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Bertram Boltwood

February 16, 2024

Bertram Borden Boltwood (July 27, 1870 Amherst, Massachusetts – August 15, 1927, Hancock Point, Maine) was an American pioneer of radiochemistry.

Bertram Borden Boltwood
Boltwood at Yale 1917
BornJuly 27, 1870
Amherst, Massachusetts
DiedAugust 15, 1927 (1927-08-16) (aged 57)
Hancock, Maine
NationalityAmerican
Alma materYale University
Known forRadiochemistry
Scientific career
FieldsRadiochemistry

Boltwood attended Yale University, became a professor there and in 1910 was appointed chair of the first academic department of radiochemistry.[1] He established that lead was the final decay product of uranium, noted that the lead-uranium ratio was greater in older rocks and, acting on a suggestion by Ernest Rutherford, was the first to measure the age of rocks by the decay of uranium to lead, in 1907. He got results of ages of 400 to 2200 million years, the first successful use of radioactive decay by Pb/U chemical dating. More recently, older mineral deposits have been dated to about 4.4 billion years old, close to the best estimate of the age of Earth.[2]

His work with the uranium decay series led to the discovery of the parent of radium, a new element that he named ionium. Once the existence of isotopes was established, ionium was shown to in fact be thorium-230.[3] Although Boltwood did not get his element on the periodic table, he later got a mineral namesake: Boltwoodite is named after him.[4]

In his later days, Boltwood suffered from depression and committed suicide on August 15, 1927.[5]

Early life and family edit

Bertram Boltwood was born on July 27, 1870, in the Amherst, Massachusetts home of his grandfather, Lucius Boltwood.[5] After relocating from England in the 17th century, the Boltwood family was active in the Amherst community for generations. Lucius was the son of a farmer who worked his way through Williams College to become a lawyer. He was a founder of Amherst College and ran for Governor of Massachusetts as an early member of the Liberty Party in 1841. Thomas Kast Boltwood, son of Lucius, was a lawyer who died in 1872 when his son Bertram was 2 years old. Bertram Boltwood was emotionally close with his mother, Margaret Mathilda, and he grew up in her hometown of Castleton, NY. She prepared him to attend Yale, his father's alma mater, by placing him in private school at a young age, followed by the Albany Academy.[5]

Boltwood’s childhood reveals influences and inclinations that foreshadow the scientist he became as an adult. As a boy, he was interested in mechanical gadgets and enjoyed hobbies such as fishing, photography, and minerals. The latter was likely the influence of his uncle, Charles Upham Shepard, who was a mineralogist and a chemist.[5] His personality was reportedly light-hearted, and he was known to play practical jokes in his youth.[6] He was often reminded of a familial tie to Ralph Waldo Emerson through his paternal great grandmother’s sister (Emerson’s mother Ruth Haskins), and it was expected that Boltwood would study and succeed in line with the family legacy.[5]

Education and scientific background edit

He graduated with high honors in chemistry from Yale in 1892, and went on to study analytical methods of inorganic chemistry and rare earth elements[5]  for two years in Germany at Ludwig-Maxamillian University of Munich.[6] Afterwards, he returned to Yale and earned a PhD in 1897 and became an instructor in the Sheffield Scientific School there from 1896-1900. His teaching and research work at Yale focused on physical chemistry, despite it being a relatively new field. Lacking resources in English for teaching the subject, he translated two books from German, Alexander Classen, "Quantitative Analysis by Electrolysis," and the other by Charles Van Deventer, "Physical Chemistry for Beginners." He was particularly handy in the lab, often improving upon methods and devices. For example, he developed a low melting point wax that found use in labs across the country and was called, "Boltwax".[5]

From 1900-1906, he had a private lab in New Haven, Connecticut.[5] He worked as a consulting chemist, analyzing ore samples for miners. This experience brought him into contact with the rare earth metals he had studied as well as uranium and thorium, elements that would become the crux of his greatest scientific contributions.[6]

Research and academic career edit

In 1906, Boltwood returned to Yale as an assistant professor of physics at a time when the newly discovered science of radioactivity was considered both chemistry and physics.[6] He would eventually become the leading American scientist in the field,[7] and be appointed chair of radiochemistry in 1910, a position that was the first of its kind.[1] He developed a friendship with Ernest Rutherford, whose highly influential thinking played a role in much of Boltwood's work. They communicated primarily through overseas correspondence, with the exception of a short period from 1909-1910 when Rutherford invited Boltwood to join him at University of Manchester in England.[2][6] Their letters from 1904-1912 were published in 1969 in the book Rutherford and Boltwood: Letters on Radioactivity, which reveals an ongoing conversation as the two scientists work to unravel details of radioactivity and the uranium decay series.[8]

