![Electrophysiology / Cellular neuroscience / Action potential / Neural coding / Morris–Lecar model / Membrane potential / Cable theory / Biology / Neuroscience / Computational neuroscience Electrophysiology / Cellular neuroscience / Action potential / Neural coding / Morris–Lecar model / Membrane potential / Cable theory / Biology / Neuroscience / Computational neuroscience](https://www.pdfsearch.io/img/8dce2c38852a39820f291cda9cb12c9c.jpg) Date: 2010-10-24 07:46:19Electrophysiology Cellular neuroscience Action potential Neural coding Morris–Lecar model Membrane potential Cable theory Biology Neuroscience Computational neuroscience | | 18 Exercises Chapter 6 1. Build a Connor-Stevens model neuron by numerically integrating the equations for V, m, h, n, a, and b given in chapter 6 (see, in particular,Add to Reading ListSource URL: www.gatsby.ucl.ac.ukDownload Document from Source Website File Size: 39,41 KBShare Document on Facebook
|