k Anatomy of the human ear, illustration Anatomy of the human ear, illustration. Sound waves are collected by the ear pinna at left and pass down the auditory canal to strike the eardrum. Vibrations are transmitted via three tiny ear bones inset malleus or hammer, incus or anvil, and stapes or stirrup into fluidfilled structures of the inner ear blue. Three coils of the semicircular canals detect balance and body orientation. In the cochlea spiral, tiny hair cells are sensitive to vibrations of the cochlear fluid and these activate nerves which connect to the brain. Thus, a sense of hearing results from the conduction of sound waves through air, bone and fluid in the ear., by SCIENCE PHOTO LIBRARY Stock Photo - Afloimages
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Anatomy of the human ear, illustration Anatomy of the human ear, illustration. Sound waves are collected by the ear pinna at left and pass down the auditory canal to strike the eardrum. Vibrations are transmitted via three tiny ear bones inset: malleus or hammer, incus or anvil, and stapes or stirrup into fluid filled structures of the inner ear blue . Three coils of the semi circular canals detect balance and body orientation. In the cochlea spiral , tiny hair cells are sensitive to vibrations of the cochlear fluid and these activate nerves which connect to the brain. Thus, a sense of hearing results from the conduction of sound waves through air, bone and fluid in the ear., by SCIENCE PHOTO LIBRARY
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Anatomy of the human ear, illustration

Anatomy of the human ear, illustration. Sound waves are collected by the ear pinna (at left) and pass down the auditory canal to strike the eardrum. Vibrations are transmitted via three tiny ear bones (inset: malleus or hammer, incus or anvil, and stapes or stirrup) into fluid-filled structures of the inner ear (blue). Three coils of the semi-circular canals detect balance and body orientation. In the cochlea (spiral), tiny hair cells are sensitive to vibrations of the cochlear fluid and these activate nerves which connect to the brain. Thus, a sense of hearing results from the conduction of sound waves through air, bone and fluid in the ear., by SCIENCE PHOTO LIBRARY

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