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Sensation and perception
1. Chapter 3 sensation and perception
CHAPTER 3sensation and perception
psychology
fourth edition
Psychology, Fourth Edition
Saundra K. Ciccarelli • J. Noland White
Copyright ©2015, 2012, 2008 by Pearson Education, Inc.
All rights reserved.
2. Learning Objectives
3.13.2
3.3
3.4
3.5
3.6
3.7
3.8
3.9
3.10
3.11
How does sensation travel through the central nervous system, and why
are some sensations ignored?
What is light, and how does it travel through the various parts of the eye?
How do the eyes see, and how do the eyes see different colors?
What is sound, and how does it travel through the various parts of the ear?
Why are some people unable to hear, and how can their hearing be
improved?
How do the senses of taste and smell work, and how are they alike?
What allows people to experience the sense of touch, pain, motion, and
balance?
What are perception and perceptual constancies?
What are the Gestalt principles of perception?
What is depth perception and what kind of cues are important for it to
occur?
What are visual illusions and how can they and other factors influence and
alter perception?
Psychology, Fourth Edition
Saundra K. Ciccarelli • J. Noland White
Copyright ©2015, 2012, 2008 by Pearson Education, Inc.
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3. Sensation
LO 3.1 Sensation and How It Enters the Central Nervous System• Sensation: the activation of receptors in
the various sense organs
• Sensory receptors: specialized forms of
neurons
– Stimulated by different kids of energy rather
than by neurotransmitters
Psychology, Fourth Edition
Saundra K. Ciccarelli • J. Noland White
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4. Sensation
LO 3.1 Sensation and How It Enters the Central Nervous System• Sense organs:
– eyes
– ears
– nose
– skin
– taste buds
• Transduction: turning outside stimuli into
neural activity
Psychology, Fourth Edition
Saundra K. Ciccarelli • J. Noland White
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5. Sensory Thresholds
LO 3.1 Sensation and How It Enters the Central Nervous System• Just noticeable difference (jnd or the
difference threshold): the smallest
difference between 2 stimuli that is
detectable 50 percent of the time
• Absolute threshold: the smallest amount of
energy needed for a person to consciously
detect a stimulus 50 percent of the time it
is present
Psychology, Fourth Edition
Saundra K. Ciccarelli • J. Noland White
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6.
Psychology, Fourth EditionSaundra K. Ciccarelli • J. Noland White
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7. Subliminal Sensation
LO 3.1 Sensation and How It Enters the Central Nervous System• Subliminal stimuli: stimuli that are below
the level of conscious awareness
– just strong enough to activate the sensory
receptors, but not strong enough for people to
be consciously aware of them
– limin: “threshold”
– sublimin: “below the threshold”
Psychology, Fourth Edition
Saundra K. Ciccarelli • J. Noland White
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8. Subliminal Sensation
LO 3.1 Sensation and How It Enters the Central Nervous System• Subliminal perception: the process by
which subliminal stimuli act upon the
unconscious mind, influencing behavior
Psychology, Fourth Edition
Saundra K. Ciccarelli • J. Noland White
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9. Habituation and Sensory Adaptation
LO 3.1 Sensation and How It Enters the Central Nervous System• Habituation: the tendency of the brain to
stop attending to constant, unchanging
information
• Sensory adaptation: the tendency of
sensory receptor cells to become less
responsive to a stimulus that is
unchanging
Psychology, Fourth Edition
Saundra K. Ciccarelli • J. Noland White
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10. Habituation and Sensory Adaptation
LO 3.1 Sensation and How It Enters the Central Nervous System• Microsaccades: constant movement of the
eyes; tiny little vibrations that people do
not notice consciously
– prevent sensory adaptation to visual stimuli
Psychology, Fourth Edition
Saundra K. Ciccarelli • J. Noland White
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11. Perceptual Properties of Light
LO 3.2 What Is Light?• Brightness is determined by the amplitude
of the wave—how high or how low the
wave actually is
– the higher the wave, the brighter the light will
be
– low waves are dimmer
Psychology, Fourth Edition
Saundra K. Ciccarelli • J. Noland White
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12. Perceptual Properties of Light
LO 3.2 What Is Light?• Color, or hue, is determined by the length of
the wave
– long wavelengths are found at the red end of
the visible spectrum (the portion of the whole
spectrum of light that is visible to the human
eye)
– shorter wavelengths are found at the blue end
• Saturation: the purity of the color people see
– mixing in black or gray would lessen the
saturation
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13. Figure 3.1 The Visible Spectrum The wavelengths that people can see are only a small part of the whole electromagnetic spectrum.
