Patrick Blackett

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The Right Honourable
The Lord Blackett
OM CH FRS
Blackett.jpg
Blackett in 1948
Born
Patrick Maynard Stuart Blackett

(1897-11-18)18 November 1897
London, England
Died13 July 1974(1974-07-13) (aged 76)
London, England
Resting place Kensal Green Cemetery, London
Alma mater Osborne Naval College
University of Cambridge
Known for Cloud chamber
Paleomagnetism
Spouse
Costanza Bayon
(m. 1924)
Children2; Giovanna Blackett Bloor and Nicolas Blackett
Awards
Scientific career
Fields Physics
Institutions
Academic advisors Ernest Rutherford
Doctoral students
Other notable students J. Robert Oppenheimer [4]
Ishrat Hussain Usmani [5] [6]
Signature
Solvay1933Signature Blackett.jpg
Giuseppe (Beppo) P.S. Occhialini (1907-1993) and Patrick Blackett in 1932 or 1933 Giuseppe ('Beppo') P.S. Occhialini (1907-1993) and Patrick M.S. Blackett (1897-1974) in 1932 or 1933.png
Giuseppe (Beppo) P.S. Occhialini (1907–1993) and Patrick Blackett in 1932 or 1933

Patrick Maynard Stuart Blackett, Baron Blackett (18 November 1897 – 13 July 1974) was an English physicist who received the 1948 Nobel Prize in Physics. [7] In 1925, he was the first person to prove that radioactivity could cause the nuclear transmutation of one chemical element to another. [8] He also made major contributions to the Allied war effort in World War II, advising on military strategy and developing operational research.

Contents

In the war's aftermath, Blackett continued his scientific work, but also became outspoken on political matters. He advocated for restraints on the military use of atomic energy. He was a proponent for Third World development and for reducing the gap between rich and poor. [9] [10] In the 1950s and '60s, he was a key advisor to the Labour Party on science and technology policy. [11] [12] By the time of his death in 1974, Blackett had become controversial to the point that the Times obituary referred to him as the "Radical Nobel-Prize Winning Physicist". [13]

Early life and education

Blackett was born in Kensington, London, the son of Arthur Stuart Blackett, a stockbroker, and his wife Caroline Maynard. [14] His younger sister was the psychoanalyst Marion Milner. His paternal grandfather Rev. Henry Blackett, brother of Edmund Blacket the Australian architect, was for many years vicar of Croydon. His maternal grandfather Charles Maynard was an officer in the Royal Artillery at the time of the Indian Mutiny. The Blackett family lived successively at Kensington, Kenley, Woking and Guildford, Surrey, where Blackett went to preparatory school. His main hobbies were model aeroplanes and crystal radio. When he interviewed for entrance to the Royal Naval College, Osborne, Isle of Wight, Charles Rolls had just completed his cross-channel flight the previous day and Blackett, who had tracked the flight on his crystal set, was able to expound lengthily on the subject. He was accepted and spent two years there before moving on to Dartmouth where he was "usually head of his class". [15]

In August 1914 at the outbreak of World War I, Blackett was assigned to active service as a midshipman. He was transferred to the Cape Verde Islands on HMS Carnarvon and was present at the Battle of the Falkland Islands. He was then transferred to HMS Barham and saw much action at the Battle of Jutland. While on the Barham, Blackett was co-inventor of a gunnery device on which the Admiralty took out a patent. In 1916, he applied to join the RNAS but his application was refused. In October of that year, he became a sub-lieutenant on HMS P17 on Dover patrol, and in July 1917 he was posted to HMS Sturgeon in the Harwich Force under Admiral Tyrwhitt. [16] Blackett was concerned by the poor quality of British gunnery in the Harwich Force when compared with that of the enemy. [17] In May 1918, he was promoted to lieutenant, but by then had decided to leave the Navy. He started to read science textbooks as he planned his post-war career. [18]

In January 1919, the Admiralty sent the officers whose training had been interrupted by the war to the University of Cambridge for a course of general duties. On his first night at Magdalene College, Cambridge, he met Kingsley Martin and Geoffrey Webb, later recalling that he had never before, in his naval training, heard intellectual conversation. Blackett was impressed by the prestigious Cavendish Laboratory, and left the Navy to study mathematics and physics at Cambridge. [19]

Career and research

After graduating from Magdalene College in 1921, Blackett spent ten years working at the Cavendish Laboratory as an experimental physicist with Ernest Rutherford and in 1923 became a fellow of King's College, Cambridge, a position he held until 1933.

