William Nicol (geologist)

Nicol's house, 12 Inverleith Terrace, Edinburgh
Memorial to William Nicol, Warriston Cemetery

William Nicol FRSE (18 April 1770 – 2 September 1851) was a Scottish geologist and physicist who invented the Nicol prism, the first device for obtaining plane-polarized light, in 1828.

Early life

He was born in Humbie (East Lothian) in 1770 the son of Walter Nicol and Marion Fowler.[1] He was baptised on 18 Apr 1770 this being recorded in the parish register. Some sources (including his gravestone) give his date of birth as 1766.

Lecturer

He started out as aide to his uncle, Henry Moyes, an itinerent lecturer in Natural Philosophy whose blindness necessitated assistance for his chemistry and optics demonstrations.[2][3] Nicol, having himself become a popular lecturer on that subject at the University of Edinburgh, settled in Edinburgh to live a very retired life. He conducted extensive studies of fluid inclusions in crystals and the microscopic structure of fossil wood.[4] He did not publish any of his research findings until 1826.

Nicol prism

Main article: Nicol prism

Nicol made his prism by bisecting a parallelepiped of Iceland spar (a naturally occurring, transparent crystalline form of calcium carbonate) along its shortest diagonal, then cementing the two halves together with Canada balsam. Light entering the prism is refracted into two rays, one of which emerges as plane-polarized light. Nicol prisms greatly facilitated the study of refraction and polarization, and were later used to investigate molecular structures and optical activity of organic compounds.

Rock sections

In 1815, Nicol developed a method of preparing extremely thin sections of crystals and rocks for microscopical study. He hit upon the plan of cutting sections of fossil wood, so as to reveal its minutest vegetable structures under a microscope. He took a slice from the specimen to be studied, ground it perfectly flat, polished it, and cemented it by means of Canada balsam to a piece of plate-glass. The exposed surface of the slice was then ground down, until the piece of stone was reduced to a thin pellicle adhering to the glass, and the requisite degree of transparency was obtained. His technique made it possible to view mineral samples by transmitted rather than reflected light and therefore enabled the minerals' internal structures to be seen. Nicol prepared a large number of slices of fossil and recent woods. Many of these were described by Henry Witham in his Observations of Fossil Vegetables (1831), to which Nicol supplied the first published account of the process.[5]

When Nicol died, his instruments and preparations passed to Alexander Bryson, who made many additions to the collections and made numerous thin slices of minerals and rocks for the purpose of exhibiting the cavities containing fluid, which had been described long before by David Brewster and Nicol.[5]

Death and legacy

He died at his home, 4 Inverleith Terrace in Edinburgh (now renumbered 12 Inverleith Terrace) on the 2 September 1851,[6] and was buried in Warriston Cemetery. His burial site is now marked by a plaque on the east wall, north of the sealed eastern gate.

Dorsum Nicol on the Moon is named after him.

References

  1. http://www.royalsoced.org.uk/cms/files/fellows/biographical_index/fells_indexp2.pdf
  2. Joseph Priestley to Joseph Banks, 6 Feb 1783, NHM, Dawson Turner MS 3, fol. 17
  3. p122 Albert Edward Musson, Eric Robinson Science and technology in the Industrial Revolution, Manchester University Press, 1969, ISBN 0-7190-0370-9
  4. Public Domain This article incorporates text from a publication now in the public domain: Chisholm, Hugh, ed. (1911). "article name needed". Encyclopædia Britannica (11th ed.). Cambridge University Press.
  5. 1 2 Sir Archibald Geikie, The Founders of Geology (1897)
  6. http://www.royalsoced.org.uk/cms/files/fellows/biographical_index/fells_indexp2.pdf
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