Nerves and their impulses. Biology 12 C-11
|
|
- Arleen Nash
- 5 years ago
- Views:
Transcription
1 Nerves and their impulses Biology 12 C-11
2 Nerves and their impulses Nerves are designed to transmit electrical impulses from the dendrites, over the cell body and through the axon. The impulse will then jump to the next neuron at a synapse or stimulate a gland or muscle.
3 Action Potential Each phase described in the following graphs is related to the action of a membrane protein. The initial depolarization (upswing) is a result of sodium gates opening and sodium ions rushing into the axoplasm.
4 Action Potential The following repolarization (downswing) is a result of potassium gates opening and potassium rushing to the outside of the membrane. During the recovery period, when the neuron can not produce another action potential, the sodium-potassium pump is moving sodium ions out and potassium ions back in to re-establish the resting potential.
5 The Resting Potential A neuron in the resting state is polarized. There is a potential difference across the axomembrane of 100 millivolts (mv). The inside of the neuron (axoplasm) is negatively charged compared to the outside of the axomembrane. This potential difference is produced by the action of the sodium-potassium pump. To maintain the resting potential of resting neurons, ATP is continually needed to supply energy to the sodium-potassium pumps as sodium ions and potassium ions tend to leak or diffuse back across the axomembrane. The axoplasm is kept negative relative to the outside of the neuron because the axoplasm contains large organic negative ions.
6 Membrane potential The Resting Potential +40 mv Resting potential Maintained By sodium- Potassium pump -65 mv Time in milliseconds
7 The Action Potential An action potential is produced by the action of gated channel proteins embedded in the axomembrane. There are gated protein channels for both sodium ions and potassium ions. The action potential has three phases; depolarization, repolarization, and a recovery period.
8 Depolarization Rapid facilitated diffusion of sodium ions. Sodium gated channel proteins open and sodium ions rush from the outside of the axomembrane to the inside. This changes the polarity across the neuron from -65mV (resting potential) to +40mV. The axoplasm is now positively charged compared to the outside of the neuron.
9 Membrane potential Depolarization +40 mv Sodium gates open, Membrane Depolarizes.upswing -65 mv Time in milliseconds
10 Repolarization Facilitated diffusion of potassium ions. Following the movement of sodium into the axoplasm, potassium gated channels open and potassium ions rush to the outside of the axomembrane. This makes the outside of the membrane positively charged relative to the inside once again. The potential across the membrane returns from +40mV back to -65mV.
11 Membrane potential Repolarization +40 mv Potassium gates open, Membrane Repolarizes Down swing -65 mv Time in milliseconds
12 Section Through an Nonmyelinated Axon Sodium Ions outside axon Axomembrane Potassium Ions inside axon Large Negative Proteins
13 Recovery/Refractory Period Active transport of sodium and potassium ions. During the recovery period following repolarization, a neuron can not generate an action potential. The sodium-potassium pump is busy reestablishing the resting potential by pumping sodium ions out and potassium ions back in through the axomembrane. This recovery period also prevents the action potential from moving backwards.
14 Membrane potential Recovery/Refractory Period +40 mv Refractory period. Gates close. Sodium and potassium pumps re-establish resting potential -65 mv Time in milliseconds
15 Schwann cells wrap around the axon with small gaps called Nodes of Ranvier between each cell. These cells are found along the length of the axon. They form the myelinated sheath. These fatty cells act as an electrical insulator to keep neurons isolated from each other and speed up transmission of impulses. Saltatory Conduction
16 Saltatory Conduction in a Myelinated Axon Depolarization and Repolarization can only occur at the nodes of Ranvier. Impulse will jump from node to node. (saltatory conduction). Impulse speeds up from 0.5 m/sec. to 200m/sec.
