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Deck 10: Auditory Physiology
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Deck 10: Auditory Physiology
1
The frequency region that is most enhanced by the outer ear is
A) 20 Hz to 20,000 Hz.
B) 0.02 KHz to 20 KHz.
C) 1,500 Hz to 8,000 Hz.
D) none of the above.
A) 20 Hz to 20,000 Hz.
B) 0.02 KHz to 20 KHz.
C) 1,500 Hz to 8,000 Hz.
D) none of the above.
C
2
The human ear has a frequency range of approximately
A) 10 octaves.
B) 10 decibels.
C) 10 Newtons.
D) none of the above.
A) 10 octaves.
B) 10 decibels.
C) 10 Newtons.
D) none of the above.
A
3
The utricle and saccule sense
A) the force of gravity on the body.
B) acceleration of the head/body during movement.
C) rotation of the head in space.
D) none of the above.
A) the force of gravity on the body.
B) acceleration of the head/body during movement.
C) rotation of the head in space.
D) none of the above.
B
4
The outer ear system results in a net gain of approximately how many dB at 2,000 Hz?
A) 20
B) 40
C) 60
D) None of the above
A) 20
B) 40
C) 60
D) None of the above
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5
The tympanic membrane has an effective area of approximately
A) 55 mm2.
B) 3.2 mm2.
C) 16 mm2.
D) 85 mm2.
A) 55 mm2.
B) 3.2 mm2.
C) 16 mm2.
D) 85 mm2.
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6
Which of the following statements is most accurate?
A) The tympanic membrane is approximately 17 times stiffer than the oval window.
B) The tensor tympani is approximately 17 times more flaccid than the stapedius.
C) The oval window is approximately 17 times smaller than the tympanic membrane.
D) None of the above.
A) The tympanic membrane is approximately 17 times stiffer than the oval window.
B) The tensor tympani is approximately 17 times more flaccid than the stapedius.
C) The oval window is approximately 17 times smaller than the tympanic membrane.
D) None of the above.
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7
High-frequency sounds are processed
A) at the helicotrema.
B) at the apex.
C) at the base.
D) at the round window.
A) at the helicotrema.
B) at the apex.
C) at the base.
D) at the round window.
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8
The oval window has an effective area of approximately
A) 55 mm2.
B) 3.2 mm2.
C) 16 mm2.
D) 85 mm2.
A) 55 mm2.
B) 3.2 mm2.
C) 16 mm2.
D) 85 mm2.
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9
The middle ear serves an impedance-matching function by
A) amplifying the force per unit area.
B) reducing the area over which the existing force is exerted.
C) a & b
D) neither of the above.
A) amplifying the force per unit area.
B) reducing the area over which the existing force is exerted.
C) a & b
D) neither of the above.
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10
The combined area and lever advantages provide a gain of how many dB?
A) 25 dB
B) 27 dB
C) 2 dB
D) 45 dB
A) 25 dB
B) 27 dB
C) 2 dB
D) 45 dB
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11
Which of the following statements accurately reflects the function of the vestibular mechanism?
A) The cilia of the vestibular mechanism are stimulated by the acoustic signal input to the oval window.
B) The lateral semicircular canal senses acceleration in the vertical dimension.
C) As your head rotates, the fluid in the semicircular canals tends to remain in the same location.
D) None of the above.
A) The cilia of the vestibular mechanism are stimulated by the acoustic signal input to the oval window.
B) The lateral semicircular canal senses acceleration in the vertical dimension.
C) As your head rotates, the fluid in the semicircular canals tends to remain in the same location.
D) None of the above.
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12
The length of the manubrium malli is approximately how many times that of the long process of the stapes?
A) 1.2
B) 2.4
C) 3.6
D) 4.8
A) 1.2
B) 2.4
C) 3.6
D) 4.8
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13
Because the outer ear has no "active elements,"
A) it can serve as an amplifier but not a filter.
B) it can serve as both filter and amplifier.
C) it can process only passive sounds.
D) it can serve as a filter but not an amplifier.
A) it can serve as an amplifier but not a filter.
B) it can serve as both filter and amplifier.
C) it can process only passive sounds.
D) it can serve as a filter but not an amplifier.
