Energy - Cloudfront.net

... Water Power (hydropower) • Water Power can produce mechanical and electrical energy. Dams are used to contain flowing river water forming lakes and reservoirs. As water flows downhill it is channeled to a turbine or water wheel. The force of the flowing water turns the turbine or wheel, which turns ...

Energy Intro

... that are held at a distance from each other. This results in a form of potential energy that changes with the configuration of the charges within a system. Batteries take advantage of converting chemical potential energy into electrical energy. Other Forms of Potential Energy All of the examples of ...

Energy Transformations - Pop Art Style

... electromagnetic, solar, radiant, chemical, thermal (in transit is heat), nuclear, elastic, sound, light, mechanic, luminous). Post the definition of “energy transformation” and emphasize the fact that energy transformations are taking place constantly all over the world, even in our bodies. Now it’s ...

Ch 14 Work, Power and Simple Machines

... KE = ½mv2 • Notice that doubling the mass doubles the KE • But, if you double the speed you quadruple the KE! ...

New Mexico`s Unique Energy Environment

... New Mexico’s Unique Energy Environment Now that you have been introduced to the different sources of energy, let’s explore what makes NM so unique in its energy producing potential. Your teacher will divide your class into different groups: solar, wind, biofuels, geothermal, and hydro (some groups m ...

Lab #9

... time it takes the ball to fall, and then find the average speed it has just before it hits the table. Use that average speed to calculate the ball’s average kinetic energy just before it hits. Use a value of 9.8 m/s/s for g. Repeat your measurements and calculations for heights of 20 cm, 30 cm, 40 c ...

Lab #9 - Austin Community College

... time it takes the ball to fall, and then find the average speed it has just before it hits the table. Use that average speed to calculate the ball’s average kinetic energy just before it hits. Use a value of 9.8 m/s/s for g. Repeat your measurements and calculations for heights of 20 cm, 30 cm, 40 c ...

Unit 9: Energy, Work, and Power

... Lesson Goal: Become familiar with various forms of energy. At the Bell: Pick up the worksheets at the front of class and complete the warm up. ...

Law of Conservation of Matter and Energy

... equation equals the mass of the products. The products of a chemical reaction usually look different from the reactants. If a gas is produced, for example, you may not see it. Yet its mass must be included as part of the total mass of the products. It also may show up as bubbles or affect the pressu ...

Chapter 3

... The Big Idea Thermal energy moves from warmer to cooler materials until the materials have the same temperature. ...

Chapter 3

... cooler materials until the materials have the same temperature. ...

Energy

... changes are accompanied by change in energy The chemistry of energy changes ...

Energy Resources and Energy Transfer

... care: it is not true to say that they can be re-used. Renewable: biomass Biomass fuels are fuels from living things such as trees. Wood is a biomass fuel. As long as we continue to plant new trees to replace those cut down, we will always have wood to burn. Just as with the fossil fuels, the energy ...

userfiles/269/my files/ch05 notes?id=227

... – A student holds a heavy chair at arm’s length for several minutes. – A student carries a bucket of water along a horizontal path while walking at a constant velocity. ...

Energy Flow and Conversion - Department of Physics and Astronomy

... strict efficiency requirements. During the following years, California's energy consumption has remained approximately flat on a per capita basis while national U.S. consumption doubled. As part of its strategy, California implemented a "loading order" for new energy resources that puts energy effic ...

Forms of Energy

... • All forms of energy have one thing in common: they have the ability to cause change. ...

Document

... 13. The law of conservation of energy states that energy can neither be created nor destroyed – only changed_ 14. Increasing the speed of an object does not affect_ its potential energy 15. The SI unit for energy is the _joule_. 16. You can calculate kinetic energy by using the equation _KE = 1.2 m ...

Energy Transfer - seattlescience

... forms involved (e.g. energy increased in the air). 2 This attribute may only be credited when the response describes a plausible location (e.g. kinetic energy increased in the system cannot be credited unless the response ...

Unit: Energy

... Key Words: energy, energy transfer, law of conservation of energy, work, potential energy, kinetic energy, gravity, chemical potential energy, thermal energy, heat, temperatureradiant energy, nuclear energy, sound, mechanical energy, friction, force, acceleration Essential Questions (by Section): Tr ...

Potential Energy and Kinetic Energy - Science - Miami

... Core Text Book: Pearson Interactive Science Florida Ch. 8.1 – 8.2 and Ch. 2 Vocabulary: energy, kinetic energy, potential energy, gravitational potential energy, elastic potential energy, joule, mass, energy transformation, mechanical energy, Law of Conservation of Energy, heat, law (scientific law) ...

energy

... • Lignite is the lowest ranked and is softest, takes the least time to form, burns quickest and contains the least amount of usable energy. • Bituminous is the next highest raking. • Anthracite is the hardest, takes the longest to form and contains the most usable energy. • Softer coal also has more ...

Energy and Energy Transformations Test Review

... Thermal equilibrium is met when all parts of the system are the same temperature (Think about all items in the room being room temperature even if they don’t feel that way. Remember the lab with the 3 temperatures of water.) 7. Explain the difference between energy transfer and an energy transformat ...

Forms of Energy Potential Energy Kinetic Energy Nuclear Energy

... What is the role of machines in energy conversions? Machines can transfer energy from one object to another as they make work easier. For example, when you use a crowbar to remove a hubcap, you transfer energy to the crowbar, and the crowbar transfers energy to the hubcap. The way the energy is tran ...

WORK: Work is done when the force produces motion. Def: WORK is

... Chemical energy: the energy released in chemical reactions .the energy possessed by fuels (petrol, diesel, gas), food Electrical energy:the energy of moving electrons in a conductor(charged body ,electrical cell) Nuclear energy: The energy released when two nuclei of light elements combine to each ...

Section 1 Powerpoint

... Without a supply of energy to run our millions of machines, society as we know it would cease to exist! Because of our reliance on fossil fuels, supplies of coal, gas, and oil are dwindling. But the ability to convert from one form to another may yet save our way of life, An unusual source of energy ...

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Energy subsidies

Energy subsidies are measures that keep prices for consumers below market levels or for producers above market levels, or reduce costs for consumers and producers. Energy subsidies may be direct cash transfers to producers, consumers, or related bodies, as well as indirect support mechanisms, such as tax exemptions and rebates, price controls, trade restrictions, and limits on market access. They may also include energy conservation subsidies. The development of today's major modern energy industries have all relied on substantial subsidy support.Fossil fuel subsidies reached $90 billion in the OECD and over $500 billion globally in 2011. Renewable energy subsidies reached $88 billion in 2011. If we also take into account the price difference offered to developing countries of the fossil fuels (in developing countries, fossil fuels are sold below the regular price), then fossil fuels are subsidised with an additional 550 billion dollars per year. According to Fatih Birol, Chief Economist at the International Energy Agency without a phasing out of fossil fuel subsidies, we will not reach our climate targets. The IMF estimates that for 2015 the economic cost of energy subsidies worldwide will amount to US$5.3 trillion, or US$10 million every minute. This is not to be confused with actual amount of subsidies which are projected to amount to around US$333 billion for 2015. This would be a decrease from 2014 which reflects the slump in oil prices rather than policy changes.

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Energy subsidies