Transmission of Nerve Impulses (see Fig , p. 403)
How a nerve impulse works Transmission of Nerve Impulses (see Fig. 12.13, p. 403) 1. At Rest (Polarization) outside of neuron is positively charged compared to inside (sodium ions outside, chloride and
More informationAction Potentials & Nervous System. Bio 219 Napa Valley College Dr. Adam Ross
Action Potentials & Nervous System Bio 219 Napa Valley College Dr. Adam Ross Review: Membrane potentials exist due to unequal distribution of charge across the membrane Concentration gradients drive ion
More informationInformation processing. Divisions of nervous system. Neuron structure and function Synapse. Neurons, synapses, and signaling 11/3/2017
Neurons, synapses, and signaling Chapter 48 Information processing Divisions of nervous system Central nervous system (CNS) Brain and a nerve cord Integration center Peripheral nervous system (PNS) Nerves
More informationCurtis et al. Il nuovo Invito alla biologia.blu BIOLOGY HIGHLIGHTS KEYS
BIOLOGY HIGHLIGHTS KEYS Watch the videos and download the transcripts of this section at: online.scuola.zanichelli.it/curtisnuovoinvitoblu/clil > THE HUMAN NERVOUS SYSTEM 2. WARM UP a) The structures that
More informationNervous System: Part II How A Neuron Works
Nervous System: Part II How A Neuron Works Essential Knowledge Statement 3.E.2 Continued Animals have nervous systems that detect external and internal signals, transmit and integrate information, and
More informationNEURONS, SENSE ORGANS, AND NERVOUS SYSTEMS CHAPTER 34
NEURONS, SENSE ORGANS, AND NERVOUS SYSTEMS CHAPTER 34 KEY CONCEPTS 34.1 Nervous Systems Are Composed of Neurons and Glial Cells 34.2 Neurons Generate Electric Signals by Controlling Ion Distributions 34.3
More informationNeurons and Nervous Systems
34 Neurons and Nervous Systems Concept 34.1 Nervous Systems Consist of Neurons and Glia Nervous systems have two categories of cells: Neurons, or nerve cells, are excitable they generate and transmit electrical
More information! Depolarization continued. AP Biology. " The final phase of a local action
! Resting State Resting potential is maintained mainly by non-gated K channels which allow K to diffuse out! Voltage-gated ion K and channels along axon are closed! Depolarization A stimulus causes channels
More informationConverting energy into nerve impulses, resting potentials and action potentials Sensory receptors
D 1.3 s Converting energy into nerve impulses, resting potentials and action potentials Sensory receptors A receptor converts an external or internal stimulus into an electrical signal. Sensory receptors
More informationNervous System Organization
The Nervous System Chapter 44 Nervous System Organization All animals must be able to respond to environmental stimuli -Sensory receptors = Detect stimulus -Motor effectors = Respond to it -The nervous
More informationOverview Organization: Central Nervous System (CNS) Peripheral Nervous System (PNS) innervate Divisions: a. Afferent
Overview Organization: Central Nervous System (CNS) Brain and spinal cord receives and processes information. Peripheral Nervous System (PNS) Nerve cells that link CNS with organs throughout the body.
More informationThe Nervous System. Nervous System Organization. Nerve Tissue. Two parts to the nervous system 11/27/2016
The Nervous System Nervous System Organization Animals must be able to respond to environmental stimuli. Three functions of the nervous system: Sensory input conduction of signals from sensory receptors.
More informationThe Nervous System. Nerve Impulses. Resting Membrane Potential. Overview. Nerve Impulses. Resting Membrane Potential
The Nervous System Overview Nerve Impulses (completed12/03/04) (completed12/03/04) How do nerve impulses start? (completed 19/03/04) (completed 19/03/04) How Fast are Nerve Impulses? Nerve Impulses Nerve
More informationChapter 48 Neurons, Synapses, and Signaling
Chapter 48 Neurons, Synapses, and Signaling Concept 48.1 Neuron organization and structure reflect function in information transfer Neurons are nerve cells that transfer information within the body Neurons
More informationQUESTION? Communication between neurons depends on the cell membrane. Why is this so?? Consider the structure of the membrane.
