7 (a) Forms of Energy
Other Forms of Energy
So far in this chapter, you have read about energy that involves the motion and position of an object. But an object can have other forms of kinetic and potential energy. Most of these other forms are associated with the particles that make up objects. These particles are far too small to see. Forms of energy associated with the particles of objects include thermal energy, electrical energy, chemical energy, nuclear energy, and electromagnetic energy.
Thermal Energy
All objects are made up of particles called atoms and molecules. Because these particles are constantly in motion, they have kinetic energy. The faster the particles move, the more kinetic energy they have. These particles are arranged in specific ways in different objects. Therefore, they also have potential energy. The total potential and kinetic energy of the particles in an object is called thermal energy. Look at Figure 6. Even though the lava may be flowing slowly down the volcano, its particles are moving quickly. Because the particles have a large amount of kinetic energy, the lava has a large amount of thermal energy.
So far in this chapter, you have read about energy that involves the motion and position of an object. But an object can have other forms of kinetic and potential energy. Most of these other forms are associated with the particles that make up objects. These particles are far too small to see. Forms of energy associated with the particles of objects include thermal energy, electrical energy, chemical energy, nuclear energy, and electromagnetic energy.
Thermal Energy
All objects are made up of particles called atoms and molecules. Because these particles are constantly in motion, they have kinetic energy. The faster the particles move, the more kinetic energy they have. These particles are arranged in specific ways in different objects. Therefore, they also have potential energy. The total potential and kinetic energy of the particles in an object is called thermal energy. Look at Figure 6. Even though the lava may be flowing slowly down the volcano, its particles are moving quickly. Because the particles have a large amount of kinetic energy, the lava has a large amount of thermal energy.
If you’ve ever eaten ice cream on a hot day, you’ve experienced thermal energy. Fast-moving particles in the warm air make the particles of ice cream move faster. As the kinetic energy of the particles increases, so does the thermal energy of the ice cream. Eventually, the ice cream melts.
Electrical Energy
When you receive a shock from a metal doorknob, you are experiencing electrical energy. The energy of electric charges is electrical energy. Depending on whether the charges are moving or stored, electrical energy can be a form of kinetic or potential energy. The lightning in Figure 7 is a form of electrical energy. You rely on electrical energy from batteries or electrical lines to run devices such as flashlights, handheld games, and radios.
Electrical Energy
When you receive a shock from a metal doorknob, you are experiencing electrical energy. The energy of electric charges is electrical energy. Depending on whether the charges are moving or stored, electrical energy can be a form of kinetic or potential energy. The lightning in Figure 7 is a form of electrical energy. You rely on electrical energy from batteries or electrical lines to run devices such as flashlights, handheld games, and radios.
Chemical Energy
Almost everything you see, touch, or taste is composed of chemical compounds. Chemical compounds are made up of atoms and molecules. Bonds between the atoms and molecules hold chemical compounds together. These bonds have chemical energy. Chemical energy is potential energy stored in the chemical bonds that hold chemical compounds together. Chemical energy is stored in the foods you eat, in the matches you can use to light a candle, and even in the cells of your body. When bonds in chemical compounds break, new chemical compounds may form. When this happens, chemical energy may be released.
Almost everything you see, touch, or taste is composed of chemical compounds. Chemical compounds are made up of atoms and molecules. Bonds between the atoms and molecules hold chemical compounds together. These bonds have chemical energy. Chemical energy is potential energy stored in the chemical bonds that hold chemical compounds together. Chemical energy is stored in the foods you eat, in the matches you can use to light a candle, and even in the cells of your body. When bonds in chemical compounds break, new chemical compounds may form. When this happens, chemical energy may be released.
Nuclear Energy
A type of potential energy called nuclear energy is stored in the nucleus of an atom. Nuclear energy is released during a nuclear reaction. One kind of nuclear reaction, known as nuclear fission, occurs when a nucleus splits. Nuclear power plants use fission reactions to produce electricity. Another kind of reaction, known as nuclear fusion, occurs when the nuclei of atoms fuse, or join together. Nuclear fusion reactions occur continuously in the sun, releasing tremendous amounts of energy.
A type of potential energy called nuclear energy is stored in the nucleus of an atom. Nuclear energy is released during a nuclear reaction. One kind of nuclear reaction, known as nuclear fission, occurs when a nucleus splits. Nuclear power plants use fission reactions to produce electricity. Another kind of reaction, known as nuclear fusion, occurs when the nuclei of atoms fuse, or join together. Nuclear fusion reactions occur continuously in the sun, releasing tremendous amounts of energy.
Electromagnetic Energy
The sunlight that you see each day is a form of electromagnetic energy. Electromagnetic energy travels in waves. These waves have some electrical properties and some magnetic properties.
The microwaves you use to cook your food and the X-rays doctors use to examine patients are types of electromagnetic energy. Other forms of electromagnetic energy include ultraviolet radiation, infrared radiation, and radio waves.
The sunlight that you see each day is a form of electromagnetic energy. Electromagnetic energy travels in waves. These waves have some electrical properties and some magnetic properties.
The microwaves you use to cook your food and the X-rays doctors use to examine patients are types of electromagnetic energy. Other forms of electromagnetic energy include ultraviolet radiation, infrared radiation, and radio waves.