Sari and Daniel are spending a stormy Saturday afternoon with cartons of hot popcorn and a spellbinding 3-D movie. They are obviously too focused on the movie to wonder where all the energy comes from to power their weekend entertainment. They’ll give it some thought halfway through the movie when the storm causes the power to go out!
Watching movies, eating hot popcorn, and many other activities depend on electrical energy. Most electrical energy comes from the burning of fossil fuels, which contain stored chemical energy. When fossil fuels are burned, the chemical energy changes to thermal energy and the thermal energy is then used to generate electrical energy. These are all examples of energy conversion. Energy conversion is the process in which one kind of energy changes into another kind. When energy changes in this way, the energy isn’t used up or lost. The same amount of energy exists after the conversion as before. Energy conversion obeys the law of conservation of energy, which states that energy cannot be created or destroyed.
How Energy Changes Form
Besides electrical, chemical, and thermal energy, some other forms of energy include mechanical and sound energy. Any of these forms of energy can change into any other form. Often, one form of energy changes into two or more different forms. For example, the popcorn machine below changes electrical energy to thermal energy. The thermal energy, in turn, changes to both mechanical energy and sound energy. You can read the Figure below how these changes happen. You can see other examples of energy changing form at this URL: http://fi.edu/guide/hughes/energychangeex.html
Kinetic-Potential Energy Changes
Mechanical energy commonly changes between kinetic and potential energy. Kinetic energy is the energy of moving objects. Potential energy is energy that is stored in objects, typically because of their position or shape. Kinetic energy can be used to change the position or shape of an object, giving it potential energy. Potential energy gives the object the potential to move. If it does, the potential energy changes back to kinetic energy.
That’s what happened to Sari. After she and Daniel left the theater, the storm cleared and they went to the pool. That’s Sari in the Figure below coming down the water slide. When she was at the top of the slide, she had potential energy. Why? She had the potential to slide into the pool because of the pull of gravity. As she moved down the slide, her potential energy changed to kinetic energy. By the time she reached the pool, all the potential energy had changed to kinetic energy.
Q: How could Sari regain her potential energy?
A: Sari could climb up the steps to the top of the slide. It takes kinetic energy to climb the steps, and this energy would be stored in Sari as she climbed. By the time she got to the top of the slide, she would have the same amount of potential energy as before.
A roller coaster is another fun example of changes between kinetic and potential energy. Watch the roller coaster animation at the URL below to see the energy changes. Notice how the roller coaster’s total energy (kinetic energy + potential energy) does not change.
Q: Can you think of other fun examples of energy changing between kinetic and potential energy?
A: Playground equipment such as swings, slides, and trampolines involve these changes.
- Energy conversion is the process in which energy changes from one form or type to another. Energy is always conserved in energy conversions.
- Different forms of energy—such as electrical, chemical, and thermal energy—often change to other forms of energy.
- Mechanical energy commonly changes back and forth between kinetic and potential energy.
energy conversion: Process in which energy changes from one type or form to another.
You can check your understanding of how energy changes form by doing the quizzes at these URLs:
- Define energy conversion.
- Relate energy conversion to the law of conservation of energy.
- Describe an original example of energy changing from one form to two other forms.
- Explain how energy changes back and forth between kinetic and potential energy when you jump on a trampoline. Include a sketch to help explain the energy conversions.