Figure 48.17 Functional hierarchy of the peripheral nervous system

1
Figure 48.17 Functional hierarchy of the
peripheral nervous system
2
Figure 48.2 Structure of a vertebrate neuron
3
Figure 48.4 Structural diversity of neurons
4
Figure 48.5 Schwann cells
5
Figure 48.1 Overview of a vertebrate nervous
system
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Figure 48.3 The knee-jerk reflex
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Figure 48.6 Measuring membrane potentials
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Figure 48.7 The basis of the membrane potential
9
Figure 48.8 Graded potentials and the action
potential in a neuron
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Figure 48.9 The role of voltage-gated ion
channels in the action potential (Layer 1)
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Figure 48.9 The role of voltage-gated ion
channels in the action potential (Layer 2)
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Figure 48.9 The role of voltage-gated ion
channels in the action potential (Layer 3)
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Figure 48.9 The role of voltage-gated ion
channels in the action potential (Layer 4)
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Figure 48.9 The role of voltage-gated ion
channels in the action potential (Layer 5)
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Figure 48.10 Propagation of the action potential
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Figure 48.11 Saltatory conduction
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Figure 48.12 A chemical synapse
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Figure 48.13 Integration of multiple synaptic
inputs
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Figure 48.14 Summation of postsynaptic potentials
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Table 48.1 The Major Known Neurotransmitters
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Figure 48.15 Diversity in nervous systems
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Figure 48.16 The nervous system of a vertebrate
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Figure 48.16x Spinal cord
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Figure 48.18 The main roles of the
parasympathetic and sympathetic nerves in
regulating internal body functions
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Figure 48.20x1 Cerebral cortex, gray and white
matter
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Figure 48.19 Embryonic development of the brain
27
Figure 48.20 The main parts of the human brain
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Figure 48.20x2 Cerebral cortex
29
Figure 48.24 Structure and functional areas of
the cerebrum
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Figure 48.26 Mapping language areas of the
cerebral cortex
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Figure 48.25 Primary motor and somatosensory
areas of the human cerebral cortex
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Figure 48.27 The limbic system
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Figure 48.21 The reticular formation
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Fugure 48.22a Electroencephalogram (EEG)
electrodes
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Figure 48.22b-d Brain waves recorded by an
electroencephalogram (EEG)
36
Figure 48.23 Activity rhythms in a nocturnal
mammal, the northern flying squirrel
37
Figure 48.28 How do developing axons know which
way to go?
38
Figure 48.28x1 Brain MRI
39
Figure 48.29 Neural progenitor cell
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Figure 48.0x1 Aplysia neuron
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Figure 48.0x2 Frog neuron
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Figure 48.2x Neurons
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Figure 48.0 A neuron on a microprocessor