{"id":622,"date":"2017-04-16T02:54:34","date_gmt":"2017-04-16T02:54:34","guid":{"rendered":"https:\/\/pressbooks.hccfl.edu\/bio1\/chapter\/6-4-potential-and-kinetic-energy\/"},"modified":"2025-08-29T17:59:56","modified_gmt":"2025-08-29T17:59:56","slug":"6-4-potential-and-kinetic-energy","status":"publish","type":"chapter","link":"https:\/\/pressbooks.hccfl.edu\/bio1\/chapter\/6-4-potential-and-kinetic-energy\/","title":{"raw":"Potential and Kinetic Energy","rendered":"Potential and Kinetic Energy"},"content":{"raw":"When an object is in motion, there is energy associated with that object. Think of a wrecking ball. Even a slow-moving wrecking ball can do a great deal of damage to other objects. Energy associated with objects in motion is called kinetic<\/strong> energy <\/strong>(Figure 5<\/strong>). A speeding bullet, a walking person, and the rapid movement of molecules in the air (which produces heat) all have kinetic energy.\n\nNow what if that same motionless wrecking ball is lifted two stories above ground with a crane? If the suspended wrecking ball is unmoving, is there energy associated with it? The answer is yes. The energy that was required to lift the wrecking ball did not disappear, but is now stored in the wrecking ball by virtue of its position and the force of gravity acting on it. This type of energy is called potential energy <\/strong>(Figure 5<\/strong>). If the ball were to fall, the potential energy would be transformed into kinetic energy until all of the potential energy was exhausted when the ball rested on the ground. Wrecking balls also swing like a pendulum; through the swing, there is a constant change of potential energy (highest at the top of the swing) to kinetic energy (highest at the bottom of the swing). Other examples of potential energy include the energy of water held behind a dam or a person about to skydive out of an airplane.\n\n[caption id=\"attachment_92\" align=\"alignnone\" width=\"300\"]\"dam Figure 5<\/strong> Still water has potential energy; moving water, such as in a waterfall or a rapidly flowing river, has kinetic energy. (credit \"dam\": modification of work by \"Pascal\"\/Flickr; credit \"waterfall\": modification of work by Frank Gualtieri)[\/caption]\n\nPotential energy is not only associated with the location of matter, but also with the structure<\/em> of matter. A spring on the ground has potential energy if it is compressed; so does a rubber band that is pulled taut. On a molecular level, the bonds that hold the atoms of molecules together exist in a particular structure that has potential energy. Remember that anabolic cellular pathways require<\/em> energy to synthesize complex molecules from simpler ones and catabolic pathways release<\/em> energy when complex molecules are broken down. The fact that energy can be released by the breakdown of certain chemical bonds implies that those bonds have potential energy. In fact, there is potential energy stored within the bonds of all the food molecules we eat, which is eventually harnessed for use. This is because these bonds can release energy when broken. The type of potential energy that exists within chemical bonds, and is released when those bonds are broken, is called chemical energy<\/strong>. Chemical energy is responsible for providing living cells with energy from food. The release of energy occurs when the molecular bonds within food molecules are broken.\n\n[h5p id=\"138\"]\n

References<\/h1>\nUnless otherwise noted, images on this page are licensed under CC-BY 4.0<\/a>\u00a0by\u00a0OpenStax<\/a>.\n\nText adapted from: OpenStax<\/span>, Concepts of Biology. OpenStax CNX. May 18, 2016 http:\/\/cnx.org\/contents\/b3c1e1d2-839c-42b0-a314-e119a8aafbdd@9.10","rendered":"

When an object is in motion, there is energy associated with that object. Think of a wrecking ball. Even a slow-moving wrecking ball can do a great deal of damage to other objects. Energy associated with objects in motion is called kinetic<\/strong> energy <\/strong>(Figure 5<\/strong>). A speeding bullet, a walking person, and the rapid movement of molecules in the air (which produces heat) all have kinetic energy.<\/p>\n

Now what if that same motionless wrecking ball is lifted two stories above ground with a crane? If the suspended wrecking ball is unmoving, is there energy associated with it? The answer is yes. The energy that was required to lift the wrecking ball did not disappear, but is now stored in the wrecking ball by virtue of its position and the force of gravity acting on it. This type of energy is called potential energy <\/strong>(Figure 5<\/strong>). If the ball were to fall, the potential energy would be transformed into kinetic energy until all of the potential energy was exhausted when the ball rested on the ground. Wrecking balls also swing like a pendulum; through the swing, there is a constant change of potential energy (highest at the top of the swing) to kinetic energy (highest at the bottom of the swing). Other examples of potential energy include the energy of water held behind a dam or a person about to skydive out of an airplane.<\/p>\n

\"dam
Figure 5<\/strong> Still water has potential energy; moving water, such as in a waterfall or a rapidly flowing river, has kinetic energy. (credit “dam”: modification of work by “Pascal”\/Flickr; credit “waterfall”: modification of work by Frank Gualtieri)<\/figcaption><\/figure>\n

Potential energy is not only associated with the location of matter, but also with the structure<\/em> of matter. A spring on the ground has potential energy if it is compressed; so does a rubber band that is pulled taut. On a molecular level, the bonds that hold the atoms of molecules together exist in a particular structure that has potential energy. Remember that anabolic cellular pathways require<\/em> energy to synthesize complex molecules from simpler ones and catabolic pathways release<\/em> energy when complex molecules are broken down. The fact that energy can be released by the breakdown of certain chemical bonds implies that those bonds have potential energy. In fact, there is potential energy stored within the bonds of all the food molecules we eat, which is eventually harnessed for use. This is because these bonds can release energy when broken. The type of potential energy that exists within chemical bonds, and is released when those bonds are broken, is called chemical energy<\/strong>. Chemical energy is responsible for providing living cells with energy from food. The release of energy occurs when the molecular bonds within food molecules are broken.<\/p>\n

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