QUESTION? Communication between neurons depends on the cell membrane Why is this so?? Consider the structure of the membrane. ECF ICF Possible ANSWERS?? Membrane Ion Channels and Receptors: neuron membranes
More informationNeurochemistry 1. Nervous system is made of neurons & glia, as well as other cells. Santiago Ramon y Cajal Nobel Prize 1906
Neurochemistry 1 Nervous system is made of neurons & glia, as well as other cells. Santiago Ramon y Cajal Nobel Prize 1906 How Many Neurons Do We Have? The human brain contains ~86 billion neurons and
More informationNervous System AP Biology
Nervous System 2007-2008 Why do animals need a nervous system? What characteristics do animals need in a nervous system? fast accurate reset quickly Remember Poor think bunny! about the bunny signal direction
More informationCh 33. The nervous system
Ch 33 The nervous system AP bio schedule Tuesday Wed Thursday Friday Plant test Animal behavior lab Nervous system 25 Review Day (bring computer) 27 Review Day (bring computer) 28 Practice AP bio test
More informationNerve Signal Conduction. Resting Potential Action Potential Conduction of Action Potentials
Nerve Signal Conduction Resting Potential Action Potential Conduction of Action Potentials Resting Potential Resting neurons are always prepared to send a nerve signal. Neuron possesses potential energy
More information2401 : Anatomy/Physiology
Dr. Chris Doumen Week 6 2401 : Anatomy/Physiology Action Potentials NeuroPhysiology TextBook Readings Pages 400 through 408 Make use of the figures in your textbook ; a picture is worth a thousand words!
More informationChapter 37 Active Reading Guide Neurons, Synapses, and Signaling
Name: AP Biology Mr. Croft Section 1 1. What is a neuron? Chapter 37 Active Reading Guide Neurons, Synapses, and Signaling 2. Neurons can be placed into three groups, based on their location and function.
More informationNervous & Endocrine System
3/19 HW Day 1 Read pages 897-900 Complete Vocab. on pg 897 Aim: What is Regulation? Do Now: What 2 organ systems are involved in regulation? Nervous & Endocrine System Regulation: The control and coordination
More informationNervous System Organization
The Nervous System Nervous System Organization Receptors respond to stimuli Sensory receptors detect the stimulus Motor effectors respond to stimulus Nervous system divisions Central nervous system Command
More informationBIOLOGY 11/10/2016. Neurons, Synapses, and Signaling. Concept 48.1: Neuron organization and structure reflect function in information transfer
48 Neurons, Synapses, and Signaling CAMPBELL BIOLOGY TENTH EDITION Reece Urry Cain Wasserman Minorsky Jackson Lecture Presentation by Nicole Tunbridge and Kathleen Fitzpatrick Concept 48.1: Neuron organization
More informationNeurons. General neuron anatomy. BIOL 164 Human Biology Ch 7 Neurons. Nervous system:
BIOL 164 Human Biology Ch 7 Neurons Nervous system: Neurons Integrates and coordinates the body s ac3vi3es Provides rapid and brief responses to s3muli Major divisions: Central nervous system (CNS) brain
More informationNervous Systems: Neuron Structure and Function
Nervous Systems: Neuron Structure and Function Integration An animal needs to function like a coherent organism, not like a loose collection of cells. Integration = refers to processes such as summation
More informationChapter 9. Nerve Signals and Homeostasis
Chapter 9 Nerve Signals and Homeostasis A neuron is a specialized nerve cell that is the functional unit of the nervous system. Neural signaling communication by neurons is the process by which an animal
More informationResting Distribution of Ions in Mammalian Neurons. Outside Inside (mm) E ion Permab. K Na Cl
Resting Distribution of Ions in Mammalian Neurons Outside Inside (mm) E ion Permab. K + 5 100-81 1.0 150 15 +62 0.04 Cl - 100 10-62 0.045 V m = -60 mv V m approaches the Equilibrium Potential of the most
More informationNeurons, Synapses, and Signaling
LECTURE PRESENTATIONS For CAMPBELL BIOLOGY, NINTH EDITION Jane B. Reece, Lisa A. Urry, Michael L. Cain, Steven A. Wasserman, Peter V. Minorsky, Robert B. Jackson Chapter 48 Neurons, Synapses, and Signaling
More informationNervous system. 3 Basic functions of the nervous system !!!! !!! 1-Sensory. 2-Integration. 3-Motor
Nervous system 3 Basic functions of the nervous system 1-Sensory 2-Integration 3-Motor I. Central Nervous System (CNS) Brain Spinal Cord I. Peripheral Nervous System (PNS) 2) Afferent towards afferent
More informationControl and Integration. Nervous System Organization: Bilateral Symmetric Animals. Nervous System Organization: Radial Symmetric Animals
Control and Integration Neurophysiology Chapters 10-12 Nervous system composed of nervous tissue cells designed to conduct electrical impulses rapid communication to specific cells or groups of cells Endocrine
More informationBIOL Week 5. Nervous System II. The Membrane Potential. Question : Is the Equilibrium Potential a set number or can it change?