Psychology, Fourth EditionSaundra K. Ciccarelli • J. Noland White
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14. Figure 3.2 Structure of the Eye Light enters the eye through the cornea and pupil. The iris controls the size of the pupil. From the pupil, light passes through the lens to the retina, where it is transformed into nerve impulses. The nerve impulses travel
to the brain alongthe optic nerve.
Psychology, Fourth Edition
Saundra K. Ciccarelli • J. Noland White
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15. Structure of the Eye
LO 3.2 What Is Light?• Cornea: clear membrane that covers the
surface of the eye
– protects the eye
– focuses most of the light coming into the eye
– photoreactive keratectomy (PRK) and laserassisted in situ keratomileusis (LASIK): visionimproving techniques that make small
incisions in the cornea to change the focus in
the eye
Psychology, Fourth Edition
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16. Structure of the Eye
LO 3.2 What Is Light?• Aqueous humor: visual layer below cornea
– clear, watery fluid that is continually
replenished
– supplies nourishment to the eye
• Pupil: hole through which light from the
visual image enters the interior of the eye
Psychology, Fourth Edition
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17. Structure of the Eye
LO 3.2 What Is Light?• Iris: round muscle (the colored part of the
eye) in which the pupil is located
– can change the size of the pupil, letting more
or less light into the eye
– helps focus the image
• Lens: another clear structure behind the
iris, suspended by muscles
– finishes the focusing process begun by the
cornea
Psychology, Fourth Edition
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18. Structure of the Eye
LO 3.2 What Is Light?• Visual accommodation: the change in the
thickness of the lens as the eye focuses
on objects that are far away or close
• Vitreous humor: jelly-like fluid that also
nourishes the eye and gives it shape
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19. Structure of the Eye
LO 3.2 What Is Light?• Nearsightedness, or myopia
– the shape of the eye causes the focal point to
fall short of the retina
• Farsightedness, or hyperopia
– the focus point is behind the retina
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20.
Figure 3.3 Nearsightedness and FarsightednessPsychology, Fourth Edition
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21. Retina, Rods, and Cones
LO 3.2 What Is Light?• Retina: final stop for light in the eye
– contains three layers:
ganglion cells
bipolar cells
photoreceptors that respond to various light waves
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22. Retina, Rods, and Cones
LO 3.2 What Is Light?• Rods: visual sensory receptors found at
the back of the retina
– responsible for noncolor sensitivity to low
levels of light
• Cones: visual sensory receptors found at
the back of the retina
– responsible for color vision and sharpness of
vision
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23. Retina, Rods, and Cones
LO 3.2 What Is Light?• Blind spot: area in the retina where the
axons of the three layers of retinal cells
exit the eye to form the optic nerve;
insensitive to light
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24.
Figure 3.4 The Parts of the Retina(a)light passes through ganglion and
bipolar cells until it reaches and
stimulates the rods and cones.
nerve impulses from the rods and
cones travel along a nerve pathway
to the brain.
(b)On the right of the figure is a
photomicrograph of the long, thin
rods and the shorter, thicker cones;
the rods outnumber the cones by a
ratio of about 20 to 1.
(c)The blind spot demonstration.
Hold the book in front of you. Close
your right eye and stare at the
picture of the dog with your left eye.
Slowly bring the book closer to your
face. The picture of the cat will
disappear at some point because
the light from the picture of the cat is
falling on your blind spot. If you
cannot seem to find your blind spot,
trying moving the book more slowly.
Psychology, Fourth Edition
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25.
Figure 3.5 Crossing of the Optic NerveLight falling on the left side of each eye’s
retina (from the right visual field, shown
in yellow) will stimulate a neural message
that will travel along the optic nerve to
the thalamus, and then on to the visual
cortex in the occipital lobe of the left
hemisphere. Notice that the message
from the temporal half of the left retina
goes to the left occipital lobe, while the
message from the nasal half of the right
retina crosses over to the left
hemisphere (the optic chiasm is the point
of crossover). The optic nerve tissue
from both eyes joins together to form the
left optic tract before going on to the
thalamus and the left occipital lobe. For
the left visual field (shown in blue), the
messages from both right sides of the
retinas will travel along the right optic
tract to the right visual cortex in the same
manner.
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26. How the Eye Works
LO 3.3 How Eyes See and How Eyes See Color• Dark adaptation: the recovery of the eye’s
sensitivity to visual stimuli in darkness
after exposure to bright lights
– night blindness
• Light adaptation: the recovery of the eye’s
sensitivity to visual stimuli in light after
exposure to darkness
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27. Color Vision
LO 3.3 How Eyes See and How Eyes See Color• Trichromatic theory: theory of color vision
that proposes three types of cones: red,
blue, and green
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28. Color Vision
LO 3.3 How Eyes See and How Eyes See Color• Opponent-process theory: theory of color
vision that proposes four primary colors
with cones arranged in pairs: red and
green, blue and yellow
– afterimages: images that occur when a visual
sensation persists for a brief time even after
the original stimulus is removed
– lateral geniculate nucleus (LGN) of thalamus
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29.
