Energy – Where does it come from and why does it produce waste?

... • Second Law: In any energy conversion, you will end up with lower quality (less usable) energy than you started with. • QUALITY = The measure of the energy’s ability to be used to produce mechanical or electrical energy • Low temperature heat has the LOWEST quality ...

13.6 Pyramid Models

... An energy pyramid shows the distribution of energy among trophic levels. • Energy pyramids compare energy used by producers and other organisms on trophic levels. • Between each tier of an energy pyramid, up to 90 percent of the energy is lost into the atmosphere as heat. • Only 10 percent of the en ...

What Is Energy?

... Energy Forms What are the most common forms of energy in our physical world and how do they compare? ...

Chapter 14 Notes

... Law of Conservation of Energy ◦ Energy cannot be created or destroyed. ◦ Can move from one object to another ◦ Can change from one form to another ◦ Every time energy changes form, some energy is given off as unusable heat. ...

Unit 4 - Thermo Chemistry Learning Objectives

... You will be able to explain how the quality of energy changes as it is used. You will be able to identify the energy resources in our world, and the impact of humans on these energy resources. Compare non-renewable energy (fossil fuels, petroleum, natural gas, coal) versus renewable energy sources ( ...

Learning Objectives

... You will be able to explain how the quality of energy changes as it is used. You will be able to identify the energy resources in our world, and the impact of humans on these energy resources. Compare non-renewable energy (fossil fuels, petroleum, natural gas, coal) versus renewable energy sources ( ...

Conservation of Energy

... The energy can either cross a boundary or the energy is transformed into a form of non-mechanical energy such as thermal energy ...

Energy and Its Forms - Ms. Adams

... The energy associated with the motion and position of everyday objects is mechanical energy. ...

1 Newtonian Mechanics: Energy, Work and Power Candidates

... The Principle of the Conservation of Energy states that energy cannot be destroyed or created. It can only be converted from one from to another, or transferred from one body to another. The total energy in the system remains constant. ...

Energy

... Nuclear Energy • There are two types of nuclear energy • Fission and Fusion • Both forms energy are stored as mass in the atoms of certain elements. This mass can be changed into energy under the proper conditions according to Albert Einstein's famous equation: • nuclear fission • nuclear fusion • ...

Lesson 6?: Title: WORK

... The moon is orbiting the earth; is work being done on it? No. The centripetal force is  d. This means that gravity will not change the speed (or Ek or Eg) of the moon. Note: we don’t look at Work for astronomical situations – we use gravitational energy formulae, and changes of momentum. Work-Ener ...

Topic 2 - Sciwebhop.net

... (a) too much emphasis on nuclear energy not enough spent on renewable sources ...

ENERGY

... Law of Conservation of Energy. b.Explain the relationship between potential and kinetic energy. c. Compare and contrast the different forms of energy (heat, light, electricity, mechanical motion, sound) and their characteristics. ...

“SM”AC G. HELMS

... “SM”AC G. HELMS CHEMICAL ENERGY the energy stored in matter that is released during a chemical change. • Burning chemicals in fuel to make heat • Using chemicals stored in batteries to operate a toy • Digestion of chemicals found in food to give living things energy (chemical energy is potential en ...

Energy - Triton Science

... 2. As an object falls, GPE is converted into KE. The total mechanical energy still remains the same ...

Energy - Seymour ISD

... 3. Draw a diagram of what happens as the toy pops. Label the diagram with the different forms of energy observed and the energy transformations that occur. ...

5.11 Potential and Kinetic Energy

... Elastic potential energy- occurs when an object is stretched or compressed Examples: bow, rubber band, spring ...

Work, Power, and Energy Webquest

... 3. A tired squirrel (mass of 1 kg) does push-ups by applying a force to elevate its center-of-mass by 5 cm. Determine the number of push-ups which a tired squirrel must do in order to do a mere 1.0 Joule of work. If the tired squirrel does all this work in 4 seconds, then determine its power. ...

