* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
Download Energy
Efficient energy use wikipedia , lookup
Renewable portfolio standard (United States) wikipedia , lookup
William Flynn Martin wikipedia , lookup
Open energy system models wikipedia , lookup
Energy storage wikipedia , lookup
Potential energy wikipedia , lookup
Energy subsidies wikipedia , lookup
Low-Income Home Energy Assistance Program wikipedia , lookup
Public schemes for energy efficient refurbishment wikipedia , lookup
Kinetic energy wikipedia , lookup
Regenerative brake wikipedia , lookup
100% renewable energy wikipedia , lookup
Zero-energy building wikipedia , lookup
Energy Charter Treaty wikipedia , lookup
World energy consumption wikipedia , lookup
Low-carbon economy wikipedia , lookup
Energy harvesting wikipedia , lookup
Alternative energy wikipedia , lookup
Internal energy wikipedia , lookup
Energy policy of Australia wikipedia , lookup
Energy returned on energy invested wikipedia , lookup
International Energy Agency wikipedia , lookup
Energy efficiency in transport wikipedia , lookup
Energy policy of the United Kingdom wikipedia , lookup
Life-cycle greenhouse-gas emissions of energy sources wikipedia , lookup
Energy policy of Finland wikipedia , lookup
Distributed generation wikipedia , lookup
Negawatt power wikipedia , lookup
Energy in the United Kingdom wikipedia , lookup
Energy policy of the European Union wikipedia , lookup
Conservation of energy wikipedia , lookup
United States energy law wikipedia , lookup
Energy efficiency in British housing wikipedia , lookup
Energy applications of nanotechnology wikipedia , lookup
Energy Independence and Security Act of 2007 wikipedia , lookup
Energy Book Chapter 15 Energy Work is a transfer of energy. Mechanical energy is when objects have the ability to do work. There are two types of mechanical energy: 1. Potential Energy (PE) 2. Kinetic Energy (KE) Kinetic Energy is energy in motion Any object in motion has kinetic energy. The faster the object, or the more massive the object is, the more kinetic energy it has. KE = ½ (mass)(velocity)2 = ½ mv2 Kinetic energy can also be found in acoustical energy (sound), thermal energy (heat), etc. Calculating Kinetic Energy Mass = 1500 kg Velocity = 25 m/s Kinetic Energy = ½ (1500)(25)2 = 468,750 J Potential Energy is stored energy Potential energy can be in many different forms. Elastic potential energy: stored energy in an elongated rubber band or spring. Chemical potential energy: the amount of energy stored in food (calories). Gravitational potential energy: depends on how high an object is above the ground, or the amount of work it took to move that object to that height. Gravitational Potential Energy The higher the object is, the more work that can be done on another object. This height depends on what reference point is chosen. Mass = 3 kg Gravity = 9.8 m/s2 Height = 10 m PE = 294 Joules (J) PE = (mass)(gravity)(height) = mgh Elastic Potential Energy Elastic potential energy is the energy of an object that is compressed or stretched. Example: A guitar string, a rubber band Types of Energy There are 6 main forms of energy: 1. Mechanical Energy 2. Heat/Thermal Energy 3. Chemical Energy 4. Electrical Energy 5. Electromagnetic Energy 6. Nuclear Energy Law of Conservation of Energy Energy can not be created or destroyed. It can be transformed from one form into another, but the total amount of energy in any system stays constant. Total amount of energy is the sum of the potential and kinetic energies. Conservation of Energy Half way down: PE = 5000 J At the bottom: KE = 5000 J PE = 0 J KE = 10,000 J At the top: PE = 10,000J KE = 0 J Total Energy of the system is always 10,000 J Conservation of Energy Quiz Write the definition of Kinetic Energy. Write the definition of Potential Energy Calculate the Potential Energy of a 50 kg mass that is sitting on a 500 m cliff. Does a bird sitting in a tree have kinetic energy? The Pendulum An object that is suspended so that it can swing back and forth about an axis is called a pendulum. The swing of a pendulum is an example of simple harmonic motion, which means it repeats itself over and over. Energy changes in a pendulum The Pendulum The time of a back-and-forth swing of a pendulum is called the period of a pendulum. It is measured in seconds. The period of a pendulum only depends on the length of the pendulum and the acceleration of gravity. (see example) Calculating the period of a pendulum Use the equation: Where T= period of pendulum l = length of pendulum g = gravity Calculating the period of a pendulum An astronaut sets up a pendulum on the moon, where gravity is 1.6 m/s2. If the pendulum is 1 meter long, what will the period of the pendulum be? T 2 l g 1 T 2 1 .6 T 2 (0.79) T 4.97 sec Return to Home Page Energy and Mass Einstein’s equation, E=mc2, says that energy and mass are equivalent and can be converted into each other. Energy is released as matter is destroyed, and matter can be created from energy. Nonrenewable Energy Resources Nonrenewable energy resources exist in limited quantities and, once used, cannot be replaced over the course of millions of years. Nonrenewable energy resources include oil, natural gas, coal, and uranium. Oil, natural gas, and coal are known as fossil fuels. Renewable Energy Resources Renewable energy resources are resources that can be replaced in a relatively short period of time. Most renewable energy resources originate either directly or indirectly from the sun. Renewable energy resources include hydroelectric, solar, geothermal, wind, biomass, and, possibly in the future, nuclear fusion. Renewable Energy Resources Energy obtained from flowing water is known as hydroelectric energy. Solar energy is when sunlight is converted into usable energy. Geothermal energy is the heat beneath the Earth’s surface. Other Renewable Resources Sunlight causes living things to grow, converting the sun’s electromagnetic energy into chemical energy. The chemical energy stored in living things is called biomass energy. A hydrogen fuel cell by reacting hydrogen with oxygen. Conserving Energy Resources Energy resources can be conserved by reducing energy needs and by increasing the efficiency of energy use. Finding ways to use less energy or to use energy more efficiently is known as energy conservation.