Electrocution

Electrocution is death or severe injury caused by electric shock, electric current passing through the body. The word is derived from "electro" and "execution", but it is also used for accidental death.[1][2]

The term "electrocution" was coined in 1889 in the US just before the first use of the electric chair and originally referred only to electrical execution and not to accidental or suicidal electrical deaths. However, since no English word was available for non-judicial deaths due to electric shock, the word "electrocution" eventually took over as a description of all circumstances of electrical death from the new commercial electricity.

Origins

In the Netherlands in 1746 Pieter van Musschenbroek's lab assistant, Andreas Cuneus, received an extreme shock while working with a leyden jar, the first recorded injury from man-made electricity.[3][4] By the mid-19th century high-voltage electrical systems came into use to power arc lighting for theatrical stage lighting and lighthouses leading to the first recorded accidental death in 1879 when a stage carpenter in Lyon, France touched a 250-volt wire.[5]

The spread of arc light-based street lighting systems (which at the time ran at a voltage above 3,000 volts) after 1880 led to many people dying from coming in contact with these high-voltage lines, a strange new phenomenon which seemed to kill instantaneously without leaving a mark on the victim.[6][7] This would lead to execution by electricity in the electric chair in the early 1890s as an official method of capital punishment in the U.S. state of New York, thought to be a more humane alternative to hanging. After an 1881 death in Buffalo, New York caused by a high-voltage arc lighting system, a local dentist named Alfred P. Southwick sought to develop this phenomenon into a way to execute condemned criminals with him basing his device on what he knew well, a dental chair.[8]

The next nine years saw a promotion by Southwick, the New York state Gerry commission (which included Southwick) recommending execution by electricity, a June 4, 1888 law making it the state form of execution on January 2, 1889, and a further state committee of doctors and lawyers to finalize the details of the method used.[9]

The adoption of the electric chair became mixed up in the "war of currents" between Thomas Edison's direct current system and industrialist George Westinghouse's alternating current system in 1889 when noted anti-AC activist Harold P. Brown became a consultant to the committee. Brown pushed, with the assistance and sometimes collusion of Edison Electric and Westinghouse's chief AC rival, the Thomson-Houston Electric Company, for the successful adoption of alternating current to power the chair, an attempt to portray AC as a public menace and the "executioners current".[10]

Etymology

In May 1889 the state of New York sentenced its first criminal, a street merchant named William Kemmler, to be executed in their new form of capital punishment. Tabloid newspapers, trying to describe this new form of electrical execution, started settling on "electrocution," a portmanteau word derived from "electro" and "execution".[11] It was not the only choice of word people were considering. The New York Times editorial column noted words such as "Westinghoused" (after the Westinghouse Electric alternating current equipment that was to be used), "Gerrycide" (after Elbridge Gerry who headed the New York death penalty commission that suggested adopting the electric chair), and "Browned" (after anti-AC activist Harold P. Brown).[12] Thomas Edison preferred the words dynamort, ampermort and electromort.[12] The New York Times hated the word electrocution, describing it as being pushed forward by "pretentious ignoramuses".[11]

Medical aspects

The United States National Library of Medicine states: "Contact with 20 mA of current can be fatal".[13]

The health hazard of an electric current flowing through the body depends on the amount of current and the length of time for which it flows, not merely on the voltage. However, a high voltage is required to produce a high current through the body. This is due to the relatively high resistance of skin when dry, requiring a high voltage to pass through.[14] The severity of a shock also depends on whether the path of the current includes a vital organ.

Death can occur from any shock that carries enough sustained current to stop the heart. Low currents (70–700 mA) usually trigger fibrillation in the heart, which is reversible via defibrillator but is nearly always fatal without help. Currents as low as 30 mA AC or 300-500 mA DC applied to the body surface can cause fibrillation. Large currents (> 1 A) cause permanent damage via burns and cellular damage.

The voltage necessary to create current of a given level through the body varies widely with the resistance of the skin; wet or sweaty skin or broken skin can allow a larger current to flow. Whether an electric current is fatal is also dependent on the path it takes through the body, which depends in turn on the points at which the current enters and leaves the body. The current path must usually include either the heart or the brain to be fatal.

Statistics

Construction workers represented 61% of all work-related electrocution fatalities. Construction laborers, as a group, suffered the largest portion of fatalities at 23%, actually exceeding that of electrical workers (19%). While the rate of electrocutions dropped between 1998 and 2010, from over 150 per year to around 80, the rate for construction workers remains the highest of all work-related electrocution fatalities in 2015.[15]

See also

References

  1. "Electrocute" from the Merriam-Webster Dictionary of the English Language, 2009
  2. "electrocute". Oxford Dictionaries. Oxford University Press. Retrieved 2015-08-22.
  3. awesomestories.com, THE LEYDEN JAR
  4. Zongcheng Yang, Chinese Burn Surgery, Springer -, 2015, page 12
  5. Lee, R.C.; Rudall, D. (1992). "Injury Mechanisms And Therapeutic Advances In The Study Of Electrical Shock". Proceedings of the Annual International Conference of the IEEE. 7: 2825–2827. doi:10.1109/IEMBS.1992.5761711. ISBN 0-7803-0785-2.
  6. Randall E. Stross, The Wizard of Menlo Park: How Thomas Alva Edison Invented the Modern World, Crown/Archetype - 2007, page 171-173
  7. Craig Brandon, The Electric Chair: An Unnatural American History pages 14-24
  8. Craig Brandon The Electric Chair: An Unnatural American History page 24
  9. Richard Moran, Executioner's Current: Thomas Edison, George Westinghouse, and the Invention of the Electric Chair, Knopf Doubleday Publishing Group - 2007, pages 102-104
  10. Mark Essig, Edison and the Electric Chair: A Story of Light and Death, Bloomsbury Publishing USA - 2009, pages 152-155
  11. Moran (2007), p. xxii.
  12. Moran (2007), pp. xxi-xxii.
  13. Fish, Raymond M. PhD, MD, FACEPa; Geddes, Leslie A. MS, PhD, DScb (October 12, 2009). "Conduction of Electrical Current to and Through the Human Body: A Review". United States National Library of Medicine. 9: e44. PMC 2763825. PMID 19907637.
  14. Fish, Raymond M.; Geddes, Leslie A. (2009-10-12). "Conduction of Electrical Current to and Through the Human Body: A Review". ePlasty. 9: e44. ISSN 1937-5719. PMC 2763825. PMID 19907637.
  15. "Incidence of Electrocution Too High in the Construction Industry". Jobsite by Procore. 2017-12-18. Retrieved 2019-11-27.
Bibliography
  • Moran, Richard (2007). Executioner's Current: Thomas Edison, George Westinghouse, and the Invention of the Electric Chair. New York: Knopf Doubleday Publishing Group. ISBN 978-0-37572-446-6.
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