Radiometric dating and the age of Earth edit

Boltwood is credited as being the first to introduce a uranium-lead dating technique to determine the age of geological samples.[9][10][6] The discovery stemmed from his investigations of the uranium decay series and conversations with Rutherford. In 1904, Rutherford gave lectures around the topic of radioactivity as a tool for geologic dating,[11] and presented calculations based on the presence of helium as a product. He dated a sample of fergusonite at 40 million years, with the caveat that helium could escape and would therefore only provide a minimum age.[2] The following year, Boltwood made the assertion that lead was the final decay product in the disintegration of uranium, and that Pb:U ratios increase in older geological samples. In 1907, he published results of analyzing ten mineral samples from different world locations, including a thorianite[2] that measured 2.2 billion years old. This value was ten times greater than any previous estimated age of the Earth,[10] and geologists did not immediately accept the validity of radioactivity as a dating method. Boltwood published a single paper on radiometric dating, instead focusing the majority of his research on the uranium decay series.[2]

Uranium decay series and discovery of ionium edit

In 1904, scientists were working to piece together the series of products as a radioactive atom disintegrates, and understand which elements are related by the process.[1] At this time, Boltwood showed that old geological samples contain a constant ratio of radium and uranium, and he set out to prove the two are connected.[5] To do so, he attempted to determine radium's parent element by "growing" it from uranium's known product, "uranium X". His attempts were unsuccessful, and he suspected a long half life would make it impossible to "grow" radium in a measurable amount.[9] In 1907, he discovered a new element with a half life of almost 100,000 years before it decays to radium,[3] and he named it "ionium" after the ionizing action of its alpha particles.[5] Boltwood was able to prove that ionium disintegrates to radium, and the full connection to uranium was shown in work by Frederick Soddy in 1919.[6] Once the existence of isotopes was established in 1914, Stefanie Horovitz and Otto Hönigschmid demonstrated that ionium was actually thorium-230, the second known case of an isotope, rather than its own distinct element. However, the work of these two scientists in Vienna, as they precisely measured the atomic weight of lead from radioactive sources, also served to reinforce Boltwood's assertion that lead is the final product in the uranium decay series.[3]

Later career and death edit

Once Boltwood was offered a full professorship and chair of radiochemistry position at Yale in 1910, his career became more academic and he no longer actively pursued research.[6] He was elected to both the United States National Academy of Sciences and the American Philosophical Society in 1911.[12][13] He was elected to the American Academy of Arts and Sciences in 1913.[14] In 1918, Boltwood became the director of Yale College chemical laboratory.[6] As he took on more responsibilities at the college, he began overseeing the setup of two laboratories – Sloane Physics and Sterling Chemistry.[5] During this time of added stress, he experienced bouts of depression and was forced to take time off to recover from a mental breakdown in 1924. He returned with renewed zeal and continued his work, but fell into periods of depression over the following years. On August 15, 1927, he took his own life in Hancock Point, Maine at the age of 57.[5]

External links edit

  • Bertram Borden Boltwood papers (MS 90). Manuscripts and Archives, Yale University Library. [1]
  • Works by or about Bertram Boltwood at Internet Archive
  • Science Odyssey: Radiometric dating finds Earth is 2.2 billion years old
  • at www.minrec.org
  • [2]
  • National Academy of Sciences Biographical Memoir
  • Boltwood, Bertram (1907) "The Ultimate Disintegration Products of the Radio-active Elements. Part II. The disintegration products of uranium." in American Journal of Science series 4, volume 23, pages 77–88. doi:10.2475/ajs.s4-23.134.78
  • Vacher, H.L. (2003) "Computational geology 26: Mathematics of radioactivity - When the Earth got old" in J. Geol. Educ. 51, 436-445.

