Sensation and perception
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DefinitionsSensationThe detection of physical energy emitted or reflected by physical objects
Occurs when energy in the external environment or the body stimulates receptors in the sense organs
PerceptionThe process by which the brain organizes and interprets sensory information
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Ambiguous figure
Colored surface can be either the outside front surface or the inside back surface.But not simultaneously both
The brain can interpret the ambiguous cues in two different ways.
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Riddle of separate sensationsSense receptorsSpecialized cells that convert physical energy into electrical energy that can be transmitted as nerve impulses to the brain
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Sensation and perception6
Specific nerve energies6
Different sensory modalities exist because signals received by the sense organs stimulate different nerve pathways leading to different areas of the brain.
SynesthesiaA condition in which stimulation of one sense also evokes another
Absolute threshold
The smallest quantity of physical energy that can be reliably detected by an observer
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Absolute thresholds
VisionA single candle flame from 30 miles on a clear night
HearingThe tick of a watch from 20 feet in total quiet
SmellOne drop of perfume in a 6-room apartment
TouchThe wing of a bee on the cheek, dropped from 1 cm
TasteOne teaspoon of sugar in 2 gallons of water
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Difference threshold
The smallest difference in stimulation that can be reliably detected by an observer when two stimuli are compared
Also called the Just Noticeable Difference (JND)
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Signal-detection theory
A psychophysical theory that divides the detection of a sensory signal into a sensory process and a decision process
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Sensory adaptation and deprivationAdaptationThe reduction or disappearance of sensory responsiveness when stimulation is unchanging or repetitiousPrevents us from having to respond continuously to unimportant information
DeprivationThe absence of normal levels of sensory stimulation
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Sensory overload
Over-stimulation of the senses
Can use selective attention to reduce sensory overload
Selective attention: the focusing of attention on selected aspects of the environment and the blocking out of others
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Vision6
What we seeAn eye on the worldWhy the visual system is not a cameraHow we see colorsConstructing the visual world
What we see6
HueVisual experience specified by color names and related to the wavelength of light
BrightnessVisual experience related to the amount of light emitted from or reflected by an object
SaturationVisual experience related to the complexity of light waves
What we see6
An eye on the world
CorneaProtects eye and bends light toward lens
LensFocuses on objects by changing shape
IrisControls amount of light that gets into eye
PupilAperture through which light reaches the retina
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An eye on the world
RetinaNeural tissue lining the back of the eyeball’s interior containing the receptors for vision
RodsVisual receptors that respond to dim light
ConesVisual receptors involved in color vision
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Structures of the retina6
Your turn
You have a hard time locating your red car at night, in the poorly lit mall parking lot. Why?1. Your rods are less sensitive to color in dim light.2. Your cones, which detect color, do not function well in dim light.3. Your ganglion cells receive insufficient overall stimulation to function.4. Your rods, which detect color, do not function well in dim light.
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Your turn
You have a hard time locating your red car at night, in the poorly lit mall parking lot. Why?1. Your rods are less sensitive to color in dim light.2. Your cones, which detect color, do not function well in dim light.3. Your ganglion cells receive insufficient overall stimulation to function.4. Your rods, which detect color, do not function well in dim light.
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The visual system is not a cameraMuch visual processing is done in the brainSome cortical cells respond to lines in specific orientations (e.g., horizontal).Other cortical cells respond to other shapes (e.g., bulls-eyes, spirals, faces).
Feature detectorsCells in the visual cortex that are sensitive to specific features of the environment
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Huble and Wiesel’s experiment
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Trichromatic theory
Young (1802) and von Helmholtz (1852) both proposed that the eye detects 3 primary colorsRed, blue, and green
All other colors derived by combination
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Opponent-process theoryA competing theory of color vision, which assumes that the visual system treats pairs of colors as opposing or antagonistic
Opponent-process cells are inhibited by a color, and have a burst of activity when it is removed.
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Afterimages6
Afterimages6
Test of color deficiency6
Form perception6
Gestalt principles describe the brain’s organization of sensory building blocks into meaningful units and patterns.
Gestalt principles
ProximityThings close to one another are grouped together
ClosureThe brain tends to fill in gaps to perceive complete forms
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Gestalt principles
SimilarityThings that are alike are perceived together
ContinuitySeeing continuity in lines that could be interpreted as either continuous or abruptly shifting in direction.