Rutherford had discovered that the nucleus of the nitrogen atom could be disintegrated by firing fast alpha particles into nitrogen. He asked Blackett to use a cloud chamber to find visible tracks of this disintegration, and by 1925, Blackett had taken 23,000 photographs showing 415,000 tracks of ionized particles. Eight of these were forked, and this showed that the nitrogen atom-alpha particle combination had formed an atom of fluorine, which then disintegrated into an isotope of oxygen 17 and a proton. Blackett published the results of his experiments in 1925. [8] He thus became the first person to deliberately transmute one element into another. [20]

During his time at Cambridge, Blackett was the head tutor of the young American graduate student, J. Robert Oppenheimer. The latter's desire to study theoretical physics rather than focus on lab work brought him into conflict with Blackett. While seeking help for a psychiatric breakdown induced by the demanding Blackett, Oppenheimer admitted to trying to poison his tutor with an apple laced with toxins. [21] Blackett did not eat the apple and no punitive action was taken against Oppenheimer for the attempted poisoning. [22]

Blackett spent time in 1924–25 in Göttingen, Germany, working with James Franck on atomic spectra. In 1932, Blackett partnered with Giuseppe Occhialini to devise a system of Geiger counters which took photographs only when a cosmic ray particle traversed the chamber. They found 500 tracks of high energy cosmic ray particles in 700 automatic exposures. In 1933, Blackett discovered fourteen tracks which confirmed the existence of the positron and revealed the now instantly recognisable opposing spiral traces of positron/electron pair production. He and Occhialini published their findings in a landmark 1933 paper in Proceedings of the Royal Society A . [23] This work, combined with his research on annihilation radiation, made Blackett a leading expert in the new theory of antimatter.

That same year, he moved to Birkbeck, University of London, as professor of Physics, and stayed for four years. In 1937, he went to the Victoria University of Manchester where he was elected to the Langworthy Professorship and created a major international research laboratory. The Blackett Memorial Hall and Blackett Lecture Theatre at the University of Manchester were subsequently named after him.

In 1947, Blackett introduced a theory to account for the Earth's magnetic field as a function of its rotation, with the hope that it would unify both the electromagnetic force and the force of gravity. He spent a number of years developing high-quality magnetometers to test his theory, but eventually found it to be without merit. However, his work on the subject led him into geophysics, where he later helped process data relating to paleomagnetism, and also provided strong evidence for continental drift.

Blackett ca. 1950 Blackett-large.jpg
Blackett ca. 1950

He was awarded the 1948 Nobel Prize in Physics for his investigation of cosmic rays using his invention of the counter-controlled cloud chamber. [24]

In 1953, he was appointed head of the Physics Department at Imperial College London, and retired from there in July 1963. The Physics department building of Imperial College, the Blackett Laboratory, is named in his honour.

In 1957, Blackett gave the presidential address ("Technology and World Advancement") to the British Association meeting in Dublin [25] In 1965, he delivered the MacMillan Memorial Lecture to the Institution of Engineers and Shipbuilders in Scotland. He chose the subject "Continental Drift". [26]

World War II and operational research

In 1935, Blackett was invited to join the Aeronautical Research Committee chaired by Sir Henry Tizard. The committee was effective in advocating for the early installation of Radar for air defence. At the beginning of World War II, Blackett served on various committees and spent time at the Royal Aircraft Establishment (RAE) Farnborough, where he made a major contribution to the design of the Mark XIV bomb sight, which allowed bombs to be released without a level bombing run beforehand. In 1940–41, he served on the MAUD Committee which concluded that an atomic bomb was feasible. He disagreed with the committee's conclusion that Britain could produce an atomic bomb by 1943, and he recommended that the project should be discussed with the Americans. He was elected a Fellow of the Royal Society (FRS) in 1933 [27] and awarded its Royal Medal in 1940.

