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nanoHUB-U Bioelectricity L4.5: Hodgkin-Huxley Model - Further Insights from Hodgkin-Huxley





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Published on Mar 10, 2014

Table of Contents:
00:09 Lecture 4.5: Further insights from Hodgkin-Huxley
00:17 Week 4: The Hodgkin-Huxley model
01:00 We can make predictions
01:11 5th prediction: anode-break excitation
02:24 5th prediction: anode-break excitation
02:31 5th prediction: anode-break excitation
03:07 5th prediction: anode-break excitation
06:08 6th prediction: frequency coding
08:44 6th prediction: frequency coding
10:34 7th prediction: subthreshold oscillations
11:27 7th prediction: subthreshold oscillations
11:58 7th prediction: subthreshold oscillations
13:29 8th prediction: temperature dependence
15:01 8th prediction: temperature dependence
15:47 8th prediction: temperature dependence

This video is part of the nanoHUB-U course "Introduction to Bioelectricity." (

This course introduces students to The fundamentals of bioelectricity of the mammalian nervous system. Passive and active forms of electric signaling in both intra and inter-cellular communication at the atomic, molecular, and engineered device level. Mathematical analysis including the Nernst equation, core conductors, cable theory, and the Hodgkin-Huxley Model of the action potential. Neuromodulation with nano-engineered sensors and actuators.


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