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Conservation of Energy Chapter 13.4 Notes. Energy Transformations Energy readily changes from one form to another For example, think about when you ride.

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Presentation on theme: "Conservation of Energy Chapter 13.4 Notes. Energy Transformations Energy readily changes from one form to another For example, think about when you ride."— Presentation transcript:

1 Conservation of Energy Chapter 13.4 Notes

2 Energy Transformations Energy readily changes from one form to another For example, think about when you ride a roller coaster – at the top of the first hill, all of the energy is stored as gravitational potential energy – As you begin to fall, the energy is transformed into kinetic energy – When you climb another hill on the coaster, the energy is transformed again back into potential energy – Even though energy can transform, the amount of energy always remains the same

3 Potential energy can change into kinetic energy, and kinetic energy can change into potential energy

4 Mechanical Energy Remember that mechanical energy is all of the kinetic and potential energy in a system Mechanical energy can change into other forms of energy—if it did not, then a ball would always bounce back to the same height from where it were dropped and roller coasters would keep going forever

5 Changing forms of energy Example: when a ball is dropped, not all of its kinetic energy is changed to potential energy. – Some KE compresses the air around the ball, which will release energy as sound – Some KE makes the ball, the air, and ground a little warmer, releasing energy as heat When a roller coaster rolls, it loses some mechanical energy because of friction and air resistance – The energy does NOT disappear though; some of it increases the temperature of the track, the car’s wheels, and the air – Some energy compresses the air and causes a roaring sound

6 The Law of Conservation of Energy The total amount of energy in the universe never changes, although energy may change from one form to another – Energy never disappears, but it does change form Law of conservation of energy: energy cannot be created or destroyed Energy can be transferred as work or as heat – First law of thermodynamics: for any system, the net change in energy equals the energy transferred as work and as heat; when no energy is transferred as heat or as work, mechanical energy is conserved

7 Types of Systems Open system: a system in which energy and matter are exchanged with the surroundings Closed system: energy is exchanged with the surroundings, but matter is not Isolated system: neither energy nor matter is exchanged with the surroundings Most real-world systems are open; very few are isolated

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