biomechanics 1 (intro, levers, planes and axis) 2015
TRANSCRIPT
Types of Biomechanics Two different forms of biomechanical
analysis: Qualitative Quantitative Coaches will use each form of analysis for
different reasons including…………
Technique Improvement – use of the knowledge to
mechanics to improve the execution of whole or part of a particular technique for individual athletes.
Development – biomechanics is used to develop new and more efficient sporting techniques or to refine existing ones.
Development Equipment - biomechanical analysis has
contributed to the improved design of much equipment used within modern sport.
Training – analysis of techniques can lead to an identification of deficiencies in technique which will assist a coach in designing an appropriate training programme.
Injuries Prevention and rehabilitation –
biomechanics is often used as a starting point for making alterations to technique, training or equipment in order to prevent or rehabilitate injuries.
LEVERS The function of a lever in the body is either:
To overcome a force greater than the effort used eg a crowbar / a calf raise
To move something a greater distance eg an overarm throw
A lever consists of: A fulcrum or pivot point – a joint Load – could be gravity, body weight, added weight e.g. gym equipment Effort – provided by muscular contractionsTHE LEVERS IN THE BODY ARE THE BONES OF THE SKELETON –
LEVERS CAN BE ADDED IN THE FORM OF SPORTING IMPLEMENTSRACKETSCLUBSBATS
Sporting levers•Golf clubs are selected according to length – a longer club will produce a longer lever and will send the ball further•A defender in hockey will use a heavier stick•An overarm serves in tennis makes the most use of the power by making the lever as long as possible•A cricketer hitting for 6 will play the shot to make the most of a long lever produced by his body, arms and the bat.
First Order Lever The fulcrum is in the middle The load is at one end and the
effort applied at the other
Example in the body = Joint at the neck
Second Order Lever The Load is in the middle The fulcrum is at one end, the
effort applied at the other
Example in the body = The ankle joint
Third Order Lever The effort is in the middle The load is at one end, the fulcrum at the
other
Example in the body = most of our skeletal muscles
FORCES Before looking at sport & movement, we must understand
FORCE
A force is a push or pull that alters or tends to alter the state of motion of a body
A Force can cause a body at rest to move – (taking a football penalty- the force applied with the foot make the ball move)
A force can cause a moving body to: Change direction – (returning a tennis shot) Accelerate – (a sprint finish) Decelerate – slowing down at the bottom of the ski slope) Change an object’s shape – (jumping on a trampoline)
If a force is applied through the middle of an object – it causes LINEAR MOTION
If a force is applied off-centre it will cause spin or ANGULAR MOTION
Many sporting examples are a combination of both angular and linear motion:
•The upper body shows “LINEAR MOTION”
•Whilst the legs show “ANGULAR MOTION”
This combination is called “GENERAL MOTION”
•Internal forces are generally produced by concentric muscle contraction•External forces could be:
•Gravity
•Air resistance (water resistance)
•Friction
•Reaction
NEWTON’S LAWS OF MOTION
“A body continues in a state of rest or of uniform velocity unless acted upon by an external force” Law of inertia
NEWTON’S FIRST LAW
NEWTON’S SECOND LAW“When a force acts on an object, the rate of change
of momentum experienced by the object is proportional to the size of the force and takes place in the direction in which the force acts” – Law of acceleration
Consider: An ice hockey puck is hit by a player & travels across the ice to rebound from the far wall of the rink.
Assume that the friction between the puck & the ice & the air resistance are negligible, & that the puck travels from R to L
Use Newton’s Laws of motion to explain what is happening in the following situations:
1.While the puck is stationary before being hit
2.While the stick is in contact with the puck
3.While the puck is travelling across the ice before it hits the wall
4.While the puck is in contact with the wall
TASK:Write a short piece to apply what you know from today’s lesson to your selected sport
Can you explain how forces are functioning to:•Cause something to move•Change direction•Accelerate•Decelerate•Change the shape of an object
Selected sport: trampolining
Forces acting - pull of gravity makes the performer return to the trampoline – force of the performers muscles changes the shape of the trampoline bed – the force of the trampoline against the performer will cause them to change directionApplication of Newton’s Laws - External force of performers muscles causes movement (1st Law of acceleration) – The greater the distortion of the bed, the greater the force acting to push the performer upward– they will therefore go higher (2nd Law of acceleration) – The action of landing on the bed causes the reaction of sending the performer upward (3rd Law of reaction)
Line of GravityAn imaginary line straight down from the
centre of gravity / mass•If the line of gravity is at the centre of the base of support – the position is more stable
•If the line of gravity is near the edge of the base of support – the position is less stable
•If the line of gravity is outside the base of support – the position is unstable
To work out the centre of gravity of a 2D shape-
Hang the shape from one point & drop a weighted string from any point on the object
Mark the line where the string drops Repeat this by hanging the object from
another point Mark the line again where the string drops The centre of gravity is where the two lines
cross