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Unit 1 Opener neuro4e-unit-01-opener.jpg.

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Presentation on theme: "Unit 1 Opener neuro4e-unit-01-opener.jpg."— Presentation transcript:

1 Unit 1 Opener neuro4e-unit-01-opener.jpg

2 Figure 2.1 Types of neuronal electrical signals
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3 Figure 2.1 Types of neuronal electrical signals (Part 1)
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4 Figure 2.1 Types of neuronal electrical signals (Part 2)
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5 Figure 2.1 Types of neuronal electrical signals (Part 3)
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6 Figure 2.2 Recording passive and active electrical signals in a nerve cell
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7 Figure 2.2 Recording passive and active electrical signals in a nerve cell (Part 1)
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8 Figure 2.2 Recording passive and active electrical signals in a nerve cell (Part 2)
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9 Figure 2.3 Transporters and channels move ions across neuronal membranes
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10 Figure 2.3 Transporters and channels move ions across neuronal membranes
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11 Figure 2.4 Electrochemical equilibrium
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12 Figure 2.4 Electrochemical equilibrium (Part 1)
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13 Figure 2.4 Electrochemical equilibrium (Part 2)
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14 Figure 2.5 Membrane potential influences ion fluxes
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15 Figure 2.5 Membrane potential influences ion fluxes (Part 1)
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16 Figure 2.5 Membrane potential influences ion fluxes (Part 2)
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17 Figure 2.6 Resting and action potentials arise from differential permeability to ions
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18 Figure 2.7 Resting membrane potential is determined by the K+ concentration gradient
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19 Figure 2.7 Resting membrane potential is determined by the K+ concentration gradient (Part 1)
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20 Figure 2.7 Resting membrane potential is determined by the K+ concentration gradient (Part 2)
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21 Box 2A The Remarkable Giant Nerve Cells of Squid
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22 Figure 2.8 The role of Na+ in the generation of an action potential in a squid giant axon
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23 Figure 2.8 The role of Na+ in the generation of an action potential in a squid giant axon (Part 1)
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24 Figure 2.8 The role of Na+ in the generation of an action potential in a squid giant axon (Part 2)
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25 Box 2B Action Potential Form and Nomenclature
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26 neuro4e-table jpg

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