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Deck 6: Space Perception and Binocular Vision

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Question
The philosophical position arguing that there is a real world to sense is known as

A) Euclidean philosophy.
B) positivism.
C) materialism.
D) structuralism.
E) realism.
Use Space or
up arrow
down arrow
to flip the card.
Question
In the movie The Matrix, what the main character Neo thought was real life instead turned out to be a computer simulation. Which philosophical position would most readily account for such a situation?

A) Realism
B) Positivism
C) Negativism
D) Stoicism
E) Existentialism
Question
According to Euclidean geometry, parallel lines _______ as they extend through space.

A) converge
B) diverge
C) bend
D) remain parallel
E) cross
Question
In humans, evolution may have favored two eyes facing forward because it statistically increases the chance of detecting a stimulus. The combination of signals from the two eyes that enhances performance on many tasks is called

A) binocular vision.
B) stereoacuity.
C) depth perception.
D) disparity.
E) binocular summation.
Question
If you build a machine to detect an exotic particle, which principle explains why having two particle detectors in the machine are better than having just one?

A) Realism
B) Positivism
C) Particle physics
D) Probability summation
E) Euclidean geometry
Question
_______ is the difference between the two retinal images of the same scene and is the basis of stereopsis.

A) Binocular disparity
B) Depth perception
C) Stereopsis
D) Binocular summation
E) Accommodation
Question
Using the depth cue of _______ you can tell how far away something is based on how much detail is visible in the elements on the ground between you and the object.

A) occlusion
B) aerial perspective
C) linear perspective
D) relative height
E) texture gradient
Question
Refer to the figure.
<strong>Refer to the figure. This figure depicts the _______ depth cue.</strong> A) occlusion B) linear perspective C) texture gradient D) haze/aerial perspective E) anamorphic projection <div style=padding-top: 35px> This figure depicts the _______ depth cue.

A) occlusion
B) linear perspective
C) texture gradient
D) haze/aerial perspective
E) anamorphic projection
Question
Refer to the figure.
<strong>Refer to the figure. This figure depicts the depth cue of</strong> A) occlusion. B) aerial perspective. C) linear perspective. D) relative height. E) familiar size. <div style=padding-top: 35px> This figure depicts the depth cue of

A) occlusion.
B) aerial perspective.
C) linear perspective.
D) relative height.
E) familiar size.
Question
Refer to the image.
<strong>Refer to the image. The scene pictured demonstrates the _______ depth cue.</strong> A) motion parallax B) haze/aerial perspective C) linear perspective D) accommodation E) convergence <div style=padding-top: 35px> The scene pictured demonstrates the _______ depth cue.

A) motion parallax
B) haze/aerial perspective
C) linear perspective
D) accommodation
E) convergence
Question
Refer to the figure.
<strong>Refer to the figure. This figure illustrates the _______ depth cue.</strong> A) motion parallax B) aerial perspective C) linear perspective D) accommodation E) convergence <div style=padding-top: 35px> This figure illustrates the _______ depth cue.

A) motion parallax
B) aerial perspective
C) linear perspective
D) accommodation
E) convergence
Question
Suppose you are looking at a road that recedes into the distance. Which depth cue describes the way the edges of the road seem to converge in the retinal image?

A) Motion parallax
B) Aerial perspective
C) Convergence
D) Accommodation
E) Linear perspective
Question
Parallel lines in the world appear to meet at a single location called the

A) parallax.
B) singularity.
C) linear convergence.
D) vanishing point.
E) horopter.
Question
_______ is any sort of depth cue that can be depicted by an artist on a canvas.

A) A pictorial depth cue
B) Convergence
C) Motion parallax
D) An absolute metrical depth cue
E) Accommodation
Question
When an artist paints trees on a landscape extending into the distance, she distributes the trees vertically to simulate _______, and makes trees that are farther away smaller, simulating _______.

A) relative height; aerial perspective
B) aerial perspective; relative size
C) relative size; relative height
D) relative height; relative size
E) relative size; aerial perspective
Question
A(n) _______ is an image that appears distorted unless viewed from a very specific angle.

