1. Figure 13.1 The periodic condensation and rarefaction of air molecules produced by a tuning fork
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2. Figure 13.2 A sine wave and its projection as circular motion
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3. Box 13B Music
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4. Figure The human ear
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5. Box 13C Sensorineural Hearing Loss and Cochlear Implants
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6. Figure The cochlea
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7. Figure 13.4 The cochlea (Part 1)
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8. Figure 13.4 The cochlea (Part 2)
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9. Figure 13.4 The cochlea (Part 3)
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10. Figure 13.5 Traveling waves along the cochlea
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11. Figure 13.5 Traveling waves along the cochlea (Part 1)
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12. Figure 13.5 Traveling waves along the cochlea (Part 2)
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13. Figure 13.6 Vertical movement of the basilar membrane bends the stereocilia of the hair cells
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14. Figure 13.6 Vertical movement of the basilar membrane bends the stereocilia of hair cells (Part 1)
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15. Figure 13.6 Vertical movement of the basilar membrane bends the stereocilia of hair cells (Part 2)
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16. Figure 13.7 The hair bundle in cochlear and vestibular hair cells
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17. Figure 13.8 Mechanoelectrical transduction mediated by hair cells
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18. Figure 13.9 Mechanoelectrical transduction mediated by vestibular hair cells
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19. Figure 13.9 Mechanoelectrical transduction mediated by vestibular hair cells (Part 1)
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20. Figure 13.9 Mechanoelectrical transduction mediated by vestibular hair cells (Part 2)
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21. Figure 13.9 Mechanoelectrical transduction mediated by vestibular hair cells (Part 3)
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22. Figure 13.10 Depolarization and repolarization of hair cells is mediated by K+
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23. Figure 13.11 Response properties of auditory nerve fibers
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24. Figure 13.11 Response properties of auditory nerve fibers (Part 1)
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25. Figure 13.11 Response properties of auditory nerve fibers (Part 2)
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26. Figure 13.11 Response properties of auditory nerve fibers (Part 3)
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27. Figure 13.12 The major auditory pathways
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28. Figure 13.12 The major auditory pathways (Part 1)
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29. Figure 13.12 The major auditory pathways (Part 2)
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30. Figure 13.13 How the MSO computes the location of a sound by interaural time differences
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31. Figure 13.13 How the MSO computes the location of a sound by interaural time differences
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32. Figure 13.14 LSO neurons encode sound location through interaural intensity differences
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33. Figure 13.14 LSO neurons encode sound location through interaural intensity differences (Part 1)
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34. Figure 13.14 LSO neurons encode sound location through interaural intensity differences (Part 2)
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35. Figure 13.15 The human auditory cortex
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36. Figure 13.15 The human auditory cortex (Part 1)
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37. Figure 13.15 The human auditory cortex (Part 2)
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38. Box 13E(1) Representing Complex Sounds in the Brains of Bats and Humans
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39. Box 13E(2) Representing Complex Sounds in the Brains of Bats and Humans
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40. Box 13E(2) Representing Complex Sounds in the Brains of Bats and Humans (Part 1)
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41. Box 13E(2) Representing Complex Sounds in the Brains of Bats and Humans (Part 2)
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