Biomechanics Principles of Levers. Aim: To understand how the three types of levers work and...
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- Slide 1
- Biomechanics Principles of Levers
- Slide 2
- Aim: To understand how the three types of levers work and
appreciate the advantages/disadvantages of each one.
- Slide 3
- Principles of Levers Key Vocabulary Lever Fulcrum Resistance
Effort
- Slide 4
- Levers are Simple machines that help us apply force. Rigid
structures, hinged at some part with forces applied at two other
points.
- Slide 5
- We have levers within our body, and also use them externally
for many different reasons.
- Slide 6
- All levers have three parts: Fulcrum Resistance Effort
- Slide 7
- Fulcrum The pivot point.
- Slide 8
- Resistance (or load) The weight that needs to be moved.
- Slide 9
- Effort The force that is applied to move the resistance (or
load).
- Slide 10
- Force Arm & Resistance Arm With levers, there are also a FA
and a RA. Force Arm (FA) = The distance from where a force is
applied to the fulcrum. Resistance Arm (RA) = The distance from
where a resistance acts to the fulcrum. The relationship between
force arm length, with respect to the resistance arm length is
important when we consider what the function of the lever is. That
is, are we after maximum speed with a given effort or moving a
greater resistance with a given force?
- Slide 11
- Functions of a Lever Levers perform two main functions: To
increase the resistance (or force) that can be moved with a given
effort e.g. a crowbar. To increase the velocity at which an object
will move with a given force. E.g. A golf club.
- Slide 12
- Classes of Levers There are 3 classes of levers. Each is
structured in a different manner and has different advantages.
- Slide 13
- First Class Levers The fulcrum lies between the effort and the
resistance.
- Slide 14
- First Class Levers Using a crowbar to move a rock.
- Slide 15
- First Class Levers Using a hammer to pull out a nail.
- Slide 16
- First Class Levers A see-saw.
- Slide 17
- First Class Levers Up and down movement of the head about the
atlas joint.
- Slide 18
- First Class Levers Pulling an oar in a row boat.
- Slide 19
- Second Class Levers The resistance lies between the fulcrum and
the point of effort.
- Slide 20
- Second Class Levers The movement of the foot when walking. (the
calf muscle provides the effort and the ball of the foot is the
pivot)
- Slide 21
- Second Class Levers Opening a door by the handle.
- Slide 22
- Second Class Levers Opening a bottle with a bottle opener.
- Slide 23
- Second Class Levers Pushing a wheel barrow.
- Slide 24
- Third Class Levers The effort lies between the resistance and
the fulcrum.
- Slide 25
- Third Class Levers Biceps curl.
- Slide 26
- Third Class Levers Fishing with a rod.
- Slide 27
- Third Class Levers Swinging a bat to hit a ball.
- Slide 28
- Application Long levers provide amplified power at the expense
of speed of movement of the object being moved. Examples: Using a
jack to lift a crashed car. Using a knife to get the lid off a tin.
Using a driver in golf.
- Slide 29
- Application Short levers provide speed at the expense of power
Example: Levers designed to accelerate objects include: - Most body
limbs used for throwing or kicking because the muscle inserts near
the pivot point. - Using a 9-iron in golf.
- Slide 30
- Application Can you think of sporting examples where there are
longer and shorter levers? What happens to the effectiveness of a
lever if the fulcrum is moved closer or further away from the
load?
- Slide 31
- Revision Question One: Fill in the blanks Levers are simple
machines which helps us apply ____(a)____. They have ___(b)___
parts. The ___(c)___ is the pivot point. The ___(d)___ (or load) is
the weight that needs to be moved. The ___(e)___ is the force that
is applied to move the resistance.
- Slide 32
- Revision Question Two: Label the diagram
- Slide 33
- Revision Question Three: First, Second or Third Class? (a) (b)
(c) The fulcrum lies between the effort and the resistance. The
resistance lies between the fulcrum and the point of effort. The
effort lies between the resistance and the fulcrum.
- Slide 34
- Revision Question Three: First, Second or Third Class? (d) (e)
(f)
- Slide 35
- Revision Question Three: First, Second or Third Class? (g) (h)
(i) (j)
- Slide 36
- Revision Question Three: First, Second or Third Class? (k) (l)
(m) (n)
- Slide 37
- Application How would you change your grip on a softball bat if
you wanted to hit the ball with more force? Experiment with this
with a partner. With a partner find another physical activity
example that will be able to demonstrate application of the
principles of levers, showing what happens when you change the
length of your lever.