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Your turn
Which Gestalt principle is illustrated by the fact that we see columns of dots rather than rows in this diagram?1. Similarity2. Proximity3. Closure4. Continuity
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Your turn
Which Gestalt principle is illustrated by the fact that we see columns of dots rather than rows in this diagram?1. Similarity2. Proximity3. Closure4. Continuity
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Depth and distance perceptionBinocular cues: visual cues that require the use of both eyes
ConvergenceTurning inward of the eyes, which occurs when they focus on a nearby object
Retinal disparityThe slight difference in lateral separation between two objects as seen by the right and left eyes
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Depth and distance perceptionMonocular cues: visual cues that can be used by one eye
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The Müller-Lyer illusion6
Color in context6
The way you perceive a color depends on the color surrounds.
The Ames room
A specially-built room that makes people seem to change size as they move around in it.
The room is not a rectangle, as viewers assume it is.
A single peephole prevents use of binocular depth cues.
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Visual constancies
The accurate perception of objects as stable or unchanged despite changes in the sensory patterns they produceShape constancy
Location constancy
Size constancy
Brightness constancy
Color constancy
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Fooling the eye
The cats in (a) are the same size.The diagonal lines in (b) are parallel.You can create a “floating fingertip frankfurter” by holding hands as shown, 5–10 inches in front of face.
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What we hear
LoudnessThe dimension of auditory experience related to the intensity of a pressure wave
PitchThe dimension of auditory experience related to the frequency of a pressure wave
TimbreThe dimension of auditory experience related to the complexity of a pressure wave
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An ear on the world
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Auditory localization
Sounds from different directions are not identical as they arrive at left and right ears.Loudness
Timing
Phase
The brain calculates a sound’s location by using these differences.
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Other senses
Taste: savory sensationsSmell: the sense of scentsSenses of the skinThe mystery of painThe environment within
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Taste: savory sensations
PapillaeKnoblike elevations on the tongue, containing the taste buds
Taste budsNests of taste-receptor cells
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Taste buds6
10,000 taste buds line the tongue and mouthReceptors are down inside the “bud”.
Children have more taste buds than adults.
Four tastes
Five basic tastesSalty, sour, bitter, sweet, and umami
Different people have different tastes based on:GeneticsCultureLearningFood attractiveness
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Smell: The sense of scents
Airborne chemical molecules enter the nose and circulate through the nasal cavity.Vapors can also enter through the mouth and pass into nasal cavity.
Receptors on the roof of the nasal cavity detect these molecules.
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Olfactory system6
Sensitivity to touch6
Gate-control theory of pain
Experience of pain depends in part on whether the pain gets past a neurological “gate” in the spinal cord.
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Neuromatrix theory of pain
The matrix of neurons in the brain is capable of generating pain (and other sensations) in the absence of signals from sensory nerves.
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The environment within
KinesthesisThe sense of body position and movement of body parts
EquilibriumThe sense of balance
Semicircular canalsSense organs in the inner ear, which contribute to equilibrium by responding to rotation of the head
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Inborn abilities:The visual cliff
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Glass surface, with checkerboard underneath at different heightsVisual illusion of a cliffBaby can’t fall
Mom stands across the gap.
Babies show increased attention over deep side at age 2 months, but aren’t afraid until about the age they can crawl.
Critical period
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If infants miss out on experiences during a crucial period of time, perception will be impaired.
When adults who have been blind since birth have vision restored, they may not see well.
Other senses such as hearing may be influenced similarly.
Psychological and cultural influences
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We are more likely to perceive something when we need it.
What we believe can affect what we perceive.
Emotions, such as fear, can influence perceptions of sensory information.
Expectations based on previous experiences can influence perception.Perceptual set: a habitual way of perceiving, based on expectations
All are influenced by culture.
Perceptual set
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Priming
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A method used to insure unconscious processes, in which a person is exposed to information and is later tested to see whether the information affects behavior or performance on another task or in another situationFindings suggest simple primes influence perception, memory, thinking, and decision-making.
Perception vs. persuasion
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Although subliminal priming can influence judgments and preferences, research doesn’t support its success in major levels of persuasion.
Extrasensory perception
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ESPThe ability to perceive something without ordinary sensory information
Has not been scientifically demonstrated
Parapsychology
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J. B. Rhine conducted many experiments on ESP using stimuli such as these.
Rhine believed his evidence supported ESP, but his findings were flawed.