A) random dot stereogram
B) anamorphic projection
C) horopter
D) stereoscope
E) Cyclopean image
Question
Which of the following is not a metrical depth cue?

A) Motion parallax
B) Relative size
C) Relative height
D) Stereopsis
E) Occlusion
Question
_______ provide(s) precise quantitative information about distance in the third dimension.

A) Relative height
B) Metrical depth cues
C) Nonmetrical depth cues
D) Aerial perspective
E) Occlusion
Question
Which depth cue can provide information about precise distance from the observer?

A) Relative height
B) Aerial perspective
C) Occlusion
D) Linear perspective
E) Familiar size
Question
As a depth cue, occlusion provides _______ information.

A) relative height
B) motion parallax
C) nonmetrical depth
D) relative metrical depth
E) absolute metrical depth
Question
Which depth cue gives you the most precise metrical information about object distance?

A) Relative height
B) Relative size
C) Texture gradient
D) Haze/aerial perspective
E) Stereopsis
Question
_______ is an important depth cue that comes into play during head movements or while moving through an environment.

A) Motion parallax
B) Familiar size
C) Convergence
D) Vanishing point
E) Stereopsis
Question
When driving in a car, the fact that light posts by the side of the road move faster across your eye than do distant buildings is the visual cue known as

A) relative height.
B) occlusion.
C) linear perspective.
D) stereo disparity.
E) motion parallax.
Question
Turning the two eyes inward to place the two images of a feature in the world on corresponding locations in the two retinal images is known as

A) accommodation.
B) divergence.
C) convergence.
D) disparity.
E) linear perspective.
Question
If a fly lands on your nose and you turn your eyes inward to look at it, what kind of eye movement are you making?

A) Convergent
B) Divergent
C) Saccadic
D) Reflexive
E) Smooth pursuit
Question
The process by which the eye changes its focus by adjusting the lens is called

A) accommodation.
B) divergence.
C) convergence.
D) disparity.
E) linear perspective.
Question
If a camera judges the distance of an object based on the lens setting that causes the object to appear in focus, then the camera is using the depth cue of

A) aerial perspective.
B) motion parallax.
C) stereo vision.
D) accommodation.
E) convergence.
Question
Refer to the figure.
<strong>Refer to the figure. The imaginary (gray) circle in the figure is known as</strong> A) the vanishing point. B) the horopter. C) Panum's circle. D) the convergence point. E) the stereo circle. <div style=padding-top: 35px> The imaginary (gray) circle in the figure is known as

A) the vanishing point.
B) the horopter.
C) Panum's circle.
D) the convergence point.
E) the stereo circle.
Question
Refer to the figure.
<strong>Refer to the figure. In this figure, what do the red and blue circles have in common?</strong> A) They have the same retinal sizes. B) They have the same linear perspective. C) They both have the same disparity. D) They both have uncrossed disparity. E) They both have crossed disparity. <div style=padding-top: 35px> In this figure, what do the red and blue circles have in common?

A) They have the same retinal sizes.
B) They have the same linear perspective.
C) They both have the same disparity.
D) They both have uncrossed disparity.
E) They both have crossed disparity.
Question
_______ is the surface of zero disparity, or the location of objects whose images lie on corresponding points in the two eyes.

A) The vanishing point
B) The Vieth-Müller circle
C) Panum's circle
D) The convergence point
E) The stereo circle
Question
The difference between crossed disparity and uncrossed disparity is that crossed disparity involves objects that are _______ the plane of fixation, while uncrossed disparity involves objects that are _______ the plane of fixation.

A) below; above
B) above; below
C) behind; in front of
D) in front of; behind
E) exactly at; in front of
Question
Refer to the figure.
<strong>Refer to the figure. This figure depicts a(n)</strong> A) convergence test. B) occluder. C) metronome. D) stereoscope. E) accommodation test. <div style=padding-top: 35px> This figure depicts a(n)

A) convergence test.
B) occluder.
C) metronome.
D) stereoscope.
E) accommodation test.
Question
Virtual reality headsets have a separate display for each eye. What is another technical name for such a device?

