Thomas Young (scientist)

Thomas Young (scientist)

Infobox Scientist
name = Thomas Young
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birth_date = birth date|df=yes|1773|06|13
birth_place = Milverton, Somerset, England
death_date = death date and age|df=yes|1829|05|10|1773|06|13
death_place = London, England
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field = Physics, Physiology, Egyptology
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Thomas Young (13 June 1773 – 10 May 1829) was an English polymath who contributed to the scientific understanding of vision, light, solid mechanics, energy, physiology, and Egyptology.

Biography

Young belonged to a Quaker family of Milverton, Somerset, where he was born in 1773, the eldest of ten children. At the age of fourteen Young had learned Greek and Latin and was acquainted with French, Italian, Hebrew, Chaldean, Syriac, Samaritan, Arabic, Persian, Turkish and Amharic. [cite book | author=Singh, Simon | title=The Code Book: The Science of Secrecy from Ancient Egypt to Quantum Cryptography | publisher=Anchor | year=2000 | id=ISBN 0-385-49532-3]

Young began to study medicine in London in 1792, moved to Edinburgh in 1794, and a year later went to Göttingen, Lower Saxony, Germany where he obtained the degree of doctor of physics in 1796. In 1797 he entered Emmanuel College, Cambridge. In the same year he inherited the estate of his grand-uncle, Richard Brocklesby, which made him financially independent, and in 1799 he established himself as a physician at 48 Welbeck Street, London (now recorded with a blue plaque). Young published many of his first academic articles anonymously to protect his reputation as a physician.

In 1801 Young was appointed professor of natural philosophy (mainly physics) at the Royal Institution. In two years he delivered 91 lectures. In 1802, he was appointed foreign secretary of the Royal Society, of which he had been elected a fellow in 1794. He resigned his professorship in 1803, fearing that its duties would interfere with his medical practice. His lectures were published in 1807 in the "Course of Lectures on Natural Philosophy" and contain a number of anticipations of later theories.

In 1811 Young became physician to St. George's Hospital, and in 1814 he served on a committee appointed to consider the dangers involved in the general introduction of gas into London. In 1816 he was secretary of a commission charged with ascertaining the length of the second's pendulum, and in 1818 he became secretary to the Board of Longitude and superintendent of the HM Nautical Almanac Office.

A few years before his death he became interested in life assurance, [cite book | title = Life of Thomas Young: M.D., F.R.S., &c.; and One of the Eight Foreign Associates of the National Institute of France | author = Peacock, George | publisher = J. Murray | year = 1855 | url = http://books.google.com/books?id=pdkEAAAAYAAJ&pg=PA403&dq=life-assurance+thomas-young&ei=FoIbR_j0JabqoQLwi9CvBg#PPA403,M1 ] and in 1827 he was chosen one of the eight foreign associates of the French Academy of Sciences.

Thomas Young died in London on 10 May 1829, and was buried in the cemetery of St. Giles Church in Farnborough, Kent, England.

Later scholars and scientists have praised Young's work although they may know him only through achievements he made in their fields. His contemporary Sir John Herschel called him a "truly original genius". Albert Einstein praised him in the 1931 foreword to an edition of Newton's "Opticks". Other admirers include physicist Lord Rayleigh and Nobel laureate Philip Anderson.

One of Thomas Young's direct descendants was Professor John Z. Young, M.A., F.R.S. (1907-1997), English zoologist and neurophysiologist.

Research

Wave theory of light

In Young's own judgement, of his many achievements the most important was to establish the wave theory of light. To do so, he had to overcome the century-old view, expressed in the venerable Isaac Newton's "Optics", that light is a particle. Nevertheless, in the early 1800s Young put forth a number of theoretical reasons supporting the wave theory of light, and he developed two enduring demonstrations to support this viewpoint. With the ripple tank he demonstrated the idea of interference in the context of water waves. With the two-slit, or double-slit experiment, he demonstrated interference in the context of light as a wave. In a paper entitled "Experiments and Calculations Relative to Physical Optics", published in 1803, Young describes an experiment in which he placed a narrow card (approx. 1/30th in.) in a beam of light from a single opening in a window and observed the fringes of color in the shadow and to the sides of the card. He observed that placing another card before or after the narrow strip so as to prevent light from the beam from striking one of its edges caused the fringes to disappear. [cite book|last=Magie|first=William Francis|title=A Source Book in Physics|publisher=Harvard University Press|year=1935 p. 309] This supported the contention that light is composed of waves. [Of course, both Young and Newton were eventually shown to be partially correct, as neither wave nor particle explanations alone can explain the behavior of light. See e.g. http://www.molphys.leidenuniv.nl/monos/smo/index.html?basics/light.htm.] Young performed and analyzed a number of experiments, including interference of light from reflection off nearby pairs of micrometer grooves, from reflection off thin films of soap and oil, and from Newton's rings. He also performed two important diffraction experiments using fibers and long narrow strips. In his "Course of Lectures on Natural Philosophy and the Mechanical Arts" (1807) he gives Grimaldi credit for first observing the fringes in the shadow of an object placed in a beam of light. Within ten years, much of Young's work was reproduced and then extended by Fresnel. (Tony Rothman in "Everything's Relative and Other Fables from Science and Technology" argues that there is no clear evidence that Young actually did the two-slit experiment. "See also Newton wave-particle duality".)

