Calculate the resistance and attenuation factors of an unmyelinated axon and a myelinated axon. The length of each is 1 mm and the axon radius is 5 um. The resistivity of an unmyelinated axon (UA), ρUA is 0.20 Ω·m2 , while that of the myelinated axon (MA), ρMA, is 40 Ω·m2 . Describe the challenges for nerve signal conduction along long distances and explain how the mechanism of Saltatory Conduction, overcomes this.
Calculate the resistance and attenuation factors of an unmyelinated axon and a myelinated axon. The length of each is 1 mm and the axon radius is 5 um. The resistivity of an unmyelinated axon (UA), ρUA is 0.20 Ω·m2 , while that of the myelinated axon (MA), ρMA, is 40 Ω·m2 . Describe the challenges for nerve signal conduction along long distances and explain how the mechanism of Saltatory Conduction, overcomes this.
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Calculate the resistance and attenuation factors of an unmyelinated axon and
a myelinated axon. The length of each is 1 mm and the axon radius is 5 um.
The resistivity of an unmyelinated axon (UA), ρUA is 0.20 Ω·m2
, while that of the
myelinated axon (MA), ρMA, is 40 Ω·m2
. Describe the challenges for nerve signal
conduction along long distances and explain how the
Conduction, overcomes this.
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