Name

... 18) If a Suburban and a Miata are going the same speed, but the Suburban weighs three times as much as the Miata, how many times more kinetic energy does the Suburban have than the Miata? a) 1 b) 3 c) 4.5 d) 9 e) not enough information 19) Two identical (except for color) Miatas are traveling down t ...

A Methodology to Develop a Sustainable, High Performance

... Now let us envision a world 20 years from now when most Office Parks, Universities, Hospitals, Communities and Towns are electricity generators rather than users, and all transport runs on cleanly generated electricity. ...

Forms of Energy

... Energy Transformations Continue  Multiple Transformations:  A series of energy transformation to do work  Example: the mechanical energy used to strike a ...

Example Picture Sequence of Energy Forms

... NAME____________ANSWER KEY__________DATE__________PERIOD________ 10. How do the energy conversions in a toaster reflect the law of conservation of energy? What happens to the total amount of energy in the system? The law of conservation of energy is reflected in the toaster energy conversion becaus ...

Questions on Energy and Power

... used in the engine. The inventor claims the system produces more energy than it uses. Should you invest in this new system? Why not (name the law which is broken)? 2. An inventor claims to have invented a motor that is 100% efficient. Would you invest in this device? Why not? 3. Why can’t a gasoline ...

CH 7 Study Guide-Answers

... 3. Kinetic energy depends on __speed___________ and __mass_________________. 4. Potential energy depends on ___weight_______ and ____height (and position)__. 5. What are three types of potential energy? Give an example of each. a. _gravitational______________ example: holding a backpack in the air b ...

Energy levels

... • If an electron GAINS energy, it can jump UP energy levels • If an electron LOSES energy, it can jump DOWN energy levels • The size of the jump determines the amount of energy lost or gained ...

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Zero-energy building

A zero-energy building, also known as a zero net energy (ZNE) building, net-zero energy building (NZEB), or net zero building, is a building with zero net energy consumption, meaning the total amount of energy used by the building on an annual basis is roughly equal to the amount of renewable energy created on the site. These buildings consequently do not increase the amount of greenhouse gases in the atmosphere. They do at times consume non-renewable energy and produce greenhouse gases, but at other times reduce energy consumption and greenhouse gas production elsewhere by the same amount.Most zero net energy buildings get half or more of their energy from the grid, and return the same amount at other times. Buildings that produce a surplus of energy over the year may be called ""energy-plus buildings"" and buildings that consume slightly more energy than they produce are called ""near-zero energy buildings"" or ""ultra-low energy houses"".Traditional buildings consume 40% of the total fossil fuel energy in the US and European Union and are significant contributors of greenhouse gases. The zero net energy consumption principle is viewed as a means to reduce carbon emissions and reduce dependence on fossil fuels and although zero-energy buildings remain uncommon even in developed countries, they are gaining importance and popularity.Most zero-energy buildings use the electrical grid for energy storage but some are independent of grid. Energy is usually harvested on-site through a combination of energy producing technologies like solar and wind, while reducing the overall use of energy with highly efficient HVAC and lighting technologies. The zero-energy goal is becoming more practical as the costs of alternative energy technologies decrease and the costs of traditional fossil fuels increase.The development of modern zero-energy buildings became possible not only through the progress made in new energy and construction technologies and techniques, but it has also been significantly improved by academic research, which collects precise energy performance data on traditional and experimental buildings and provides performance parameters for advanced computer models to predict the efficacy of engineering designs. Zero Energy Building is considered as a part of smart grid. Some advantages of these buildings are as follow: Integration of renewable energy resources Integration of plug-in electric vehicles Implementation of zero-energy conceptsThe net zero concept is applicable to a wide range of resources due to the many options for producing and conserving resources in buildings (e.g. energy, water, waste). Energy is the first resource to be targeted because it is highly managed, expected to continually become more efficient, and the ability to distribute and allocate it will improve disaster resiliency.

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Zero-energy building