Young's modulus

Young described the characterization of elasticity that came to be known as Young's modulus, denoted as "E", in 1807, and further described it in his subsequent works such as his 1845 "Course of Lectures on Natural Philosophy and the Mechanical Arts". [cite book | title = Course of Lectures on Natural Philosophy and the Mechanical Arts | author = Young, Thomas | url = http://books.google.com/books?id=fGMSAAAAIAAJ&pg=RA1-PA106&dq=modulus+inauthor:thomas+inauthor:young&as_brr=1&ei=pL_ZRrnbL5aipwLBuNySCw#PPA1,M1 | year = 1845 | publisher = London: Taylor and Walton] However, the idea can be traced back to a paper by Leonhard Euler published in 1727, eighty years before Thomas Young's 1807 paper. The first use of the concept of Young's modulus in experiments was by Giordano Riccati in 1782 – predating Young by 25 years. [cite book | author = Truesdell, Clifford A.| year = 1960 | title = The Rational Mechanics of Flexible or Elastic Bodies, 1638-1788: Introduction to Leonhardi Euleri Opera Omnia, vol. X and XI, Seriei Secundae | publisher = Orell Fussli]

The Young's modulus relates the stress (pressure) in a body to its associated strain (change in length as a ratio of the original length); that is, stress = "E" × strain, for a uniaxially loaded specimen. Young's modulus is independent of the component under investigation; that is, it is an inherent material property (the term modulus refers to an inherent material property). Young's Modulus allowed, for the first time, prediction of the strain in a component subject to a known stress (and vice versa). Prior to Young's contribution, engineers were required to apply Hooke's F = kx relationship to identify the deformation (x) of a body subject to a known load (F), where the constant (k) is a function of both the geometry and material under consideration. Finding k required physical testing for any new component, as the F = kx relationship is a function of both geometry and material. Young's Modulus depends only on the material, not its geometry, thus allowing a revolution in engineering strategies.

Vision and colour theory

Young has also been called the founder of physiological optics. In 1793 he explained the mode in which the eye accommodates itself to vision at different distances as depending on change of the curvature of the crystalline lens; in 1801 he was the first to describe astigmatism; and in his Lectures he presented the hypothesis, afterwards developed by Hermann von Helmholtz, that colour perception depends on the presence in the retina of three kinds of nerve fibres which respond respectively to red, green and violet light. This theory was experimentally proven in 1959.

"See also Young–Helmholtz theory"

Young–Laplace equation

In 1804 Thomas Young (Essay on the "Cohesion of Fluids", "Phil. Trans"., 1805, p. 65) founded the theory of capillary phenomena on the principle of surface tension. He also observed the constancy of the angle of contact of a liquid surface with a solid, and showed how from these two principles to deduce the phenomena of capillary action.

The Young–Laplace equation is the formula for capillary action independently discovered by Laplace in 1805.

Young was the first to define the term "energy" in the modern sense. [cite book | title = Ueber den Ausgangswerth der kleinsten Absweichungssumme | author = Fechner, Gustav Theodor | year = 1878 | publisher = S. Hirzel | url = http://books.google.com/books?id=qY8KAAAAIAAJ&pg=RA3-PA650&dq=energy+date:0-1890+velocity+mass+thomas+young&as_brr=3&ei=rGjcRr-RA4H0owKTmOGSCw ]

Young's equation and Young–Dupré equation

Young’s equation describes the contact angle of a liquid drop on a plane solid surface as a function of the surface free energy, the interfacial free energy and the surface tension of the liquid. Young’s equation was developed further some 60 years later by Dupré to account for thermodynamic effects, and this is known as the Young–Dupré equation.

Medicine

In physiology Young made an important contribution to haemodynamics in the Croonian lecture for 1808 on the "Functions of the Heart and Arteries," and his medical writings included "An Introduction to Medical Literature", including a "System of Practical Nosology" (1813) and "A Practical and Historical Treatise on Consumptive Diseases" (1815).

Young devised a rule of thumb for determining a child’s drug dosage. Young’s Rule states that the child dosage is equal to the adult dosage multiplied by the child’s age in years, divided by the sum of 12 plus the child’s age.

Languages

In an appendix to his Gottingen dissertation (1796; "De corporis hvmani viribvs conservatricibvs. Dissertatio.") there are four pages added proposing a universal phonetic alphabet (so as 'not to leave these pages blank'; lit.: "Ne vacuae starent hae paginae, libuit e praelectione ante disputationem habenda tabellam literarum vniuersalem raptim describere"). It includes 16 "pure" vowel symbols, nasal vowels, various consonants, and examples of these, drawn primarily from French and English.

