1. Photo, p. 476 Ranulfo Romo

2. Figure 23.1 Vibration Discrimination Task and Performance

3. Figure 23.1 Vibration Discrimination Task and Performance (Part 1)

4. Figure 23.1 Vibration Discrimination Task and Performance (Part 2)

5. Figure 23.2 Neuronal Coding of Vibration Frequency in Primary Somatosensory Cortex (SI)

6. Figure 23.2 Neuronal Coding of Vibration Frequency in Primary Somatosensory Cortex (SI) (Part 1)

7. Figure 23.2 Neuronal Coding of Vibration Frequency in Primary Somatosensory Cortex (SI) (Part 2)

8. Figure 23.3 Replacement of Vibrations by Artificial Stimuli

9. Figure 23.3 Replacement of Vibrations by Artificial Stimuli (Part 1)

10. Figure 23.3 Replacement of Vibrations by Artificial Stimuli (Part 2)

11. Figure 23.3 Replacement of Vibrations by Artificial Stimuli (Part 3)

12. Figure 23.4 Neuronal Activity in SI Cortex Characterized by Firing-Rate Coefficients a 1 and a 2

13. Figure 23.5 Cortical Regions Involved in the Vibration Comparison Task

14. Figure 23.6 Neuronal Activity beyond SI Characterized by Firing Rate Coefficients a 1 and a 2

15. Figure 23.6 Neuronal Activity beyond SI Characterized by Firing Rate Coefficients a 1 and a 2 (Part 1)

16. Figure 23.6 Neuronal Activity beyond SI Characterized by Firing Rate Coefficients a 1 and a 2 (Part 2)

17. Figure 23.7 Time Course of Response Parameters throughout the Trial Period

18. Figure 23.7 Time Course of Response Parameters throughout the Trial Period (Part 1)

19. Figure 23.7 Time Course of Response Parameters throughout the Trial Period (Part 2)

20. Figure 23.8 Ventral Intracortical Visual Pathways

21. Figure 23.9 Face-Selective Neurons in Temporal Lobe

22. BOX 23.1 Functional Magnetic Resonance Imaging Brain Activity as Revealed by Averaging fMRI Scans across a Group of 20 Subjects

23. Figure 23.10 Brain Activation Directly Correlated with Face Perception

24. Figure 23.11 Responses of Macaque Monkey Inferotemporal Neurons to Changes in Viewing Angle and Stimulus Size

25. Figure 23.11 Responses of Macaque Monkey Inferotemporal Neurons to Changes in Viewing Angle and Stimulus Size (Part 1)

26. Figure 23.11 Responses of Macaque Monkey Inferotemporal Neurons to Changes in Viewing Angle and Stimulus Size (Part 2)

27. Figure 23.11 Responses of Macaque Monkey Inferotemporal Neurons to Changes in Viewing Angle and Stimulus Size (Part 3)

28. Figure 23.12 Schematic Organization of M, P, and K Channels to Visual Cortex

29. Figure 23.12 Schematic Organization of M, P, and K Channels to Visual Cortex (Part 1)

30. Figure 23.12 Schematic Organization of M, P, and K Channels to Visual Cortex (Part 2)

31. Figure 23.13 Involvement of MT in Tracking Visual Motion

32. Figure 23.14 The Direction of Eye Movements Can Be Altered by Electrical Stimulation in Area MT

33. Figure 23.14 The Direction of Eye Movements Can Be Altered by Electrical Stimulation in Area MT (Part 1)

34. Figure 23.14 The Direction of Eye Movements Can Be Altered by Electrical Stimulation in Area MT (Part 2)

35. Figure 23.15 Area MT Microstimulation Affects a Working Memory Task

36. Figure 23.15 Area MT Microstimulation Affects a Working Memory Task (Part 1)

37. Figure 23.15 Area MT Microstimulation Affects a Working Memory Task (Part 2)

38. Figure 23.16 Neuronal Representation of a Concept in Human Hippocampus

39. Figure 23.16 Neuronal Representation of a Concept in Human Hippocampus (Part 1)

40. Figure 23.16 Neuronal Representation of a Concept in Human Hippocampus (Part 2)