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Energy, Work and Power. Energy Energy: the currency of the universe. Just like money, it comes in many forms! Everything that is accomplished has to be.

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Presentation on theme: "Energy, Work and Power. Energy Energy: the currency of the universe. Just like money, it comes in many forms! Everything that is accomplished has to be."— Presentation transcript:

1 Energy, Work and Power

2 Energy Energy: the currency of the universe. Just like money, it comes in many forms! Everything that is accomplished has to be “paid for” with some form of energy. Energy can’t be created or destroyed, but it can be transformed from one kind into another and it can be transferred from one object to another.

3 Doing WORK is one way to transfer energy from one object to another. Work = Force x displacement W = F∙d Unit for work is Newton x meter. One Newton-meter is also called a Joule, J.

4 Work- the transfer of energy

5 Work = Force x displacement Work is not done unless there is a displacement. If you hold an object a long time, you may get tired, but NO work was done on the object. If you push against a solid wall for hours, there is still NO work done on the wall.

6 For work to be done, the displacement of the object must be along the same direction as the applied force. They must be parallel. If the force and the displacement are perpendicular to each other, NO work is done by the force.

7 For example, in lifting a book, the force exerted by your hands is upward and the displacement is upward- work is done. Similarly, in lowering a book, the force exerted by your hands is still upward, and the displacement is downward. The force and the displacement are STILL parallel, so work is still done. But since they are in opposite directions, now it is NEGATIVE work. F F d d

8 On the other hand, while carrying a book down the hallway, the force from your hands is vertical, and the displacement of the book is horizontal. Therefore, NO work is done by your hands. Since the book is obviously moving, what force IS doing work??? The static friction force between your hands and the book is acting parallel to the displacement and IS doing work! F d

9 Example How much work is done to push a 5 kg cat with a force of 25 N to the top of a ramp that is 7 meters long and 3 meters tall? W = Force x displacement Which measurement is parallel to the force- the length of the ramp or the height of the ramp? W = 25 N x 7 m W = 175 J 7 m 3 m F = 25 N

10 Example How much work is done to carry a 5 kg cat to the top of a ramp that is 7 meters long and 3 meters tall? W = Force x displacement What force is required to carry the cat? Force = weight of the cat Which is parallel to the weight vector- the length of the ramp or the height? d = height NOT length W = mg x h W = 5 x 10 x 3 W = 150 J 7 m 3 m

11 And,….while carrying yourself when climbing stairs or walking up an incline, only the height is used to calculate the work you do to get yourself to the top! The force required is your weight! Horizontal component of d Vertical component of d Your Force

12 How much work do you do on a 30 kg cat to carry it from one side of the room to the other if the room is 10 meters long? ZERO, because your Force is vertical, but the displacement is horizontal.

13 Pre-AP only…

14 Example A boy pushes a lawnmower 20 meters across the yard. If he pushed with a force of 200 N and the angle between the handle and the ground was 50 degrees, how much work did he do?  F Displacement = 20 m F cos  W = (F cos  )d W = (200 cos 50˚) 20 m W = 2571 J

15 A 5.0 kg box is pulled 6 m across a rough horizontal floor (  = 0.4) with a force of 80 N at an angle of 35 degrees above the horizontal. What is the work done by EACH force exerted on it? What is the NET work done? ●Does the gravitational force do any work? NO! It is perpendicular to the displacement. ● Does the Normal force do any work? No! It is perpendicular to the displacement. ● Does the applied Force do any work? Yes, but ONLY its horizontal component! W F = F A cos  x d = 80cos 35˚ x 6 m = 393.19 J ● Does friction do any work? Yes, but first, what is the normal force? It’s NOT mg! Normal = mg – F A sin  W f = -f x d = -  N∙ d = -  (mg – F A sin  ∙ d = -7.47 J ● What is the NET work done? 393.19 J – 7.47 J = 385.72 J mg Normal FAFA  f

16 Watch for those “key words” NOTE: If while pushing an object, it is moving at a constant velocity, the NET force must be zero. So….. Your applied force must be exactly equal to any resistant forces like friction.

17 Energy and Work have no direction associated with them and are therefore scalar quantities, not vectors. YEAH!!

18

19 Power is the rate at which work is done- how fast you do work. Power = work / time P = W / t You may be able to do a lot of work, but if it takes you a long time, you are not very powerful. The faster you can do work, the more powerful you are.

20 The unit for power is Joule / seconds which is also called a Watt, W (just like the rating for light bulbs) In the US, we usually measure power developed in motors in “horsepower” 1 hp = 746 W

21 Example A power lifter picks up a 80 kg barbell above his head a distance of 2 meters in 0.5 seconds. How powerful was he? P = W / t W = Fd W = mg x h W = 80 kg x 10 m/s 2 x 2 m = 1600 J P = 1600 J / 0.5 s P = 3200 W

22 Another way of looking at Power: Power = Force x velocity

23

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