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Thinking About Psychology
Charles T. Blair-Broeker & Randal M. ErnstPowerPoint Presentation Slides
by Kent Korek Germantown High SchoolWorth Publishers, © 2012
Monday, January 5, 15
Module Overview• Basic Principles• The Visual System• Hearing• Other Senses
Click on the any of the above hyperlinks to go to that section in the presentation.Monday, January 5, 15
Sensation
• The process by which sensory systems (eyes, ears, and other sensory organs) and nervous system receive stimuli from our environment.
• A person’s awareness of the world
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Bottom-Up Processing
• Information processing that analyzes on the raw stimuli entering through the many sensory systems.
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Perception
• The process of organizing and interpreting incoming sensory information.
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Top-Down Processing
• Information processing that draws on expectations and experiences to interpret incoming sensory information.
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Absolute Threshold
• The minimum amount of a stimulation needed to detect a particular stimulus.
• Amount of a stimulus that a person can detect 50% of the time
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Difference Threshold
• The minimum amount of difference needed to detect that two stimuli are not the same.
• Also called just noticeable difference
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Signal Detection Theory
• A theory that predicts how and when we detect the presence of a faint stimulus (signal) amid background stimulation (noise).
• Developed out of the Cold War
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Signal Detection Theory
• Three kinds of variables–Stimulus variables–Environmental variables–Organismic variables
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Sensory Adaptation
• Diminished sensitivity to constant and unchanging stimulation.
• If a stimulus is constant and unchanging, eventually a person may fail to respond to it
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Selective Attention
• Focusing conscious awareness on a particular stimulus to the exclusion of others.
• The ability to focus on one stimulus at a time
• Allows a person to function in a world filled with many stimuli
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Selective Attention
From Leeper, R. W. (1935). A study of a neglected portion of the field of learning: The development of sensory organization. Journal of Genetic Psychology, 46, 41-75. Reprinted by permission of Taylor & Francis Ltd, http:// www.tandf.co.uk/journals
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Electromagnetic Energy
• An energy spectrum that includes X-rays, radar, and radio waves
• A small portion of the spectrum includes light visible to the human eye
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Hue
• The color of light as determined by the wavelength of the light energy
• Includes: red, orange, yellow, green, blue, indigo and violet (ROY G BIV)
• The eye can detect 7 million separate hues
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Amplitude
• The brightness of light as determined by height of the wave
• The taller the wave, the brighter the color
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Cornea
• The clear, curved bulge on the front of the eye that bends light rays to begin focusing them.
• Begins to focus the light by bending it toward a central focal point
• Protects the eye
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Iris
• A ring of muscle tissue that forms the colored portion of the eye and
• regulates the size of the pupil.• Changes its size--allowing more or less
light to enter the eye
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Pupil
• The adjustable opening in the center of the iris,
• which controls the amount of light entering the eye.
• In bright conditions the iris expands, making the pupil smaller.
• In dark conditions the iris contracts, making the pupil larger.
Monday, January 5, 15
Lens
• A transparent structure behind the pupil in the eye that changes shape to focus images on the retina.
• Muscles that change the thickness of the lens change how the light is bent thereby focusing the image
• Glasses or contacts correct problems in the lens’ ability to focus.
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Retina
• Light-sensitive surface at the back of the eyeball.
• Contains cells that convert light energy to nerve impulses
• Made up of three layers of cells–Receptor cells–Bipolar cells–Ganglion cells
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Receptor Cells• Specialized cells in every sensory system of
the body that can turn other different kinds of energy into action potentials (neural impulses) that the brain can process.
• These cells are present in every sensory system to change (transduce) some other form of energy into neural impulses.
• In sight they change light into neural impulses the brain can understand.
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Rods
• Visual receptor cells located in the retina that can detect only black, white and gray.
• Respond to less light than do cones
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Cones
• Visual receptor cells located in the retina that can detect sharp details and color.
• Need more light than the rods• Many cones are clustered in the fovea.
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Fovea
• The central focal point of the retina• High concentration of cones• The spot where vision is best (most
detailed)
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Bipolar Cells
• Gather information from the rods and cones and pass it on to the ganglion cells
• Cells that form the middle layer in the retina
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Ganglion Cells
• Pass the information from the bipolar cells through their axons
• Together these cells form the optic nerve.
• The top layer of the cells in the retina
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Optic Nerve
• The nerve that carries visual information from the eye to the occipital lobes of the brain.
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Blind Spot
• The point at which the optic nerve travels through the retina to exit the eye;
• the lack of rods and cones at this point, creates a small blind spot.
Monday, January 5, 15
Trichromatic (three-color) Theory
• A theory of color vision that says cones are sensitive to red, green and blue light - the three colors that combine to create millions of color combinations.
• Based on work of Helmholtz and Young• Similar to the design of a color TV
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Subtractive Color Mixing
• When mixing colored paints, each new color SUBTRACTS (soaks up) another wavelength.
• Red, blue, and yellow combine to make black paint.
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Additive Color Mixing
• When mixing colored lights, each new color ADDS another wavelength.
• Red, green, and blue combine to make white light.
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Color Deficient Vision
• People who lack one of the three types of cones
• Usually the red or green receptors are missing
• Usually referred to as color blindness• In inherited and found more in males
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Opponent-Process Theory of Color
• A theory of color vision that says color is processed by cones organized in opponent pairs
• (red-green, yellow-blue, black-white); • light that stimulated one half of the pair
inhibits the other half.• Explains the afterimage effect
Monday, January 5, 15
Sound
• Sound, like light, comes in waves• Sound is vibration• Features of sound include:
–Pitch–Hertz–decibels
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Pitch
• A sound’s highness or lowness, which depends on the frequency of the sound wave.
