University of Colorado Boulder - Movements Are Controlled By Muscle Forces
- Offered byCoursera
- Public/Government Institute
Movements Are Controlled By Muscle Forces at Coursera Overview
Duration | 8 hours |
Total fee | Free |
Mode of learning | Online |
Official Website | Explore Free Course  |
Credential | Certificate |
- Overview
- Highlights
- Course Details
- Curriculum
Movements Are Controlled By Muscle Forces at Coursera Highlights
- Earn a certificate of completion
- Add to your LinkedIn profile
- 11 quizzes, 1 assignment
Movements Are Controlled By Muscle Forces at Coursera Course details
- What you'll learn
- To describe the generation and transmission of the activation signal.
- To explain the translation of the activation signal into muscle force.
- Movements Are Controlled By Muscle Forces is the first course of the specialization "Science of Movement".
- In this course, we will delve into the mechanisms by which our nervous system communicates with our muscles, allowing us to perform a wide range of coordinated movements with precision. Whether you are a fitness enthusiast, a sports coach, a medical student, or simply curious about the inner workings of your body, this course will provide you with a comprehensive understanding of how the nervous system plays a vital role in enabling our muscles to produce movements.
- The discussion begins with an explanation of how the activation signal is generated by neurons and then transmitted to targeted muscles. You will learn how the nervous system provides muscles with the activation signals needed to perform movement. You will learn about the contractile properties of motor units and how the force produced by a muscle depends on the amount of motor unit activity.
- By the end of this course, you will have gained a deep understanding of the intricate relation between the nervous system and muscle activation. You will be equipped with knowledge that can be applied to various fields, such as exercise prescription, sports performance, physical therapy, and neurology.
Movements Are Controlled By Muscle Forces at Coursera Curriculum
Excitable Membranes
Welcome to the Science of Movement Specialization
Meet Your Instructor
Introduction to This Course
Membrane Potential
Equilibrium Potential
Membrane Currents
Ohm's Law
Input Conductance
Membrane Capacitace
Axial Conductance
Voltage-Gated Channels
Voltage Threshold
Conduction Velocity
Resting Membrane Potential
Electrical Properties of Neurons
Excitable Membranes
Nerve-Muscle Synapse
Exocytosis
End-Plate Potential
Myasthenia Gravis
Excitation-Contraction Coupling
Interference EMG Signal
EMG Electrodes
EMG Measurement
Botulinum Toxin (BoTox)
Axoplasmic Transport
Synapses
Electromyogram
Nerve-Muscle Synapse
BoTox and Muscle Function
Motor Unit
Motor Nucleus
Muscle Unit
Motor Unit Number
Cross-Bridge Cycle
Twitch Contraction Time
Tetanic Force
Muscle Fiber Types
Force Transmission
Motor Unit Properties
Final Common Pathway
Contractile Properties
Motor Unit
Control of Muscle Force
Motor Neuron Excitability
Recruitment Threshold
Electrical Stimulation of Muscle
Discharge Rate
Force Steadiness
Dynamic Properties
Hill Model of Muscle
Design Characteristics
Muscles in Action
Size Principle
Rate Coding
Control of Muscle Force
Vertical Jumping Technique
Other courses offered by Coursera
Student Forum
Anything you would want to ask experts?