Abstract
The Hodgkin Huxley Model: Analysis of Dynamic Behavior of the Action Potential in the Giant Squid Axon - written by S Suresh , V Bhavani , K Gopala Krishna published on 2020/05/30 download full article with reference data and citations
Highlights
We should primarily concentrate on neurons, but it is prudent to begin this analysis at the most fundamental level: the brain
The crucial argument that Hodgkin and Huxley were able to show seemed to be that two ion forms, namely sodium (Na) and potassium ( K), would adequately clarify the electrical properties of the neurons
The Hodgkin-Huxley model is one among the biological models (Abbott & Kepler, 1990), utilizes four differential equations to live the potential of the membrane
Summary
We should primarily concentrate on neurons, but it is prudent to begin this analysis at the most fundamental level: the brain. A cell is an entity that is the smallest structural structure capable of operating independently. Neurons are a particular type of cell. These are trained primarily in sending electric signals to other neurons. The electrical impulse that brings an instruction from the brain to, for example, the hand passes along a chain of neurons [1]. The nerve cell-to-neuron signal transfer happens at the synapse, a fluid flow region between two communicative neurons. The electrical impulse of the presynaptic neurons is translated into a chemical message in the synapse and translated again into an electronic signal in the postsynaptic neurons [2][3]
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