Figure 3.6 Color AfterimageStare at the white dot in the center of this oddly colored flag for about 30 seconds. Now look at a white piece of paper or a
white wall. Notice that the colors are now the normal, expected colors of the American flag. They are also the primary colors
that are opposites of the colors in the picture and provide evidence for the opponent-process theory of color vision.
Psychology, Fourth Edition
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30. Color Blindness
LO How Eyes See and How Eyes See Color• Monochrome colorblindness: a condition in
which a person’s eyes either have no
cones or have cones that are not working
at all
• Red-green colorblindness: either the red
or the green cones are not working
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31. Color Blindness
LO 3.3 How Eyes See and How Eyes See Color• Sex-linked inheritance
– gene for color-deficient vision is recessive
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32.
Figure 3.7The Ishihara Color TestPsychology, Fourth Edition
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33. Sound
LO 3.4 What Is Sound?• Wavelength: interpreted as frequency or
pitch (high, medium, or low)
• Amplitude: interpreted as volume (how soft
or loud a sound is)
• Purity: interpreted as timbre (a richness in
the tone of the sound)
• Hertz (Hz): cycles or waves per second, a
measurement of frequency
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34.
Figure 3.8a Sound WavesTwo sound waves. The higher the wave, the louder the sound; the lower the wave, the softer the sound. If the waves are
close together in time (high frequency), the pitch will be perceived as a high pitch. Waves that are farther apart (low
frequency) will be perceived as having a lower pitch.
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35. Structure of the Ear
LO 3.4 What Is Sound?• Auditory canal: short tunnel that runs from
the pinna to the eardrum (tympanic
membrane)
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36. Structure of the Ear
LO 3.4 What Is Sound?• Eardrum: thin section of skin that tightly
covers the opening into the middle part of
the ear
– when sound waves hit the eardrum, it vibrates
and causes three tiny bones in the middle ear
to vibrate
hammer
anvil
stirrup
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37. Structure of the Ear
LO 3.4 What Is Sound• Cochlea: snail-shaped structure of the
inner ear that is filled with fluid
• Organ of Corti: rests in the basilar
membrane
– contains receptor cells for sense of hearing
• Auditory nerve: bundle of axons from the
hair cells in the inner ear
– receives neural message from the organ of
Corti
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38.
Figure 3.9 The Structure of the EarPsychology, Fourth Edition
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39. Theories of Pitch
LO 3.4 What Is Sound?• Pitch: psychological experience of sound
that corresponds to the frequency of the
sound waves
– higher frequencies are perceived as higher
pitches
• Place theory: theory of pitch that states
that different pitches are experienced by
the stimulation of hair cells in different
locations on the organ of Corti
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40. Theories of Pitch
LO 3.4 What Is Sound?• Frequency theory: theory of pitch that
states that pitch is related to the speed of
vibrations in the basilar membrane
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41. Theories of Pitch
LO 3.4 What Is Sound?• Volley principle: theory of pitch that states
that frequencies from about 400 Hz up to
about 4000 Hz cause the hair cells
(auditory neurons) to fire in a volley
pattern, or take turns in firing
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42. Types of Hearing Impairments
LO 3.5 Hearing Impairment and Improvement• Conduction hearing impairment can result
from:
– damaged eardrum: would prevent sound
waves from being carried into the middle ear
properly
– damage to the bones of the middle ear:
sounds cannot be conducted from the
eardrum to the cochlea
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43. Types of Hearing Impairments
LO 3.5 Hearing Impairment and Improvement• Nerve hearing impairment can result from:
– damage in the inner ear
– damage in the auditory pathways and cortical
areas of the brain
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44. Surgery to Help Restore Hearing
LO 3.5 Hearing Impairment and Improvement• Cochlear implant: a microphone implanted
just behind the ear that picks up sound
from the surrounding environment
– speech processor selects and arranges the
sound picked up by the microphone
– implant is a transmitter and receiver,
converting signals into electrical impulses
• Collected by the electrode array in the
cochlea and then sent to the brain
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45.
Figure 3.10 Cochlear ImplantPsychology, Fourth Edition
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46. Taste
LO 3.6 How Senses of Taste and Smell Work• Taste buds
– taste receptor cells in mouth; responsible for
sense of taste
• Gustation
– the sensation of a taste
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47.