References edit

  1. ^ a b c Malley, Marjorie (2011). Radioactivity: A History of a Mysterious Science. New York: Oxford University Press. ISBN 978-0-19-976641-3.
  2. ^ a b c d e Badash, Lawrence (1968). "Rutherford, Boltwood, and the Age of the Earth: The Origin of Radioactive Dating Techniques". Proceedings of the American Philosophical Society. 122 (3): 157–169 – via JSTOR.
  3. ^ a b c Braunbeck, Werner (1959). The Pursuit of the Atom. Emerson Books, Inc.
  4. ^ Mitchell, Richard Scott; Henley, John Reese (1979). Mineral Names: What Do They Mean?. United States: Van Nostrand Reinhold Company. p. 95. ISBN 9780442245931.
  5. ^ a b c d e f g h i j k l Kovarik, Alois (1929). "Biographical Memoir of Bertram Borden Boltwood" (PDF). National Academy of Sciences Biographical Memoirs. XIV- Third memoir: 67–96.
  6. ^ a b c d e f g h i Badash, Lawrence (1969). Rutherford and Boltwood: Letters on Radioactivity. New Haven and London: Yale University Press. pp. Introduction pgs 1–26.
  7. ^ Rodger, Liam; Bakewell, Joan (2011). "Boltwood, Bertram Borden". Chambers Biographical Dictionary, 9th edition. Chambers Harrap.
  8. ^ Romer, Alfred (1971). "Concerning the true beginning of nuclear physics". Physics Today. May 1971: 43–44. doi:10.1063/1.3022733.
  9. ^ a b Hamblin, Jacob Darwin; Burns, William Earl (2005). Science in the Early Twentieth Century: An Encyclopedia. United Kingdom. p. 36.{{cite book}}: CS1 maint: location missing publisher (link)
  10. ^ a b Haven, Kendall (2007). 100 Greatest Science Discoveries of All Time. Westport, CT: Greenwood Publishing Group. pp. 119–120. ISBN 978-1-59158-265-6.
  11. ^ Dalrymple, G. Brent (2004). Ancient Earth, Ancient Skies: The Age of the Earth and its Cosmic Surroundings. Stanford, CA: Stanford University Press. ISBN 0-8047-4933-7.
  12. ^ "Bertram Boltwood". www.nasonline.org. Retrieved 2023-11-28.
  13. ^ "APS Member History". search.amphilsoc.org. Retrieved 2023-11-28.
  14. ^ "Bertram Borden Boltwood". American Academy of Arts & Sciences. 2023-02-09. Retrieved 2023-11-28.

