Presentation is loading. Please wait.

Presentation is loading. Please wait.

Unit 1 Opener neuro4e-unit-01-opener.jpg.

Published byRoland Pope Modified over 9 years ago

Similar presentations

Presentation on theme: "Unit 1 Opener neuro4e-unit-01-opener.jpg."— Presentation transcript:

1 Unit 1 Opener neuro4e-unit-01-opener.jpg

2 Figure 2.1 Types of neuronal electrical signals
neuro4e-fig jpg

3 Figure 2.1 Types of neuronal electrical signals (Part 1)
neuro4e-fig r.jpg

4 Figure 2.1 Types of neuronal electrical signals (Part 2)
neuro4e-fig r.jpg

5 Figure 2.1 Types of neuronal electrical signals (Part 3)
neuro4e-fig r.jpg

6 Figure 2.2 Recording passive and active electrical signals in a nerve cell
neuro4e-fig jpg

7 Figure 2.2 Recording passive and active electrical signals in a nerve cell (Part 1)
neuro4e-fig r.jpg

8 Figure 2.2 Recording passive and active electrical signals in a nerve cell (Part 2)
neuro4e-fig r.jpg

9 Figure 2.3 Transporters and channels move ions across neuronal membranes
neuro4e-fig jpg

10 Figure 2.3 Transporters and channels move ions across neuronal membranes
neuro4e-fig r.jpg

11 Figure 2.4 Electrochemical equilibrium
neuro4e-fig jpg

12 Figure 2.4 Electrochemical equilibrium (Part 1)
neuro4e-fig r.jpg

13 Figure 2.4 Electrochemical equilibrium (Part 2)
neuro4e-fig r.jpg

14 Figure 2.5 Membrane potential influences ion fluxes
neuro4e-fig jpg

15 Figure 2.5 Membrane potential influences ion fluxes (Part 1)
neuro4e-fig r.jpg

16 Figure 2.5 Membrane potential influences ion fluxes (Part 2)
neuro4e-fig r.jpg

17 Figure 2.6 Resting and action potentials arise from differential permeability to ions
neuro4e-fig jpg

18 Figure 2.7 Resting membrane potential is determined by the K+ concentration gradient
neuro4e-fig jpg

19 Figure 2.7 Resting membrane potential is determined by the K+ concentration gradient (Part 1)
neuro4e-fig r.jpg

20 Figure 2.7 Resting membrane potential is determined by the K+ concentration gradient (Part 2)
neuro4e-fig r.jpg

21 Box 2A The Remarkable Giant Nerve Cells of Squid
neuro4e-box-02-a-0.jpg

22 Figure 2.8 The role of Na+ in the generation of an action potential in a squid giant axon
neuro4e-fig jpg

23 Figure 2.8 The role of Na+ in the generation of an action potential in a squid giant axon (Part 1)
neuro4e-fig r.jpg

24 Figure 2.8 The role of Na+ in the generation of an action potential in a squid giant axon (Part 2)
neuro4e-fig r.jpg

25 Box 2B Action Potential Form and Nomenclature
neuro4e-box-02-b-0.jpg

26 neuro4e-table jpg

Download ppt "Unit 1 Opener neuro4e-unit-01-opener.jpg."

Similar presentations

Outline Neuronal excitability Nature of neuronal electrical signals Convey information over distances Convey information to other cells via synapses Signals.

Outline Neuronal excitability Nature of neuronal electrical signals Convey information over distances Convey information to other cells via synapses Signals.
Outline Neuronal excitability Nature of neuronal electrical signals Convey information over distances Convey information to other cells via synapses Signals.

Outline Neuronal excitability Nature of neuronal electrical signals Convey information over distances Convey information to other cells via synapses Signals.
Neurones & the Action Potential

Neurones & the Action Potential
Nerve Impulses.

Nerve Impulses.
Monday April 9, 2014. Nervous system and biological electricity II 1. Pre-lecture quiz 2. A review of resting potential and Nernst equation 3. Goldman.

Monday April 9, Nervous system and biological electricity II 1. Pre-lecture quiz 2. A review of resting potential and Nernst equation 3. Goldman.
Neurones Dendrites Axon Facilitated diffusion Schwann cells Active transport Myelin Na + /K + pump Synapse.

Neurones Dendrites Axon Facilitated diffusion Schwann cells Active transport Myelin Na + /K + pump Synapse.
Ion Transport Across Membranes (10.4) Transport of species across a membrane can be endergonic or exergonic – Passive transport (exergonic) occurs when.

Ion Transport Across Membranes (10.4) Transport of species across a membrane can be endergonic or exergonic – Passive transport (exergonic) occurs when.
Bioelectricity Provides basis for “irritability” or “excitability Fundamental property of all living cells Related to minute differences in the electrical.

Bioelectricity Provides basis for “irritability” or “excitability Fundamental property of all living cells Related to minute differences in the electrical.
Structure and Function

Structure and Function
Neurophysiology Opposite electrical charges attract each other

Neurophysiology Opposite electrical charges attract each other
Lecture 5: Membrane transport

Lecture 5: Membrane transport
COGNITIVE SCIENCE 17 The Electric Brain Part 1 Jaime A. Pineda, Ph.D.

COGNITIVE SCIENCE 17 The Electric Brain Part 1 Jaime A. Pineda, Ph.D.
Lecture 4 BIO 344 Chapter 10 and 11.

Lecture 4 BIO 344 Chapter 10 and 11.
The Action Potential.

The Action Potential.
General Organization - CNS and PNS - PNS subgroups The basic units- the cells - Neurons - Glial cells Neurophysiology - Resting, graded and action potentials.

General Organization - CNS and PNS - PNS subgroups The basic units- the cells - Neurons - Glial cells Neurophysiology - Resting, graded and action potentials.
Neurons & Neuroanatomy What are the characteristics of neurons important for Cognitive Neuroscience? What is the brain structure important for CogNeuro?

Neurons & Neuroanatomy What are the characteristics of neurons important for Cognitive Neuroscience? What is the brain structure important for CogNeuro?
Ion Pumps and Ion Channels CHAPTER 48 SECTION 2. Overview  All cells have membrane potential across their plasma membrane  Membrane potential is the.

Ion Pumps and Ion Channels CHAPTER 48 SECTION 2. Overview  All cells have membrane potential across their plasma membrane  Membrane potential is the.
Chapter 5 Active Transport.

Chapter 5 Active Transport.
Nervous System Neurophysiology.

Nervous System Neurophysiology.
The central nervous system consists of ______.

The central nervous system consists of ______.

Similar presentations

Ads by Google