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Energy transformations and conservation

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Energy Transformations and Conservation
Energy Transformations • What does flowing water have to do with electricity? • You may already know that the mechanical energy of moving water can be transformed into electrical energy.
• A change from one form of energy to another is called an energy transformation. • Some energy changes involve single transformations, while others involve many transformations. Most forms of energy can be transformed into other forms
Single Transformations • Sometimes, one form of energy needs to be transformed into another to get work done. • For example, a toaster transforms electrical energy to thermal energy to toast your bread. • A cell phone transforms electrical energy to electromagnetic energy that travels to other phones.
• Your body transforms the chemical energy in your food to mechanical energy you need to move your muscles. • Chemical energy in food is also transformed to the thermal energy your body uses to maintain its temperature.
Multiple Transformations • Often, a series of energy transformations is needed to do work. • For example, the mechanical energy used to strike a match is transformed first to thermal energy. • The thermal energy causes the particles in the match to release stored chemical energy, which is transformed to thermal energy and the electromagnetic energy you see as light.
• In a car engine, another series of energy conversions occurs. • Electrical energy produces a spark. • The thermal energy of the spark releases chemical energy in the fuel. • The fuel’s chemical energy in turn becomes thermal energy. • Thermal energy is converted to mechanical energy used to move the car, and to electrical energy to produce more sparks.
Transformations Between Potential and Kinetic Energy • One of the most common energy transformations is the transformation between potential energy and kinetic energy. • In waterfalls such as Niagara Falls, potential energy is transformed to kinetic energy. • The water at the top of the falls has gravitational potential energy. • As the water plunges, its velocity increases. • Its potential energy becomes kinetic energy.
Energy Transformation in Juggling • Any object that rises or falls experiences a change in its kinetic and gravitational potential energy. • Look at the orange in the picture on the right. • When it moves, the orange has kinetic energy. • As it rises, it slows down. • Its potential energy increases as its kinetic energy decreases.
• At the highest point in its path, it stops moving. • Since there is no motion, the orange no longer has kinetic energy. • But it does have potential energy. • As the orange falls, the energy transformation is reversed. • Kinetic energy increases while potential energy decreases.
Energy Transformation in a Pendulum • In a pendulum, a continuous transformation between kinetic and potential energy takes place. • At the highest point in its swing, the pendulum in Figure 12 has no movement, so it only has gravitational potential energy. • As it swings downward, it speeds up. • Its potential energy is transformed to kinetic energy.
• The pendulum is at its greatest speed at the bottom of its swing. • There, all its energy is kinetic energy. • As the pendulum swings to the other side, its height increases. • The pendulum regains gravitational potential energy and loses kinetic energy. • At the top of its swing, it comes to a stop again. • And so the pattern of energy transformation continues.
Energy Transformation in a Pole Vault • A pole-vaulter transforms kinetic energy to elastic potential energy, which then becomes gravitational potential energy. • The pole-vaulter you see in Figure 13 has kinetic energy as he runs forward. • When the pole-vaulter plants the pole to jump, his velocity decreases and the pole bends.
• His kinetic energy is transformed to elastic potential energy in the pole. • As the pole straightens out, the pole-vaulter is lifted high into the air. • The elastic potential energy of the pole is transformed to the gravitational potential energy of the pole-vaulter. • Once he is over the bar, the pole-vaulter’s gravitational potential energy is transformed back into kinetic energy as he falls toward the safety cushion.
Conservation of Energy • If you set a spinning top in motion, will the top remain in motion forever? • No, it will not. • Then what happens to its energy? • Is the energy destroyed? • Again, the answer is no. • The law of conservation of energy states that when one form of energy is transformed to another, no energy is destroyed in the process.
• According to the law of conservation of energy, energy cannot be created or destroyed. • So the total amount of energy is the same before and after any transformation. • If you add up all the new forms of energy after a transformation, all of the original energy will be accounted for.
Energy and Friction • So what happens to the energy of the top? • As the top spins, it encounters friction with the table and friction from the air. • Whenever a moving object experiences friction, some of its kinetic energy is transformed into thermal energy. • So, the mechanical energy of the spinning top is transformed to thermal energy. • The top slows and eventually falls on its side, but its energy is not destroyed—it is transformed.
• The fact that friction transforms mechanical energy to thermal energy should not surprise you. • The fact that friction transforms mechanical energy to thermal energy explains why no machine is 100 percent efficient. • You may recall that the output work of any real machine is always less than the input work. • This reduced efficiency occurs because some mechanical energy is always transformed into thermal energy due to friction.