In August 1940, Blackett became scientific adviser to Lieutenant General Sir Frederick Pile, Commander in Chief of Anti-Aircraft Command and thus began the work that resulted in the field of study known as operational research (OR). He was director of Operational Research with the Admiralty from 1942 to 1945, and his work with E. J. Williams improved the survival odds of convoys, presented counter-intuitive but correct recommendations for the armour-plating of aircraft, and achieved many other successes. His aim, he said, was to base military strategy on numbers, not "gusts of emotions". [28] During the war he criticised the assumptions in Lord Cherwell's dehousing paper and sided with Tizard who argued that fewer resources should go to RAF Bomber Command for the area bombing offensive and more to the other armed forces. Blackett's studies had shown the ineffectiveness of the area bombing strategies, as opposed to the importance of fighting off the German U-boats, which were heavily affecting the war effort with their sinkings of merchant ships. [29] [30] In this opinion, he chafed against the existing military authority and was cut out of various circles of communications. However, after the war, the Allied Strategic Bombing Survey proved Blackett correct.

Politics

While an undergraduate, Blackett befriended Kingsley Martin, the future editor of the New Statesman ; their talks on politics contributed to Blackett's move to the left. He later identified himself as a socialist, and often campaigned on behalf of the Labour Party. In the aftermath of World War II, Blackett became known for his radical political opinions, which included a belief that Britain ought not to develop atomic weapons. His biographer Mary Jo Nye noted:

Blackett became the first person to openly argue that the United States had used the atomic bomb in Japan "not so much as the last military act of the Second World War, as the first act of the cold diplomatic war with Russia." Outraged Americans characterized Blackett's statements and his opposition to their development of atomic weapons as a Stalinist apology full of political prejudices. George Orwell in 1949 included Blackett on a blacklist of thirty-eight crypto-communists or fellow-travellers that Orwell drew up for the British Foreign Office. [9]

As a result of these controversies, Blackett was considered too far to the left for the post-war Labour Government to employ, and he returned to academic life.

Blackett's internationalism found expression in his strong support for India. In 1947 he met Jawaharlal Nehru, who sought the scientist's advice on the research and development needs of the Indian armed forces. For the next 20 years, Blackett was a frequent visitor and advisor to India on military and civil science. [10] These visits deepened his concern for the underprivileged and the poor. He was convinced that their problems could be overcome by applying science and technology. He used his prestige in the scientific community to try to persuade fellow scientists that one of their first duties should be to help ensure a decent life for all mankind. [31] Before underdevelopment became a popular issue, Blackett proposed in a 1957 presidential address to the British Association for the Advancement of Science that his country should devote 1% of its national income to the economic improvement of the Third World, and he was later one of the prime movers in the founding of the Overseas Development Institute. [32]

During the 13 years when the Labour Party was out of office, Blackett was the senior member of a group of scientists who met regularly to discuss scientific and technological policy. This group grew in influence when Harold Wilson assumed leadership of the Party. [9] Blackett's suggestions directly led to the creation of the Ministry of Technology as soon as the Wilson government was formed, and he insisted that a top priority should be revival of Britain's computer industry. [11] Blackett did not enter open politics, but worked for a year as a civil servant. He remained deputy chairman of the Minister's Advisory Council throughout the administration's life, and was also personal scientific adviser to the Minister.

Publications

Influence in fiction

Personal life

Blackett was an agnostic or atheist. [35] He had refused many honours, in the manner of a radical of the twenties, but accepted appointment as Member of the Order of the Companions of Honour in the 1965 Birthday Honours, [36] and was appointed to the Order of Merit in 1967. [37] He was created a life peer on 27 January 1969 as Baron Blackett, of Chelsea in Greater London . [38] He was made President of the Royal Society in 1965. The crater Blackett on the Moon is named after him.