A) Heads up display
B) Stereoscope
C) Corrective lenses
D) Random dot stereogram
E) Autostereogram
Question
During free fusion, the eyes _______ in order to view a stereogram without a stereoscope.

A) converge or diverge
B) are half closed
C) use the motion parallax
D) use the pictorial depth cue
E) glaze over
Question
Virtual reality headsets display a different image to each eye, which is technically a form of _______ presentation.

A) biopic
B) monoptic
C) stereoptic
D) chronoptic
E) dichoptic
Question
A random dot stereogram contains

A) many monocular cues.
B) a horopter.
C) no monocular cues.
D) a vanishing point.
E) occlusion cues.
Question
Refer to the figure.
<strong>Refer to the figure. This figure is an example of</strong> A) a random dot stereogram. B) motion parallax. C) strabismus. D) stereoblindness. E) diplopia. <div style=padding-top: 35px> This figure is an example of

A) a random dot stereogram.
B) motion parallax.
C) strabismus.
D) stereoblindness.
E) diplopia.
Question
The theoretical significance of random dot stereograms is that they show that

A) accommodation and convergence cannot be uncoupled.
B) stereo vision can be achieved only with identifiable shapes.
C) stereo vision can be achieved without identifiable shapes.
D) the parvocellular system cannot perceive stereo.
E) the magnocellular system cannot perceive stereo.
Question
The problem of determining which bit of the image in the left eye should be matched with which bit of image in the right eye is known as the

A) Cyclopean problem.
B) correspondence problem.
C) motion paradox.
D) disparity paradox.
E) convergence problem.
Question
Which of the following cannot be used to solve the correspondence problem?

A) A low spatial frequency version of the image
B) The uniqueness constraint
C) The continuity constraint
D) The disparity constraint
E) Binocular neurons in primary visual cortex.
Question
Stereoblindness usually results from

A) stroke.
B) visual neglect.
C) childhood disorders.
D) agnosia.
E) glaucoma.
Question
Which of the following is evidence for neurons that encode the horopter?

A) Binocular neurons that respond best when retinal images are on corresponding points in the two retinas.
B) Binocular neurons that respond best when retinal images are on different points in the two retinas.
C) Binocular neurons that respond best to the right eye.
D) Binocular neurons that respond best to the left eye.
E) Binocular neurons that respond best when a feature is seen in one eye but not the other.
Question
If you are able to free-fuse a display and get it to appear in focus but not perceive any apparent depth, then you might be

A) esotropic.
B) exotropic.
C) strabismic.
D) stereoblind.
E) an object agnostic.
Question
_______ is based on the idea that prior knowledge could influence the estimates of the probability of a current event.

A) Binocular rivalry philosophy
B) Euclidean philosophy
C) The Bayesian approach
D) The uniqueness constraint
E) The correspondence problem
Question
If you want to know the probability that the world is in a particular state given a particular observation, which formal approach should you use?

A) Binocular summation
B) Bayesian approach
C) Probability summation
D) Critical period analysis
E) Positivism
Question
Refer to the figure.
<strong>Refer to the figure. In this figure, the viewer mistakes the two horizontal lines to be</strong> A) not parallel to one another. B) closer to each other than they actually are. C) farther away from each other than they actually are. D) the same length. E) of different lengths. <div style=padding-top: 35px> In this figure, the viewer mistakes the two horizontal lines to be

A) not parallel to one another.
B) closer to each other than they actually are.
C) farther away from each other than they actually are.
D) the same length.
E) of different lengths.
Question
Refer to the figure.
<strong>Refer to the figure. In this figure, why might the top horizontal line appear to be longer than the bottom line?</strong> A) Relative height makes the top line appear closer, which means it must be longer. B) Linear perspective makes the top line appear farther away, which means it must be longer. C) Relative size makes the top line appear closer, which means it must be longer. D) Binocular disparity makes the top line appear farther away, which means it must be longer. E) Motion parallax makes the top line appear farther away, which means it must be longer. <div style=padding-top: 35px> In this figure, why might the top horizontal line appear to be longer than the bottom line?