In his "Encyclopaedia Britannica" article "Languages", Young compared the grammar and vocabulary of 400 languages [cite book | author=Robinson, Andrew | title=The Last Man Who Knew Everything: Thomas Young, the Anonymous Genius who Proved Newton Wrong and Deciphered the Rosetta Stone, among Other Surprising Feats | publisher=Penguin | year=2007 | id=ISBN 0131343041] . In a separate work in 1813, he introduced the term Indo-European languages, 165 years after the Dutch linguist and scholar Marcus Zuerius van Boxhorn made such a proposal in 1647.

Egyptian hieroglyphs

Young was also one of the first who tried to decipher Egyptian hieroglyphs, with the help of a demotic alphabet of 29 letters built up by Johan David Åkerblad in 1802 (15 turned out to be correct and Åkerblad and Young wrongly believed that demotic was entirely phonetic or alphabetic). By 1814 Young had completely translated the "enchorial" (demotic, in modern terms) text of the Rosetta Stone (he had a list with 86 demotic words), and then studied the hieroglyphic alphabet but failed to recognise that the demotic and hieroglyphic texts were paraphrases and not simple translations. In 1823 he published an "Account of the Recent Discoveries in Hieroglyphic Literature and Egyptian Antiquities". Some of Young's conclusions appeared in the famous article "Egypt" he wrote for the 1818 edition of the "Encyclopædia Britannica."

When the French linguist Jean-François Champollion in 1822 published his translation of the hieroglyphs and the key to the grammatical system, Young (and alla others) praised this work but Young also stated that Champollion had based his system on his articles and tried to have his part recognized. The truth was that Young had correctly found the sound value of just six signs and had not found the backbone of the grammar at all, following his own wrong theories.Fact|date=August 2008 Thus Champollion was unwilling to share the credit. In the forthcoming schism, strongly motivated by the political tensions of that time, the British supported Young and the French Champollion. Champollion, whose complete understanding of the hieroglyphic grammar showed the mistakes made by Young, maintained that he alone had deciphered the hieroglyphs. However, after 1826, he did offer Young access to demotic manuscripts in the Louvre, when he was a curator there.

Music

He developed Young temperament, a method of tuning musical instruments.

elected writings of Thomas Young

* [http://books.google.com/books?id=fGMSAAAAIAAJ&pg=RA1-PR29#PPP1,M1 "A Course of Lectures on Natural Philosophy and the Mechanical Arts" (1807, republished 2002 by Thoemmes Press).]
* [http://books.google.com/books?id=Pb-JvNOjDhEC&pg=PA1#PPP5,M1 "Miscellaneous Works of the Late Thomas Young, M.D., F.R.S." (1855, 3 volumes, editor John Murray, republished 2003 by Thoemmes Press).]

References

Further reading

*- The link is to a pdf version of the paper.

*

*

*
** [http://www.telegraph.co.uk/arts/main.jhtml?xml=/arts/2006/09/24/borob16.xml Reviewed] by Nicholas Shakespeare in [http://www.telegraph.co.uk/ "The Telegraph"] , September 24, 2006.
** [http://www.newstatesman.com/200611130051 Reviewed] by Michael Bywater in [http://www.newstatesman.com/ "The New Statesman"] , November 13, 2006.
** [http://www.telegraph.co.uk/arts/main.jhtml?xml=/arts/2006/11/26/borob19.xml Reviewed] by Simon Singh in [http://www.telegraph.co.uk/ "The Telegraph"] , November 26, 2006.
** [http://www.timesonline.co.uk/article/0,,2102-2487627,00.html Reviewed] by Rosemary Hill in [http://www.timesonline.co.uk/ "The Times"] , December 10, 2006.
** [http://books.guardian.co.uk/review/story/0,,1993741,00.html Reviewed] by PD Smith in [http://www.guardian.co.uk/ "The Guardian"] , January 20, 2007.

*- Discusses Young's theoretical and experimental work on interference

*

*

External links

* [http://www.abc.net.au/rn/ockhamsrazor/stories/2006/1680951.htm ABC Radio International program (Ockham's Razor) on Thomas Young] -- available for download and streaming (as of 9 July 2006)
* [http://www.lboro.ac.uk/departments/cg/Projects/2002/mulcare/Pw_theory.htm#What%20is%20the%20Contact%20Angle Partial wetting]

Persondata
NAME=Young, Thomas
ALTERNATIVE NAMES=
SHORT DESCRIPTION=Polymath, Physicist
DATE OF BIRTH=1773-06-13
PLACE OF BIRTH=Milverton, Somerset, England
DATE OF DEATH=1829-05-10
PLACE OF DEATH=London, England


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