Chapter 10 Biomechanics of Physical Activity

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Presentation transcript:

Chapter 10 Biomechanics of Physical Activity Kathy Simpson Chapter 10 Biomechanics of Physical Activity

Figure 10.1 Chapter 10 - Hoffman (2005)

What Is Biomechanics of Physical Activity? Biomechanics applies the mechanical principles of physics and engineering to the motion, structure, and functioning of all living systems. Biomechanists in the field of physical activity study how these principles affect human movement and the structure and function of the human body.

Goals of Biomechanics Understand how the basic laws of physics affect and shape the structure and function of the human body. Apply this understanding to (a) improve the outcomes of our movements (such as performance effectiveness) and (b) increase or maintain the safety and health of our tissues.

Motion Force Linear Motion Angular Motion General Motion

Levers

Newton’s Laws of Motion 1st Inertia: Every object will remain at rest or in uniform motion in a straight line unless compelled to change its state by the action of an external force. 2nd Acceleration: The velocity of an object changes when it is subjected to an external force. The law defines a force to be equal to change in momentum (mass * velocity) per change in time. 3rd Action/Reaction: For every action (force) in nature there is an equal and opposite reaction.

Application of Biomechanics Improve movement techniques for sport performance, locomotion, and motor skill acquisition. Improve equipment. Prevent injury. (continued)

Application of Biomechanics (continued)

Application of Biomechanics

Application of Biomechanics Explain the difference in these shoes and how that effects a runner?

Application of Biomechanics (continued) Guide rehabilitation and treatment NOTE: Biomechanics of human movement must account for additional factors influencing movement that include sensations such as pain, other performers, the environment, emotions, prior experience, cultural expectations, socioeconomic class, gender, and anatomy.

Two Main Themes of Study in Biomechanics Function: how we produce forces to generate, maintain, or slow down movement during physical activity Structure: how forces (such as gravity) affect our body tissues

Biomechanical analysis

What Does a Biomechanist Do? Researcher Clinical biomechanist Performance enhancement specialist Ergonomist or human factors engineer (industrial task analysis specialist) Forensic biomechanist University professor Certified orthotist or prosthetist

Goals of a Biomechanist Improve performance in sport and dance Reduce or prevent injuries at work, at home, and during exercise and sport tasks Improve the movements of people with pathological conditions (clinical settings) Increase performers’ health with exercise or training regimens Assist with the design of equipment, artificial limbs, and orthoses for safety

Research Methods in Biomechanics Model of Analysis: Systematic Process Identify the question. State performance goals. Consider influencing factors. Understand motions and mechanics. (continued)

Research Methods in Biomechanics (continued) Model of Analysis: Systematic Process Determine relevant biomechanical principles and movement techniques. Observe or measure. What does it all mean? Assessment, evaluation, and interpretation. Quantitative Qualitative

Figure 10.2

Biomechanical Instrumentation and Other Tools Stopwatches, metronomes, protractors, barbells, and free weights Computer simulations Motion measurement devices: cameras, video, light-emitting diodes (LED) Force measurement devices: transducers, platforms, EMG

Assessment and Evaluation of Performers Biomechanical profiles Performer-related characteristics Group of individuals Between groups Profiles and clinical assessment

Overview of Knowledge in Biomechanics of Physical Activity How external forces (gravity, ground reaction forces, friction, fluid resistance) act on performers How internal forces act on performers How biomechanical laws of nature shape our movements (law of inertia, law of action–reaction, torque or moment, propulsive forces, fluid forces, and so on)

Biomechanists Biomechanists as well as other physical activity specialists can apply the principles of mechanical laws to enhance performance, reduce injury, evaluate the effectiveness of a movement, or select the proper sport equipment, tool, or occupational equipment.