Using Eq. 13.1 and the data in Table 13.1, calculate the number of ions entering the axon during the action potential, per meter of nonmyelinated axon length. (The charge on the ion is 1,6 x 10-19 coulomb.)
Using Eq. 13.1 and the data in Table 13.1, calculate the number of ions entering the axon during the action potential, per meter of nonmyelinated axon length. (The charge on the ion is 1,6 x 10-19 coulomb.)
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Chapter1: Units, Trigonometry. And Vectors
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Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Equation : delta Q = C×deltaV
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FIGURE 13.7 ► The axon represented as an electrical cable.
TABLE 13.1 ► Properties of Sample Axons
Property
Nonmyelinated axon Myelinated axon
5 x 10-6 m
5 x 10-6 m
6.37 x 10°2/m
Axon radius
6.37x 10°2/m
Resistance per unit length of fluid
both inside and outside axon (r)
1.25 × 10-4 mho/m
3 x 10-7 mho/m
Conductivity per unit length of axon
membrane (gm)
Capacitance per unit length of axon (c) 3 x 10-7 F/m
8 × 10-10 F/m
9
00
F10
F5
111
F4
81
93
Transcribed Image Text:5:46 & O
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Using Eq. 13.1 and the data in Table 13.1, calculate the number of ions entering
the axon during the action potential, per meter of nonmyelinated axon length.
(The charge on the ion is 1,6 x 10-19 coulomb.)
L
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