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14
When the stapes moves medially,
A) a wave is initially set up in the endolymph.
B) the perilymph of the scala vestibuli receives a compression pulse.
C) Reissner's membrane undergoes muscular contraction.
D) the organ of Corti vibrates at a resonant frequency equal to the whole-number multiple of the initial impulse.
A) a wave is initially set up in the endolymph.
B) the perilymph of the scala vestibuli receives a compression pulse.
C) Reissner's membrane undergoes muscular contraction.
D) the organ of Corti vibrates at a resonant frequency equal to the whole-number multiple of the initial impulse.
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15
The outer ear can be viewed predominantly as
A) a vestigial structure that is no longer needed.
B) a collector of sound.
C) a musculotendinous structure suspended by ligaments.
D) a signal synthesizer.
A) a vestigial structure that is no longer needed.
B) a collector of sound.
C) a musculotendinous structure suspended by ligaments.
D) a signal synthesizer.
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16
Approximately how many dB of gain does the middle ear lever advantage provide to the signal?
A) 1
B) 2
C) 3
D) 4
A) 1
B) 2
C) 3
D) 4
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17
The term "spectral analysis" refers to
A) analysis of the frequency components of sound.
B) analysis of the timing of acoustical events.
C) a & b
D) none of the above.
A) analysis of the frequency components of sound.
B) analysis of the timing of acoustical events.
C) a & b
D) none of the above.
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18
To increase pressure, you must
A) increase force per unit area.
B) decrease the area over which force is exerted.
C) both a & b
D) none of the above.
A) increase force per unit area.
B) decrease the area over which force is exerted.
C) both a & b
D) none of the above.
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19
The acoustical gain arising from the area function is approximately
A) 17:1.
B)
B) 25 dB.
C) a &
D) none of the above.
A) 17:1.
B)
B) 25 dB.
C) a &
D) none of the above.
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20
Which of the following is the formula for pressure?
A) P = F × A
B) P = F/A
C) P = F/A2
D) None of the above
A) P = F × A
B) P = F/A
C) P = F/A2
D) None of the above
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21
The basilar membrane (increases/decreases) ____________________ in stiffness from base to apex.
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22
The area benefit of the middle ear system provides an increase of about ____________________ dB.
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23
Resistance to the flow of energy is termed ____________________.
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24
The basilar membrane (increases/decreases) ____________________ in width from base to apex.
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25
The basilar membrane (increases/decreases) ____________________ in thickness from base to apex.
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26
Hair cells are stimulated when the cilia are bent (toward/away from) ____________________ the modiolus.
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27
Low-frequency sounds are processed
A) at the helicotrema.
B) at the apex.
C) at the base.
D) at the round window.
A) at the helicotrema.
B) at the apex.
C) at the base.
D) at the round window.
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28
The endocochlear potential is approximately ____________________ mV.
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29
As the mass of a vibrating body increases,
A) frequency of vibration increases.
B) frequency remains unchanged.
C) frequency of vibration decreases.
D) none of the above.
A) frequency of vibration increases.
B) frequency remains unchanged.
C) frequency of vibration decreases.
D) none of the above.
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30
The cilia of the inner hair cells are embedded in the ____________________.
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31
The basilar membrane
A) is flaccid at the apex.
B) consists primarily of otoliths.
C) is another name for Reissner's membrane.
D) is conical in shape.
A) is flaccid at the apex.
B) consists primarily of otoliths.
C) is another name for Reissner's membrane.
D) is conical in shape.
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32
The lever benefit of the middle ear system refers to the relationship between processes of the ____________________ and the incus.
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33
Low-frequency sounds are processed at the ____________________ end of the cochlea.
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34
High-frequency sounds are processed at the ____________________ end of the cochlea.
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35
The stapedius muscle exerts a restraining force on the ____________________.
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36
The tensor tympani muscle exerts a restraining force on the ____________________.
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37
The lever benefit of the middle ear system provides an increase of about ____________________ dB.
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38
The point of maximal perturbation of the basilar membrane arising from the traveling wave
A) determines the temporal component of the traveling wave.
B) determines the zona pelicula for the traveling wave.
C) represents the frequency component determined by the umbo of the manubrium.
D) determines the hair cells that will be maximally stimulated to fire.
