1. Simple Machines

2. There are six simple machines: The lever The wheel and axel The inclined plane The wedge The screw The pulley

3. Levers Lever- a rigid bar that is free to move around a fixed point. Ex. Screwdriver to open a paint can lid. The fixed point the bar rotates around is the fulcrum Levers are classified into three categories based on the locations of : The input force The output force The fulcrum

4. Levers The input arm of a lever is the distance between the input force and the fulcrum The output arm is the distance between the output force and the fulcrum To calculate the IMA of any lever: Divide the input arm by the output arm. Input arm Output arm

5. First-Class Levers The position of the fulcrum identifies a first-class lever. The fulcrum is always located between input force and the out put force Depending on location of fulcrum, the mechanical advantage can be greater, equal, or less than 1. Ex. Seesaw, scissors, tongs, screwdriver

6. Second-Class Levers A lever is considered second-class, if the output force is located between the input force and the fulcrum. Ex. Wheelbarrow Mechanical advantage is always greater than 1

7. Third-Class Lever The input force is located between the fulcrum and the output force. The output distance over which the third-class lever exerts its force is always larger than the input distance you move the lever through. The mechanical advantage is always less than 1. Ex. Baseball bats, hockey sticks, and golf clubs

8. Wheel and Axle A wheel and axle is a simple machine that consists of two disks or cylinders, each one with a different radius. Ex. Steering Wheel To calculate the IMA, divide the radius where the input force is exerted by the radius where the output force is exerted.

9. Incline Planes An incline plane is a slanted surface along which a force moves an object to a different elevation. The IMA is the distance along the incline plane divided by its change in height. Ex. A 6meter long ramp that gains 1 meter of height has an IMA of 6

10. Wedges and Screws Similar to incline planes but have a sloping moving surfaces. Wedge is a V-shape object whose sides are two inclined planes sloped toward each other. A thin wedge of a given length has a greater IMA than a thick wedge of the same length. Ex. Knife blade

11. Wedges and Screws A Screw, is an incline plane wrapped around a cylinder. Screws with threads that are closer together have a greater IMA

12. Pulleys A pulley is a simple machine that consists of a rope that fits into a groove in a wheel. Pulleys produce an output force that is different in size, direction, or both, from that of the input force. IMA is equal to the number of rope sections supporting the load being lifted. Three types of pulleys Fixed- changes only the direction of the input force Movable- changes both the direction and the size of the input force System- are made up of both fixed and movable pulleys