1. Work and Simple Machines

2. Work is the use of force to move an object some distance. Work is done only when an object that is being pushed or pulled actually moves.

3. Work is done. Work is being done because the force and motion are in the same direction Applied Force Direction of motion

4. Work is not done. Work is not being done because there is not movement of the box. Applied Force No motion

5. Calculating Work Work = force (N) x distance (m) Joules= Newton x meters remember that Joules is also the unit for energy, so work must be a form of ENERGY. Work = Energy

6. How much work is done if a person lifts a barbell weighing 450 N to a height of 2 m? –F= 450 Nd=2 m –W=F*d –W= (450 N) *(2 m) –W= 900 N-m –W= 900 J

7. Power is… Power= Work ( or Energy) Time P= E t The unit for power is the watt (W). One Watt equals one joule per second.

8. An Antarctic explorer uses 6000 Joules of work to pull his sled for 60 sec. What power does he need? –Work: 6000 Jtime: 60 sec –P= W/t –P= 6000 J/ 60 sec –P= 100 J/sec –P= 100 W

9. work transfer transferred the object energy time When you do work on an object, you transfer the energy of that object. Energy is transferred from yourself to the object. Power is equal to the amount of energy transferred over a certain time.

10. A machine makes work easier by 1.Increasing the force 2.Increasing the Distance 3.Changing the direction of the force

11. Simple Machines

12. What is a Simple Machine? A simple machine is a machine that does work only in one movement.

13. What is a compound machine? A compound machine is a machine made up of two or more simple machines.

14. Inclined plane—a flat, sloped surface 1.Inclined plane gets longer, the force needed to move the object is smaller. 2.The mechanical advantage= length of the inclined plane height of the inclined plane

15. Inclined Planes Longer Incline Plane: ________ force is needed to move an object Shorter Inclined Plane: ________ force is needed to move an object. Lifting Without an Inclined Plane: __________________force is need to move the object

16. Lever—any rigid rod or plank that pivots about a point. 1.the point about which the lever pivots—fulcrum 2.Mechanical advantage= distance from fulcrum to input force distance from fulcrum to output force

17. Levers can be divided into classes depending on the position of the fulcrum.

18. Wheel and axle—two circular objects of different sizes that rotate together 1.The mechanical advantage= the radius of the wheel radius of the axle 1.If the input force is applied to the axle, the mechanical advantage is less than one, examples:: fan or ferris wheel. 2.If the input force is applied to the wheel, the mechanical advantage is almost always more than one examples:: a doorknob or steering wheel.

19. Pulley—grooved wheel with a rope or chain wrapped around it 1.Fixed pulleys, such as on window blinds or flagpoles, are attached to an overhead structure and change the direction of the force you exert; mechanical advantage of one. 2.Moveable pulleys are attached to the object being lifted and allow you to exert a smaller force; mechanical advantage of two. 3.Pulley system—combination of fixed and movable pulleys

20. Pulleys Type of Pulley Effect on force Mechanical Advantage Fixed pulley Movable pulley Pulley System

21. Inclined plane that moves— wedge; changes the direction of the applied force; example: your front teeth

22. Screw—Inclined plane wrapped around a cylinder or post; mechanical advantage = the length of inclined plane around screw the length of the screw.

23. Assignment: