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Information Processing in Motor Learning

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Presentation on theme: "Information Processing in Motor Learning"— Presentation transcript:

1 Information Processing in Motor Learning
Chapter 10 Kinesiology Books Publisher

2 Table of Contents Introduction to the structure and function of the nervous system Information processing and making decisions Feedback in movement control Factors affecting information processing Kinesiology Books Publisher

3 Structure and Function of the Nervous System
Kinesiology Books Publisher

4 Connects CNS with the rest of the body
Control center PNS Connects CNS with the rest of the body Kinesiology Books Publisher

5 The Neuron and Its Function
Kinesiology Books Publisher

6 Neuron Nerve cell The fundamental functional and structural unit of the nervous system Allows information to travel throughout the body to various destinations Kinesiology Books Publisher

7 Axon: transmits message to terminal ending
Receptive Segment Cell Body Dendrites: receive message Myelin sheath Conductive Segment Axon: transmits message to terminal ending Nodes of Ranvier Terminal ending on muscle: sends message to adjacent neuron Transmissive Segment Kinesiology Books Publisher Motor end plate

8 Skipping of the impulse allows faster conduction
Myelin sheath: fatty covering or insulator Skipping of the impulse allows faster conduction Kinesiology Books Publisher

9 Types of Neurons Afferent neurons Interneurons Efferent neurons
Sensory Carry signals to the brain Interneurons Originate and terminate in CNS Connect afferent and efferent neurons in CNS CNS tissue cross-section Efferent neurons Motor Carry signals from the brain Kinesiology Books Publisher

10 Types of Neurons Kinesiology Books Publisher

11 The Neuron’s Function Receptive segment (dendrites)
Receives continuous synaptic input (chemical) from other neurons Conductive segment (axon) Conduction of neural information in the form of nerve impulses (electrical) Transmissive segment (axon terminals) Converts electrical nerve impulse to chemical form (neurotransmitter) and sends it off to synapse Conductive Transmissive Kinesiology Books Publisher

12 Stimulus: depolarization
Neural Impulses Transport the information necessary for all activities we carry out The language of the nervous system Relay of impulse within neuron: Rest: polarization Stimulus: depolarization Rest: polarization Membrane potential = -70 mV (mV) +50 -50 -100 Action Potential +40 mV Resting Potential Stimulus Kinesiology Books Publisher

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