basilar membrane การใช้

• These changes influence the response of the basilar membrane to sound.
• The CM is proportional to the displacement of the basilar membrane.
• For the organ of Corti the basilar membrane is permeable to perilymph.
• The tuning of the basilar membrane is due to its mechanical structure.
• This tone burst would stimulate the corresponding area on the basilar membrane.
• Therefore, when the basilar membrane moves due to vibrations, the stereocilia bend.
• He could measure vibrations along the basilar membrane in response to different excitations frequencies.
• The pattern of voltages along the basilar membrane can be viewed on an oscilloscope.
• Therefore, each position along the basilar membrane is finely tuned to a particular frequency.
• Voltages across capacitances represent basilar membrane displacements.
• The basilar membrane within the cochlea contains the first of these specializations for echo information processing.
• The fine tuning of the basilar membrane is created by the input of two separate mechanisms.
• When the basilar membrane moves downward, the hair bundles are driven in the inhibitory direction.
• The mechanical force that is generated by these mechanisms increases the movement of the basilar membrane.
• Amplification to these sounds is therefore required, in order for the basilar membrane to respond efficiently.
• Neural signals responding to motions of the basilar membrane show responses in one direction as in rectification.
• The basilar membrane and the hair cells of the cochlea function as a sharply tuned frequency analyzer.
• This then compresses the scala vestibule into the basilar membrane in the direction toward the scala tympani.
• The basilar membrane separates the cochlear duct from the scala tympani, a cavity within the cochlear labyrinth.
• It is thought that each ERB is the equivalent of around 0.9mm on the basilar membrane.