February 16, 2024
bertram, boltwood, bertram, borden, boltwood, july, 1870, amherst, massachusetts, august, 1927, hancock, point, maine, american, pioneer, radiochemistry, bertram, borden, boltwoodboltwood, yale, 1917bornjuly, 1870amherst, massachusettsdiedaugust, 1927, 1927, a. Bertram Borden Boltwood July 27 1870 Amherst Massachusetts August 15 1927 Hancock Point Maine was an American pioneer of radiochemistry Bertram Borden BoltwoodBoltwood at Yale 1917BornJuly 27 1870Amherst MassachusettsDiedAugust 15 1927 1927 08 16 aged 57 Hancock MaineNationalityAmericanAlma materYale UniversityKnown forRadiochemistryScientific careerFieldsRadiochemistryBoltwood attended Yale University became a professor there and in 1910 was appointed chair of the first academic department of radiochemistry 1 He established that lead was the final decay product of uranium noted that the lead uranium ratio was greater in older rocks and acting on a suggestion by Ernest Rutherford was the first to measure the age of rocks by the decay of uranium to lead in 1907 He got results of ages of 400 to 2200 million years the first successful use of radioactive decay by Pb U chemical dating More recently older mineral deposits have been dated to about 4 4 billion years old close to the best estimate of the age of Earth 2 His work with the uranium decay series led to the discovery of the parent of radium a new element that he named ionium Once the existence of isotopes was established ionium was shown to in fact be thorium 230 3 Although Boltwood did not get his element on the periodic table he later got a mineral namesake Boltwoodite is named after him 4 In his later days Boltwood suffered from depression and committed suicide on August 15 1927 5 Contents 1 Early life and family 2 Education and scientific background 3 Research and academic career 3 1 Radiometric dating and the age of Earth 3 2 Uranium decay series and discovery of ionium 4 Later career and death 5 External links 6 ReferencesEarly life and family editBertram Boltwood was born on July 27 1870 in the Amherst Massachusetts home of his grandfather Lucius Boltwood 5 After relocating from England in the 17th century the Boltwood family was active in the Amherst community for generations Lucius was the son of a farmer who worked his way through Williams College to become a lawyer He was a founder of Amherst College and ran for Governor of Massachusetts as an early member of the Liberty Party in 1841 Thomas Kast Boltwood son of Lucius was a lawyer who died in 1872 when his son Bertram was 2 years old Bertram Boltwood was emotionally close with his mother Margaret Mathilda and he grew up in her hometown of Castleton NY She prepared him to attend Yale his father s alma mater by placing him in private school at a young age followed by the Albany Academy 5 Boltwood s childhood reveals influences and inclinations that foreshadow the scientist he became as an adult As a boy he was interested in mechanical gadgets and enjoyed hobbies such as fishing photography and minerals The latter was likely the influence of his uncle Charles Upham Shepard who was a mineralogist and a chemist 5 His personality was reportedly light hearted and he was known to play practical jokes in his youth 6 He was often reminded of a familial tie to Ralph Waldo Emerson through his paternal great grandmother s sister Emerson s mother Ruth Haskins and it was expected that Boltwood would study and succeed in line with the family legacy 5 Education and scientific background editHe graduated with high honors in chemistry from Yale in 1892 and went on to study analytical methods of inorganic chemistry and rare earth elements 5 for two years in Germany at Ludwig Maxamillian University of Munich 6 Afterwards he returned to Yale and earned a PhD in 1897 and became an instructor in the Sheffield Scientific School there from 1896 1900 His teaching and research work at Yale focused on physical chemistry despite it being a relatively new field Lacking resources in English for teaching the subject he translated two books from German Alexander Classen Quantitative Analysis by Electrolysis and the other by Charles Van Deventer Physical Chemistry for Beginners He was particularly handy in the lab often improving upon methods and devices For example he developed a low melting point wax that found use in labs across the country and was called Boltwax 5 From 1900 1906 he had a private lab in New Haven Connecticut 5 He worked as a consulting chemist analyzing ore samples for miners This experience brought him into contact with the rare earth metals he had studied as well as uranium and thorium elements that would become the crux of his greatest scientific contributions 6 Research and academic career editIn 1906 Boltwood returned to Yale as an assistant professor of physics at a time when the newly discovered science of radioactivity was considered both chemistry and physics 6 He would eventually become the leading American scientist in the field 7 and be appointed chair of radiochemistry in 1910 a position that was the first of its kind 1 He developed a friendship with Ernest Rutherford whose highly influential thinking played a role in much of Boltwood s work They communicated primarily through overseas correspondence with the exception of a short period from 1909 1910 when Rutherford invited Boltwood to join him at University of Manchester in England 2 6 Their letters from 1904 1912 were published in 1969 in the book Rutherford and Boltwood Letters on Radioactivity which reveals an ongoing conversation as the two scientists work to unravel details of radioactivity and the uranium decay series 8 Radiometric dating and the age of Earth edit Boltwood is credited as being the first to introduce a uranium lead dating technique to determine the age of geological samples 9 10 6 The discovery stemmed from his investigations of the uranium decay series and conversations with Rutherford In 1904 Rutherford gave lectures