A) Relative height makes the top line appear closer, which means it must be longer.
B) Linear perspective makes the top line appear farther away, which means it must be longer.
C) Relative size makes the top line appear closer, which means it must be longer.
D) Binocular disparity makes the top line appear farther away, which means it must be longer.
E) Motion parallax makes the top line appear farther away, which means it must be longer.
Question
Refer to the figure.
<strong>Refer to the figure. If these two images are free-fused, it leads to</strong> A) stereoblindness. B) absolute disparity. C) relative disparity. D) binocular rivalry. E) stereopsis. <div style=padding-top: 35px> If these two images are free-fused, it leads to

A) stereoblindness.
B) absolute disparity.
C) relative disparity.
D) binocular rivalry.
E) stereopsis.
Question
_______ is a measure of the smallest binocular disparity that can generate a sensation of depth.

A) Minimum disparity
B) Stereoacuity
C) Stereo sensitivity
D) Disparity threshold
E) Stereo parallax
Question
_______ refers to the presentation of two stimuli, one to each eye.

A) Biopic
B) Monoptic
C) Dichoptic
D) Stereoptic
E) Chronoptic
Question
If normal binocular visual stimulation is not experienced during _______, then proper stereo vision might not develop.

A) gestation
B) adulthood
C) adolescence
D) the critical period
E) the early period
Question
_______ disrupts binocular vision because one or both eyes are not aligned properly.

A) Strabismus
B) Hyperopia
C) Emmetropia
D) Presbyopia
E) Free fusion
Question
If the two eyes are not aligned properly the brain tends to ignore information from one eye. This phenomenon is known as

A) esotropia.
B) exotropia.
C) suppression.
D) strabismus.
E) Cyclopean vision.
Question
What is the difference between metrical and nonmetrical depth cues?
Question
What is a random dot stereogram and why is it theoretically important?
Question
What is the correspondence problem in stereo vision?
Question
What happens when two different images are presented to the two eyes?
Question
Define and compare the following monocular depth cues: occlusion, relative height, relative size, texture gradient, and familiar size.
Question
What is the Bayesian approach and why is it important for visual perception?
Question
What is a critical period and how does it relate to the development of stereo vision?
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Deck 6: Space Perception and Binocular Vision
1
The philosophical position arguing that there is a real world to sense is known as

A) Euclidean philosophy.
B) positivism.
C) materialism.
D) structuralism.
E) realism.
realism.
2
In the movie The Matrix, what the main character Neo thought was real life instead turned out to be a computer simulation. Which philosophical position would most readily account for such a situation?

A) Realism
B) Positivism
C) Negativism
D) Stoicism
E) Existentialism
Positivism
3
According to Euclidean geometry, parallel lines _______ as they extend through space.

A) converge
B) diverge
C) bend
D) remain parallel
E) cross
remain parallel
4
In humans, evolution may have favored two eyes facing forward because it statistically increases the chance of detecting a stimulus. The combination of signals from the two eyes that enhances performance on many tasks is called

A) binocular vision.
B) stereoacuity.
C) depth perception.
D) disparity.
E) binocular summation.
Unlock Deck
Unlock for access to all 60 flashcards in this deck.
Unlock Deck
k this deck
5
If you build a machine to detect an exotic particle, which principle explains why having two particle detectors in the machine are better than having just one?

A) Realism
B) Positivism
C) Particle physics
D) Probability summation
E) Euclidean geometry
Unlock Deck
Unlock for access to all 60 flashcards in this deck.
Unlock Deck
k this deck
6
_______ is the difference between the two retinal images of the same scene and is the basis of stereopsis.

