Transcript Sensation
Myers’ PSYCHOLOGY (6th Ed) Chapter 5 Sensation James A. McCubbin, PhD Clemson University Worth Publishers Sensation- activation of our senses, receiving energy Perception- understanding these sensations, organizing and interpreting them Transduction- information received by our sensory organs is transformed into neural impulses Travel through the thalamus (except for smell) to different areas of the brain 7 Senses Energy Senses Sight Sound Chemical Senses Touch Taste Smell Body Position Balance Kinesthesis Vestibular Sensation- Thresholds Absolute Threshold minimum stimulation needed to detect a particular stimulus usually defined as the stimulus needed for detection 50% of the time Difference Threshold minimum difference between two stimuli that a subject can detect 50% of the time just noticeable difference (JND) increases with magnitude Human Absolute Thresholds Vision • seeing a candle flame 30 miles away on a clear night Hearing • hearing a watch ticking 20 feet away Tasting • tasting one tsp. of sugar dissolved in 2 gallons of water Smell • smelling one drop of perfume in a 3-room house Touch • feeling a bee’s wing falling a distance of 1 cm onto your cheek Sensation- Thresholds Signal Detection Theory predicts how and when we detect the presence of a faint stimulus (signal) amid background stimulation (noise) assumes that there is no single absolute threshold detection depends partly on person’s experience expectations motivation level of fatigue Thresholds Cocktail party phenomenonwhen someone says our name across a room, we will switch our attention involuntarily The Stroop Effect Sensation- Thresholds When stimuli are detectable less than 50% of the 100 Percentage of correct detections 75 50 Subliminal stimuli 25 0 Low Absolute threshold Intensity of stimulus Medium time (below one’s absolute threshold) they are “subliminal”. Subliminal Perception Brief auditory or visual messages present below the absolute threshold so that there is a less that 50% chance that they will be perceived False claim that the words “Eat popcorn” and “Drink Coke” had flashed briefly on a movie screen once every 4 seconds for 1/3000 of a second and that sales had risen Hysterical reaction- Congress called for FCC, admitted data was false. But still banned in 1974, regardless of efficacy Even if it is possible for people to perceive info at low levels of intensity, no clear evidence that they influence people. But, many believe it is a powerful advertising tool. Subliminal Messages??? Lion King - Disney Subliminal Messages Sensation- Thresholds Weber’s Law- to perceive a difference between two stimuli, they must differ by a constant proportion light intensity- 8% weight- 2% tone frequency- 0.3% Sensory Adaptation Diminished sensitivity with constant stimulation Senses are more responsive to increases and decreases and to new events rather than to ongoing stimulation Adapting to a dark movie theater, cold water, disagreeable odors, street noise Eyes quiver to avoid sensory adaptation Vision Transduction- conversion of one form of energy to another Wavelength- the distance from the peak of one wave to the peak of the next Hue- dimension of color determined by wavelength of light Intensity- amount of energy in a wave determined by amplitude brightness loudness Vision- Spectrum of Electromagnetic Energy Vision- Physical Properties of Waves Short wavelength=high frequency (bluish colors, high-pitched sounds) Great amplitude (bright colors, loud sounds) Long wavelength=low frequency (reddish colors, low-pitched sounds) Small amplitude (dull colors, soft sounds) Vision Vision Pupil- adjustable opening in the center of the eye Iris- a ring of muscle the forms the colored portion of the eye around the pupil and controls the size of the pupil opening Lens- transparent structure behind pupil that changes shape to focus images on the retina Vision Accommodation change in shape of lens focus near objects Retina inner surface of eye light sensitive contains rods and cones layers of neurons beginning of visual information processing Vision Acuity- the sharpness of vision Nearsightedness nearby objects seen more clearly lens focuses image of distant objects in front of retina Eyeballs too long Farsightedness faraway objects seen more clearly lens focuses near objects behind retina Eyeballs too short Vision Normal Vision Nearsighted Vision Farsighted Vision Retina’s Reaction to Light: Receptors Cones near center of retina (fovea) fine detail and color vision daylight or well-lit conditions Rods peripheral retina detect black, white and gray twilight or low light Retina’s Reaction to Light Optic nerve- nerve that carries neural impulses from the eye to the brain Blind Spot- point at which the optic nerve leaves the eye, creating a “blind spot” because there are no receptor cells located there Fovea- central point in the retina, around which the eye’s cones cluster Vision- Receptors Receptors in the Human Eye Cones Rods Number 6 million 120 million Location in