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Energy transformations and conservation

  • 2. Energy Transformations • What does flowing water have to do with electricity? • You may already know that the mechanical energy of moving water can be transformed into electrical energy.
  • 3. • A change from one form of energy to another is called an energy transformation. • Some energy changes involve single transformations, while others involve many transformations. Most forms of energy can be transformed into other forms
  • 4. Single Transformations • Sometimes, one form of energy needs to be transformed into another to get work done. • For example, a toaster transforms electrical energy to thermal energy to toast your bread. • A cell phone transforms electrical energy to electromagnetic energy that travels to other phones.
  • 5. • Your body transforms the chemical energy in your food to mechanical energy you need to move your muscles. • Chemical energy in food is also transformed to the thermal energy your body uses to maintain its temperature.
  • 6. Multiple Transformations • Often, a series of energy transformations is needed to do work. • For example, the mechanical energy used to strike a match is transformed first to thermal energy. • The thermal energy causes the particles in the match to release stored chemical energy, which is transformed to thermal energy and the electromagnetic energy you see as light.
  • 7. • In a car engine, another series of energy conversions occurs. • Electrical energy produces a spark. • The thermal energy of the spark releases chemical energy in the fuel. • The fuel’s chemical energy in turn becomes thermal energy. • Thermal energy is converted to mechanical energy used to move the car, and to electrical energy to produce more sparks.
  • 8. Transformations Between Potential and Kinetic Energy • One of the most common energy transformations is the transformation between potential energy and kinetic energy. • In waterfalls such as Niagara Falls, potential energy is transformed to kinetic energy. • The water at the top of the falls has gravitational potential energy. • As the water plunges, its velocity increases. • Its potential energy becomes kinetic energy.
  • 9. Energy Transformation in Juggling • Any object that rises or falls experiences a change in its kinetic and gravitational potential energy. • Look at the orange in the picture on the right. • When it moves, the orange has kinetic energy. • As it rises, it slows down. • Its potential energy increases as its kinetic energy decreases.
  • 10. • At the highest point in its path, it stops moving. • Since there is no motion, the orange no longer has kinetic energy. • But it does have potential energy. • As the orange falls, the energy transformation is reversed. • Kinetic energy increases while potential energy decreases.
  • 11. Energy Transformation in a Pendulum • In a pendulum, a continuous transformation between kinetic and potential energy takes place. • At the highest point in its swing, the pendulum in Figure 12 has no movement, so it only has gravitational potential energy. • As it swings downward, it speeds up. • Its potential energy is transformed to kinetic energy.
  • 12. • The pendulum is at its greatest speed at the bottom of its swing. • There, all its energy is kinetic energy. • As the pendulum swings to the other side, its height increases. • The pendulum regains gravitational potential energy and loses kinetic energy. • At the top of its swing, it comes to a stop again. • And so the pattern of energy transformation continues.
  • 13. Energy Transformation in a Pole Vault • A pole-vaulter transforms kinetic energy to elastic potential energy, which then becomes gravitational potential energy. • The pole-vaulter you see in Figure 13 has kinetic energy as he runs forward. • When the pole-vaulter plants the pole to jump, his velocity decreases and the pole bends.
  • 14. • His kinetic energy is transformed to elastic potential energy in the pole. • As the pole straightens out, the pole-vaulter is lifted high into the air. • The elastic potential energy of the pole is transformed to the gravitational potential energy of the pole-vaulter. • Once he is over the bar, the pole-vaulter’s gravitational potential energy is transformed back into kinetic energy as he falls toward the safety cushion.
  • 15. Conservation of Energy • If you set a spinning top in motion, will the top remain in motion forever? • No, it will not. • Then what happens to its energy? • Is the energy destroyed? • Again, the answer is no. • The law of conservation of energy states that when one form of energy is transformed to another, no energy is destroyed in the process.
  • 16. • According to the law of conservation of energy, energy cannot be created or destroyed. • So the total amount of energy is the same before and after any transformation. • If you add up all the new forms of energy after a transformation, all of the original energy will be accounted for.
  • 17. Energy and Friction • So what happens to the energy of the top? • As the top spins, it encounters friction with the table and friction from the air. • Whenever a moving object experiences friction, some of its kinetic energy is transformed into thermal energy. • So, the mechanical energy of the spinning top is transformed to thermal energy. • The top slows and eventually falls on its side, but its energy is not destroyed—it is transformed.
  • 18. • The fact that friction transforms mechanical energy to thermal energy should not surprise you. • The fact that friction transforms mechanical energy to thermal energy explains why no machine is 100 percent efficient. • You may recall that the output work of any real machine is always less than the input work. • This reduced efficiency occurs because some mechanical energy is always transformed into thermal energy due to friction.