A) Binocular disparity
B) Depth perception
C) Stereopsis
D) Binocular summation
E) Accommodation
Unlock Deck
Unlock for access to all 60 flashcards in this deck.
Unlock Deck
k this deck
7
Using the depth cue of _______ you can tell how far away something is based on how much detail is visible in the elements on the ground between you and the object.

A) occlusion
B) aerial perspective
C) linear perspective
D) relative height
E) texture gradient
Unlock Deck
Unlock for access to all 60 flashcards in this deck.
Unlock Deck
k this deck
8
Refer to the figure.
<strong>Refer to the figure. This figure depicts the _______ depth cue.</strong> A) occlusion B) linear perspective C) texture gradient D) haze/aerial perspective E) anamorphic projection This figure depicts the _______ depth cue.

A) occlusion
B) linear perspective
C) texture gradient
D) haze/aerial perspective
E) anamorphic projection
Unlock Deck
Unlock for access to all 60 flashcards in this deck.
Unlock Deck
k this deck
9
Refer to the figure.
<strong>Refer to the figure. This figure depicts the depth cue of</strong> A) occlusion. B) aerial perspective. C) linear perspective. D) relative height. E) familiar size. This figure depicts the depth cue of

A) occlusion.
B) aerial perspective.
C) linear perspective.
D) relative height.
E) familiar size.
Unlock Deck
Unlock for access to all 60 flashcards in this deck.
Unlock Deck
k this deck
10
Refer to the image.
<strong>Refer to the image. The scene pictured demonstrates the _______ depth cue.</strong> A) motion parallax B) haze/aerial perspective C) linear perspective D) accommodation E) convergence The scene pictured demonstrates the _______ depth cue.

A) motion parallax
B) haze/aerial perspective
C) linear perspective
D) accommodation
E) convergence
Unlock Deck
Unlock for access to all 60 flashcards in this deck.
Unlock Deck
k this deck
11
Refer to the figure.
<strong>Refer to the figure. This figure illustrates the _______ depth cue.</strong> A) motion parallax B) aerial perspective C) linear perspective D) accommodation E) convergence This figure illustrates the _______ depth cue.

A) motion parallax
B) aerial perspective
C) linear perspective
D) accommodation
E) convergence
Unlock Deck
Unlock for access to all 60 flashcards in this deck.
Unlock Deck
k this deck
12
Suppose you are looking at a road that recedes into the distance. Which depth cue describes the way the edges of the road seem to converge in the retinal image?

A) Motion parallax
B) Aerial perspective
C) Convergence
D) Accommodation
E) Linear perspective
Unlock Deck
Unlock for access to all 60 flashcards in this deck.
Unlock Deck
k this deck
13
Parallel lines in the world appear to meet at a single location called the

A) parallax.
B) singularity.
C) linear convergence.
D) vanishing point.
E) horopter.
Unlock Deck
Unlock for access to all 60 flashcards in this deck.
Unlock Deck
k this deck
14
_______ is any sort of depth cue that can be depicted by an artist on a canvas.

A) A pictorial depth cue
B) Convergence
C) Motion parallax
D) An absolute metrical depth cue
E) Accommodation
Unlock Deck
Unlock for access to all 60 flashcards in this deck.
Unlock Deck
k this deck
15
When an artist paints trees on a landscape extending into the distance, she distributes the trees vertically to simulate _______, and makes trees that are farther away smaller, simulating _______.

A) relative height; aerial perspective
B) aerial perspective; relative size
C) relative size; relative height
D) relative height; relative size
E) relative size; aerial perspective
Unlock Deck
Unlock for access to all 60 flashcards in this deck.
Unlock Deck
k this deck
16
A(n) _______ is an image that appears distorted unless viewed from a very specific angle.

A) random dot stereogram
B) anamorphic projection
C) horopter
D) stereoscope
E) Cyclopean image
Unlock Deck
Unlock for access to all 60 flashcards in this deck.
Unlock Deck
k this deck
17
Which of the following is not a metrical depth cue?