Figure 3.10 Cochlear Implant(a) Nerves in the tongue’s deep tissue (b) Taste bud’s location inside the papillae (c) Microphotograph of the surface of the
tongue showing two different sizes of papillae
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48. Taste
LO 3.6 How Senses of Taste and Smell Work• Five basic tastes
– sweet
– sour
– salty
– bitter
– “brothy,” or umami
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49. Smell
LO 3.6 How Senses of Taste and Smell Work• Olfaction (olfactory sense)
– sense of smell
• Olfactory bulbs
– areas of the brain located just above the sinus
cavity and just below the frontal lobes that
receive information from the olfactory receptor
cells
• At least 1,000 olfactory receptors
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50.
Figure 3.13 The Olfactory ReceptorsPsychology, Fourth Edition
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51. Somesthetic Senses
LO 3.7 Sense of Touch, Pain, Motion, and Balance• Somesthetic senses: the body senses
consisting of the skin senses, the
kinesthetic sense, and the vestibular
senses
– “soma”: body
– “esthetic”: feeling
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52. Somesthetic Senses
LO 3.7 Sense of Touch, Pain, Motion, and Balance• Skin senses: the sensations of touch,
pressure, temperature, and pain
– sensory receptors in the skin
– gate-control theory: pain signals must pass
through a “gate” located in the spinal cord
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53.
Figure 3.14 Cross Section of the Skin and Its ReceptorsPsychology, Fourth Edition
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54. Somesthetic Senses
LO 3.7 Sense of Touch, Pain, Motion, and Balance• Kinesthetic sense: sense of the location
of body parts in relation to the ground and
each other
– proprioceptive receptors (proprioceptors)
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55. Somesthetic Senses
LO 3.7 Sense of Touch, Pain, Motion, and Balance• Vestibular senses: the sensations of
movement, balance, and body position
• Sensory conflict theory: an explanation of
motion sickness in which the information
from the eyes conflicts with the
information from the vestibular senses
– results in dizziness, nausea, and other
physical discomforts
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56. Perception and Constancies
LO 3.8 Perception and Perceptual Constancies• Perception
– the method by which the sensations
experienced at any given moment are
interpreted and organized in some meaningful
fashion
• Size constancy
– the tendency to interpret an object as always
being the same actual size, regardless of its
distance
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57. Perception and Constancies
LO 3.8 Perception and Perceptual Constancies• Shape constancy
– the tendency to interpret the shape of an
object as being constant, even when its shape
changes on the retina
• Brightness constancy
– the tendency to perceive the apparent
brightness of an object as the same even
when the light conditions change
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58.
Figure 3.15 Shape ConstancyPsychology, Fourth Edition
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59. Gestalt Principles
LO 3.9 Gestalt Principles of Perception• Figure–ground
– the tendency to perceive objects, or figures,
as existing on a background
• Reversible figures
– visual illusions in which the figure and ground
can be reversed
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60.
Figure 3.16 The Necker CubePsychology, Fourth Edition
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61.
Figure 3.17 Figure-Ground IllusionPsychology, Fourth Edition
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62. Gestalt Principles
LO 3.9 Gestalt Principles of Perception• Proximity
– tendency to perceive objects that are close to
each other as part of the same grouping
• Similarity
– tendency to perceive things that look similar
to each other as being part of the same group
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63. Gestalt Principles
LO 3.9 Gestalt Principles of Perception• Closure
– tendency to complete figures that are
incomplete
• Continuity
– tendency to perceive things as simply as
possible with a continuous pattern rather than
with a complex, broken-up pattern
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64. Gestalt Principles
LO 3.9 Gestalt Principles of Perception• Contiguity
– tendency to perceive two things that happen
close together in time as being related
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65.
Figure 3.18 Gestalt Principles of GroupingPsychology, Fourth Edition
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66. Development of Perception
LO 3.10 What Is Depth Perception?• Depth perception: the ability to perceive
the world in three dimensions
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67. Monocular Cues
LO 3.10 What Is Depth Perception?• Monocular cues (pictorial depth cues):
cues for perceiving depth based on one
eye only
– linear perspective: the tendency for parallel
lines to appear to converge on each other
– relative size: perception that occurs when
objects that a person expects to be of a
certain size appear to be small and are,
therefore, assumed to be much farther away
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68. Monocular Cues
LO 3.10 What Is Depth Perception?• Monocular Cues (cont’d)
– overlap: the assumption that an object that
appears to be blocking part of another object
is in front of the second object and closer to
the viewer
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69. Monocular Cues
LO 3.10 What Is Depth Perception?• Monocular Cues (cont’d)
– aerial (atmospheric) perspective: the haziness
that surrounds objects that are farther away
from the viewer, causing the distance to be
perceived as greater
– texture gradient: the tendency for textured
surfaces to appear to become smaller and
finer as distance from the viewer increases
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70. Monocular Cues
LO 3.10 What Is Depth Perception?• Monocular Cues (cont’d)
– motion parallax: the perception of motion of
objects in which close objects appear to move
more quickly than objects that are farther
away
– accommodation: as a monocular clue, the
brain’s use of information about the changing
thickness of the lens of the eye in response to
looking at objects that are close or far away
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71.