around the topic of radioactivity as a tool for geologic dating 11 and presented calculations based on the presence of helium as a product He dated a sample of fergusonite at 40 million years with the caveat that helium could escape and would therefore only provide a minimum age 2 The following year Boltwood made the assertion that lead was the final decay product in the disintegration of uranium and that Pb U ratios increase in older geological samples In 1907 he published results of analyzing ten mineral samples from different world locations including a thorianite 2 that measured 2 2 billion years old This value was ten times greater than any previous estimated age of the Earth 10 and geologists did not immediately accept the validity of radioactivity as a dating method Boltwood published a single paper on radiometric dating instead focusing the majority of his research on the uranium decay series 2 Uranium decay series and discovery of ionium edit In 1904 scientists were working to piece together the series of products as a radioactive atom disintegrates and understand which elements are related by the process 1 At this time Boltwood showed that old geological samples contain a constant ratio of radium and uranium and he set out to prove the two are connected 5 To do so he attempted to determine radium s parent element by growing it from uranium s known product uranium X His attempts were unsuccessful and he suspected a long half life would make it impossible to grow radium in a measurable amount 9 In 1907 he discovered a new element with a half life of almost 100 000 years before it decays to radium 3 and he named it ionium after the ionizing action of its alpha particles 5 Boltwood was able to prove that ionium disintegrates to radium and the full connection to uranium was shown in work by Frederick Soddy in 1919 6 Once the existence of isotopes was established in 1914 Stefanie Horovitz and Otto Honigschmid demonstrated that ionium was actually thorium 230 the second known case of an isotope rather than its own distinct element However the work of these two scientists in Vienna as they precisely measured the atomic weight of lead from radioactive sources also served to reinforce Boltwood s assertion that lead is the final product in the uranium decay series 3 Later career and death editOnce Boltwood was offered a full professorship and chair of radiochemistry position at Yale in 1910 his career became more academic and he no longer actively pursued research 6 He was elected to both the United States National Academy of Sciences and the American Philosophical Society in 1911 12 13 He was elected to the American Academy of Arts and Sciences in 1913 14 In 1918 Boltwood became the director of Yale College chemical laboratory 6 As he took on more responsibilities at the college he began overseeing the setup of two laboratories Sloane Physics and Sterling Chemistry 5 During this time of added stress he experienced bouts of depression and was forced to take time off to recover from a mental breakdown in 1924 He returned with renewed zeal and continued his work but fell into periods of depression over the following years On August 15 1927 he took his own life in Hancock Point Maine at the age of 57 5 External links editBertram Borden Boltwood papers MS 90 Manuscripts and Archives Yale University Library 1 Works by or about Bertram Boltwood at Internet Archive Science Odyssey Radiometric dating finds Earth is 2 2 billion years old The Mineralogical Record Label Archive at www minrec org 2 National Academy of Sciences Biographical Memoir Boltwood Bertram 1907 The Ultimate Disintegration Products of the Radio active Elements Part II The disintegration products of uranium in American Journal of Science series 4 volume 23 pages 77 88 doi 10 2475 ajs s4 23 134 78 Vacher H L 2003 Computational geology 26 Mathematics of radioactivity When the Earth got old in J Geol Educ 51 436 445 References edit a b c Malley Marjorie 2011 Radioactivity A History of a Mysterious Science New York Oxford University Press ISBN 978 0 19 976641 3 a b c d e Badash Lawrence 1968 Rutherford Boltwood and the Age of the Earth The Origin of Radioactive Dating Techniques Proceedings of the American Philosophical Society 122 3 157 169 via JSTOR a b c Braunbeck Werner 1959 The Pursuit of the Atom Emerson Books Inc Mitchell Richard Scott Henley John Reese 1979 Mineral Names What Do They Mean United States Van Nostrand Reinhold Company p 95 ISBN 9780442245931 a b c d e f g h i j k l Kovarik Alois 1929 Biographical Memoir of Bertram Borden Boltwood PDF National Academy of Sciences Biographical Memoirs XIV Third memoir 67 96 a b c d e f g h i Badash Lawrence 1969 Rutherford and Boltwood Letters on Radioactivity New Haven and London Yale University Press pp Introduction pgs 1 26 Rodger Liam Bakewell Joan 2011 Boltwood Bertram Borden Chambers Biographical Dictionary 9th edition Chambers Harrap Romer Alfred 1971 Concerning the true beginning of nuclear physics Physics Today May 1971 43 44 doi 10 1063 1 3022733 a b Hamblin Jacob Darwin Burns William Earl 2005 Science in the Early Twentieth Century An Encyclopedia United Kingdom p 36 a href Template Cite book html title Template Cite book cite book a CS1 maint location missing publisher link a b Haven Kendall 2007 100 Greatest Science Discoveries of All Time Westport CT Greenwood Publishing Group pp 119 120 ISBN 978 1 59158 265 6 Dalrymple G Brent 2004 Ancient Earth Ancient Skies The Age of the Earth and its Cosmic Surroundings Stanford CA Stanford University Press ISBN 0 8047 4933 7 Bertram Boltwood www nasonline org Retrieved 2023 11 28 APS Member History search amphilsoc org Retrieved 2023 11 28 Bertram Borden Boltwood American Academy of Arts amp Sciences 2023 02 09 Retrieved 2023 11 28 Retrieved from https en wikipedia org w index php title Bertram Boltwood amp oldid 1194346910, wikipedia, wiki, book, books, library,

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