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Six Simple Machines Chapter 4 section 3

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Six Simple Machines Chapter 4 section 3 Inclined Plane Wedge Screw Wheel and Axle Lever Pulley Force Any push or pull is defined as a force The unit of force is the ... – PowerPoint PPT presentation

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Title: Six Simple Machines Chapter 4 section 3


1
Six Simple MachinesChapter 4 section 3
  • Inclined Plane
  • Wedge
  • Screw
  • Wheel and Axle
  • Lever
  • Pulley

2
Force
  • Any push or pull is defined as a force
  • The unit of force is the newton
  • 1 pound 4.5 newtons

3
Work
  • A force applied through a distance
  • W F x d
  • units of work are Newton meters (N ? m) but are
    commonly called Joules

4
Power
  • Power is the measure of work done in a given
    time.
  • The formula for power is
  • P W/t
  • The unit of work is the watt ( J/s)
  • Since this unit is very small the Kilowatt is
    often used 1000 watts.

5
Inclined Plane
  • Also known as a ramp a flat sloped surface.
  • How it works
  • Allows you to exert your force over a longer
    distance.
  • Input force force you use to push or pull the
    object
  • Output force the force you would need to lift
    the object without the inclined plane
  • Output force is equal to the objects weight

6
Inclined plane - Mechanical Advantage
  • IMA length of incline
  • Height of incline
  • Example if you are loading a truck that is 1
    meter high using a ramp that is 3 meters long,
    the
  • IMA 3m / 1m 3
  • Therefore the inclined plane increases the force
    you exert on the object by three times.
  • By increasing the length of the incline, the less
    input force needed to push or pull the object.

7
Wedge
  • A device that is thick at one end and tapers to
    thin edge at the other end.

Input force
wedge
Output force
Output force
8
Wedge How it works
  • Instead of moving an object along an inclined
    plane, you move the inclined plane itself.

9
Screws
  • An inclined plane wrapped around a cylinder
  • The threads act like an inclined plane to
    increase the distance over which you exert an
    input force.
  • The threads exert an output force on the wood,
    pulling the screw into the wood.
  • The friction between the wood and the screw holds
    the screw in place.
  • The closer the threads are the greater the
    mechanical advantage.

10
Levers
  • A rigid bar that is free to pivot, or rotate, on
    a fixed point.
  • The fixed point that a lever pivots around is
    called a fulcrum
  • 3 classes, based on location of fulcrum,
  • effort force (E) and resistance force (load) (R)

11
First class lever
  • Fulcrum is in between the effort force and the
    resistance
  • Ex. Scissors, crowbar, car jack, prying the lid
    using a screw driver

12
Second class lever
  • Fulcrum is at one end, effort is at the other
    end, the resistance is in between
  • Ex. Wheelbarrow, a Door, a Nutcracker,

13
Third Class levers
  • Fulcrum is at one end , effort force is close to
    fulcrum, resistance is at other end
  • Almost all sports equipment ex.
  • Golf club, baseball bat, lacrosse stick, fishing
    rod, rake, hockey stick etc.

14
Mechanical advantage
  • Ratio of the output force to the input force
  • IMA ideal mechanical advantage, does not
    include friction
  • IMA Formula
  • Effort arm distance (cms)
  • Resistance arm distance (cms)

15
Actual Mechanical advantage
  • Measures ratio of resistance force to effort
    force, includes friction
  • Formula
  • Resistance Force(g)
  • Effort Force(g)

16
Mechanical Advantage
  • When MA is less than one the machine multiplies
    speed
  • When the MA is greater than one the machine
    multiplies your effort

17
Wheel and Axle
  • a simple machine made of two circular or
    cylindrical objects fastened together that rotate
    about a common axis
  • The object with the larger radius is the wheel
  • Example screw driver
  • It works because the wheel is larger than the
    axle, the axle rotates and exerts a large output
    force.
  • The greater the ratio between the radius of the
    wheel and the axle the greater the mechanical
    advantage.

18
Pulley
  • A simple machine made of a small grooved wheel
    and a rope or cable wrapped around it
  • Pulleys decrease the amount of input force
    needed to lift the object and it can change the
    direction of the input force.
  • Example raising a flag pole.
  • Two basic types
  • A. fixed pulley-pulley that is attached to a
    structure
  • B. movable pulley- pulley attached to a
    structure that can move

19
The ideal mechanical advantage is equal to the
number of sections of rope that support the
object
20
  • Compound machine- utilizes two or more simple
    machines
  • Apple peeler, bicycle
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