The study of the mechanical laws relating to the movement or structure of living organisms.
By analyzing techniques in sports to optimize movement patterns and implementing training regimens based on biomechanical principles.
The study of forces acting on a body.
The study of motion without considering the forces that cause it.
To analyze movement patterns in real-time.
A force that causes rotation.
Change in position.
Ground reaction forces during activities.
It examines how the body moves and the forces involved.
Identifying risk factors in movement that may lead to injuries and designing equipment and footwear that reduce injury risk.
A push or pull on an object.
By developing rehabilitation protocols that consider biomechanical principles and using motion analysis to track recovery progress.
Speed with direction.
To model human movement to predict outcomes and optimize performance.
Change in velocity over time.
It enhances understanding of human physiology and movement efficiency, provides insights into the mechanical aspects of injuries and recovery, and supports the development of ergonomic designs in sports and daily activities.