A) Motion parallax
B) Relative size
C) Relative height
D) Stereopsis
E) Occlusion
Unlock Deck
Unlock for access to all 60 flashcards in this deck.
Unlock Deck
k this deck
18
_______ provide(s) precise quantitative information about distance in the third dimension.

A) Relative height
B) Metrical depth cues
C) Nonmetrical depth cues
D) Aerial perspective
E) Occlusion
Unlock Deck
Unlock for access to all 60 flashcards in this deck.
Unlock Deck
k this deck
19
Which depth cue can provide information about precise distance from the observer?

A) Relative height
B) Aerial perspective
C) Occlusion
D) Linear perspective
E) Familiar size
Unlock Deck
Unlock for access to all 60 flashcards in this deck.
Unlock Deck
k this deck
20
As a depth cue, occlusion provides _______ information.

A) relative height
B) motion parallax
C) nonmetrical depth
D) relative metrical depth
E) absolute metrical depth
Unlock Deck
Unlock for access to all 60 flashcards in this deck.
Unlock Deck
k this deck
21
Which depth cue gives you the most precise metrical information about object distance?

A) Relative height
B) Relative size
C) Texture gradient
D) Haze/aerial perspective
E) Stereopsis
Unlock Deck
Unlock for access to all 60 flashcards in this deck.
Unlock Deck
k this deck
22
_______ is an important depth cue that comes into play during head movements or while moving through an environment.

A) Motion parallax
B) Familiar size
C) Convergence
D) Vanishing point
E) Stereopsis
Unlock Deck
Unlock for access to all 60 flashcards in this deck.
Unlock Deck
k this deck
23
When driving in a car, the fact that light posts by the side of the road move faster across your eye than do distant buildings is the visual cue known as

A) relative height.
B) occlusion.
C) linear perspective.
D) stereo disparity.
E) motion parallax.
Unlock Deck
Unlock for access to all 60 flashcards in this deck.
Unlock Deck
k this deck
24
Turning the two eyes inward to place the two images of a feature in the world on corresponding locations in the two retinal images is known as

A) accommodation.
B) divergence.
C) convergence.
D) disparity.
E) linear perspective.
Unlock Deck
Unlock for access to all 60 flashcards in this deck.
Unlock Deck
k this deck
25
If a fly lands on your nose and you turn your eyes inward to look at it, what kind of eye movement are you making?

A) Convergent
B) Divergent
C) Saccadic
D) Reflexive
E) Smooth pursuit
Unlock Deck
Unlock for access to all 60 flashcards in this deck.
Unlock Deck
k this deck
26
The process by which the eye changes its focus by adjusting the lens is called

A) accommodation.
B) divergence.
C) convergence.
D) disparity.
E) linear perspective.
Unlock Deck
Unlock for access to all 60 flashcards in this deck.
Unlock Deck
k this deck
27
If a camera judges the distance of an object based on the lens setting that causes the object to appear in focus, then the camera is using the depth cue of

A) aerial perspective.
B) motion parallax.
C) stereo vision.
D) accommodation.
E) convergence.
Unlock Deck
Unlock for access to all 60 flashcards in this deck.
Unlock Deck
k this deck
28
Refer to the figure.
<strong>Refer to the figure. The imaginary (gray) circle in the figure is known as</strong> A) the vanishing point. B) the horopter. C) Panum's circle. D) the convergence point. E) the stereo circle. The imaginary (gray) circle in the figure is known as

A) the vanishing point.
B) the horopter.
C) Panum's circle.
D) the convergence point.
E) the stereo circle.
Unlock Deck
Unlock for access to all 60 flashcards in this deck.
Unlock Deck
k this deck
29
Refer to the figure.
<strong>Refer to the figure. In this figure, what do the red and blue circles have in common?</strong> A) They have the same retinal sizes. B) They have the same linear perspective. C) They both have the same disparity. D) They both have uncrossed disparity. E) They both have crossed disparity. In this figure, what do the red and blue circles have in common?