• Is measured as hertz (Hz)
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Hertz (Hz)
• A measure of the number of sound wave peaks per second; measures “frequency”
• Determines the pitch of the sound• Human hearing goes from 20 Hz to
20,000 Hz
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Decibel (dB)
• A measure of the height of the sound wave
• Determines the loudness of the sound• Sometimes called amplitude
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Auditory Canal
• The opening through which sound waves travel as they move into the ear for processing
• Ends at the tympanic membrane (eardrum)
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Tympanic Membrane (eardrum)
• The tissue barrier that transfers sound vibration from the air to the tine bones of the middle ear
• Can be damaged by objects in the ear or exceptionally loud noises
Monday, January 5, 15
Ossicles
• Three tiny bones that transfer sound waves from the eardrum to the cochlea
• Hammer, anvil and stirrup
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Cochlea
• The major organ of hearing; • a snail shaped bony body tube fluid-
filled in the inner ear • where sound waves are changed to
neural impulses.
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Oval Window
• The point on the surface of the cochlea which receives the sound vibration from the ossicles
• As the oval window vibrates, the fluid in the cochlea vibrates.
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Hair Cells
• The receptor cells for hearing; • they’re are located in the cochlea and • are responsibly for changing sound
vibrations into neural impulses.• Similar to the rods and cones within the
eye
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Auditory Nerve
• The nerve that carries sound information from the ears to the temporal lobes of the brain.
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Semicircular Canals
• Organs in the inner ear used in sensing body orientation and balance (vestibular sense)
• Relies on fluid in the canals• Spinning in circles disrupts the fluid.
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Divisions of the Ear
• Ear’s structure can be divided into:–The outer ear–The middle ear–The inner ear
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Localization of Sound
• Locating where sound is originating from
• Done through two cues:–Which ear hears the sound first?–Which ear hears the louder sound?
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Taste
• Taste is a chemical sense.• Receptor cells are located primarily on
the tongue and in the mouth.• Four different tastes:
–Salty, sweet, sour and bitter• Damaged taste receptor cells are
replaced within a few days.
Monday, January 5, 15
Linda Bartoshuk
• Renowned researcher on the role of genetics and the treatment of disorders in the chemical senses of taste and smell.
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Supertasters
• People with an abundance of taste receptors
• Approximately 25% of the population
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Nontasters
• People with a minimum of taste receptors
• Taste with less intensity than the rest of the population
• Approximately 25% of the population
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Smell
• Smell is a chemical sense.• Olfactory cells in the upper nasal
passages detect molecules in the air.• Taste and smell interact to produce
flavor.
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Olfactory Cells
• The chemical receptor cells for smell• Located in the nasal passages
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Touch
• Touch receptors are on the skin• Four basic skin senses are
–Pain, warmth, cold, and pressure• All skin sensations are a combination of
these four basic senses
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Gate-control Theory of Pain
• Pain messages travel on one set of nerve fibers containing pain gates.
• The gates are open when pain is felt.• Other sensory messages go through
another set of fibers.• The nonpain fibers can close the pain
gates to stop the sense of pain.
Monday, January 5, 15
Kinesthetic Sense
• The system for sensing the position and movement of individual body parts.
• Relies on receptor cells from the muscles and joints
• One’s leg “falling asleep” is a disruption of the kinesthetic sense
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Vestibular Sense
• The system for sensing body orientation and balance,
• which is located in the semicircular canals in the inner ear.
• Relies on fluid in the canals• Spinning in circles disrupts the fluid.
Monday, January 5, 15
Teacher Information• Types of Files
– This presentation has been saved as a “basic” Powerpoint file. While this file format placed a few limitations on the presentation, it insured the file would be compatible with the many versions of Powerpoint teachers use. To add functionality to the presentation, teachers may want to save the file for their specific version of Powerpoint.
• Animation– Once again, to insure compatibility with all versions of Powerpoint, none
of the slides are animated. To increase student interest, it is suggested teachers animate the slides wherever possible.
• Adding slides to this presentation– Teachers are encouraged to adapt this presentation to their personal
teaching style. To help keep a sense of continuity, blank slides which can be copied and pasted to a specific location in the presentation follow this “Teacher Information” section.
Monday, January 5, 15
Teacher Information• Domain Coding
– Just as the textbook is organized around the APA National Standards, these Powerpoints are coded to those same standards. Included at the top of almost every slide is a small stripe, color coded to the APA National Standards.
• Scientific Inquiry Domain• Biopsychology Domain• Development and Learning Domain• Social Context Domain• Cognition Domain• Individual Variation Domain• Applications of Psychological Science Domain
• Key Terms and Definitions in Red– To emphasize their importance, all key terms from the text and their
definitions are printed in red. To maintain consistency, the definitions on the Powerpoint slides are identical to those in the textbook.
Monday, January 5, 15
Teacher Information• Hyperlink Slides - Immediately after the unit title slide, a page (usually
slide #4 or #5) can be found listing all of the module’s subsections. While in slide show mode, clicking on any of these hyperlinks will take the user directly to the beginning of that subsection. This allows teachers quick access to each subsection.
• Continuity slides - Throughout this presentations there are slides, usually of graphics or tables, that build on one another. These are included for three purposes.
• By presenting information in small chunks, students will find it easier to process and remember the concepts.
• By continually changing slides, students will stay interested in the presentation.• To facilitate class discussion and critical thinking. Students should be encouraged to
think about “what might come next” in the series of slides.
• Please feel free to contact me at [email protected] with any questions, concerns, suggestions, etc. regarding these presentations. Kent KorekGermantown High SchoolGermantown, WI 53022
Monday, January 5, 15