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Figure 13.1 The periodic condensation and rarefaction of air molecules produced by a tuning fork

Figure 13.1 The periodic condensation and rarefaction of air molecules produced by a tuning fork. Figure 13.2 A sine wave and its projection as circular motion. Box 13B Music. Figure 13.3 The human ear. Box 13C Sensorineural Hearing Loss and Cochlear Implants. Figure 13.4 The cochlea.

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Figure 13.1 The periodic condensation and rarefaction of air molecules produced by a tuning fork

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  1. Figure 13.1 The periodic condensation and rarefaction of air molecules produced by a tuning fork

  2. Figure 13.2 A sine wave and its projection as circular motion

  3. Box 13B Music

  4. Figure 13.3 The human ear

  5. Box 13C Sensorineural Hearing Loss and Cochlear Implants

  6. Figure 13.4 The cochlea

  7. Figure 13.4 The cochlea (Part 1)

  8. Figure 13.4 The cochlea (Part 2)

  9. Figure 13.4 The cochlea (Part 3)

  10. Figure 13.5 Traveling waves along the cochlea

  11. Figure 13.5 Traveling waves along the cochlea (Part 1)

  12. Figure 13.5 Traveling waves along the cochlea (Part 2)

  13. Figure 13.6 Vertical movement of the basilar membrane bends the stereocilia of the hair cells

  14. Figure 13.6 Vertical movement of the basilar membrane bends the stereocilia of hair cells (Part 1)

  15. Figure 13.6 Vertical movement of the basilar membrane bends the stereocilia of hair cells (Part 2)

  16. Figure 13.7 The hair bundle in cochlear and vestibular hair cells

  17. Figure 13.8 Mechanoelectrical transduction mediated by hair cells

  18. Figure 13.9 Mechanoelectrical transduction mediated by vestibular hair cells

  19. Figure 13.9 Mechanoelectrical transduction mediated by vestibular hair cells (Part 1)

  20. Figure 13.9 Mechanoelectrical transduction mediated by vestibular hair cells (Part 2)

  21. Figure 13.9 Mechanoelectrical transduction mediated by vestibular hair cells (Part 3)

  22. Figure 13.10 Depolarization and repolarization of hair cells is mediated by K+

  23. Figure 13.11 Response properties of auditory nerve fibers

  24. Figure 13.11 Response properties of auditory nerve fibers (Part 1)

  25. Figure 13.11 Response properties of auditory nerve fibers (Part 2)

  26. Figure 13.11 Response properties of auditory nerve fibers (Part 3)

  27. Figure 13.12 The major auditory pathways

  28. Figure 13.12 The major auditory pathways (Part 1)

  29. Figure 13.12 The major auditory pathways (Part 2)

  30. Figure 13.13 How the MSO computes the location of a sound by interaural time differences

  31. Figure 13.13 How the MSO computes the location of a sound by interaural time differences

  32. Figure 13.14 LSO neurons encode sound location through interaural intensity differences

  33. Figure 13.14 LSO neurons encode sound location through interaural intensity differences (Part 1)

  34. Figure 13.14 LSO neurons encode sound location through interaural intensity differences (Part 2)

  35. Figure 13.15 The human auditory cortex

  36. Figure 13.15 The human auditory cortex (Part 1)

  37. Figure 13.15 The human auditory cortex (Part 2)

  38. Box 13E(1) Representing Complex Sounds in the Brains of Bats and Humans

  39. Box 13E(2) Representing Complex Sounds in the Brains of Bats and Humans

  40. Box 13E(2) Representing Complex Sounds in the Brains of Bats and Humans (Part 1)

  41. Box 13E(2) Representing Complex Sounds in the Brains of Bats and Humans (Part 2)

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