A) They have the same retinal sizes.
B) They have the same linear perspective.
C) They both have the same disparity.
D) They both have uncrossed disparity.
E) They both have crossed disparity.
Unlock Deck
Unlock for access to all 60 flashcards in this deck.
Unlock Deck
k this deck
30
_______ is the surface of zero disparity, or the location of objects whose images lie on corresponding points in the two eyes.

A) The vanishing point
B) The Vieth-Müller circle
C) Panum's circle
D) The convergence point
E) The stereo circle
Unlock Deck
Unlock for access to all 60 flashcards in this deck.
Unlock Deck
k this deck
31
The difference between crossed disparity and uncrossed disparity is that crossed disparity involves objects that are _______ the plane of fixation, while uncrossed disparity involves objects that are _______ the plane of fixation.

A) below; above
B) above; below
C) behind; in front of
D) in front of; behind
E) exactly at; in front of
Unlock Deck
Unlock for access to all 60 flashcards in this deck.
Unlock Deck
k this deck
32
Refer to the figure.
<strong>Refer to the figure. This figure depicts a(n)</strong> A) convergence test. B) occluder. C) metronome. D) stereoscope. E) accommodation test. This figure depicts a(n)

A) convergence test.
B) occluder.
C) metronome.
D) stereoscope.
E) accommodation test.
Unlock Deck
Unlock for access to all 60 flashcards in this deck.
Unlock Deck
k this deck
33
Virtual reality headsets have a separate display for each eye. What is another technical name for such a device?

A) Heads up display
B) Stereoscope
C) Corrective lenses
D) Random dot stereogram
E) Autostereogram
Unlock Deck
Unlock for access to all 60 flashcards in this deck.
Unlock Deck
k this deck
34
During free fusion, the eyes _______ in order to view a stereogram without a stereoscope.

A) converge or diverge
B) are half closed
C) use the motion parallax
D) use the pictorial depth cue
E) glaze over
Unlock Deck
Unlock for access to all 60 flashcards in this deck.
Unlock Deck
k this deck
35
Virtual reality headsets display a different image to each eye, which is technically a form of _______ presentation.

A) biopic
B) monoptic
C) stereoptic
D) chronoptic
E) dichoptic
Unlock Deck
Unlock for access to all 60 flashcards in this deck.
Unlock Deck
k this deck
36
A random dot stereogram contains

A) many monocular cues.
B) a horopter.
C) no monocular cues.
D) a vanishing point.
E) occlusion cues.
Unlock Deck
Unlock for access to all 60 flashcards in this deck.
Unlock Deck
k this deck
37
Refer to the figure.
<strong>Refer to the figure. This figure is an example of</strong> A) a random dot stereogram. B) motion parallax. C) strabismus. D) stereoblindness. E) diplopia. This figure is an example of

A) a random dot stereogram.
B) motion parallax.
C) strabismus.
D) stereoblindness.
E) diplopia.
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38
The theoretical significance of random dot stereograms is that they show that

A) accommodation and convergence cannot be uncoupled.
B) stereo vision can be achieved only with identifiable shapes.
C) stereo vision can be achieved without identifiable shapes.
D) the parvocellular system cannot perceive stereo.
E) the magnocellular system cannot perceive stereo.
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39
The problem of determining which bit of the image in the left eye should be matched with which bit of image in the right eye is known as the

A) Cyclopean problem.
B) correspondence problem.
C) motion paradox.
D) disparity paradox.
E) convergence problem.
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40
Which of the following cannot be used to solve the correspondence problem?

A) A low spatial frequency version of the image
B) The uniqueness constraint
C) The continuity constraint
D) The disparity constraint
E) Binocular neurons in primary visual cortex.
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41
Stereoblindness usually results from

A) stroke.
B) visual neglect.
C) childhood disorders.
D) agnosia.
E) glaucoma.
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42
Which of the following is evidence for neurons that encode the horopter?

