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T F Weiss

Showing results (1-10 of 37) with videos related to

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Hearing Research|August 1, 1982
Bidirectional transduction in vertebrate hair cells: a mechanism for coupling mechanical and electrical processesT F Weiss
Annual Review of Physiology|January 1, 1984
Relation of receptor potentials of cochlear hair cells to spike discharges of cochlear neuronsT F Weiss
Hearing Research|May 1, 1988
Frequency dependence of synchronization of cochlear nerve fibers in the alligator lizard: evidence for a cochlear origin of timing and non-timing neural pathwaysC Rose, T F Weiss
Hearing Research|May 1, 1988
A comparison of synchronization filters in different auditory receptor organsT F Weiss, C Rose
The Journal of Physiology|December 1, 1983
Receptor potentials of lizard cochlear hair cells with free-standing stereocilia in response to tonesT Holton, T F Weiss
Hearing Research|January 1, 1985
A model for signal transmission in an ear having hair cells with free-standing stereocilia. III. Micromechanical stageT F Weiss, R Leong
Hearing Research|January 1, 1985
A model for signal transmission in an ear having hair cells with free-standing stereocilia. IV. Mechanoelectric transduction stageT F Weiss, R Leong
The Journal of Physiology|December 1, 1983
Frequency selectivity of hair cells and nerve fibres in the alligator lizard cochleaT Holton, T F Weiss
Brain Research|December 22, 1978
Two-tone rate suppression in lizard cochlear nerve fibers, relation to receptor organ morphologyT Holton, T F Weiss
Hearing Research|May 1, 1988
Stages of degradation of timing information in the cochlea: a comparison of hair-cell and nerve-fiber responses in the alligator lizardT F Weiss, C Rose
Pageof 4

Showing results (1-10 of 37) with videos related to

Sort By:
Pageof 4
Hearing Research|August 1, 1982
Bidirectional transduction in vertebrate hair cells: a mechanism for coupling mechanical and electrical processesT F Weiss
Annual Review of Physiology|January 1, 1984
Relation of receptor potentials of cochlear hair cells to spike discharges of cochlear neuronsT F Weiss
Hearing Research|May 1, 1988
Frequency dependence of synchronization of cochlear nerve fibers in the alligator lizard: evidence for a cochlear origin of timing and non-timing neural pathwaysC Rose, T F Weiss
Hearing Research|May 1, 1988
A comparison of synchronization filters in different auditory receptor organsT F Weiss, C Rose
The Journal of Physiology|December 1, 1983
Receptor potentials of lizard cochlear hair cells with free-standing stereocilia in response to tonesT Holton, T F Weiss
Hearing Research|January 1, 1985
A model for signal transmission in an ear having hair cells with free-standing stereocilia. III. Micromechanical stageT F Weiss, R Leong
Hearing Research|January 1, 1985
A model for signal transmission in an ear having hair cells with free-standing stereocilia. IV. Mechanoelectric transduction stageT F Weiss, R Leong
The Journal of Physiology|December 1, 1983
Frequency selectivity of hair cells and nerve fibres in the alligator lizard cochleaT Holton, T F Weiss
Brain Research|December 22, 1978
Two-tone rate suppression in lizard cochlear nerve fibers, relation to receptor organ morphologyT Holton, T F Weiss
Hearing Research|May 1, 1988
Stages of degradation of timing information in the cochlea: a comparison of hair-cell and nerve-fiber responses in the alligator lizardT F Weiss, C Rose
Pageof 4