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Unit 1
split brain, p. 82 perception, p. 116 fovea, p. 127
consciousness, p. 87 bottom-up processing, p. 116 Young–Helmholtz trichromatic (three-
cognitive neuroscience, p. 88 top-down processing, p. 116 color) theory, p. 129
dual processing, p. 90 transduction, p. 117 opponent-process theory, p. 130
blindsight, p. 90 psychophysics, p. 117 David Hubel, p. 130
parallel processing, p. 91 Gustav Fechner, p. 117 Torsten Wiesel, p. 130
sequential processing, p. 91 absolute threshold, p. 117 feature detectors, p. 130
sleep, p. 93 signal detection theory, p. 117 parallel processing, p. 132
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circadian [ser-KAY-dee-an] rhythm, subliminal, p. 118 audition, p. 135
p. 94 priming, p. 119 frequency, p. 136
REM sleep, p. 94 difference threshold, p. 120 pitch, p. 136
alpha waves, p. 95 Ernst Weber, p. 120 middle ear, p. 137
NREM sleep, p. 95 Weber’s law, p. 120 cochlea [KOHK-lee-uh], p. 137
hallucinations, p. 96 sensory adaptation, p. 120 inner ear, p. 137
hypnagogic sensations, p. 96 wavelength, p. 124 sensorineural hearing loss, p. 138
delta waves, p. 96 hue, p. 124 conduction hearing loss, p. 138
suprachiasmatic nucleus (SCN), intensity, p. 124 cochlear implant, p. 138
p. 98 cornea, p. 124 place theory, p. 140
insomnia, p. 107 pupil, p. 124 frequency theory, p. 140
narcolepsy, p. 107 iris, p. 124 gate-control theory, p. 145
sleep apnea, p. 107 Copyright © Bedford, Freeman & Worth Publishers.
lens, p. 125
gustation, p. 148
REM sleep behavior disorder, p. 107 retina, p. 125 olfaction, p. 149
dream, p. 109 accommodation, p. 126 kinesthesis [kin-ehs-THEE-sis],
Sigmund Freud, p. 110 rods, p. 126 p. 152
REM rebound, p. 112 cones, p. 126 vestibular sense, p. 152
sensation, p. 116 optic nerve, p. 126 sensory interaction, p. 154
sensory receptors, p. 116 blind spot, p. 126 embodied cognition, p. 155
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