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Machines

Machines. Introduction to Machines Force Work Mechanical Advantage. Objectives. Explain how machines make work easier. Calculate mechanical advantage and efficiency. CLE 3202.4.3 Demonstrate the relationship among work, power, and machines. A. Using Machines.

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Machines

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  1. Machines Introduction to Machines Force Work Mechanical Advantage

  2. Objectives • Explain how machines make work easier. • Calculate mechanical advantage and efficiency. CLE 3202.4.3 Demonstrate the relationship among work, power, and machines.

  3. A. Using Machines • A machine is a device that makes work easier. • Machines can be simple. • Some, like knives, scissors, and doorknobs, are used everyday to make doing work easier.

  4. A. Using Machines 4. Machines make work easier by: a. increasing the force that can be applied to an object. b. increasing the distance over which a force can be applied. c. changing the direction of an applied force.

  5. Using Machines • A car jack is an example of a machine that increases an applied force. • The upward force exerted by the jack is greater than the downward force you exert on the handle. • The jack increases the applied force, but doesn’t increase the work done.

  6. Using Machines 5. Increasing distance reduces the amount of force needed to do the work.

  7. Using Machines 6. Same amount of work can be done by applying a small force over a long distance as can be done applying a large force over a short distance, since Work = Force X distance

  8. Using Machines B. Changing Direction Some machines change the direction of the force you apply. 2. The wedge-shaped blade of an ax is one example.

  9. Using Machines The blade changes the downward force into a horizontal force that splits the wood apart.

  10. C. Forces Two forces are involved when a machine is used to do work.

  11. C. Forces • Effort Force (Fe) • force applied to the machine • “what you do” • Resistance Force (Fr) • force applied by the machine to overcome the resistance • “what the machine does”

  12. D. Work Two kinds of work: • The work done by you on a machine is called the input work ( Win .) • The work done by the machine is called the output work ( Wout.)

  13. D. Work • Work Input (Win) • work done on a machine Win • Work Output (Wout) • work done by a machine Wout

  14. E. Conserving Energy 1. A machine cannot create energy, so Wout is never greater than Win. • When a machine is used, some of the energy transferred changes to heat due to friction. 3. The energy that changes to heat cannot be used to do work, so Wout is always smaller than Win.

  15. F. Ideal Machine • In an ideal machine... One in which there was no friction. Win = Wout • But in the real world…An ideal machine DOES NOT EXIST! • some energy is lost as friction Win > Wout

  16. G. Mechanical Advantage • Mechanical Advantage (MA) • number of times a machine increases the effort force

  17. H. Ideal Mechanical Advantage The mechanical advantage of a machine without friction is called the ideal mechanical advantage, or IMA.

  18. Fr Fe MA Mechanical Advantage • A worker applies an effort force of 20 N to open a window with a resistance force of 500 N. What is the crowbar’s MA? GIVEN: Fe = 20 N Fr = 500 N MA = ? WORK: MA = Fr ÷ Fe MA = (500 N) ÷ (20 N) MA = 25

  19. Fr Fe MA Mechanical Advantage • Find the effort force needed to lift a 2000 N rock using a jack with a mechanical advantage of 10. GIVEN: Fe = ? Fr = 2000 N MA = 10 WORK: Fe = Fr ÷ MA Fe = (2000 N) ÷ (10) Fe = 200 N

  20. I. Efficiency • Efficiency is a measure of how much of the work put into a machine is changed into useful output work by the machine. • A machine with high efficiency produces less heat from friction so more of the input work is changed to useful output work.

  21. Efficiency 3. Lubricants, such as oil or grease, can make machines more efficient by reducing friction 4. A lubricant fills in the gaps between the surfaces, enabling the surfaces to slide past each other more easily. ***Some energy is lost due to friction.

  22. Efficiency • Efficiency • measure of how completely work input is converted to work output • Efficiency of a machine is always less than 100% due to friction

  23. 4.0m 500N 1.0m 1500N Efficiency • A worker exerts a force of 500 N to push a 1500 N sofa 4.0 m along a ramp that is 1.0 m high. What is the ramp’s efficiency? GIVEN: Fe = 500 N de = 4.0 m Fr = 1500 N dr = 1.0 m WORK: Win = (500N)(4.0m) = 2000 J Wout = (1500N)(1.0m) = 1500 J E = 1500 J × 100% 2000 J E= 75%

  24. Why is a machine’s efficiency less than 100%? Some energy is converted to heat due to friction.

  25. Section Check 2 Question 1 What do a knife, a doorknob, and a car jack have in common? Answer These are all machines, because they are devices that make doing work easier.

  26. Section Check 2 Question 2 When a machine is used to do work, the force that is applied to the machine is the __________. • fulcrum • effort force • mechanical advantage • resistance force

  27. Section Check 2 Answer The answer is B. The input force is applied to the machine.

  28. Section Check 2 Question 3 What is the effect of increasing a machine’s efficiency? Answer Increasing efficiency increases the amount of input energy converted to useful output.

  29. Objectives • Explain how machines make work easier. • Calculate mechanical advantage and efficiency. CLE 3202.4.3 Demonstrate the relationship among work, power, and machines.

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