A) determines the temporal component of the traveling wave.
B) determines the zona pelicula for the traveling wave.
C) represents the frequency component determined by the umbo of the manubrium.
D) determines the hair cells that will be maximally stimulated to fire.
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39
The basal end of the basilar membrane
A) is stiffer than the apical end.
B) is made up of basal cells.
C) responds best to low (bass) frequency sounds.
D) none of the above.
A) is stiffer than the apical end.
B) is made up of basal cells.
C) responds best to low (bass) frequency sounds.
D) none of the above.
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40
The area benefit of the middle ear system refers to the relationship between the area of the ____________________ and the oval window.
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41
Low spontaneous rate neurons have (low/high) ____________________ thresholds of stimulation.
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42
The ____________________ potential arises directly from stimulation of a large number of hair cells simultaneously, eliciting nearly simultaneous individual action potentials in the VIII nerve.
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43
The minimum audible frequency for humans is considered to be approximately ____________________ Hz.
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44
The audible range of frequency in humans spans approximately ____________________ octaves
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45
The ____________________ of a neuron is the frequency to which it responds best.
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46
The primary brainstem site for processing localization of sound in space is the ____________________.
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47
The first brainstem nucleus of the auditory pathway is the ____________________.
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48
The intracellular resting potential is about ____________________ mV.
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49
The area benefit of the middle ear transformer is approximately ____________________ dB.
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50
____________________ refers to the quality of a neuron's response to the period of the stimulus.
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51
Low-frequency sounds are localized by the superior olivary complex by means of interaural ____________________ difference.
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52
The ____________________ is an electrical potential that directly follows the input acoustic signal.
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53
The ____________________ potential is a sustained, direct-current (DC) shift in the endocochlear potential that occurs upon stimulation of the organ of Corti by sound.
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54
The (broader/sharper) ____________________ the tuning curve of an VIII nerve fiber is, the greater the frequency specificity of the basilar membrane.
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55
A ____________________ histogram displays the point in the cycle of vibration at which firing occurs.
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56
The maximum audible frequency for humans is considered to be approximately ____________________ Hz.
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57
High-frequency sounds are localized by the superior olivary complex by means of the interaural ____________________ difference.
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58
As intensity of a signal increases, the rate of firing of auditory nerve neurons (increases/decreases) ____________________.
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59
The endocochlear potential reflects an electrical potential difference between the ____________________ and the scala media.
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60
When the crossed-olivocochlear and uncrossed-olivocochlear bundles are stimulated, the firing rate of neurons innervated by them is (increased/reduced) ____________________ dramatically.
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61
Match each term to the correct descriptor. Terms may be used more than once or not at all.
a.high frequency
b.low frequency
c.localization of sound in space
d.temporal processing
e.spectral processing
f.interaural phase difference
g.interaural intensity difference
Provides localization cues for high-frequency sounds
a.high frequency
b.low frequency
c.localization of sound in space
d.temporal processing
e.spectral processing
f.interaural phase difference
g.interaural intensity difference
Provides localization cues for high-frequency sounds
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62
Match each term to the correct descriptor. Terms may be used more than once or not at all.
a.impedance matching
b.area ratio
c.lever ratio
d.buckling function
e.localization
A function of the pinna
a.impedance matching
b.area ratio
c.lever ratio
d.buckling function
e.localization
A function of the pinna
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63
Match each term to the correct descriptor. Terms may be used more than once or not at all.
a.impedance matching
b.area ratio
c.lever ratio
d.buckling function
e.localization
A function of the relationship between the tympanic membrane and the oval window
a.impedance matching
b.area ratio
c.lever ratio
d.buckling function
e.localization
A function of the relationship between the tympanic membrane and the oval window
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64
Match each term to the correct descriptor. Terms may be used more than once or not at all.
a.high frequency
b.low frequency
c.localization of sound in space
d.temporal processing
e.spectral processing
f.interaural phase difference
g.interaural intensity difference
A direct function of the rate of stimulation of the hair cells
a.high frequency
b.low frequency
c.localization of sound in space
d.temporal processing
e.spectral processing
f.interaural phase difference
g.interaural intensity difference
A direct function of the rate of stimulation of the hair cells
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65
Match each term to the correct descriptor. Terms may be used more than once or not at all.
a.high frequency
b.low frequency
c.localization of sound in space
d.temporal processing
e.spectral processing
f.interaural phase difference
g.interaural intensity difference
Processed at the apical end of the cochlea
a.high frequency
b.low frequency
c.localization of sound in space
d.temporal processing
e.spectral processing
f.interaural phase difference
g.interaural intensity difference
Processed at the apical end of the cochlea
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66
What are the five basic physiological organizing principles that are involved in the transmission of an acoustic stimulus to the brain?
