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Published byAlexia Stone Modified over 9 years ago
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SPECIAL SENSES
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the human body is very sensitive to conditions in both its internal and external environment the nervous system collects information about its environment with a wide variety of receptors located throughout the body:
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Chemoreceptors: sensitive to chemicals. Baroreceptors: sensitive to pressure, Osmoreceptors: sensitive to water levels Mechanoreceptors: sensitive to vibrations, Photoreceptors: sensitive to light
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SENSORY RECEPTORS: are highly modified ends of sensory neurons, often located in specialized sensory organs.
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SENSORY ADAPTATION: is a condition where a sensory receptor becomes conditioned to a stimulus; the neuron doesn’t reach an action potential even though the stimulus is still present.
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Special Sense Organs: 1.The Eyes I. STRUCTURE
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structures on the external portion that are not used in the process of vision include: Eye Lid and Lashes: used for protection and elimination of foreign particles Extrinsic Muscles: control the movement of the eye in the oribital cavity.
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the interior of the eye has many specialized structures that allow the transmission of visual information to the Occipital Lobe of the Brain.
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a. SCLERA: is the outer white layer of the eye; attachment site of the extrinsic muscles, gives shape to the eyeball.
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b. CHOROID LAYER: inside the sclera, contains blood vessels supplying the eye with nutrients and oxygen, contains a dark pigment making the eye appear dark inside.
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c. RETINA: is the innermost layer of the eye containing photoreceptors cells. There are two types of photoreceptor cells: i) CONES: specialized for color vision and sharp detail; activated by bright light; less numerous than rods.
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ii) RODS: specialized for vision in dim light; used to discriminate between shades of grey, used to see shapes and movement.
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d. FOVEA : an area at the back of the retina which has a high concentration of cones and no rods; used for viewing fine details.
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e. Blind Spot the area at the back of the eye containing no rods or cones, the location of the optic nerve
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f. OPTIC NERVE: the nerve that carries visual information to the occipital lobe of the brain.
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g. Cornea transparent covering of the front of the eye, bends light towards the pupil. Continuous with the sclera
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h. AQUEOUS HUMOR: fluid behind the cornea, supplies the cornea with nutrients.
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I. Iris made of colored muscle that controls the size of the pupil depending on light availability; the darker it is the larger the pupil is.
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j. PUPIL: the opening into the eyeball, it is black in color because of the pigmentation in the choroid layer
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k. Lens located behind the iris, focuses the image on the retina; the shape of the lens is controlled by cilliary muscle
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l. VITREOUS HUMOR: a cloudy, jelly like material that helps maintain the shape of the eye,fill the eyeball.
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II. HOW WE SEE ? particles of light travel in various wavelengths; light enters the eye through the pupil and passes into the lens
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the lens changes shape to focus the light on the photoreceptors in the retina
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In dim light: RODS, contain a chemical called RHODOPSIN, made from a protein and Vitamin A when a light wave strikes a rod cell, the chemical rhodopsin changes form causing an action potential to occur;
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the transmission is carried through the optic nerve and to the Occipital Lobe of the Brain. The brain then interprets the information and you see.
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In bright light: Rhodopsin breaks down faster than it can be restored, creating a need for Cone Cells. there are three types of CONE cells each sensitive to a different color of light (Red, Blue and Green)
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we see different colors because of different combinations of cones that are stimulated a similar chemical reaction occurs in Cones as in Rods when light of a particular wave length strikes them.
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III. EYE REFLEXES
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1. LIGHT REFLEX: the opening and closing of the iris to accommodate different light intensities
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2. ACCOMMODATION REFLEX: changes in shape of the lens to accommodate the distance at which objects are viewed.
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distant objects; the lens becomes thinner. near objects; the lens thickens
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3. ADAPTATION REFLEX: involves the shifting of the reception of light from rods to cones or from cones to rods.
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IV. EYE DISORDERS:
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Near Sightedness : the image does not focus on the retina it focuses in front so distant objects aren’t clearly seen caused by too long of an eyeball or a lens that can’t flatten corrected by wearing a CONCAVE lens
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Far Sightedness : the image focuses behind the retina so near objects are out of focus caused by the eyeball being to short or the lens being to stiff. corrected by wearing a CONVEX Lens
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Astigmatism : caused by an uneven curvature of the cornea or lens creates blurred vision, head aches and red eyelids Corrected by wearing an irregular shaped lens
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