Figure 3.19 Examples of Pictorial Depth Cues(a) Linear perspective, (b) texture gradient, (c) aerial or atmospheric perspective, (d) relative size
Psychology, Fourth Edition
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72. Binocular Cues
LO 3.10 What Is Depth Perception?• Binocular cues: cues for perceiving depth
based on both eyes
– convergence: the rotation of the two eyes in
their sockets to focus on a single object,
resulting in greater convergence for closer
objects and lesser convergence if objects are
distant
Psychology, Fourth Edition
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73. Binocular Cues
LO 3.10 What Is Depth Perception?• Binocular Cues (cont’d)
– binocular disparity: the difference in images
between the two eyes, which is greater for
objects that are close and smaller for distant
objects
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74.
Figure 3.20 Binocular Cues to Depth PerceptionPsychology, Fourth Edition
Saundra K. Ciccarelli • J. Noland White
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75. Perceptual Illusions
LO 3.11 How Visual Illusions and Other Factors Influence Perception• Hermann grid: is possibly due to the
response of the primary visual cortex
• Müller-Lyer illusion: illusion of line length
that is distorted by inward-turning or
outward-turning corners on the ends of the
lines, causing lines of equal length to
appear to be different
Psychology, Fourth Edition
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76.
Figure 3.21 The Hermann GridPsychology, Fourth Edition
Saundra K. Ciccarelli • J. Noland White
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77.
Figure 3.22 The Müller-lyer illusionPsychology, Fourth Edition
Saundra K. Ciccarelli • J. Noland White
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78. Perceptual Illusions
LO 3.11 How Visual Illusions and Other Factors Influence Perception• Moon illusion: the moon on the horizon
appears to be larger than the moon in the
sky
– apparent distance hypothesis
Psychology, Fourth Edition
Saundra K. Ciccarelli • J. Noland White
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79. Perceptual Illusions
LO 3.11 How Visual Illusions and Other Factors Influence Perception• Illusions of motion
– autokinetic effect: a small, stationary light in a
darkened room will appear to move or drift
because there are no surrounding cues to
indicate that the light is not moving
– stroboscopic motion: seen in motion pictures,
in which a rapid series of still pictures will
appear to be in motion
Psychology, Fourth Edition
Saundra K. Ciccarelli • J. Noland White
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80. Perceptual Illusions
LO 3.11 How Visual Illusions and Other Factors Influence Perception• Illusions of motion
– phi phenomenon: lights turned on in a
sequence appear to move
– rotating snakes: due in part to eye
movements
– The Enigma: due in part to microsaccades
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81.
Figure 3.23 “Rotating Snakes”Psychology, Fourth Edition
Saundra K. Ciccarelli • J. Noland White
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82.
Figure 3.24 “Reinterpretation of Enigma”Psychology, Fourth Edition
Saundra K. Ciccarelli • J. Noland White
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83. Perceptual Illusions
LO 3.11 How Visual Illusions and Other Factors Influence Perception• Ames Room Illusion
Psychology, Fourth Edition
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84. Factors that Influence Perception
LO 3.11 How Visual Illusions and Other Factors Influence Perception• Perceptual set (perceptual expectancy):
the tendency to perceive things a certain
way because previous experiences or
expectations influence those perceptions
• Top-down processing: the use of
preexisting knowledge to organize
individual features into a unified whole
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85.
Figure 3.25 Perceptual SetLook at the drawing. What do you see? Then look at the two pictures on the next slide.
Psychology, Fourth Edition
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86.
Figure 3.25 Perceptual Set (Cont’d)Would you have interpreted the first drawing differently if you had viewed these images first?
Old woman
Psychology, Fourth Edition
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Young woman
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87. Factors that Influence Perception
LO 3.11 How Visual Illusions and Other Factors Influence Perception• Bottom-up processing: the analysis of the
smaller features to build up to a complete
perception
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88.
Figure 3.26 The Devil’s TridentPsychology, Fourth Edition
Saundra K. Ciccarelli • J. Noland White
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