Collin County Community College BIOL 2401 Week 5 Nervous System II 1 The Membrane Potential Question : Is the Equilibrium Potential a set number or can it change? Let s look at the Nernst Equation again.
More informationPhysiology Unit 2. MEMBRANE POTENTIALS and SYNAPSES
Physiology Unit 2 MEMBRANE POTENTIALS and SYNAPSES In Physiology Today Ohm s Law I = V/R Ohm s law: the current through a conductor between two points is directly proportional to the voltage across the
More informationPhysiology Unit 2. MEMBRANE POTENTIALS and SYNAPSES
Physiology Unit 2 MEMBRANE POTENTIALS and SYNAPSES Neuron Communication Neurons are stimulated by receptors on dendrites and cell bodies (soma) Ligand gated ion channels GPCR s Neurons stimulate cells
More informationMEMBRANE POTENTIALS AND ACTION POTENTIALS:
University of Jordan Faculty of Medicine Department of Physiology & Biochemistry Medical students, 2017/2018 +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Review: Membrane physiology
More informationNeurons, Synapses, and Signaling
Chapter 48 Neurons, Synapses, and Signaling PowerPoint Lecture Presentations for Biology Eighth Edition Neil Campbell and Jane Reece Lectures by Chris Romero, updated by Erin Barley with contributions
More informationUniversality of sensory-response systems
excite.org(anism): Electrical Signaling Universality of sensory-response systems Three step process: sensation-integration-response Bacterial chemotaxis Madigan et al. Fig. 8.24 Rick Stewart (CBMG) Human
More informationNOTES: CH 48 Neurons, Synapses, and Signaling
NOTES: CH 48 Neurons, Synapses, and Signaling A nervous system has three overlapping functions: 1) SENSORY INPUT: signals from sensory receptors to integration centers 2) INTEGRATION: information from
More informationDendrites - receives information from other neuron cells - input receivers.
The Nerve Tissue Neuron - the nerve cell Dendrites - receives information from other neuron cells - input receivers. Cell body - includes usual parts of the organelles of a cell (nucleus, mitochondria)
More informationElectrical Signaling. Lecture Outline. Using Ions as Messengers. Potentials in Electrical Signaling
Lecture Outline Electrical Signaling Using ions as messengers Potentials in electrical signaling Action Graded Other electrical signaling Gap junctions The neuron Using Ions as Messengers Important things
More informationBIOLOGY. 1. Overview of Neurons 11/3/2014. Neurons, Synapses, and Signaling. Communication in Neurons
CAMPBELL BIOLOGY TENTH EDITION 48 Reece Urry Cain Wasserman Minorsky Jackson Neurons, Synapses, and Signaling Lecture Presentation by Nicole Tunbridge and Kathleen Fitzpatrick 1. Overview of Neurons Communication
More informationFundamentals of the Nervous System and Nervous Tissue
Chapter 11 Part B Fundamentals of the Nervous System and Nervous Tissue Annie Leibovitz/Contact Press Images PowerPoint Lecture Slides prepared by Karen Dunbar Kareiva Ivy Tech Community College 11.4 Membrane
More informationNeurons, Synapses, and Signaling
Chapter 48 Neurons, Synapses, and Signaling PowerPoint Lectures for Biology, Eighth Edition Lectures by Chris Romero, updated by Erin Barley with contributions from Joan Sharp and Janette Lewis Copyright
More informationSUMMARY OF THE EVENTS WHICH TRIGGER AN ELECTRICAL IMPUSLE IN NERVE CELLS (see figures on the following page)
Anatomy and Physiology/AP Biology ACTION POTENTIAL SIMULATION BACKGROUND: The plasma membrane of cells is a selectively permeable barrier, which separates the internal contents of the cell from the surrounding
More informationNeurons, Synapses, and Signaling
CAMPBELL BIOLOGY IN FOCUS URRY CAIN WASSERMAN MINORSKY REECE 37 Neurons, Synapses, and Signaling Lecture Presentations by Kathleen Fitzpatrick and Nicole Tunbridge, Simon Fraser University SECOND EDITION
More informationLecture 2. Excitability and ionic transport
Lecture 2 Excitability and ionic transport Selective membrane permeability: The lipid barrier of the cell membrane and cell membrane transport proteins Chemical compositions of extracellular and intracellular
