Review for Chapter 5 and 6 Test

... 8. An escalator is used to move 10 passengers every 60s from the first floor of a department store to the second. The second floor is located 8 meters above the first floor. The average passenger's mass is 65 kg. Determine the power requirement of the escalator in order to move this number of passen ...

Energy - Schurz High School

... But it’s ALSO equal to the work required to bring something to its final motion or to rest because it is a conversion of potential energy. …and potential energy is also equal to work and measured in Joules, and work is equal to force multiplied by distance. Therefore: ...

Forms of Energy - Ms. Morgan's Science Spot

... For example: A car with the mass of 200 kilograms moving at 2 meters per second would have this kinetic energy: KE= (1/2)200 x 4 KE= 400 Joules ...

What are the six main forms of energy?

... • Energy = mass x speed of light – Energy and mass are equivalent and can be converted into one another. – 1 gram of matter turned entirely into energy = 90,000,000,000,000 J – 1 gram of explosive produces 2931 J This is because it is not entirely turned into energy, there is some matter ...

Energy - SCHOOLinSITES

... • KE= 1/2mv2 • The kinetic energy of a moving object is equal to the work required to bring it to that speed from rest, or the work the object can do while being brought to rest. • Fd= 1/2mv2 ...

Potential and Kinetic Energy

... What is Elastic Potential Energy? o Potential energy due compression or expansion of an elastic object. ...

Energy - TeacherWeb

... the stove burner to the water ...

Physical Science Worksheet: Energy Short Answer 1. The kinetic

... a height of 500 m then he stopped and floated in the air at that height. Suddenly, a piece of Kryptonite rope came out of nowhere and wrapped around Superman. The Kryptonite rope took Superman’s powers and he fell to the ground. At what Velocity did he hit the ground? Which of the following is not u ...

Energy Basics

... 2000 Btu equals about – the amount of energy to make a pot of coffee ...

Energy

... of Energy mean? • Energy can flow from one object to another. • Energy cannot be created or destroyed. • It is converted from one form to another. • Energy in an isolated system is conserved. • This is also known as the first law of thermodynamics ...

Energy - RidenourMHS

... - Total amount of kinetic energy - The more particles move, the more kinetic energy, which means the more thermal energy ...

Forms of Energy and Energy Conservation

... Energy is the ability to make things do work Energy has no mass and no volume Energy can be found in 7 different forms ...

Mechanical Energy Conservation

... Energy is “conserved” if we can add up all of the different types of energy present in a closed system and see that the total sum remains constant.  A “closed system” is one where no energy is added to or taken away from the system (in our case, a system with negligible friction)  The types of ene ...

ENERGY

... • Rapid variation of electric and magnetic field • Examples: radio waves, microwaves, infrared radiation, visible light, ultraviolet, x-rays, gamma rays, etc ...

Biology Pre-Learning Check

... For this unit, we will build on the last unit and be studying the effects of forces … work and power. We will learn about how work is done and power is used in real life scenarios and calculate the amount of work done and power used. We will also study the types of energy involved in doing work (pot ...

Friday PS 11-2 - elyceum-beta

... amount of energy transferred… • Wherever work is done, energy is transferred or transformed to another system • The units for work and energy are the same ...

Chapter 12: Work and Energy

... Section 3: What is Energy? Review 1. List three different forms of energy. 2. Explain how energy is different from work. 3. Explain the difference between potential and kinetic energy. 4. What form or forms of energy apply to each of the following? (a) a Frisbee flying through the air (b) a hot cup ...

potential energy.

... space, they are often used for communication. • Nuclear energy - Nuclear power plants use fission – splitting the nuclei of atoms apart to release energy. The sun uses fusion – two hydrogen nuclei combine the larger helium nuclei. (A tiny amount of mass is lost in the process – which produces huge a ...

Energy Review HW #2

... 1. A ball is thrown into the air. When it reaches the top, what kind of energy does it have? ...

Different forms of energy

... particles in a substance. All matter is made up of atoms ( particles) that move faster when they heat up. The faster the particles move, higher the temperature. Heat is the transfer of thermal energy Heat always moves from hotter objects to colder objects ...

WELCOME TO PHYSICS 1103

... Pick up the handout about Midterm 1 next Wednesday at 6:30 pm and the midterm review session next Tuesday at 6:30 pm ...

Energy Transformations using a Car on a Hill aka Inclined Plane

... Energy Transformations ...

Pop Quiz pp. 151-155 What two forms of energy combine to make

... 1. What two forms of energy combine to make mechanical energy? 2. What kind of potential energy does a projectile have? 3. Lava was used as an example of this type of energy. 4. Food and fuels are examples of this type of energy. 5. What form of energy are microwaves? ...

Theme 2 Simply Energ..

... The cost of energy depends on ... I think ___ will pay more. This is because… I agree / disagree with you that it would cost more if you used your appliances for longer. I agree / disagree because … Also I think … We would pay more for more powerful appliances because ... ...

Name: Date: Chapter 8-Lesson 3-5: Energy Transformations and

... areas by conduction, convection, and radiation. Answer the following questions in complete sentences. 9. Describe the energy transformation that occurs in a waterfall. Gravitational potential energy is transformed into kinetic energy. 10. What are the two factors that determine an object’s thermal e ...

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Energy Independence and Security Act of 2007

The Energy Independence and Security Act of 2007 (Pub.L. 110-140 originally named the Clean Energy Act of 2007) is an Act of Congress concerning the energy policy of the United States. As part of the Democratic Party's 100-Hour Plan during the 110th Congress, it was introduced in the United States House of Representatives by Representative Nick Rahall of West Virginia, along with 198 cosponsors. Despite Rahall becoming 1 of only 4 Democrats to oppose the final bill, it passed in the House without amendment in January 2007. When the Act was introduced in the Senate in June 2007, it was combined with Senate Bill S. 1419: Renewable Fuels, Consumer Protection, and Energy Efficiency Act of 2007. This amended version passed the Senate on June 21, 2007. After further amendments and negotiation between the House and Senate, a revised bill passed both houses on December 18, 2007 and President Bush, a Republican, signed it into law on December 19, 2007, in response to his ""Twenty in Ten"" challenge to reduce gasoline consumption by 20% in 10 years.The stated purpose of the act is “to move the United States toward greater energy independence and security, to increase the production of clean renewable fuels, to protect consumers, to increase the efficiency of products, buildings, and vehicles, to promote research on and deploy greenhouse gas capture and storage options, and to improve the energy performance of the Federal Government, and for other purposes.”. House Speaker Nancy Pelosi promoted the Act as a way of lowering energy costs to consumers. The bill followed another major piece of energy legislation, the Energy Policy Act of 2005.The bill originally sought to cut subsidies to the petroleum industry in order to promote petroleum independence and different forms of alternative energy. These tax changes were ultimately dropped after opposition in the Senate, and the final bill focused on automobile fuel economy, development of biofuels, and energy efficiency in public buildings and lighting.

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Energy Independence and Security Act of 2007