What is a potential energy equation?
Several equations used in science come from a potential energy equation. The general potential energy equation means that the work done in the system equals potential lost energy. Potential energy is any stored energy in a system that is lost at work. It comes in many common forms, such as the gravitational potential of energy lost when something drops towards the ground. In each form, the potential energy equation will show where the energy came from to do the work. Stretching allows you to store energy and potential energy for spring is equal to the amount of work that spring can do when it relaxes. Many other objects store energy in the form of elastic potential energy, including rubber strips and guitar strings. Both are stretched heavier to cause faster vibrations that equal more work due to more elastic potential energy.
Gravity can store energy because all mass is slightly attracted by another matter. Potential energyThe equation for gravity comes in many forms. The Gravity of the Earth deposits potential energy and works when objects are raised and are attracted to the ground. When the truck rises to the hill, its energy is stored. When the truck passes through the hill, all stored potential energy is released, causing the truck to move faster or working. Other potential energy equations for gravity include space orbit, galactic movement and black holes.
temperature change represents work and potential energy equation for chemicals usually measure temperature change. Chemicals store energy in the form of bonds. These links can break and change the position and release potential energy and increase the temperature. Measurement of this change shows how much potential energy has a chemical reaction. Burning gasoline shows the liquid deposits potential energy and releases it to produce extreme heat.
nuclear energy, such as cleavage, is an example of the energy of nuclear potential. Strength is equal toThe work performed at a certain time and nuclear energy can be calculated from the equation of the energy potential energy. This energy is stored in very tight connections between the parts that form atoms. During nuclear cleavage atoms absorb other parts and become unstable. Once the atoms break into more stable atoms, they release the energy stored in tight connections that break.