More informationNeurons, Synapses, and Signaling
Chapter 48 Neurons, Synapses, and Signaling PowerPoint Lecture Presentations for Biology Eighth Edition Neil Campbell and Jane Reece Lectures by Chris Romero, updated by Erin Barley with contributions
More informationPeripheral Nerve II. Amelyn Ramos Rafael, MD. Anatomical considerations
Peripheral Nerve II Amelyn Ramos Rafael, MD Anatomical considerations 1 Physiologic properties of the nerve Irritability of the nerve A stimulus applied on the nerve causes the production of a nerve impulse,
More informationNervous System: Part III How the Neuron Works: RESTING VS. ACTION POTENTIAL
Nervous System: Part III How the Neuron Works: RESTING VS. ACTION POTENTIAL 1 RESTING VS. ACTION POTENTIAL 2 How does a neuron cause the transmission of informa4on? 3 Cells: surrounded by charged ions
More informationلجنة الطب البشري رؤية تنير دروب تميزكم
1) Hyperpolarization phase of the action potential: a. is due to the opening of voltage-gated Cl channels. b. is due to prolonged opening of voltage-gated K + channels. c. is due to closure of the Na +
More informationMembrane Potentials and Bioelectricity
Membrane Potentials and Bioelectricity Hugh Purdy Honors University Physics II November 29, 2010 Most, if not all, cells in the human body have a net electric charge to some degree on either side of their
More informationMEMBRANE STRUCTURE. Lecture 9. Biology Department Concordia University. Dr. S. Azam BIOL 266/
MEMBRANE STRUCTURE Lecture 9 BIOL 266/4 2014-15 Dr. S. Azam Biology Department Concordia University RED BLOOD CELL MEMBRANE PROTEINS The Dynamic Nature of the Plasma Membrane SEM of human erythrocytes
More informationPurpose: Perception, Movement, Learning, Memory, Thinking, Communication Functions:
Nervous System Purpose: Perception, Movement, Learning, Memory, Thinking, Communication Functions: Sensory Input: Obtaining stimulation from the environment (light, heat, pressure, vibration, chemical,
More informationNeuron Structure. Why? Model 1 Parts of a Neuron. What are the essential structures that make up a neuron?
Why? Neuron Structure What are the essential structures that make up a neuron? Cells are specialized for different functions in multicellular organisms. In animals, one unique kind of cell helps organisms
More informationNimble Nerve Impulses OO-005-DOWN
Nimble Nerve Impulses OO-005-DOWN We d love to hear any feedback, comments or questions you have! Please email us: info@ Find us on Facebook: facebook.com/origamiorganelles Thanks for purchasing an Origami
More informationMembrane Physiology. Dr. Hiwa Shafiq Oct-18 1
Membrane Physiology Dr. Hiwa Shafiq 22-10-2018 29-Oct-18 1 Chemical compositions of extracellular and intracellular fluids. 29-Oct-18 2 Transport through the cell membrane occurs by one of two basic processes:
More informationBIOLOGY. Neurons, Synapses, and Signaling CAMPBELL. Reece Urry Cain Wasserman Minorsky Jackson
CAMPBELL BIOLOGY TENTH EDITION Reece Urry Cain Wasserman Minorsky Jackson 48 Neurons, Synapses, and Signaling Lecture Presentation by Nicole Tunbridge and Kathleen Fitzpatrick Lines of Communication The
More informationNervous Tissue. Neurons Neural communication Nervous Systems
Nervous Tissue Neurons Neural communication Nervous Systems What is the function of nervous tissue? Maintain homeostasis & respond to stimuli Sense & transmit information rapidly, to specific cells and
More information37 Neurons, Synapses, and Signaling
CAMPBELL BIOLOGY IN FOCUS Urry Cain Wasserman Minorsky Jackson Reece 37 Neurons, Synapses, and Signaling Lecture Presentations by Kathleen Fitzpatrick and Nicole Tunbridge Overview: Lines of Communication
More informationMembrane Potentials and Action Potentials
C H A P T E R 5 Membrane Potentials and Action Potentials Electrical potentials exist across the membranes of virtually all cells of the body. In addition, some cells, such as nerve and muscle cells, are
More informationNeural Conduction. biologyaspoetry.com
Neural Conduction biologyaspoetry.com Resting Membrane Potential -70mV A cell s membrane potential is the difference in the electrical potential ( charge) between the inside and outside of the cell. The