A) Binocular neurons that respond best when retinal images are on corresponding points in the two retinas.
B) Binocular neurons that respond best when retinal images are on different points in the two retinas.
C) Binocular neurons that respond best to the right eye.
D) Binocular neurons that respond best to the left eye.
E) Binocular neurons that respond best when a feature is seen in one eye but not the other.
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43
If you are able to free-fuse a display and get it to appear in focus but not perceive any apparent depth, then you might be

A) esotropic.
B) exotropic.
C) strabismic.
D) stereoblind.
E) an object agnostic.
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44
_______ is based on the idea that prior knowledge could influence the estimates of the probability of a current event.

A) Binocular rivalry philosophy
B) Euclidean philosophy
C) The Bayesian approach
D) The uniqueness constraint
E) The correspondence problem
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45
If you want to know the probability that the world is in a particular state given a particular observation, which formal approach should you use?

A) Binocular summation
B) Bayesian approach
C) Probability summation
D) Critical period analysis
E) Positivism
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46
Refer to the figure.
<strong>Refer to the figure. In this figure, the viewer mistakes the two horizontal lines to be</strong> A) not parallel to one another. B) closer to each other than they actually are. C) farther away from each other than they actually are. D) the same length. E) of different lengths. In this figure, the viewer mistakes the two horizontal lines to be

A) not parallel to one another.
B) closer to each other than they actually are.
C) farther away from each other than they actually are.
D) the same length.
E) of different lengths.
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47
Refer to the figure.
<strong>Refer to the figure. In this figure, why might the top horizontal line appear to be longer than the bottom line?</strong> A) Relative height makes the top line appear closer, which means it must be longer. B) Linear perspective makes the top line appear farther away, which means it must be longer. C) Relative size makes the top line appear closer, which means it must be longer. D) Binocular disparity makes the top line appear farther away, which means it must be longer. E) Motion parallax makes the top line appear farther away, which means it must be longer. In this figure, why might the top horizontal line appear to be longer than the bottom line?

A) Relative height makes the top line appear closer, which means it must be longer.
B) Linear perspective makes the top line appear farther away, which means it must be longer.
C) Relative size makes the top line appear closer, which means it must be longer.
D) Binocular disparity makes the top line appear farther away, which means it must be longer.
E) Motion parallax makes the top line appear farther away, which means it must be longer.
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48
Refer to the figure.
<strong>Refer to the figure. If these two images are free-fused, it leads to</strong> A) stereoblindness. B) absolute disparity. C) relative disparity. D) binocular rivalry. E) stereopsis. If these two images are free-fused, it leads to

A) stereoblindness.
B) absolute disparity.
C) relative disparity.
D) binocular rivalry.
E) stereopsis.
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49
_______ is a measure of the smallest binocular disparity that can generate a sensation of depth.

A) Minimum disparity
B) Stereoacuity
C) Stereo sensitivity
D) Disparity threshold
E) Stereo parallax
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50
_______ refers to the presentation of two stimuli, one to each eye.

A) Biopic
B) Monoptic
C) Dichoptic
D) Stereoptic
E) Chronoptic
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51
If normal binocular visual stimulation is not experienced during _______, then proper stereo vision might not develop.

A) gestation
B) adulthood
C) adolescence
D) the critical period
E) the early period
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52
_______ disrupts binocular vision because one or both eyes are not aligned properly.

A) Strabismus
B) Hyperopia
C) Emmetropia
D) Presbyopia
E) Free fusion
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53
If the two eyes are not aligned properly the brain tends to ignore information from one eye. This phenomenon is known as

A) esotropia.
B) exotropia.
C) suppression.
D) strabismus.
E) Cyclopean vision.
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54
What is the difference between metrical and nonmetrical depth cues?
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55
What is a random dot stereogram and why is it theoretically important?
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56
What is the correspondence problem in stereo vision?
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57
What happens when two different images are presented to the two eyes?
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58
Define and compare the following monocular depth cues: occlusion, relative height, relative size, texture gradient, and familiar size.
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59
What is the Bayesian approach and why is it important for visual perception?
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60
What is a critical period and how does it relate to the development of stereo vision?
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