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Transcript
Chapter 13 Energy 13.1 What is Energy Energy - The ability to do work or cause change (such as moving an object some distance) Work is the transfer of energy. Energy is measured in Joules Power is the rate at which energy is transferred (converted from one form to another) or the amount of energy transferred in a unit of time. Chapter 13 13.1 What is Energy Power = Energy transferred / Time Review Power - The rate at which work is done power = work/time power = force x distance/time power units = J/sec = Watts (W) Chapter 13 13.1 What is Energy Two basic kinds of energy: kinetic energy and potential energy Kinetic energy (KE) - energy of motion (kinetos) KE = 1/2 mass x velocity2 Potential energy (PE) - stored energy due to position or shape of an object (gravitational or spring) Gravitational Potential Energy = work done to lift the object Chapter 13 13.1 What is Energy Remember: Work = Force X Distance Gravitational potential energy = Weight X Height (Weight is a Force = Mass X Acceleration) Therefore PEG = mass x acceleration due to gravity (9.8 m/sec2) x height Elastic potential energy – Energy associated with objects that are stretched or compressed Chapter 13 13.2 Forms of Energy Energy – The form of energy associated with the position and motion of an object Mechanical Energy = Potential energy + Kinetic energy Mechanical Chapter 13 13.2 Forms of Energy Forms of energy associated with the particles of objects include thermal energy, electrical energy, chemical energy, nuclear energy, and electromagnetic energy. Chapter 13 13.2 Forms of Energy energy – heat – The total potential and kinetic energy of the particles in an object Electrical energy – electricity – The energy of electric charges Thermal Chapter 13 13.2 Forms of Energy Chemical energy - chemical reaction/bonds – The potential energy stored in the chemical bonds that hold compounds together Nuclear energy – fission & fusion – The potential energy stored in the nucleus of an atom Chapter 13 13.2 Forms of Energy Electromagnetic energy - light, radiation – Travels in waves which have some electrical and magnetic properties Chapter 13 13.3 Energy Transformations and Conservation Most forms of energy can be transformed into other forms. energy transformation- the process of changing one form of energy into another One of the most common energy transformations is the transformation between potential energy and kinetic energy. Chapter 13 body - convert chemical energy in food to mechanical energy to move muscles match - mechanical thermal chemical thermal light Book examples - waterfall, juggling, pole vault, pendulum The law of conservation of energy – According to the law of conservation of energy, energy cannot be created or destroyed. The total amount of energy is the same before and after any transformation. Chapter 13 friction converts mechanical to thermal energy, reduces efficiency Chapter 13 Energy and Matter Einstein’s theory of relativity Matter can be transformed to energy. Matter is anything that has mass and takes up space. Therefore, matter and energy together are always conserved. Chapter 13 13.4 Energy conversions and fossil fuels Formed from the remains of ancient plants and animals that lived 400 million years ago. Coal, petroleum, natural gas - chemical potential energy Fossil fuels - contain energy that came from the sun. Energy conversions pg. 464 – Flowchart Chapter 13 13.4 Energy conversions and fossil fuels Fossil fuels can be burned to release the (potential) chemical energy stored millions of years ago. Combustion – The process of burning fuels Non-Renewable Energy Chapter 13 Chapter 13 Vocabulary Energy Kinetic energy Potential energy Gravitational potential energy Elastic potential energy Mechanical energy Thermal energy Electrical energy Chapter 13 Chapter 13 Vocabulary Chemical energy Nuclear Energy Electromagnetic energy Energy transformation Law of conservation of energy Matter Fossil fuels Combustion Chapter 13
