nanoHUB-U Bioelectricity L3.4: Biological Conductors - Derivation of the Cable Model
nanoHUB-U Bioelectricity L4.3: Hodgkin-Huxley Model - Derivation of the Hodgkin-Huxley Equation
nanoHUB-U Bioelectricity L3.1: Biological Conductors - Electrical Variables in Cells
nanoHUB-U Introduction to Bioelectricity: Scientific Overview
nanoHUB-U Bioelectricity L3.3: Biological Conductors - Observations from Action Potentials
nanoHUB-U Bioelectricity L1.3: The Nervous System - Electrical Signals in Cells
nanoHUB-U Bioelectricity L3.2: Biological Conductors - Core Conductor Model
nanoHUB-U Bioelectricity L3.5: Biological Conductors - Time-dependent Solutions
nanoHUB-U Bioelectricity L4.1: Hodgkin-Huxley Model - Alan Hodgkin and Andrew Huxley
nanoHUB-U Bioelectricity L2.5: Chemical Basis - Neurotransmitters and Pathology
nanoHUB-U Bioelectricity L5.4: Applications of Bioelectricity - Targeted Muscle Reinnervation
nanoHUB-U Bioelectricity L4.2: Hodgkin-Huxley Model - Ionic Conductances
nanoHUB-U Bioelectricity L2.1: Chemical Basis - TIC & DOC
Introduction to Bioelectricity | PurdueX on edX | Course About Video
nanoHUB-U Bioelectricity L4.4: Hodgkin-Huxley Model - Insights from Hodgkin-Huxley
nanoHUB-U Bioelectricity L4.5: Hodgkin-Huxley Model - Further Insights from Hodgkin-Huxley
nanoHUB-U Bioelectricity L5.2: Applications of Bioelectricity - Epilepsy
nanoHUB-U Biodesign L1.1: Introduction - Cells by the Numbers
nanoHUB-U Bioelectricity L2.2: Chemical Basis - Time & Space in Propagating Signals