retina Center Periphery Sensitivity in dim light Low High Color sensitive? Yes No Pathways from the Eyes to the Visual Cortex Visual Information Processing Feature Detectors neurons in the visual cortex respond to specific features shape angle movement Cell’s responses Stimulus How the Brain Perceives Illusory Contours Visual Information Processing Parallel Processing simultaneous processing of several dimensions through multiple pathways color motion form depth Visual Information Processing Trichromatic (three color) Theory Young and Helmholtz three different retinal color receptors red green blue Color-Deficient Vision People who suffer redgreen blindness have trouble perceiving the number within the design Color Deficiency Happens when all or some cones do not function properly Most color deficient people will be able to see some colors Most have problems distinguishing red and green, others cannot distinguish between yellow and blue. A few are totally color deficient and depend only on rods. Effects about 8% of men and 1% of women; a hereditary condition passed on by women Visual Information Processing Opponent-Process Theory- opposing retinal processes enable color vision “ON” “OFF” red green green red blue yellow yellow blue black white white black The Pathway of Sound Outer ear- receives sound waves, earflap directs sound down auditory canal. The auditory canal begins to vibrate, which causes the eardrum to vibrate The Pathway of Sound Middle Ear- air-filled cavity with three tiny bones- hammer, anvil, and stirrup. Bones vibrate and push against the cochlea Pathway of Sound Inner Ear- cochlea, a bony tube that contains fluids and neurons. Pressure makes the liquid inside the cochlea move and tiny hairs pick up the motion and turn into neuronal impulses which are sent to the brain Loudness Loudness depends on the amplitude (height) of sound waves- measured in decibels Sounds over 110 decibels can cause damage, persistent sounds over 80 decibels cause damage. Pitch Depends on frequency, or the rate of vibration Low frequency- deep sounds High frequencies- shrill squeaks The Intensity of Some Common Sounds IPods More hearing loss in younger people with the use of iPods and earbud headphones that is similar to that found in aging adults. Earbuds are placed directly in the ear and can boost the sound signal by as much as six to nine decibels. It’s enough to cause hearing loss after only about an hour and 15 minutes. 60 percent/60 minute rule- Using the MP3 devices, including iPods, no more than about an hour a day and at levels below 60 percent of maximum volume. To avoid permanent hearing loss in the middle ranges --the range required to hear conversation in a noisy restaurant, for example -- they recommend the older style, larger headphones that rest over the ear opening. Another option is the use of noise-canceling headphones that eliminate background noise so listeners don't have to crank the volume so high. Audition Place Theory the theory that links the pitch we hear with the place where the cochlea’s membrane is stimulated Frequency Theory the theory that the rate of nerve impulses traveling up the auditory nerve matches the frequency of a tone, thus enabling us to sense its pitch How We Locate Sounds Sources of sounds are located when ears work together. When a noise occurs on the right, it reaches the right ear a fraction of a second earlier and is slightly louder in the right ear. Deafness Conduction- something hinders motion through the outer or middle ear or when the bones in the middle ear become rigid and cannot carry sound Help from hearing aids- change sound waves into vibrations and send to inner ear Deafness Sensorineural- damage to cochlea or auditory neurons Cochlear implants – electronic device in cochlea Touch Skin Sensations pressure only skin sensation with identifiable receptors warmth cold pain Pain Gate-Control Theory theory that the spinal cord contains a neurological “gate” that blocks pain signals or allows them to pass on to the brain “gate” opened by the activity of pain signals traveling up small nerve fibers “gate” closed by activity in larger fibers or by information coming from the brain Taste Taste Sensations sweet sour salty bitter umami Sensory Interaction the principle that one sense may influence another as when the smell of food influences its taste Smell Olfactory nerve Olfactory bulb Nasal passage Receptor cells in olfactory membrane Age, Sex and Sense of Smell Number of correct answers Women and young adults have best sense of smell 4 Women 3 Men 2 0 10-19 20-29 30-39 40-49 50-59 60-69 Age Group 70-79 80-89 90-99 Balance Regulated by the vestibular system Semicircular canals (3)- filled with fluid, hair cells are bent when movement occurs Stimuli include spinning, falling, tilting Overstimulation results in dizziness and motion sickness Body Senses Kinesthesis- sense of body movement and position Sensation from receptors in the muscles, tendons, and joints Movements would be jerky and uncoordinated without