Biomechanics in Sports Medicine
( 24 Modules )

Module #1
Introduction to Biomechanics in Sports Medicine
Overview of the importance of biomechanics in sports medicine, definition, and scope

Module #2
Anatomy and Movement Fundamentals
Review of musculoskeletal anatomy, joint movements, and planes of motion

Module #3
Biomechanical Principles
Laws of motion, force, torque, and energy, and their application to human movement

Module #4
Motion Analysis
Methods for analyzing human movement, including 2D and 3D motion capture

Module #5
Ground Reaction Forces
Measurement and analysis of ground reaction forces and their impact on movement

Module #6
Joint Mechanics
Biomechanics of individual joints, including the ankle, knee, hip, shoulder, and spine

Module #7
Muscle Mechanics
Function and biomechanics of skeletal muscles, including muscle force and torque

Module #8
Injury Mechanisms
Biomechanical analysis of common injuries in sports, including acute and overuse injuries

Module #9
Sports-Specific Biomechanics:Running
Biomechanical analysis of running, including foot strike, stride length, and running injuries

Module #10
Sports-Specific Biomechanics:Jumping and Landing
Biomechanics of jumping and landing, including technique analysis and injury prevention

Module #11
Sports-Specific Biomechanics:Throwing and Hitting
Biomechanical analysis of throwing and hitting movements, including baseball, softball, and tennis

Module #12
Sports-Specific Biomechanics:Cycling and Swimming
Biomechanics of cycling and swimming, including bike fitting and swim stroke analysis

Module #13
Biomechanics of concussion and Head Injuries
Biomechanical analysis of concussion and head injuries, including helmet testing and safety protocols

Module #14
Biomechanics of Footwear and Orthotics
Design and function of footwear and orthotics, including shoe selection and customization

Module #15
Gait Analysis and Rehabilitation
Clinical application of gait analysis, including normal and abnormal gait patterns

Module #16
Biomechanics of Exercise and Training
Biomechanical principles of exercise and training, including periodization and progressive overload

Module #17
Biomechanics of Sports Equipment
Design and function of sports equipment, including balls, bats, and protective gear

Module #18
Research Methods in Biomechanics
Research design, data collection, and statistical analysis in biomechanics research

Module #19
Case Studies in Biomechanics
Real-world examples of biomechanics in sports medicine, including injury prevention and athletic performance

Module #20
Biomechanics in Injury Prevention and Rehabilitation
Application of biomechanics in preventing and rehabilitating sports injuries

Module #21
Biomechanics in Athletic Performance Enhancement
Use of biomechanics to improve athletic performance, including technique analysis and training protocols

Module #22
Emerging Topics in Biomechanics
Current research and advancements in biomechanics, including wearable technology and machine learning

Module #23
Biomechanics in Sports Medicine:Future Directions
Future directions and applications of biomechanics in sports medicine

Module #24
Course Wrap-Up & Conclusion
Planning next steps in Biomechanics in Sports Medicine career

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Biomechanics in Sports Medicine ( 24 Modules )

Biomechanics in Sports Medicine
( 24 Modules )