Thomas Graham (chemist)

Thomas Graham
Thomas Graham
	Thomas Graham in 1856
Born	21 December 1805; Glasgow, Scotland
Died	16 September 1869 (aged 63); London, UK
Nationality	Scottish
Known for	Graham's Law; Dialysis;
Awards	Royal Medal (1838, 1850); Copley Medal (1862);
	Scientific career
Fields	Chemistry
Institutions	Anderson's Institution; University College London;
Signature

Thomas Graham FRS FRSE (21 December 1805[1][2] – 16 September 1869) was a British chemist known for his pioneering work in dialysis and the diffusion of gases. He is regarded as one of the founders of colloid chemistry.[3]

Life

Graham was born in Glasgow, and educated at Glasgow High School. Graham's father was a successful textile manufacturer, and wanted his son to enter into the Church of Scotland. Instead, defying his father's wishes, Graham became a student at the University of Glasgow in 1819. There he developed a strong interest in chemistry, studying under Professor Thomas Thomson, who was impressed and influenced by the young man. He left the University after receiving his MA in 1824.[4]

He later studied medicine at the University of Edinburgh and then briefly taught chemistry at the Glasgow University Portland Street Medical School. In 1828 he was elected an Honorary Fellow of the Royal Society of Edinburgh, his proposer was Edward Turner. He won the Society's Keith Medal for the period 1831–33.[4]

in 1830 he was appointed to be the first professor of chemistry at the Anderson's Medical School, a post later named the Freeland Chair of Chemistry. He also delivered lectures to the Glasgow Mechanics' Institution before moving to take up a professorship at the University of London, where Graham founded the Chemical Society of London in 1841. In 1866, he was elected a foreign member of the Royal Swedish Academy of Sciences.

His final position was the Master of the Mint, where he stayed from 1855 until his death. He was the last person to hold that position.[5]

He died in Gordon Square in London but his body was returned to Glasgow for burial in the family plot at Glasgow Cathedral.[4]

He did not marry and had no children.

Publications

On the Law of Diffusion of Gases (1833)

Scientific works

Thomas Graham is known for his studies on the behaviour of gases, which resulted in his formulation of two relationships, both since becoming known as "Graham's Laws," the first regarding gas diffusion,[6] and the second regarding gas effusion.[7] In the former case, Graham deduced that when measured repeatedly under the same conditions of pressure and temperature, the rate of diffusive mixing of a gas is inversely proportional to the square root of its density, and given the relationship between density and molar mass, also inversely proportional to the square root of its molar mass. In the same way, in the latter case, regarding effusion of a gas through a pin hole in to a vacuum, Graham deduced that the rate of effusion of a gas is inversely proportional to the square root of its molar mass. These two are sometimes referred to as a combined law (describing both phenomena).

In applied areas, Graham also made fundamental discoveries related to dialysis, a process used in research and industrial settings, as well as in modern health care. Graham's study of colloids resulted in his ability to separate colloids and crystalloids using a so-called "dialyzer", using technology that is a rudimentary forerunner of technology in modern kidney dialysis machines. These studies were foundational in the field known as colloid chemistry, and Graham is credited as one of its founder.[5]

Honours, activities, and recognition

Elected an Honorary Fellow of the Royal Society of Edinburgh (1828) receiving its Keith Medal for 1831-3
Fellow of the Royal Society (1836)
First President of the Chemical Society of London (1841)
Royal Medal of the Royal Society (1837 and 1863)
Honorary doctorate (DCL) from the University of Oxford (1853)
Copley Medal of the Royal Society (1862)
Prix Jecker of the Paris Academy of Sciences (1862)
A statue of Graham, sculpted by William Brodie in George Square in Glasgow was erected by the city in 1872
The University of Strathclyde, where Graham worked at one of its precursor institutions, has named the building housing the chemistry department the Thomas Graham Building.
The headquarters of the Royal Society of Chemistry in Cambridge, UK is named Thomas Graham House.

References

"Thomas Graham | British chemist". Encyclopædia Britannica. Retrieved 24 December 2015.
"Thomas Graham | British chemist". Oxford Dictionary. Retrieved 25 November 2019.
"Colloid | Physics". Encyclopædia Britannica. Retrieved 16 September 2018.
Biographical Index of Former Fellows of the Royal Society of Edinburgh 1783–2002 (PDF). The Royal Society of Edinburgh. July 2006. ISBN 0-902-198-84-X.
Pallab Ghosh (2009). Colloid and Interface Science. PHI Learning Pvt. Ltd. pp. 1–. ISBN 978-81-203-3857-9.
E. L. Cussler (15 January 2009). Diffusion: Mass Transfer in Fluid Systems. Cambridge University Press. pp. 13–. ISBN 978-0-521-87121-1.
James S. Trefil (2003). The Nature of Science: An A-Z Guide to the Laws and Principles Governing Our Universe. Houghton Mifflin Harcourt. pp. 187–. ISBN 978-0-618-31938-1.

