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How We Hear Music: The Relationship Between Music and the Hearing Mechanism
Limited preview - 2003
acoustic energy acoustic event acoustic stimulus acoustic wave amplitude annular ligament apex audiogram auditory axis basal basilar membrane Bekesy biphasic cadaver cavity cilia cochlea cochlear microphonic cochlear partition CW C.CW dB SL DC potential ear canal eardrum electrical endolymph Eustachian tube external meatus fibers figure fluid column footplate frequency guinea pig hearing helicotrema incudostapedial joint incus inner ear inner hair cells intratympanic muscles kc/s latency Legouix malleus manubrium mass mechanical middle ear motion move msec organ of Corti ossicles ossicular chain outer hair cells outward movement oval window particle patients perilymph phase pinna quencies ratio reflex response round window route scala media scala tympani scala vestibuli skull sound field sound pressure sound wave stapedius stapes stapes displacement stereocilia stiffness stimulation surface Tasaki tectorial membrane tendon tensor tympani muscle threshold tion tones traveling wave tympanum umbo vibration Wever and Lawrence Wiener and Ross