Sensation and Perception - Chapter 5___shekinah jireh nueva.pdf

Full Transcript

Sensation and Perception - Chapter 5 shekinah jireh nueva

Sensation is the physical process; perception is the psychological process

Sensory receptors

specialized neurons that respond to specific types of stimuli
when sensory information is detected by a receptor, sensation happens

Transduction - conversion from sensory stimulus energy to action potential

Vision Taste (gustation) Body position and movement
(proprioception and kinesthesia)

Hearing Touch Pain (nociception)
(auditory) (somatosensation)

Smell Balance (vestibular Temperature (thermoception)
(olfactory) sense)

Absolute threshold

the minimum amount of stimulus energy present for the stimulus to be
detected 50% of the time
the sensitivity of a sensory system

Subliminal messages

messages presented below the threshold for conscious awareness
“hidden messages/cues”

Just noticeable difference (JND) or difference threshold

required difference in stimuli to distinguish them
example:
○ it’s easier to spot a bright screen in the dark than in daylight

Perception

how sensory information is organized, interpreted, and consciously
experienced

involves both bottom-up and top-down processing

not all sensation result in perception
Bottom-up processing

perceptions are built from sensory input
“you sense it then you react”

Top-down processing

the interpretation of sensations, influenced by our knowledge, experience, and
thoughts
“we already have prior knowledge; we now expect how things will happen”
example:
○ avoiding dangerous situations

Sensory adaptation

no perception of stimuli that remain constant over time

Attention

an important factor in sensation and perception
determines what is sensed and perceived
Inattentional blindness
○ failure to notice something visible due to lack of attention

Motivation

an important factor in sensation
Signal detection theory
○ identifying stimulus despite a busy/distracting environment

Amplitude and Wavelengths

Amplitude

height of the wave
measured from its peak (highest point) to trough (lowest point)

Wavelength

length between two peaks
related to the frequency of the wave

Frequency

number of waves that pass at a period of time
uses hertz (Hz) as the unit
low frequency = long wavelengths
high frequency = short wavelengths
Light Waves

Visible spectrum

visible portion of the electromagnetic spectrum
humans detect 400 to 700 nm (nanometers)

Sound Waves

the frequency of a sound wave
associated with pitch
humans detect 20 to 20,000 Hz
high frequency = high pitch
low frequency = low pitch

Pitch

differentiates shrill and flat sounds
shrill sounds - high and sharp pitch
flat sounds - low and soft pitch

Loudness

associated with the amplitude
high amplitude = loud sounds
low amplitude = soft sounds
uses decibels (dB) as the unit

Timbre

affected by frequency, amplitude, and timing of the sound waves
the tone quality/purity of the sound
differentiates different sound production

Anatomy of the Visual System

Eyes - major sensory organ for vision

Cornea - transparent covering/barrier of the eyes

Pupil

small opening where light passes
size changes depending on the brightness and emotional arousal

Iris

controls the size of pupils
 colored portion of the eyes

Lens

transparent structure that provides additional focus

Retina

light-sensitive lining of the eye
Fovea
○ small indentation at the back of the eye
○ contains photoreceptor cells
Cones - photoreceptors for bright light conditions
Rods - photoreceptors for low light conditions

Retinal ganglion cells

where rods and cones are connected
axons from these cells travel through the back of the eye to form the optic
nerve
optic nerves
○ carries visual information from retina to the brain

Optic chiasm

x-shaped structure sitting below the cerebral cortex
information from the right and left visual field are switched
○ the visual information is then sent to the occipital lobe

Visual blind spot (scotoma)

caused by the lack of photoreceptor cells
where the optic nerve and blood vessels leave the eye
 part of the retina that does not provide visual information

Color and Depth Perception

Color vision

Trichromatic theory of color vision

○ all colors in the spectrum are a combination of red, green, and blue

Opponent-process theory

○ proposes that when one color is seen, its opponent color is registered
once the stimulus is removed
○ color is coded in opponent pairs;
black-white
yellow-blue
green-red
○ Afterimage
the continuation of visual sensation even after removing the
stimulus

Depth Perception

the ability to see objects in three-dimensional space (3-D)

Binocular cues

seeing with both eyes
binocular disparity
○ differences between visual angles

Monocular cues

provides depth information when only seeing through one eye

linear perspective

○ creating an illusion of depth on a flat surface

Anatomy of the auditory system

Pinna

outer ear
extends from the ear, auditory canal, and eardrum (tympanic membrane)
Ossicles

three tiny bones in the middle ear
malleus (hammer), incus (anvil), stapes (stirrup)