More informationCIE Biology A-level Topic 15: Control and coordination
CIE Biology A-level Topic 15: Control and coordination Notes Neuron structure The nerve cells called neurones play an important role in coordinating communication within the nervous system. The structure
More informationNervous System Part II
Nervous System Part II 175 Types of Neurons 1. Motor Neurons 2. Sensory Neurons 3. Interneurons 176 Motor (Efferent) Neurons take information from the CNS to effectors (muscles or glands). Characterized
More informationIntro and Homeostasis
Intro and Homeostasis Physiology - how the body works. Homeostasis - staying the same. Functional Types of Neurons Sensory (afferent - coming in) neurons: Detects the changes in the body. Informations
More informationCh 8: Neurons: Cellular and Network Properties, Part 1
Developed by John Gallagher, MS, DVM Ch 8: Neurons: Cellular and Network Properties, Part 1 Objectives: Describe the Cells of the NS Explain the creation and propagation of an electrical signal in a nerve
More informationNervous Lecture Test Questions Set 2
Nervous Lecture Test Questions Set 2 1. The role of chloride in a resting membrane potential: a. creates resting potential b. indirectly causes repolarization c. stabilization of sodium d. it has none,
More informationParticles with opposite charges (positives and negatives) attract each other, while particles with the same charge repel each other.
III. NEUROPHYSIOLOGY A) REVIEW - 3 basic ideas that the student must remember from chemistry and physics: (i) CONCENTRATION measure of relative amounts of solutes in a solution. * Measured in units called
More informationNeurophysiology. Danil Hammoudi.MD
Neurophysiology Danil Hammoudi.MD ACTION POTENTIAL An action potential is a wave of electrical discharge that travels along the membrane of a cell. Action potentials are an essential feature of animal
More informationPROPERTY OF ELSEVIER SAMPLE CONTENT - NOT FINAL
CHAPTER 5 Membrane Potentials and Action Potentials UNIT II Electrical potentials exist across the membranes of virtually all cells of the body. In addition, some cells, such as nerve and muscle cells,
More informationNervous Tissue. Neurons Electrochemical Gradient Propagation & Transduction Neurotransmitters Temporal & Spatial Summation
Nervous Tissue Neurons Electrochemical Gradient Propagation & Transduction Neurotransmitters Temporal & Spatial Summation What is the function of nervous tissue? Maintain homeostasis & respond to stimuli
More informationCELL BIOLOGY - CLUTCH CH. 9 - TRANSPORT ACROSS MEMBRANES.
!! www.clutchprep.com K + K + K + K + CELL BIOLOGY - CLUTCH CONCEPT: PRINCIPLES OF TRANSMEMBRANE TRANSPORT Membranes and Gradients Cells must be able to communicate across their membrane barriers to materials
More informationthebiotutor.com A2 Biology Unit 5 Responses, Nervous System & Muscles
thebiotutor.com A2 Biology Unit 5 Responses, Nervous System & Muscles 1 Response Mechanism tropism Definition A growth movement of part of plant in response to a directional stimulus examples Positive:
More informationOrganization of the nervous system. Tortora & Grabowski Principles of Anatomy & Physiology; Page 388, Figure 12.2
Nervous system Organization of the nervous system Tortora & Grabowski Principles of Anatomy & Physiology; Page 388, Figure 12.2 Autonomic and somatic efferent pathways Reflex arc - a neural pathway that
More informationPROPERTY OF ELSEVIER SAMPLE CONTENT - NOT FINAL. The Nervous System and Muscle
The Nervous System and Muscle SECTION 2 2-1 Nernst Potential 2-2 Resting Membrane Potential 2-3 Axonal Action Potential 2-4 Neurons 2-5 Axonal Conduction 2-6 Morphology of Synapses 2-7 Chemical Synaptic
More informationUNIT I INTRODUCTION TO ARTIFICIAL NEURAL NETWORK IT 0469 NEURAL NETWORKS
UNIT I INTRODUCTION TO ARTIFICIAL NEURAL NETWORK IT 0469 NEURAL NETWORKS Elementary Neuro Physiology Neuron: A neuron nerve cell is an electricallyexcitable cell that processes and transmits information
More informationLESSON 2.2 WORKBOOK How do our axons transmit electrical signals?
