Energy held by an object because of its position relative to other objects
For the Flash episode, see Potential Energy (The Flash).
Potential energy
In the case of a bow and arrow, when the archer does work on the bow, drawing the string back, some of the chemical energy of the archer's body is transformed into elastic potential energy in the bent limb of the bow. When the string is released, the force between the string and the arrow does work on the arrow. The potential energy in the bow limbs is transformed into the kinetic energy of the arrow as it takes flight.
Common symbols
PE, U, or V
SI unit
joule (J)
Derivations from other quantities
U = m ⋅ g ⋅ h (gravitational)
U = 1⁄2 ⋅ k ⋅ x2 (elastic) U = 1⁄2 ⋅ C ⋅ V2 (electric) U = −m ⋅ B (magnetic)
U =
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In physics, potential energy is the energy held by an object because of its position relative to other objects, stresses within itself, its electric charge, or other factors.[1][2] The term potential energy was introduced by the 19th-century Scottish engineer and physicist William Rankine,[3][4][5] although it has links to the ancient Greek philosopher Aristotle's concept of potentiality.
Common types of potential energy include the gravitational potential energy of an object, the elastic potential energy of an extended spring, and the electric potential energy of an electric charge in an electric field. The unit for energy in the International System of Units (SI) is the joule (symbol J).
Potential energy is associated with forces that act on a body in a way that the total work done by these forces on the body depends only on the initial and final positions of the body in space. These forces, whose total work is path independent, are called conservative forces. If the force acting on a body varies over space, then one has a force field; such a field is described by vectors at every point in space, which is in-turn called a vector field. A conservative vector field can be simply expressed as the gradient of a certain scalar function, called a scalar potential. The potential energy is related to, and can be obtained from, this potential function.
^Jain, Mahesh C. (2009). "Fundamental forces and laws: a brief review". Textbook of Engineering Physics, Part 1. PHI Learning Pvt. Ltd. p. 10. ISBN 978-81-203-3862-3.
^McCall, Robert P. (2010). "Energy, Work and Metabolism". Physics of the Human Body. JHU Press. p. 74. ISBN 978-0-8018-9455-8.
^William John Macquorn Rankine (1853) "On the general law of the transformation of energy", Proceedings of the Philosophical Society of Glasgow, vol. 3, no. 5, pages 276–280; reprinted in: (1)Philosophical Magazine, series 4, vol. 5, no. 30, pp. 106–117 (February 1853); and (2) W. J. Millar, ed., Miscellaneous Scientific Papers: by W. J. Macquorn Rankine, ... (London, England: Charles Griffin and Co., 1881), part II, pp. 203–208.
^Smith, Crosbie (1998). The Science of Energy – a Cultural History of Energy Physics in Victorian Britain. The University of Chicago Press. ISBN 0-226-76420-6.
^Roche, John (1 March 2003). "What is potential energy?". European Journal of Physics. 24 (2): 185–196. doi:10.1088/0143-0807/24/2/359. S2CID 250895349. Retrieved 15 February 2023.
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