History Of Energy

Information about History Of Energy

The word 'energy' seems to appear for the first time in the works of Aristotle. However, since the books credited to Aristotle have been so frequently rewritten, recited and commented upon, no one can confidently assert the authorship of the word. ^[1] Therefore many historians trace the etymology of the word energy to 1599, from Middle French energie, from Late Latin energia, and before that from the Greek energeia meaning "activity, operation," or from energos "active, working," from en- "at" + ergon "work".^[2]

Thomas Young - the first to use the term "energy" in the modern sense.

The concept of energy emerged out of the idea of vis viva, which Leibniz defined as the product of the mass of an object and its velocity squared; he believed that total vis viva was conserved. To account for slowing due to friction, Leibniz claimed that heat consisted of the random motion of the constituent parts of matter — a view shared by Isaac Newton, although it would be more than a century until this was generally accepted. In 1807, Thomas Young was the first to use the term "energy", instead of vis viva, in its modern sense.^[3] Gustave-Gaspard Coriolis described "kinetic energy" in 1829 in its modern sense, and in 1853, William Rankine coined the term "potential energy."

It was argued for some years whether energy was a substance (the caloric) or merely a physical quantity.

The development of steam engines required engineers to develop concepts and formulas that would allow them to describe the mechanical and thermal efficiencies of their systems. Engineers such as Sadi Carnot, physicists such as James Prescott Joule, mathematicians such as Ã‰mile Clapeyron and Hermann von Helmholtz, and amateurs such as Julius Robert von Mayer all contributed to the notion that the ability to perform certain tasks, called work, was somehow related to the amount of energy in the system. In the 1850s, Glasgow professor of natural philosophy William Thomson and his ally in the engineering science William Rankine began to replace the older language of mechanics with terms such as "actual energy", "kinetic energy", and "potential energy".<ref name="Smith" >Smith, Crosbie (1998). The Science of Energy - a Cultural History of Energy Physics in Victorian Britain. The University of Chicago Press. ISBN 0-226-76421-4. William Thomson (Lord Kelvin) amalgamated all of these laws into the laws of thermodynamics, which aided in the rapid development of explanations of chemical processes using the concept of energy by Rudolf Clausius, Josiah Willard Gibbs and Walther Nernst. It also led to a mathematical formulation of the concept of entropy by Clausius, and to the introduction of laws of radiant energy by Jožef Stefan. Rankine, coined the term "potential energy".<ref name="Smith" /> In 1881, William Thomson stated before an audience that:^[4]

The very name energy, though first used in its present sense by Dr Thomas Young about the beginning of this century, has only come into use practically after the doctrine which defines it had ... been raised from mere formula of mathematical dynamics to the position it now holds of a principle pervading all nature and guiding the investigator in the field of science.

Over the following thirty years or so this newly developing science went by various names, such as the dynamical theory of heat or energetics, but after the 1920s generally came to be known as thermodynamics, the science of energy transformations.

Stemming from the 1850s development of the first two laws of thermodynamics, the science of energy have since branched off into a number of various fields, such as biological thermodynamics and thermoeconomics, to name a couple; as well as related terms such as entropy, a measure of the loss of useful energy, or power, an energy flow per unit time, etc. In the past two centuries, the use of the word energy in various "non-scientific" vocations, e.g. social studies, spirituality and psychology has proliferated the popular literature.

In 1918 it was proved that the law of conservation of energy is the direct mathematical consequence of the translational symmetry of the quantity conjugate to energy, namely time. That is, energy is conserved because the laws of physics do not distinguish between different moments of time (see Noether's theorem).

During a 1961 lecture^[4] for undergraduate students at the California Institute of Technology, Richard Feynman, a celebrated physics teacher and Nobel Laureate, said this about the concept of energy:

There is a fact, or if you wish, a law, governing natural phenomena that are known to date. There is no known exception to this law—it is exact so far we know. The law is called conservation of energy; it states that there is a certain quantity, which we call energy that does not change in manifold changes which nature undergoes. That is a most abstract idea, because it is a mathematical principle; it says that there is a numerical quantity, which does not change when something happens. It is not a description of a mechanism, or anything concrete; it is just a strange fact that we can calculate some number, and when we finish watching nature go through her tricks and calculate the number again, it is the same.

Notes and references

1. ^ Alekseev, G.N. (1986). Energy and Entropy. Mir Publishers Moscow.
2. ^ Online Etymology Dictionary Keyword=energy
3. ^ 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.
4. ^ Thomson, William. (1881). "On the sources of energy available to man for the production of mechanical effect." BAAS Rep. 51: 513-18 (Quote: pg. 513); PL 2: 433-50.