LESSON 2.2 WORKBOOK How do our axons transmit electrical signals? This lesson introduces you to the action potential, which is the process by which axons signal electrically. In this lesson you will learn
More information1. Dendrites contain the nuclei, ribosomes, mitochondria, and other structures found in most cells.
: Nerve Cells and Nerve Impulses TRUE/FALSE 1. Dendrites contain the nuclei, ribosomes, mitochondria, and other structures found in most cells. ANS: F PTS: 1 DIF: factual REF: Anatomy of Neurons 2. A small
More informationThe Neuron - F. Fig. 45.3
excite.org(anism): Electrical Signaling The Neuron - F. Fig. 45.3 Today s lecture we ll use clickers Review today 11:30-1:00 in 2242 HJ Patterson Electrical signals Dendrites: graded post-synaptic potentials
More informationThe Nervous System. What did you learn at school today? Neurophysiology!
The Nervous System What did you learn at school today? Neurophysiology! The Nervous System Controls heart rate, emotions, memories, consciousness, and much more. The most intricate and beautifully complex
More informationNeuron Func?on. Principles of Electricity. Defini?ons 2/6/15
Neuron Func?on 11 Fundamentals of the Nervous System and Nervous Tissue: Part B Neurons are highly Respond to adequate s?mulus by genera?ng an ac?on poten?al (nerve impulse) Impulse is always the regardless
More informationBIO 210: Anatomy and Physiology Text: Fundamentals of Anatomy and Physiology 9ed. Chapter 12 NEURAL TISSUE
NAME COURSE BIO 210: Anatomy and Physiology Text: Fundamentals of Anatomy and Physiology 9ed. Chapter 12 NEURAL TISSUE Like a telephone switchboard, the nervous system directs a countless number of incoming
More informationCh 7. The Nervous System 7.1 & 7.2
Ch 7 The Nervous System 7.1 & 7.2 SLOs Describe the different types of neurons and supporting cells, and identify their functions. Identify the myelin sheath and describe how it is formed in the CNS and
More informationCHAPTER 2 HUMAN NERVOUS SYSTEM ELECTRICAL ACTIVITIES
CHAPTER 2 HUMAN NERVOUS SYSTEM ELECTRICAL ACTIVITIES Behavior of human nervous system is well realized as electrical signal propagation through nerves from different parts of body to the brain. Now, it
More information9.01 Introduction to Neuroscience Fall 2007
MIT OpenCourseWare http://ocw.mit.edu 9.01 Introduction to Neuroscience Fall 2007 For information about citing these materials or our Terms of Use, visit: http://ocw.mit.edu/terms. 9.01 Recitation (R02)
More informationGeneral Physics. Nerve Conduction. Newton s laws of Motion Work, Energy and Power. Fluids. Direct Current (DC)
Newton s laws of Motion Work, Energy and Power Fluids Direct Current (DC) Nerve Conduction Wave properties of light Ionizing Radiation General Physics Prepared by: Sujood Alazzam 2017/2018 CHAPTER OUTLINE
More informationThe Nervous System and the Sodium-Potassium Pump
The Nervous System and the Sodium-Potassium Pump 1. Define the following terms: Ion: A Student Activity on Membrane Potentials Cation: Anion: Concentration gradient: Simple diffusion: Sodium-Potassium
More informationAction Potential Propagation
Action Potential Propagation 2 Action Potential is a transient alteration of transmembrane voltage (or membrane potential) across an excitable membrane generated by the activity of voltage-gated ion channels.
