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Work & Simple Machines

Work & Simple Machines. Define / Describe WORK. Define / Describe WORK. Work is done when a force causes an object to move in the direction that the force is applied. The formula for work is: W = F X D If there is no movement, there is no work.

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Work & Simple Machines

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  1. Work & Simple Machines

  2. Define / Describe WORK

  3. Define / Describe WORK • Work is done when a force causes an object to move in the direction that the force is applied. • The formula for work is: W = F X D • If there is no movement, there is no work

  4. Two things must happen for work to be done. What are they?

  5. Two things must happen for work to be done. What are they? • A force must applied to an object • The object must move in the same direction as the force.

  6. Work ‘s symbol is W • Work’s unit is Joule • A joule is a unit of energy • W= Fd • Joule= N m

  7. What is power? • Power is the rate at which work is done. • Power symbol is P • Power unit is Watt, W (for James Watt) • Defined as P=Work / time • P=W/t • Watt= Joule/time

  8. What is the purpose of a machine?

  9. What is purpose of a machine? • To make work easier • To make easier the transfer of energy

  10. How do machines make work easier?

  11. How do machines make work easier? • They can change the amount of force • They can change the distance (Remember that Work = Force X Distance) • They can also change the direction MORE

  12. How do machines make work easier? Any change in the size of the force changes the distance. No machine can increase both force and distance. • Multiply force which decreases distance the load moves. • Multiply the distance which decreases force. • Or, they leave force and distance alone but change the direction in which the load moves.

  13. What is mechanical advantage?

  14. What is mechanical advantage? The number of times a machine multiplies the effort or input force. Mechanical Advantage= input d/output d Or output F/input F Efficiency= W output/ W input W=Fd

  15. What are the 6 types of simple machines?

  16. What are the 6 types of simple machines? • Screw • Wedge • Inclined plane • Pulley • Wheel and axle • Lever

  17. What is a compound (or complex) machine? • A machine made up of two or more simple machines.

  18. Describe LEVER

  19. Describe LEVER A simple machine made with a rigid bar free to pivot (move) around a fixed point called a fulcrum

  20. Describe the 3 types of levers:

  21. Describe the 3 types of levers: • A first class lever is like a teeter-totter or see-saw. One end will lift an object (child) up just as far as the other end is pushed down. • A second class lever is like a wheel barrow. The long handles of a wheel barrow are really the long arms of a lever. • A third class lever is like a fishing pole. When the pole is given a tug, one end stays still but the other end flips in the air catching the fish. MORE

  22. Diagrams of Levers Effort force = input force Load – output force

  23. Diagrams of Levers http://www.professorbeaker.com/lever_fact.html

  24. Describe PULLEYS

  25. Describe PULLEYS A simple machine made with a rope, belt or chain wrapped around a grooved wheel. A pulley works two ways.

  26. Diagrams of Pulleys Fixed pulley: http://www.smartown.com/sp2000/machines2000/pulley2.htm Movable Pulley: http://www.smartown.com/sp2000/machines2000/pulley3.htm

  27. How does a pulley work?

  28. How does a pulley work? A pulley works two ways. It can change the direction of a force or it can change the amount of force.

  29. What are the types of pulleys?

  30. What are the types of pulleys? • Fixed pulley Does not multiply force. Changes the direction of the effort force. Mechanical advantage is equal to one. • Movable pulley Multiplies effort force but cannot change direction of the effort force. Mechanical advantage is the effort distance divided by the resistance distance. • Pulley system A combination of fixed and movable pulleys. Mechanical advantage is equal to the number of supporting ropes.

  31. How does a fixed pulley work?

  32. How does a fixed pulley work? A fixed pulley changes the direction of the applied force. ( Ex. Raising a flag )

  33. How does a moveable pulley work?

  34. How does a moveable pulley work? A movable pulley is attached to the object that is being moved.

  35. What is an inclined plane?

  36. What is an inclined plane? A simple machine with no moving parts. It is simply a straight slanted surface. ( Ex. a ramp.)

  37. Diagram of Inclined Plane http://www.smartown.com/sp2000/machines2000/inclinedplane.htm

  38. What is a wheel and axle?

  39. What is a wheel and axle? A wheel and axle is a modification of a pulley. A wheel is fixed to a axle. The wheel and axle must move together to be a simple machine. Sometimes the wheel has a crank or handle on it. Examples of wheel and axles include roller skates and doorknobs.

  40. Diagram of Wheel & Axle http://www.smartown.com/sp2000/machines2000/wheelandaxle.htm

  41. What is a wedge?

  42. What is a wedge? A modification of an inclined plane that moves . It is made of two inclined planes put together. Instead of the load being moved up an inclined plane, the inclined plane moves the load.

  43. Diagram of Wedge www.angelfire.com/scifi/dschlott/ simplemachines.html

  44. What is a screw?

  45. What is a screw? A simple machine that is like an inclined plane. It is an inclined plane that wraps around a shaft.

  46. Diagram of Screw

  47. Go to this link for more information about machines. Remember to hit the “back” button on your browser to return to this slide show. http://www.usoe.k12.ut.us/curr/science/sciber00/8th/machines/sciber/intro.htm

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