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67
Match each term to the correct descriptor. Terms may be used more than once or not at all.
a.impedance matching
b.area ratio
c.lever ratio
d.buckling function
e.localization
Provides a gain of 4-6 dB
a.impedance matching
b.area ratio
c.lever ratio
d.buckling function
e.localization
Provides a gain of 4-6 dB
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68
Match each term to the correct descriptor. Terms may be used more than once or not at all.
a.impedance matching
b.area ratio
c.lever ratio
d.buckling function
e.localization
Provides a gain of approximately 2 dB
a.impedance matching
b.area ratio
c.lever ratio
d.buckling function
e.localization
Provides a gain of approximately 2 dB
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69
Match each term to the correct descriptor. Terms may be used more than once or not at all.
a.high frequency
b.low frequency
c.localization of sound in space
d.temporal processing
e.spectral processing
f.interaural phase difference
g.interaural intensity difference
Provides localization cues for low-frequency sounds
a.high frequency
b.low frequency
c.localization of sound in space
d.temporal processing
e.spectral processing
f.interaural phase difference
g.interaural intensity difference
Provides localization cues for low-frequency sounds
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70
What are the two main types of VIII nerve neurons?
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71
Match each term to the correct descriptor. Terms may be used more than once or not at all.
a.impedance matching
b.area ratio
c.lever ratio
d.buckling function
e.localization
A function of the tympanic membrane only
a.impedance matching
b.area ratio
c.lever ratio
d.buckling function
e.localization
A function of the tympanic membrane only
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72
What major disorder may arise due to noise pollution, and what study supports this information?
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73
Why are hair cells important, and what type of therapy is being developed to regenerate them?
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74
Match each term to the correct descriptor. Terms may be used more than once or not at all.
a.impedance matching
b.area ratio
c.lever ratio
d.buckling function
e.localization
A function of the olivary complex of the brainstem
a.impedance matching
b.area ratio
c.lever ratio
d.buckling function
e.localization
A function of the olivary complex of the brainstem
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75
The lever benefit of the middle ear transformer is approximately ____________________ dB.
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76
Match each term to the correct descriptor. Terms may be used more than once or not at all.
a.impedance matching
b.area ratio
c.lever ratio
d.buckling function
e.localization
Provides a gain of approximately 25 dB
a.impedance matching
b.area ratio
c.lever ratio
d.buckling function
e.localization
Provides a gain of approximately 25 dB
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77
Match each term to the correct descriptor. Terms may be used more than once or not at all.
a.high frequency
b.low frequency
c.localization of sound in space
d.temporal processing
e.spectral processing
f.interaural phase difference
g.interaural intensity difference
Processed within the olivary complex of the brainstem
a.high frequency
b.low frequency
c.localization of sound in space
d.temporal processing
e.spectral processing
f.interaural phase difference
g.interaural intensity difference
Processed within the olivary complex of the brainstem
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78
Match each term to the correct descriptor. Terms may be used more than once or not at all.
a.high frequency
b.low frequency
c.localization of sound in space
d.temporal processing
e.spectral processing
f.interaural phase difference
g.interaural intensity difference
Processed in the basal end of the cochlea
a.high frequency
b.low frequency
c.localization of sound in space
d.temporal processing
e.spectral processing
f.interaural phase difference
g.interaural intensity difference
Processed in the basal end of the cochlea
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79
What are five different types of neural responses to auditory stimulation?
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80
Match each term to the correct descriptor. Terms may be used more than once or not at all.
a.impedance matching
b.area ratio
c.lever ratio
d.buckling function
e.localization
A function of the middle ear
a.impedance matching
b.area ratio
c.lever ratio
d.buckling function
e.localization
A function of the middle ear
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