Inner ear

contains the semicircular canals
○ involved in balance and movement (vestibular sense)
also contains the cochlea
○ fluid-filled, snail-shaped structure
○ contains sensory receptor cells (hair cells) for the auditory system

Hair cells

auditory receptor cells embedded in the basilar membrane
○ a thin strip of tissue inside the cochlea

*sound waves travel through the canal and strike the eardrum, causing it to vibrate

*as ossicles move, the stapes presses into the oval window of the cochlea

*the fluid inside the cochlea moves, stimulating the hair cells

*the hair cells generate neural impulses which are moved to the inferior colliculus,
medial geniculate nucleus of the thalamus, and the auditory cortex of the temporal
lobe

Pitch Perception

Temporal theory

human perception of sounds depend on the temporal patterns
 hair cells would send action potentials related to the frequency of the sound

Place theory

different portions of the basilar membrane are sensitive to the sounds of
different frequencies
base of the basilar membrane = high frequencies
tip of the basilar membrane = low frequencies

Sound Localization

Monaural cues

using one ear to locate sound
the sound waves that both ears receive are different

Binaural cues

using two ears to locate sound along a horizontal axis
the sound waves that both ears receive are identical
interaural level difference
○ the sound on one side of the ear is more intense than the other
interaural timing difference
○ difference in the time where the sound waves reach the each

Hearing Loss

Deafness

partial or complete inability to hear
congenital deafness - being born deaf
conductive hearing loss - hearing loss over time due to;
○ age
○ genetic predisposition
○ environmental effects;
exposure to extreme noise
certain illnesses
damage from toxins

Sensorineural hearing loss

hearing loss due to failure to transmit neural signals from cochlea to the brain
Meniere’s disease
○ degeneration of inner ear structures, leading to;
tinnitus (constant ringing/buzzing)
vertigo (dizziness)
increased pressure in the inner ear
 ○ cochlear implants - treatment for this disease

The Chemical Senses

Taste (Gustation)

Taste groups;
○ sweet
○ salty
○ sour
○ bitter
○ umami - “yummy”; taste for monosodium glutamate
Taste buds
○ groups of taste receptor cells with hair-like extensions that extends to
the central pore of the buds
○ taste information is transported to the;
medulla
thalamus
limbic system
gustatory cortex

Smell (Olfaction)

Olfactory receptor cells
○ located in a mucous membrane at the top of the nose
○ the small hair-like structures of these receptors are sites for odor
molecules
○ once an odor molecule has bound a receptor, chemical changes within
the cell forms signals sent to the olfactory bulb
○ olfactory bulb - at the tip of the frontal lobe where olfactory nerves
begin
○ from the olfactory bulb, information is then sent to;
regions of the limbic system
the primary olfactory cortex, near the gustatory cortex
 Pheromones
○ chemical messages sent by another individual
○ often involves providing information about the reproductive status of a
potential mate

Touch, Thermoception and Nociception
Receptors throughout the skin;

Meissner’s corpuscles - respond to pressure and lower frequency vibrations
Pacinian corpuscles - detect temporary pressure and higher frequency
vibrations
Merkel’s disks - respond to light pressure
Ruffini corpuscles - detect stretch
*nerve endings respond to different touch-related stimuli and serve as
receptors for thermoception (temperature perception) and nociception
(sensory for pain)

Pain Perception
Pain - unpleasant experience, physically and psychologically

inflammatory pain - signals tissue damage
neuropathic pain - damage to neurons of either the peripheral or central
nervous system
Congenital analgesia
○ genetic disorder where one is born without the ability to feel pain
○ can detect temperature and pressure, but not pain

The Vestibular Sense, Proprioception, and Kinesthesia

Vestibular sense

ability to main balance and body posture
main sensory organs;
○ Utricle
○ Saccule
○ the three semicircular canals
○ the vestibular organs
fluid-filled and have hair cells
respond to head movements and gravitational forces

Proprioception

perception of body position
interact with information provided by the vestibular system
Kinesthesia

perception of the body’s movements
interact with information provided by the vestibular system

Gestalt Principles of Perception

Gestalt - forms or patterns
*the brain creates a perception that is the sum of available sensory inputs
Gestalt Principles

Figure-ground relationship
○ we segment our visual world into figure and ground
○ figure - object of focus
○ ground - the background
○ our ability to interpret sensory information depends on what we label as
figures and grounds
Proximity - things that are closer tend to grouped together
Similarity - things that are alike tend to be grouped together
Law of continuity (good continuation) - we perceive continuous, smooth
flowing lines more than jagged, broken lines
Closure - we organize our perceptions into complete objects rather than a
series of parts

Pattern perception

ability to separate different figures and shapes occurs by following the
mentioned principles

Perceptual hypothesis

educated guesses while interpreting sensory information