PRIORITY LEARNING STANDARDS

...  Energy TRANSFORMATION: When energy changes from one form or type of energy into another, we call this an energy transformation. Example: Chemical potential energy in a log transforming into heat, light, and sound energy when it is burning.  Temperature: Temperature is one of the measurements for ...

Chapter 2

... Chemical Energy – a type of potential energy found in bonding between atoms in molecules and compounds. Note: energy is transformed from one form to another. This is called >>>> Law of Conservation of Energy – energy may be converted from one form to another, but the total quantity of energy remain ...

notes

...  Green plants use solar energy during photosynthesis (6-2.7) to produce sugar, which contains stored chemical energy.  Most of the energy that we use on Earth originally came from the Sun. Chemical energy  Chemical energy is energy stored in particles of matter.  Chemical energy can be released, ...

20170209181827

... years • Examples: oil, natural gas, coal, and uranium • Fossil fuels: oil, natural gas, and coal – Creates pollution ...

Energy: Forms and Conversions

... Chemical Energy: Microscopic Version of the Potential Energy Potential energy of a bond between atoms Perhaps the most important way to store forming a molecule energy to be released via chemical reaction, such as methane burning ...

Mrs. Callahan`s Energy

... used in the world? ...

The Nature of Matter - Plain Local Schools

... F. Explain how energy may change form of be redistributed but the total quantity of energy is conserved. G. Demonstrate that waves have energy and waves can transfer energy when they interact with matter. H. Trace the historical development of scientific theories and ideas, and describe emerging iss ...

What is Energy? - Plain Local Schools

... F. Explain how energy may change form of be redistributed but the total quantity of energy is conserved. G. Demonstrate that waves have energy and waves can transfer energy when they interact with matter. H. Trace the historical development of scientific theories and ideas, and describe emerging iss ...

Document

... A friend’s car is stuck on the ice. You push down on the car with a 100 N force to provide more friction for the tires (by way of increasing the normal force), allowing the car’s tires to propel it 5 meters forward onto less slippery ground. How much work did you do? ...

Thermochemistry Ch. 20

... What does the ΔH of the forward and reverse reaction prove? Law of Conservation of Energy ...

15.13 Energy Conservation Problems

... 1. A watermelon with 67 joules of gravitational potential energy fell from a shelf and landed on the floor. What was its kinetic energy when it landed on the floor? ...

Sample 2 - Simple Solutions

... of Conservation of Energy: energy cannot be created or destroyed. But if energy can’t be created, then where does it come from? For that matter, where does the energy that we use go? In the course of being used, energy changes form. Sometimes energy can change form many times. For our first example, ...

Name Date Period ______ ENERGY UNIT STUDY GUIDE Concept

... Kinetic – A car has kinetic energy when it is being driven since it is moving. ...

Types of Energy 1. potential energy – the energy stored in an object

... 1. potential energy – the energy stored in an object or material 2. kinetic energy – the energy of a moving object 3. mechanical energy – energy due to an object’s motion (which is kinetic energy) or an object’s position (which is potential energy) 4. electromagnetic energy – light energy; the energ ...

Some interesting facts about ENERGY

... 8. Income energy generally refers to solar/wind energy which is an endless resource 9. The main forms of capital energy (fossil fuels) are Oil, Gas and Coal 10. Present estimates predict that current oil reserves will run dry within 50 years. 11. Whilst new reserves are being discovered all of the t ...

energy Notes File

... 7. Sound energy: sound energy vibrates air molecules. The vibrating molecules move tiny bones in your ear. The message is then interpreted by the brain. Sound energy vibrates through matter; water, air…..  Ex: ...

S8P2 Students will be familiar with the forms and transformations of

... speed causes a greater increase in kinetic energy than increase in mass. – Potential energy is converted into kinetic energy when an object is acted on by a force and is set in motion. As the object slows the kinetic energy is converted back to potential energy. No energy is created or destroyed. ...

File thermal energy transfer 1.25.16.2

... moves in a predictable pattern from warmer to cooler until all the substances attain the same temperature such as an ice cube ...

Law of Conservation of Energy

... Energy Transformations Other forms of energy: Elastic potential energy (bow & arrow) *Thermal or internal energy (heat) Electric potential energy (capacitors) *Radiant energy (electromagnetic and sound) Chemical potential energy (batteries) Nuclear energy *These forms of energy dissipate or spread ...

ENERGY

... • Another form is Elastic PE • This is the PE stored in an object by its being disturbed from is natural state, • and how much it wants to return to that ...

Energy

... The energy associated with the motion and position of everyday objects The sum of an object’s potential and kinetic energy. ...

MSE 156 - Solar Cells, Fuel Cells and Batteries: Materials for the

... The first law of thermodynamics says that in all processes, energy is conserved; neither created or destroyed (must include mass energy if considering nuclear processes). However, the second law of thermodynamics says that in converting from one form of energy to another, the useful output is always ...

REvison Sheet -TEX2

... D. Chemical Energy E. Electrical Energy 3. The energy that a body has due to its motion. A. Potential energy B. Kinetic energy √ C. Electrical Energy D. Mechanical Energy E. Chemical Energy 4. Energy generated using natural sources that are easily available on earth, always there and will never run ...

Kinetic and Potential Energy Worksheet Name

... 16. A baby carriage is sitting at the top of a hill that is 21 m high. The carriage with the baby has a mass of 1.5 kg. The carriage has _________________ energy. Calculate it. ...

Types of Energy - Science with Ms. C

... • Energy which is transferred through electromagnetic waves such as visible light, ultraviolet light or X-rays. • Solar energy is a type of radiant energy. ○ Green plants use solar energy during photosynthesis. • Most of the energy that we use on Earth originally came from the Sun. ...

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World energy consumption

World energy consumption refers to the total energy used by all of human civilization. Typically measured per year, it involves all energy harnessed from every energy source applied towards humanity's endeavors across every single industrial and technological sector, across every country. Being the power source metric of civilization, World Energy Consumption has deep implications for humanity's social-economic-political sphere.Institutions such as the International Energy Agency (IEA), the U.S. Energy Information Administration (EIA), and the European Environment Agency record and publish energy data periodically. Improved data and understanding of World Energy Consumption may reveal systemic trends and patterns, which could help frame current energy issues and encourage movement towards collectively useful solutions.In 2012, the IEA estimated that the world energy consumption was 155,505 terawatt-hour (TWh), or 5.598 × 1020 joules. This works out to 17.7 TW, or a bit less than the estimated 20 TW produced by radioactive decay on earth. From 2000–2012 coal was the source of energy with the largest growth. The use of oil and natural gas also had considerable growth, followed by hydro power and renewable energy. Renewable energy grew at a rate faster than any other time in history during this period, which can possibly be explained by an increase in international investment in renewable energy. The demand for nuclear energy decreased, possibly due to the accidents at Chernobyl and Three Mile Island.In 2011, expenditures on energy totaled over 6 trillion USD, or about 10% of the world gross domestic product (GDP). Europe spends close to one quarter of the world energy expenditures, Americans close to 20%, and Japan 6%.

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World energy consumption