James Curtis Booth

James Curtis Booth (28 July 1810 – 21 March 1888) was a United States chemist who was the melter and refiner at the U.S. Mint in Philadelphia for many years.[1]

James Curtis Booth in 1845

Life

Booth was born in Philadelphia on 28 July 1810, and was educated at the Hartsville Seminary.[2] Booth graduated from the University of Pennsylvania in 1829, and later studied at the Rensselaer Polytechnic Institute at Troy, New York from 1831 to 1832.[3] He visited Germany between 1833 and 1835, spending the year of 1833 in Professor Friedrich Wöhler's private laboratory in Hesse-Cassel, and then spending nine months in the laboratory of Professor Gustav Magnus in Berlin. For the remainder of his time in Europe he attended lectures and visited manufacturing facilities on the continent and in England.[4]

Booth assisted in the Geological Survey of Pennsylvania in 1836, making the discovery that the mountains that form the middle belt of that state consist of two separate formations. He was head of the Geological Survey of Delaware from 1837 to 1838. He became a member of the American Philosophical Society in January 1839.[4] He opened a chemistry laboratory in Pennsylvania in 1836 for teaching purposes, which gained a strong reputation. As the demand for teaching and chemical analysis increased, he was assisted by Dr. Martin Hans Boyè until 1845. From 1848, Thomas H. Garrett was his associate, and in 1881 the firm became "Booth, Garrett and Blair".[2]

According to the Scientific American, a course in Booth's laboratory "was considered necessary for the chemist of that time, and was regarded of more value than a college diploma". Students who went on to have notable scientific careers included John Fries Frazer, Richard Sears McCulloh, Campbell Morfit and Clarence Morfit.[4] Booth lectured at the Franklin Institute between 1836 and 1845. In 1843 he published the Encyclopedia of Chemistry, writing most of the articles.[3] In 1845, Booth spent some time in Mine la Mott in Missouri mining cobalt, but the venture was not successful.[4]

In 1849 he was appointed melter and refiner in the Mint by President Zachary Taylor, working there until he retired in 1887.[3] He and his former pupil Richard Sears McCulloch both invented methods of refining California gold that involved combining the ore with zinc, and the two men agreed to combine their inventions into a single patent, which they sold to an interested industrialist.[5] In 1850 he was appointed a professor by the University of Pennsylvania at their newly created Department of Chemistry as Applied Arts, but his work at the mint only let him undertake his work part-time. However, he continued to teach at the university until 1855.[1] While at the mint he designed a new form of wind furnace for melting the huge amount of gold being mined in California.[3] His analysis of the nickel ores of Pennsylvania led to the use of nickel as a component of the cent issued in 1857.[2]

The University of Lewisburg conferred the degree of LL.D. on him in 1867, and the Rensselaer Polytechnic Institute gave him a Ph.D. in 1884. He was a member of the American Philosophical Society, and was president of the American Chemical Society from 1883 to 1884.[2] James Curtis Booth married in 1853 and became the father of three children.[1] He died at his home in West Haverford, Pennsylvania, on 21 March 1888.[2]

Bibliography

References

  1. "James Curtis Booth (1810-1888)". University of Pennsylvania. Retrieved 2010-12-09.
  2. "Booth, James Curtis". Appletons' annual cyclopaedia and register of important events, Volume 13. D. Appleton and company. 1889. p. 624.
  3. "Obituary: James Curtis Booth". Journal of the Franklin Institute. Pergamon Press. 1888. p. 67ff.
  4. Patterson DuBois (5 October 1888). "James Curtis Booth, Ph.D, LL.D.". Proceedings of the American Philosophical Society held at Philadelphia for promoting useful knowledge, Volume 25. The Society. p. 204ff.
  5. Richard Sears McCulloh (1851). Memorial of the Congress of the United States: requesting an investigation and legislation in relation to the new method for refining gold. John T. Robinson. p. 21.

Further reading

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