'70 mv' diaporamas de présentation

Unit V ELECTROPHYSIOLOGY

Biology 220 Anatomy & Physiology I. Unit V ELECTROPHYSIOLOGY. Chapter 11 pp. 396-424. E. Gorski/ E. Lathrop-Davis/ S. Kabrhel. Plasma Membrane. Membrane potential = electrical voltage difference across plasma membrane of cell

837 views • 61 slides

Unit V ELECTROPHYSIOLOGY

Biology 220 Anatomy & Physiology I. Unit V ELECTROPHYSIOLOGY. Chapter 11 pp. 396-424. E. Gorski/ E. Lathrop-Davis/ S. Kabrhel. Plasma Membrane. Membrane potential = electrical voltage difference across plasma membrane of cell

647 views • 61 slides

Chapter 3

Chapter 3. Neural Control of Exercising Muscle. Chapter 3 Overview. Overview of nervous system Structure and function of nervous system Central nervous system Peripheral nervous system Sensory-motor integration Motor response. Major Divisions of the Nervous System.

703 views • 52 slides

Chapter 3

Chapter 3. Neural Control of Exercising Muscle. Chapter 3 Overview. Overview of nervous system Structure and function of nervous system Central nervous system Peripheral nervous system Sensory-motor integration Motor response. Major Divisions of the Nervous System.

512 views • 51 slides

599 views • 48 slides

Nernst Equation

Nernst Equation. E ion = - RT ln [ion] i P = nRT zF [ion] o V E ion = equilibrium potential for that ion = Nernst potential R = universal gas constant T = absolute temperature z = the valence of the ion (e.g. +1 for K + and Na + ) F = the faraday

4.91k views • 12 slides

10 mV

151 views • 3 slides

-100 mV

Supplemental Figure 2. 20 mV. -70 mV. -100 mV.

104 views • 1 slides

Why study K ATP channels?

sulfonylureas. Why study K ATP channels?. Low glucose. High glucose. Low glucose. -70 mV. 1 min.

87 views • 1 slides