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Chapter 15 Energy.

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Presentation on theme: "Chapter 15 Energy."— Presentation transcript:

1 Chapter 15 Energy

2 On Page 164, Write down and Answer the 15-1 Objectives:
1. How are energy and work related? Before: After: What factors does the Kinetic Energy of an object depend on? How is Gravitational Potential Energy determined? What are the major forms of Energy?

3 II. Energy and Work Whenever work is done, energy is transferred or transformed to another form. -In fact, one way to define energy is as the ability to do work. *Energy is measured in Joules :While work is done only when an object experiences a change in its motion, energy can be present in an object or a system when nothing is happening at all.

4 :But energy can be observed only when it is transferred from one object to another, as when a slingshot transfers the energy from its elastic band to a stone in the sling. :The amount of energy transferred from the slingshot can be measured by how much work is done on the stone. :Because energy is a measure of the ability to do work, energy and work are both measured in Joules (J).

5 III. Potential Energy Stretching a rubber band requires work. If you then release the stretched rubber band, it will fly away from your hand. The energy used to stretch the rubber band is stored so that it can be used to do work at a later time.

6 - But where is the energy between the time you do work on the rubber band and the time you release it? *Potential energy is Stored energy. :A stretched slingshot or rubber band stores energy in a form called POTENTIAL ENERGY.

7 :The rubber band has potential energy because the 2 ends of the band are far away from each other.
:The energy stored in any type of stretched/compressed elastic material is called ELASTIC POTENTIAL ENERGY.

8 :An apple will fall if the stem breaks off the branch
:An apple will fall if the stem breaks off the branch. The energy that could potentially do work on the apple results from its position above the ground.

9 *GPE depends on both Mass and Height.
:This type of stored energy is called GRAVITATIONAL POTENTIAL ENERGY. :Any system of 2 or more objects separated by a distance contains GPE resulting from the gravitational attraction between the 2 objects. *GPE depends on both Mass and Height.

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11 GPE = Mass x Free-Fall Acceleration x Height GPE = mgh g = 9.8 m/s2
:The higher the object, the more GPE :The lower the height, the smaller the GPE :The heavier the object, the larger the GPE :The lighter the object, the smaller the GPE :Because it results from the force of gravity, GPE depends both on the mass of the objects in a system and on the distance between them. GPE = Mass x Free-Fall Acceleration x Height GPE = mgh g = 9.8 m/s2

12 Calculate GPE for the following…..
1. A car with a mass of 1200 kg at the top of a 42 m high hill. GPE = ? m = 1200kg g = 9.8m/s2 h = 42m GPE = mgh GPE = (1200)(9.8)(42) GPE = 493,920 J

13 2. A 65 kg climber on the top of Mt. Everest (8800m high).
GPE = ? m = 65kg g = 9.8m/s2 h = 8800m GPE = mgh GPE = (65)(9.8)(8800) GPE = 5,605,600 J

14 3. A 0.52 Kg bird flying at an altitude of 550 m.
GPE = ? m = 0.52kg g = 9.8m/s2 h = 550m GPE = mgh GPE = (0.52)(9.8)(550) GPE = 2,802.8 J

15 IV. Kinetic Energy Once an apple starts to fall from the branch of a tree, it has the ability to do work. Because the apple is moving, it can do work when it hit’s the ground or lands on the head of someone under a tree. - The energy that an object has because it is in motion is called KINETIC ENERGY.

16 *Kinetic Energy depends on Mass and Speed
:The kinetic energy of an object depends on the object’s mass. :As an apple falls, it accelerates.

17 :The kinetic energy of the apple - its ability to do work- increases as it speeds up. :The kinetic energy of an object depends on the square of the object’s speed. KE = (½) x Mass x Speed squared = (½) mv2

18 1. What is the KE of an 8 kg mass at 5 m/s?
KE= ? M = 8 Kg V = 5 m/s KE = ½ MV2 KE = ½ (8)(5)2 KE = ½(8)(25) KE = 100 J

19 2. A 6 kg mass has a KE of 75 J, what is its velocity?
KE = 75 J M = 6 Kg V = ? KE = ½ MV2 V = 2 KE / M V = 2 (75) / 6 V = 5 m/s

20 What has more energy, a 20 kg mass moving at 9 m/s, or a 4 kg mass 25 m above the floor?
PE = ? M = 4 Kg G = 9.8 m/s2 H = 25m PE = mgh PE = (4)(9.8)(25) PE = 980 J KE = ? M = 20 Kg V = 9 m/s KE = 1/2 MV2 KE = ½ (20)(9)2 KE = 810 J

21 V. Forms of Energy A. Mechanical : Not limited to machines : Sum of an object’s PE and KE : Energy in Motion : Speeding train, bouncing balls, sprinting athletes

22 B. Thermal : Total PE and KE of all particles microscopic
: Anything that gives off heat to emit visible light : Molten metal, the sun

23 C. Chemical : Energy stored in chemical bonds : When bonds are broken, they release energy : Fuels, coal, gas

24 D. Electrical : Energy associated with electric charges
: Batteries, nature---lightning 

25 E. Electromagnetic : Form of energy that travels through space in the form of waves : X-Rays, IR, Gamma, UV, Microwaves, and Radio waves

26 F. Nuclear : The energy stored in atomic nuclei
: Nuclear power plant, the sun (nuclear fission) (nuclear fusion)

27 Go Back to Page 164 and Re-answer the Objectives.

28 15-2: Energy Conversion and Conservation

29 On Page 135, Write down and answer the following 15.2 Objectives:
Can energy be converted from one form into another? Before: After: 2. What is the Law of Conservation of Energy? 3. What energy conversion takes place as an object falls towards Earth? 4. How are energy and mass related?

30 II. Energy Conversion Energy can be converted from one form to another. This process is called Energy Conversion. This happens all the time without you knowing. Wind-up toys, light bulbs, digestion, lighting a match

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32 III. Conservation of Energy
When energy changes from one form to another, the total energy remains unchanged even though many conversions may occur. The Law of Conservation of Energy states that energy cannot be created nor destroyed in any process. It just changes form.

33 IV. Energy Conversions One of the most common energy conversions is between Kinetic and Potential Energy.  The Potential Energy of an object is converted to the Kinetic Energy of motion as the object falls.  Think of a Pendulum

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36 15-3: Energy Resources

37 Objectives: 1. What are the major nonrenewable and renewable sources of energy? 2. How can energy resources be conserved?

38 II. Nonrenewable Energy Resources
Exist in limited quantities and, once used, cannot be replaced except over the course of millions of years. oil, natural gas, and uranium  Fossil Fuels (coal, natural gas, and oil) creates pollution

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40 III. Renewable Energy Resources
Resources that can be replaced in a relatively short period of time. (mostly directly or indirectly from the sun)  Hydroelectric, solar, geothermal, wind, biomass, and maybe nuclear fusion (lack of pollution)

41 Hydroelectric

42 Solar

43 Geothermal

44 Wind

45 Biomass

46 Nuclear Fusion


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