More informationCh. 5. Membrane Potentials and Action Potentials
Ch. 5. Membrane Potentials and Action Potentials Basic Physics of Membrane Potentials Nerve and muscle cells: Excitable Capable of generating rapidly changing electrochemical impulses at their membranes
More informationNeurons: Cellular and Network Properties HUMAN PHYSIOLOGY POWERPOINT
POWERPOINT LECTURE SLIDE PRESENTATION by LYNN CIALDELLA, MA, MBA, The University of Texas at Austin Additional text by J Padilla exclusively for physiology at ECC UNIT 2 8 Neurons: PART A Cellular and
More informationPhysiology Coloring Book: Panels 29, 32, 33,
ELEC4623/ELEC9734: Semester 2, 2009 Dr Stephen Redmond School of Electrical Engineering & Telecommunications Email: s.redmond@unsw.edu.au Ph: 9385 6101 Rm: 458, ELECENG (G17) Physiology Coloring Book:
More informationMembrane Potentials. Why are some cells electrically active? Model 1: The Sodium/Potassium pump. Critical Thinking Questions
Membrane Potentials Model 1: The Sodium/Potassium pump Why are some cells electrically active? 1. What ion is being moved out of the cell according to model 1? a. How many of these are being moved out?
More informationA. Visceral and somatic divisions. B. Sympathetic and parasympathetic divisions. C. Central and peripheral divisions
Ch 8: Neurons: Cellular and Network Properties, Part 1 Review of the Nervous System Objectives: Describe the Cells of the NS Explain the creation and propagation of an electrical signal in a nerve cell
More informationACTION POTENTIAL. Dr. Ayisha Qureshi Professor MBBS, MPhil
ACTION POTENTIAL Dr. Ayisha Qureshi Professor MBBS, MPhil DEFINITIONS: Stimulus: A stimulus is an external force or event which when applied to an excitable tissue produces a characteristic response. Subthreshold
More informationBME 5742 Biosystems Modeling and Control
BME 5742 Biosystems Modeling and Control Hodgkin-Huxley Model for Nerve Cell Action Potential Part 1 Dr. Zvi Roth (FAU) 1 References Hoppensteadt-Peskin Ch. 3 for all the mathematics. Cooper s The Cell
More informationIntroduction to Neural Networks U. Minn. Psy 5038 Spring, 1999 Daniel Kersten. Lecture 2a. The Neuron - overview of structure. From Anderson (1995)
Introduction to Neural Networks U. Minn. Psy 5038 Spring, 1999 Daniel Kersten Lecture 2a The Neuron - overview of structure From Anderson (1995) 2 Lect_2a_Mathematica.nb Basic Structure Information flow:
More informationNeurophysiology. Review from 12b. Topics in neurophysiology 7/08/12. Lecture 11b BIOL241
Neurophysiology Lecture 11b BIOL241 Review from 12b. CNS brain and spinal cord PNS nerves SNS (somatic) ANS (autonomic) Sympathetic NS Parasympathetic NS Afferent vs efferent (SAME) Cells of the nervous
More informationLecture 10 : Neuronal Dynamics. Eileen Nugent
Lecture 10 : Neuronal Dynamics Eileen Nugent Origin of the Cells Resting Membrane Potential: Nernst Equation, Donnan Equilbrium Action Potentials in the Nervous System Equivalent Electrical Circuits and
More informationChapter 2: Neurons and Glia
Chapter 2: Neurons and Glia The Prototypical Neuron The Soma Cytosol: watery fluid inside the cell Organelles: membrane-enclosed structures within the soma Cytoplasm: contents within a cell membrane, e.g.,
More informationBiology September 2015 Exam One FORM G KEY
Biology 251 17 September 2015 Exam One FORM G KEY PRINT YOUR NAME AND ID NUMBER in the space that is provided on the answer sheet, and then blacken the letter boxes below the corresponding letters of your
More informationBiology September 2015 Exam One FORM W KEY
Biology 251 17 September 2015 Exam One FORM W KEY PRINT YOUR NAME AND ID NUMBER in the space that is provided on the answer sheet, and then blacken the letter boxes below the corresponding letters of your
More information