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Lecture
Action Potentials: Mechanisms and Propagation
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Neural Cell Membrane Dynamics
Explores neural cell membrane dynamics, including ion channels, action potentials, myelination, and bioelectronic interfaces.
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Explores the modeling of neuron electrical activity, including ion channels and concentrations, Nernst equation, and resting potential.
Action Potentials and Electrical Excitability
Explores the generation and propagation of action potentials in neurons, including the historical significance of Hodgkin & Huxley's work.
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Discusses resting membrane potential, ion channels, and the Na+/K+ pump.
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Explores the physical basis of signal propagation in neurons, focusing on membrane potential setup and ion channels.
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Explores the biophysical understanding of neuronal electrical behavior, including challenges in modeling neurons, the generation of action potentials, and the impact of dendritic structure on firing patterns.
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Covers modern neuroscience synthesis, biophysical modeling, and brain building blocks with practical applications.
Membrane Potential: Electrical Properties of Neurons
Covers membrane potential, its measurement, and the equations governing ionic movement in neurons.
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Explores the biophysical understanding of neuronal behavior, focusing on action potentials, neuron modeling challenges, and dendritic inhibition.
Hodgkin-Huxley Model: Neuronal Excitability
Explores the Hodgkin-Huxley model, action potential phases, ion dynamics, cable theory, and compartmental modeling in neuronal excitability.