External links

Graham, Thomas (1833). "Researches on the Arseniates, Phosphates, and Modifications of Phosphoric Acid". Philosophical Transactions. The Alembic club. 123: 253–284. doi:10.1098/rstl.1833.0015. Retrieved 20 March 2008.
Biography
Obituary from Nature by A. W. Williamson
Papers of Thomas Graham
Records of Glasgow Mechanics' Institution / College of Science and Arts

Government offices
Preceded by Sir John Herschel, Bt	Master of the Mint 1855–1869	Office abolished Robert Lowe as Chancellor of the Exchequer

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[1] "Thomas Graham | British chemist". Encyclopædia Britannica. Retrieved 24 December 2015.

[2] "Thomas Graham | British chemist". Oxford Dictionary. Retrieved 25 November 2019.

[3] "Colloid | Physics". Encyclopædia Britannica. Retrieved 16 September 2018.

[:0-4] Biographical Index of Former Fellows of the Royal Society of Edinburgh 1783–2002 (PDF). The Royal Society of Edinburgh. July 2006. ISBN 0-902-198-84-X.

[Ghosh2009-5] Pallab Ghosh (2009). Colloid and Interface Science. PHI Learning Pvt. Ltd. pp. 1–. ISBN 978-81-203-3857-9.

[Cussler2009-6] E. L. Cussler (15 January 2009). Diffusion: Mass Transfer in Fluid Systems. Cambridge University Press. pp. 13–. ISBN 978-0-521-87121-1.

[Trefil2003-7] James S. Trefil (2003). The Nature of Science: An A-Z Guide to the Laws and Principles Governing Our Universe. Houghton Mifflin Harcourt. pp. 187–. ISBN 978-0-618-31938-1.

Masters of the Royal Mint (1331–1879)
House of Plantagenet (1216–1399)	Richard de Snowshill/Richard of Grimsby (1331) Henry de Bruselee and John Chichester (1351–?) Walter dei Bardi (1361–1361) John Chichester (1365–1367) Walter dei Bardi (1375–1391) John Wildeman (1391–1391)
Houses of Lancaster and York (1399–1485)	Richard Garner (1411–1414) Sir Lewis John (1413–1414) Sir Lewis John (1418–1420) Bartholomew Goldbeter (1421–1432) John Paddesley (1435–1446) Robert Manfield (1446–1459) Sir Richard Tonstall (1459–1461) William Hastings (1461–April 1483) Sir Robert Brackenbury (April–June 1483) Sir Robert Brackenbury (June 1483–1485)
House of Tudor (1485–1603)	Sir Giles Daubeney (1485–1490) Sir Bartholomew Reed and Robert Fenrother (1492–1498) 4th Baron Mountjoy (1509–1534) Ralph Rowlet/Sir Martin Bowes (1543) Sir Martin Bowes (1544) Sir John York (1547–1553) Thomas Egerton (1553–1555) Sir Thomas Stanley (1560–1571) John Lonyson (1571–1582) Sir Richard Martin (1582–1603)
House of Stuart (1603–1649)	Sir Richard Martin (1603–1609) Sir Edward Villiers (1617–1623) Sir Randal Cranfield (1623–1626) Sir Robert Harley (1626–1635) Sir Ralph Freeman/Sir Thomas Aylesbury (1635–1643) Sir Robert Harley (1643–1649)
Interregnum (1649–1660)	Aaron Guerdon (1649–1653)
House of Stuart (1660–1714)	Sir Ralph Freeman (1660–1662) Sir Ralph Freeman/Henry Slingsby (1662–1667) Henry Slingsby (1667–1680) Sir John Buckworth/Charles Duncombe/James Hoare (1680–1684) Thomas Neale/Charles Duncombe/James Hoare (1684–1686) Thomas Neale (1686–1699) Sir Isaac Newton (1700–1714)
House of Hanover (1714–1901)	Sir Isaac Newton (1714–1727) John Conduitt (1727–1737) Hon. Richard Arundell (1737–1745) 3rd Viscount Chetwynd (1745–1769) 1st Earl Cadogan (1769–1784) 3rd Earl of Effingham (1784–1789) 5th Earl of Chesterfield (1789–1790) 2nd Marquess Townshend (1790–1794) Sir George Yonge (1794–1799) 2nd Earl of Liverpool (1799–1801) 2nd Baron Arden (1801–1802) John Smyth (1802–1804) 3rd Earl Bathurst (1804–1806) Lord Charles Spencer (1806) Charles Bathurst (1806–1807) 3rd Earl Bathurst (1807–1812) 2nd Earl of Clancarty (1812–1814) 3rd Earl of Mornington (1814–1823) 1st Baron Wallace (1823–1827) George Tierney (1827–1828) John Charles Herries (1828–1830) 1st Earl of Auckland (1830–1834) 1st Baron Dunfermline (1834–1835) 1st Baron Ashburton (1835) 1st Baron Taunton (1835–1841) William Ewart Gladstone (1841–1845) Sir George Clerk (1845–1846) Richard Lalor Sheil (1846–1850) Sir John Herschel (1850–1855) Thomas Graham (1855–1869) Vacant (1869–1879)
Office abolished in 1879 with duties given to the Chancellor of the Exchequer.