1. S ENSORY O RGANS (V ISION, H EARING, AND EQUILIBRIUM ) Ears

2. How old are your ears? ASAP Scienceears Hearing TestTest Discovery: How Hearing WorksHearing Process of Hearing: Animation **Animation Organ of CortiCorti H EARING

3. 2.) Ears a. External ear (1) Auricle (a.k.a. pinna) collects sound waves (2) External auditory meatus – S shaped tube in temporal bone, approx 2.5 cm b. Middle ear (1) Tympanic cavity – air filled space in temporal bone (2) Tympanic membrane (eardrum) (a) Outer surface: thin layer of skin; inner: mucous membrane (b) Vibrates from sound waves

4. T HE E AR

5. (3) Auditory ossicles (3) (a) Hammer (malleus), anvil (incus), stirrup (stapes) (b) Bridge from the eardrum to inner ear – transmit vibrations from eardrum to fluid of inner ear (c) Stapes – transmits vibrations to fluid in oval window of inner ear, causing fluid to vibrate (d) Also amplify vibrations (large SA of eardrum to smaller SA of oval window leads to increased vibration force & pressure)

6. T HE E AR

7. (4) Eustachian tubes-connect middle ear to nasopharynx aka pharyngotympanic (auditory) tubes (a) Equalize air pressure on inside of eardrum (b) Allow bacteria & infections to travel to ear from nose are c. Inner ear-complex system of intercommunicating chambers & tubes-a.k.a. labyrinths (2) (1) Osseous labyrinth-bony canal in temporal bone (2) Membranous labyrinth-tube inside osseous labyrinth (has same shape)

9. L ABYRINTHS

10. (a) Endolymph-fluid inside membranous labyrinth (b) Perilymph-fluid between the two labyrinths (3) Parts of labyrinths (a) Cochlea-bony core & thin bony self (threads on a screw) i. Shelf divides bony labyrinth into 2 compartments: Upper: scala vestibuli (oval window leads to scala vestibuli) Lower: scala tympani (leads to round window) ii. Cochlear duct: membranous labyrinth between the scala vestibuli & scala tympani; houses the organ of Corti iii. Vestibular membrane-separates the cochlear duct from the scala vestibuli iv. Basilar membrane-separates the cochlear duct from the scala tympani

11. v. Organ of Corti [a] contains hearing receptors called hair cells [b] on upper surface of basilar membrane [c] covered by tectorial membrane [d] best frequency perception: 2-3 thousand cycles per second (cps) (b) semicircular canals-equilibrium (c) vestibule-bony chamber between cochlea & semicircular canals; for hearing & equilibrium d. Auditory nerve pathway (1) auditory nerve to temporal lobes (cochlear nerve to medulla to midbrain to thalamus to auditory cortex in temporal lobes) (2) some fibers cross over to other side (not all); so impulses are interpreted by both sides of brain

12. e. sense of equilibrium-two parts (sense of static & dynamic equilibrium) (1) static equilibrium-maintains stability of head & body when they’re motionless (a) organs of static equilibrium located in vestibule (between cochlea & semicircular canals) (b) membranous labyrinth inside vestibule expands into 2 chambers: the utricle & the saccule (c) macula-small patch of hair cells in saccule and anterior wall of utricle i. hair cells and supporting cells ii. Hair cells project into a gelatinous mass studded with otoliths (CaCO3 crystals) iii. Otoliths in mass of material increase inertia (resistance to change in motion) iv. Bending hair cells leads to sending of impulses informing brain of head’s position

13. (2) dynamic equilibrium-balance during movement (a) three semicircular canals (at right angles & in different planes) detect motion (b) Ampullae-swelling on ends of semicircular canals where they join the vestibule (c) crista ampularris-sensory organs in ampullae i. sensory cells & supportive cells ii. Hairs extend upward into gelatinous mass called the cupula iii. Respond to changes in acceleration & deceleration iv. Impulses sent to cerebellum for analysis- activate muscles to maintain balance

14. L ABYRINTHS