External Links

Aristotle (Greek: Ἀριστοτέλης AristotÃ©lēs) (384 BC – 322 BC) was a Greek philosopher, a student of Plato and teacher of Alexander the Great.
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Etymology is the study of the history of words - when they entered a language, from what source, and how their form and meaning have changed over time.

In languages with a long written history, etymology makes use of philology, the study of how words change from culture to
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Ergon can refer to:

Ergon, a concept from Aristotle's Nicomachean Ethics that is most often translated as function, task, or work
Ergon, a petroleum company
Ergon, an electricity company owned by the Government of Queensland

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In the history of science, vis viva (from the Latin for living force) is an obsolete scientific theory that served as an elementary and limited early formulation of the principle of conservation of energy.
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Gottfried Wilhelm Leibniz

Gottfried Wilhelm Leibniz
Born July 1 (June 21 Old Style) 1646
Leipzig, Electorate of Saxony
Died November 14 1716
Hannover, Hanover
Nationality German
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Sir Isaac Newton

Isaac Newton at 46 in
Godfrey Kneller's 1689 portrait
Born 4 January 1643 [OS: 25 December 1642]
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Thomas Young (June 13, 1773-May 10, 1829) was an English polymath, contributing to the scientific understanding of vision, light, solid mechanics, energy, physiology, and Egyptology.
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Gaspard-Gustave de Coriolis or Gustave Coriolis (May 21 1792–September 19 1843), mathematician, mechanical engineer and scientist born in Paris, France. He is best known for his work on the Coriolis Effect.
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kinetic energy of an object is the extra energy which it possesses due to its motion. It is defined as the work needed to accelerate a body of a given mass from rest to its current velocity.
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William John Macquorn Rankine (July 5, 1820 - December 24, 1872) was a Scottish engineer and physicist. He was a founding contributor, with Rudolf Clausius and William Thomson (1st Baron Kelvin), to the science of thermodynamics.
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Potential energy can be thought of as energy stored within a physical system. This energy can be released or converted into other forms of energy, including kinetic energy.
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caloric theory is an obsolete scientific theory that heat consists of a fluid called caloric that flows from hotter to colder bodies. Caloric was also thought of as a weightless gas that could pass in and out of pores in solids and liquids.
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steam engine is an external combustion heat engine that makes use of the heat energy that exists in steam, converting it to mechanical work.

Steam engines were used as the prime mover in pumping stations, locomotives, steam ships, traction engines, steam lorries and other
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In physics, mechanical efficiency is the effectiveness of a machine and is defined as

To show the effectiveness of a machine one must compare its work input to its work output.
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In thermodynamics, the thermal efficiency () is a dimensionless performance measure of a thermal device such as an internal combustion engine, a boiler, or a furnace, for example. The input, , to the device is heat, or the heat-content of a fuel that is consumed.
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Sadi Carnot in the dress uniform of a student of the Ã‰cole polytechnique]] Nicolas LÃ©onard Sadi Carnot (June 1 1796 - August 24 1832) was a French physicist and military engineer who, in his 1824 Reflections on the Motive Power of Fire
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James Prescott Joule

James Joule - English physicist
Born November 24 1818
Salford, Lancashire, England
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BenoÃ®t Paul Ã‰mile Clapeyron (February 26, 1799 - January 28, 1864) was a French engineer and physicist, one of the founders of thermodynamics.

Life

Born in Paris, Clapeyron studied at the Ã‰cole polytechnique and the Ã‰cole des Mines, before leaving for Saint Petersburg in
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Hermann von Helmholtz

Hermann Ludwig Ferdinand von Helmholtz
Born July 31 1821
Potsdam, Germany
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Julius Robert von Mayer (November 25, 1814 – March 20, 1878) was a German physician and physicist and one of the founders of thermodynamics. He is best known for enunciating in 1841 one of the original statements of the conservation of energy or what is now known as one of
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William Thomson, 1st Baron Kelvin, OM, GCVO, PC, PRS, FRSE, (26 June 1824 – 17 December 1907) was a British mathematical physicist, engineer, and outstanding leader in the physical sciences of the 19th century.
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For other uses, see Mechanic (disambiguation).

Mechanics (Greek Μηχανική
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Thermodynamics (from the Greek θερμη, therme, meaning "heat" and δυναμις, dynamis, meaning "power") is a branch of physics that studies the effects of changes in temperature, pressure, and volume on
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Rudolf Julius Emanuel Clausius (January 2, 1822 – August 24, 1888), was a German physicist and mathematician and is considered one of the central founders of the science of thermodynamics.
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J. Willard Gibbs

(1839-1903)
Born January 11 1839
New Haven, Connecticut, U.S.
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