Lesson Plan for:Davis, Lucas S. Term:1 Period:2 Page: 1 400081.02

... transformation, including chemical to electrical, chemical to heat, electrical to light, electrical to mechanical, and electrical to sound. Students will __ recognize how energy is defined __ describe common forms of energy __ illustrate that the two general types of energy are kinetic energy and po ...

Passive Cooling - Teenergy Schools

... Decisions taken in the early stages of architectural design have an important impact on energy demand and efficiency. In this design phase, architects and engineers need to manipulate common concepts that reveal the influence of building, comfort criteria, and climate on energy consumption. Such a c ...

Work, Power, and Energy

... Any extra energy that may be lost is transferred to heat energy (Q) by any friction in the system ...

Energy Basics

... energy that holds the nucleus together. Large amounts of energy can be released when the nuclei are combined or split apart. Gravitational energy is energy stored in an object's height. The higher and heavier the object, the more gravitational energy is stored. When a person rides a bicycle down a s ...

energy study guide File

... 1. The amount of kinetic energy a moving object has depends on its mass and its __________________. 2. The potential energy of an object depends on its ________________________. 3. The energy stored in foods and fuels is _______________________ potential energy. 4. The law of _______________________ ...

What is Energy? PPT.

... When you talk on the phone, your voice is transformed into electrical energy, which passes over wires (or is transmitted through the air). The phone on the other end changes the electrical energy into sound energy through the speaker. A car uses stored chemical energy in gasoline to move. The engine ...

15.1 Energy and Its Forms

... • This includes anything that springs, such as stringed instruments (guitars, etc.) and ...

Energy and Energy Resources

... • It can only be transferred or converted. • In every energy conversion some thermal energy is given off due to friction. • This means that there is no such thing as a perpetual motion machine. ...

Conservation of Energy

... Pumped Storage schemes During periods of peak demand they operate as conventional hydro electric stations. During early hours of morning the excess electrical energy generated by the coal and nuclear stations is used to pump water back behind the dam. The pumps are inefficient. This allows the coal ...

Photosynthesis

...  Later it was shown that this would only occur if the plant was placed in the light. ...

ip ch 9 study guide (H)

... power of another engine, this means that it can do twice the work in the same amount of time or the same amount of work in half the time. • The unit of power is the joule per second, which is also known as the watt. One watt (W) of power is expended when one joule of work is done in one second. • In ...

Energy Notes

... • Where did the energy we see around us come from? – most of what we use derives from the sun – some derives from other, exploded stars (nuclear fission) – ultimately, all of it was donated in the Big Bang! ...

Chapter 9 Study Guide

... 22. Is it possible to have a machine that keeps moving forever without any source of energy? Why or why not? No, because, remember, energy cannot be created. Therefore, every machine in the world has to have some source of energy. ...

CBSE Class 9 Work Energy and Power Solved test paper-06

... (b) Work done by the girl, W = FS = (mass of girl) × retardation × S = 35 × 0.5 × 16 = 280 J 12. Q. Define average power? Ans: The amount of work performed during a period of time is called average power or simply power. 13. Q. two children A nad B each weighing 20 kg climb a rope upto the height of ...

Energy

... Force acts in the direction opposite the objects motion in order to slow it down. The negative of negative work refers to the numerical value that results when values of F, d and theta are substituted into the work equation. Cosine Θ is negative between 90 and 270 degrees. ...

Unit I: Mineral and Energy Resources

... •Differentiate among various forms of energy and recognize that they can be transformed from one form to others. •Analyze past, present, and potential future consequences to the environment resulting from various energy production technologies. •Evaluate the costs and benefits of renewable and nonre ...

What is Energy?

... The chemical bonds in a matchstick store energy. It is transformed into thermal energy when the match is struck. ...

Work and Energy

... An object’s kinetic energy is energy of motion, is determined by its mass and speed. KE = ½ mv2. Potential energy and kinetic energy are forms of mechanical energy. In addition to mechanical energy, most systems contain non mechanical energy. Non mechanical energy does not usually affect systems on ...

Kinetic Energy

... The faster an object moves, the more kinetic energy it has. So kinetic energy is directly related to the velocity of an object. In baseball, a fast ball has more kinetic energy than a slow curve. You have more kinetic energy ...

Potential Energy - Sereika Science

...  Potential energy is stored and waiting to be used (has the potential to move or change something) ...

Components of Energy Literacy according to the DOE

... Can trace energy flows and think in terms of energy systems Knows how much energy he or she uses, for what, and where the energy comes from Can assess the credibility of information about energy Can communicate about energy and energy use in meaningful ways Is able to make informed energy and energy ...

Mechanical Energy = Potential Energy + Kinetic Energy

... The ability to do work is called energy. Work, therefore, occurs when energy is changed from one form to another. There are many forms of energy. So far, you have learned about one of these forms of energy called Mechanical energy--the energy associated with the motion (kinetic) or position (potenti ...

kinetic energy - Lakeland Regional High School

... Work and Kinetic Energy  The ...

Thermal Energy and Heat + Conservation of Energy

... usually occurs in gases and liquids.  During convection, the movement of the particles forms a current, which is a flow, from one place to another in one direction. Liquid water has a high heat capacity which means that it takes a lot of energy to increase the temperature of a mass of water. ...

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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