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Simple Neuron Model - the HH neuron



Flash EOL


Flash content link: https://vlab.amrita.edu/repo/BIOTECH/NEO/NEURONAL/index.swf




Flash content link: https://vlab.amrita.edu/repo/BIOTECH/NEO/NEURONAL/index.swf

Simulation link: https://vlab.amrita.edu/repo/BIOTECH/NEO/Neuron_simulator/Neuron_Sim3.swf


Unfortunately, this Virtual Lab requires Adobe Flash player.  Please see additional information if this does not work on your computer

• For Google Chrome - https://support.google.com/chrome/answer/6258784?co=GENIE.Platform%3DDesktop&hl=en

• For Microsoft Edge - https://support.microsoft.com/en-in/help/4532571/microsoft-edge-turn-on-flash 

• For Mozilla Firefox - https://support.mozilla.org/en-US/kb/install-flash-plugin-view-videos-animations-games


On GNU/Linux machines, please see appropriate online help. For example, 

on Ubuntu - https://help.ubuntu.com/stable/ubuntu-help/net-install-flash.html.en 

on Fedora - https://docs.fedoraproject.org/en-US/quick-docs/using-adobe-flash/


  1.  Animation:

The animation controls include - fullscreen view, - return to previous scene, pause, play and next scene buttons.


  1. Simulator:

           Click on the “Simulator icon” to launch the simulator.


Making the Hodgkin-Huxley Neuron Spike:


Detailed simulator has been implemented as a separate lab (Neuron Simulator Lab). The Neuron simulator lab uses a graphical web-based Neuron simulator and models a section of excitable neuronal membrane using the Hodgkin-Huxley equations. Various experiments will deal with the several parameters of Hodgkin-Huxley equations and will model resting and action potentials, voltage and current clamp, pharmacological effects of drugs that block specific channels etc.


For detailed understanding please click on the respective hyperlinks provided below.


1) Modeling Resting Potential


2) Modeling Action Potential



Cite this Simulator:

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