An Introduction to Biomechanics

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Presentation transcript:

An Introduction to Biomechanics PSK 4U Lecture Series

A field within Kinesiology… The science of human movement Applying mechanical principles to the human body (eg. Force, velocity, acceleration, centre of gravity) Internal forces produced by muscles and tendons working against external forces of gravity, air resistance, water resistance and friction Helps to evaluate performance of athletes and aid in recovery and prevent/examine sports injuries In my degree…this was a 2nd year required course

Careers within Biomechanics? As an ‘engineer of the body’…you might: Analyze a movement? https://youtu.be/aJjv8tWbj4c Or https://youtu.be/qtXz6qocciM Help a patient recover? http://en.wikipedia.org/wiki/Force_plate

Analysis of Movement Practically all sports will have at least a preparatory phase, a movement phase and a follow through phase, whereas many will begin with a stance phase and end with a recovery phase.

Movement Phases Stance Preparatory Allows the athlete to assume a comfortable and balanced body position from which to initiate the sport skill. Preparatory Often called the wind up phase, is used to lengthen the appropriate muscles so that they concentrically contract in the next phase

Movement Phases Movement Follow Through Recovery Sometimes called the acceleration, motion or contact (is the action of the skill) Follow Through Begins immediately after the climax of the movement phase in order to bring about negative acceleration of the involved limb Recovery Used to regain balance and positioning to be ready for the next sport demand TASK 1: Choose a familiar sport movement and describe each phase with the information you have been given.

Physics review: Newton’s 3 Laws of Motion 1. The Law of Inertia Every object in a state of uniform motion tends to remain in that state of motion unless an external force is applied to it. 2. The Law of Acceleration Force applied to an object causes acceleration of that object proportional to the force, in the direction of the applied force, and inversely proportional to the object’s mass. 3. The Law of Reaction For every action there is an equal and opposite reaction.

A quick quiz… Let’s apply these laws in the following cases: Bobsled start Hockey stop Golf ball during a putt

Biomechanical Formula ACCELERATION A = (v2-v1) / t In this formula, the v2 is the object’s final velocity, v1 is its starting velocity, and t is the time it takes an object to travel a set distance. Expressed in m/s2.

Biomechanical Formula FORCE F = ma Where force is represented by F, acceleration is a, and mass of an object is m. Expressed in N (Newtons).

Biomechanical Formula MOMENTUM M = mv Where M is momentum, m is mass and v is velocity. Expressed in kg m/s.

7 Biomechanical Principles Text Chapter 12 With a partner, choose one biomechanical principle and write an abstract (summary) using appropriate vocabulary and terminology. Use a sport specific example (not from the text!) to illustrate your principle. There will be class time to discuss your principle and to take notes on others’ work.