This preview shows pages 1–2. Sign up to view the full content.
This preview has intentionally blurred sections. Sign up to view the full version.View Full Document
Unformatted text preview: Recording electrode 1 (e1) Recording electrode 2 (e2) Stimulating electrode 1 Spike initiation zone (SIZ) Action Potential Module III.A.1. Experimentally simplifying the question. What you will learn in this module 1. You will learn that although passive electrical properties are important for neural integration, they are not adequate to carry neural information over long distances. 2. You will learn what an action potential is. 3. You will learn the mechanisms behind action potential generation. 4. You will learn about the importance of channels in neural signaling and that the conformation of channels can be changed by influences such as the voltage across the cell membrane, ionic concentrations, and time. 5. You will once again see the importance of the chemical and electrical forces in neural signaling as these forms of stored energy are released during the action potential. 6. You will learn that the stored energy released during action potentials will allow neural signals to travel far reaching distances with little attenuation. III...
View Full Document
This note was uploaded on 11/16/2011 for the course NPB NPB 100 taught by Professor Campbell during the Spring '10 term at UC Davis.
- Spring '10