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The Visual System: The Nature of Light
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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 Light can be described as both a particle and a wave
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Electromagnetic Spectrum of Light Gamma rays X-rays Ultra- violet rays Infrared rays Radar Broadcast bands AC circuits Visible light Prism White light 400500600700 10 -5 10 -3 10 10 1 3 5 7 9 11 10 13 10 15 10 17 Wavelength in nanometers (billionths of a meter)
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Hue Hue is 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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The Visual System: The Structure of the Visual System
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Vision Purpose of the visual system –Transduction: transform light energy into an electro-chemical neural response (action potential & synaptic transmission) –represent characteristics of objects in our environment such as size, color, shape, and location
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Parts of the Eye – Cornea
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Cornea The clear bulge on the front of the eyeball Begins to focus the light by bending it toward a central focal point Protects the eye
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Parts of the Eye - Iris
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Iris A ring of muscle tissue that forms the colored portion of the eye; creates a hole in the center of the iris (pupil) Regulates the size of the pupil by changing its size--allowing more or less light to enter the eye
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Parts of the Eye - Pupil
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Pupil The adjustable opening in the center of the eye that controls the amount of light entering the eye (surrounded by the iris) In bright conditions the iris expands, making the pupil smaller. In dark conditions the iris contracts, making the pupil larger.
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Parts of the Eye - Lens
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Lens A transparent structure behind the pupil; focuses the image on the back of the eye (retina) Muscles that change the thickness of the lens change how the light is bent thereby focusing the image (Accommodation) Glasses or contacts correct problems in the lens’ ability to focus.
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The Cosmic Flower Does this picture seem to pulsate? Because the lens of your eye is not perfectly round some parts of what you look at are blurry. Your eyes make micro movements to try to put this entire picture into focus and this creates the pulsation.
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The lens correctly focuses the image onto the back of the eye (retina).
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(Myopia) Misshapen eye focuses light rays from a distant object in front of the retina. Can see near but not far. The lens correctly focuses the image onto the back of the eye (retina).
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(Myopia) (Hyperopia) Misshapen eye focuses light rays from near objects past the retina. Can see far but not near. Misshapen eye focuses light rays from a distant object in front of the retina. Can see near but not far. The lens correctly focuses the image onto the back of the eye (retina).
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Other Causes of Poor Vision Astigmatism – Uneven curvature of the cornea causes multiple focus points/images on the retina resulting in blurry vision.
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Other Causes of Poor Vision Presbyopia – form of farsightedness caused when lens becomes brittle & inflexible. Usually starts to happen in your early 40’s Reading glasses will correct this.
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Nearsightedness Farsightedness
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Parts of the Eye - Retina
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Retina Light-sensitive surface with cells that convert light energy to nerve impulses At the back of the eyeball Made up of three layers of cells –Receptor cells (Rods & Cones) –Bipolar cells –Ganglion cells
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Parts of the Eye - Fovea
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Fovea The central focal point of the retina The spot where vision is best (most detailed – visual acuity) Only cones are found in the Fovea
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Receptor Cells (Rods & Cones) 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. Visual system has two types of receptor cells – rods and cones
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Rods Visual receptor cells located in the retina Can only detect black and white Respond to less light than do cones Located around the fovea. (remember pen-top demo from class)
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Cones Visual receptor cells located in the retina Can detect sharp images and color Need more light than the rods Many cones are clustered in the fovea at the center of the retina. (remember pen-top demo from class)
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Rods Cones Watch Blue Man Group’s Rods & Cones Performance
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Distribution of Rods and Cones Cones—concentrated in center of eye (fovea) –approx. 6 million Rods—concentrated in periphery –approx. 120 million Stare at a word and you’ll notice the others around it become blurred. (Clear word seen with cones, blurry area seen with Rods) Blind spot—region with no rods or cones (pg. 98 in book is a demo)
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The Hermann Grid Are there gray dots between the squares? Rods in the periphery are responsible for this. When you look at an area directly there is no dot because you are using your cones but the periphery has dots because the rods are trying to do two things, show you there is a dark area and a light area.
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Optic Nerve/Blind Spot/Optic Disc The nerve that carries visual information from the eye to the thalamus then on to the occipital lobes of the brain
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Parts of the Eye – Optic Nerve
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Parts of the Eye – Blind Spot
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Blind Spot The point at which the optic nerve travels through the retina to exit the eye (Optic Disk) There are no rods and cones at this point, so there is a small blind spot in vision. (do demo on page 98) We don’t notice our blind spot because each eye compensates for the other or your brain “fills in” the missing background info. (Top-down process & Gestalt Theory) Cover your right eye and stare at the can as you move closer to the screen. Notice the spider disappear in your peripheral vision?
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Visual Processing in the Retina
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Processing Visual Information Rods & Cones transform light into action potential/synaptic transmission. Bipolar cells—neurons that connect rods and cones to the ganglion cells Ganglion cells—neurons that connect to the bipolar cells, their axons form the optic nerve Optic chiasm—point in the brain where the optic nerves from each eye meet and partly crossover to opposite sides of the brain
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Bipolar Cells Cells that form the middle layer in the retina Gather information from the rods and cones and pass it on to the ganglion cells Hundreds of Rods feed into 1 Bipolar Cell. 1 to 2 Cones feed into 1 Bipolar Cell. This is why Cones have better visual acuity.
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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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Receptive Fields and Rod vs. Cone Visual Acuity Cones—in the fovea, one cone often synapse onto only a single ganglion cell Rods—the axons of many rods synapse onto one ganglion cell This allows rods to be more sensitive in dim light, but it also reduces visual acuity
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Visual Processing in the Retina
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Visual Pathway From the eye to the brain Light travels through… Cornea – Pupil – Lens – Fovea (retina) – Rods/Cones – Bipolar Cells – Ganglion cells (movement & light /color & detail) – Optic Nerve (blind spot) – Optic Chiasm (crossover point) – Thalamus – Occipital Lobe (Primary Visual Cortex)
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How Can I Possibly Remember All of That in Order? Cool = Cornea People = Pupil Like = Lens Frosties = Fovea (Rods & Cones) Because = Bipolar Cells Gangsters = Ganglion Cells Never = Optic Nerve Cheat = Optic Chiasm The = Thalamus Officers = Occipital Lobe Don’t like this one? Create Your Own!!!
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Primary Visual Pathway: Thalamus processes info about form, color, brightness & depth Secondary Visual Pathway: Midbrain processes info about the location of an object – feature detectors respond to things like angles, edges, lines & movement
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Visual Adaptation (a) A projector mounted on a contact lens makes the projected image move with the eye. (b) Initially the person sees the stabilized image, but soon she sees fragments fading and reappearing.
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Visual Impairment Play “Smart Glasses” (8:13) Segment #9 from Scientific American Frontiers: Video Collection for Introductory Psychology (2 nd edition). Watch in Class
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