Chapter 15

1. Chapter 15 Energy: Forms and Changes

2. Nature of Energy • Energy is all around you. • Energy comes in the forms of sound, light, and wind. • Energy is defined as the ability to do work. • Energy is measured in Joules. (J)

3. Forms of Energy • There are five main forms of energy: • Mechanical • Heat • Chemical • Electromagnetic • Nuclear

4. Mechanical Energy • Matter that is moving has energy. • Energy that is associated with motion is called mechanical energy. • Anything that is moving has mechanical energy.

5. Heat Energy • All matter has molecules that are constantly moving. • The more they move, the more heat is generated from friction. • The internal motion of atoms is called heat energy.

6. Chemical Energy • Energy exists in the chemical bonds of atoms. • When the bonds are broken, chemical energy is released. • Food and combusting gasoline release chemical energy.

7. Electromagnetic Energy • Electromagnetic energy is created by moving electric charges. • Electricity, light, x-rays, radio waves and laser light all have electromagnetic energy.

8. Nuclear Energy • The nucleus, or center of an atom is the source of nuclear energy. • When the nucleus of an atom splits or fuses together with another nucleus, nuclear energy is released.

9. Kinetic and Potential Energy • Remember that everything has energy because it is made of moving atoms. • Potential energy is the stored energy of an object that is not moving. • Kinetic energy is called the energy of motion. When an object is moving, it has kinetic energy. Which would have more kinetic energy, an elephant that weighs 8909 N or a mosquito that weighs .0098 N if they are both moving at the same velocity?

10. Kinetic energy • The elephant would have more kinetic energy because it has more mass. • The formula for kinetic energy is: K.E. = mass x velocity squared divided by 2.

11. Potential Energy • Potential energy is the energy of position. • A stretched rubber band has the potential to fly across the room, but as it is not moving it has potential energy rather than kinetic energy.

12. Gravitational Potential Energy • Gravitational potential energy is potential energy that is dependent on an object’s height above a surface. • A diver on a 3 meter board has 3 times the potential energy as a diver on a 1 meter board.

13. Weight and Gravitational Potential Energy • Weight also determines the gravitational potential energy of an object. • “The bigger they are, the harder they fall” is no exaggeration. • The formula for G.P.E is: • G.P.E.= Weight x Height

14. Energy Conversions • Changes in forms of energy are called energy conversions. • The most common is the change of potential energy to kinetic energy and kinetic to potential energy.

15. Other Conversions • All forms of energy can be converted to other forms of energy. • For instance, when a match is lit what kind of energy is first released? • What kind of energy is that converted to?

16. Conservation of Energy • The Law of Conservation of Energy states that energy can neither be created nor destroyed by ordinary means. • Einstein’s theory of relativity: E=mc2 directly relates energy with mass. Einstein theorized that a great amount of energy could be formed from very little mass. Thus, energy and mass could be converted into one another.

17. Physics and Energy • The topic of energy is essential to learning about any subject in physical science. • Already you have studied it in terms of velocity, force, momentum and power. • How does energy relate to these topics?

18. Another quantity you have learned is work. • Work is directly related to energy. • What unit are both work and energy measured in? Bouncing ball

19. Lasers and Energy