,440 Hz,550 Hz&#10;E)220 Hz,660 Hz,1 100 Hz

Accepted Answer

The answer of An organ pipe open at both ends...

Deck 14: Superposition and Standing Waves