section 14.3 hearing and equilibrium
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Chapter 14. Section 14.3 Hearing and Equilibrium. Structure of the Ear. The Ear. The ear has two main functions: Hearing Equilibrium The ear can be divided into three sections: The outer ear The middle ear The inner ear. The Outer, Middle and Inner Ear. The Outer Ear. - PowerPoint PPT PresentationTRANSCRIPT
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Chapter 14
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The ear has two main functions:1.Hearing2.Equilibrium
The ear can be divided into three sections:
1.The outer ear 2.The middle ear3.The inner ear
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Outer ear is made up of 2 structures:
Pinna – outer part of the ear that acts as a funnel, taking sound from a large area and channelling it into a small canal.
Auditory canal – carries sound waves to the eardrum.
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Pinna
Auditory Canal
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Middle ear is made up of 3 structures:
Tympanic membrane (eardrum) – thin layer of tissue that receives sound vibrations.
Eustachian tube – air filled tube that equalizes pressure between the external and internal ear.
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Ossicles – tiny bones that amplify and carry sound in the middle ear.
3 bones:1.Malleus (the hammer)2.Incus (the anvil)3.Stapes (the stirrup)
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Tympanic Membrane(Eardrum)
Ossicles
EustachianTube
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Inner ear is made of 3 structures:
Vestibule – chamber found at the base of the semicircular canals that provides information about static equilibrium.
Static equilibrium – sense that interprets head position.
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Semicircular canals – fluid filled structures that provide information about dynamic equilibrium.
Dynamic equilibrium – sense that interprets balance.
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Cochlea – coiled structure that responds to various sound waves and converts them to nerve impulses.
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Vestibule
Cochlea
Semicircular Canals
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The pinna collects the sound waves from environment and channels them into the auditory canal.
The auditory canal is lined with specialized sweat glands that produce ear wax, that traps foreign particles and prevents them from entering the ear.
The sound waves reach the tympanic membrane (eardrum) and cause it to vibrate.
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The vibrations are passed on to the three ossicles: first the malleus, then the incus and finally the stapes.
The bones amplify the vibrations.
The oval window, a oval shaped hole in the vestibule, receives the vibrations next.
The oval window is pushed inward, and the round window (below oval window) moves outward.
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This triggers waves of fluid within the inner ear.
The cochlea receives these fluid waves and converts them to electrical nerve impulses, which we interpret as sound.
The hearing apparatus within the cochlea is known as the organ of Corti and is made of rows of specialized hair cells.
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The basilar membrane anchors the hair cells in the organ of Corti.
The hair cells respond to vibrations and begin to move.
The movement of the hair cells stimulates sensory nerves in the basilar membrane and the nerve impulse is sent to the temporal lobe of the cerebrum by way of the auditory nerve.
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Basilar membrane is narrow and stiff near the oval window.
Further along in the cochlea the basilar membrane is wide and flexible.
High frequency sounds activate the narrowest area.
Low frequency sounds activate the wider area.
This allows us to hear different pitches.