Blackett married Costanza Bayon (1899–1986) in March 1924. They had a son and a daughter.

The Blackett Laboratory is part of Imperial College Faculty of Natural Sciences and has housed the Physics Department since its completion in 1961.

Blackett died on 13 July 1974 at age 76. His ashes are buried in the Kensal Green Cemetery, London.

Bernard Lovell wrote of Blackett: "Those who worked with Blackett in the laboratory were dominated by his immensely powerful personality, and those who knew him elsewhere soon discovered that the public image thinly veiled a sensitive and humane spirit". [27]

Edward Bullard said that he was the most versatile and best loved physicist of his generation and that his achievement was also without rival: "he was wonderfully intelligent, charming, fun to be with, dignified and handsome". [39]

In 2016, the house that Blackett lived in from 1953 to 1969 (48 Paultons Square, Chelsea, London) received an English Heritage blue plaque. [40]

In July 2022, the Royal Navy named an experimental ship after Blackett in honour of his service to the Royal Navy and to the country; "XV Patrick Blackett" will be used by the Royal Navy to experiment with autonomous technologies. [41]

Blackett was portrayed by James D'Arcy in the 2023 film Oppenheimer .

See also

References

  1. McKenzie, D.P. (23 May 2018). "Bullard, Edward Crisp". encyclopedia.com.
  2. Chowdhuri, Bibha (1949). Extensive air showers associated with penetrating particles. jisc.ac.uk (PhD thesis). University of Manchester. OCLC   643572452. EThOS   uk.bl.ethos.601680. Archived from the original on 6 December 2018. Retrieved 6 December 2018.
  3. Creer, Kenneth M. (11 January 1996). "Stanley Keith Runcorn (1922—95)" (PDF). Nature . 379.
  4. Bird, Kai; Sherwin, Martin J. (2005). American Prometheus: The Triumph and Tragedy of J. Robert Oppenheimer. New York: Alfred A. Knopf. pp. 42–43. ISBN   978-0-375-41202-8. OCLC   56753298.
  5. "Imdad-Sitara Khan Scholarship". www.spaandanb.org. SpaandanB Project. Archived from the original on 6 April 2017. Retrieved 5 April 2018.
  6. "Biography: Dr. Imdadul Haque". www.iskkc.org. Archived from the original on 4 February 2018. Retrieved 5 April 2018.
  7. H. S. W., Massey (September 1974). "Lord Blackett". Physics Today. 27 (9): 69–71. Bibcode:1974PhT....27i..69M. doi: 10.1063/1.3128879 .
  8. 1 2 Blackett, Patrick Maynard Stuart (2 February 1925). "The ejection of protons from nitrogen nuclei, photographed by the Wilson method". Proceedings of the Royal Society A . 107 (742): 349–360.
  9. 1 2 3 Nye, Mary Jo (26 January 2005). "Professor Blackett Lecture: 'Blackett as Scientific Leader: Physics, War and Politics in the Twentieth Century'". Imperial College London.
  10. 1 2 Anderson, R. S. (1999). "Patrick Blackett in India: Military consultant and scientific intervenor, 1947-72. Part one". Notes and Records of the Royal Society. 53 (2): 253–273. doi:10.1098/rsnr.1999.0079. S2CID   144374364.
  11. 1 2 Anderson, D. (2007). "Patrick Blackett: Physicist, Radical, and Chief Architect of the Manchester Computing Phenomenon". IEEE Annals of the History of Computing. 29 (3): 82–85. doi:10.1109/mahc.2007.4338448.
  12. Nye, Mary Jo (2004). "Blackett, Patrick Maynard Stuart, Baron Blackett (1897–1974)". Oxford Dictionary of National Biography (online ed.). Oxford University Press. doi:10.1093/ref:odnb/30822.(Subscription or UK public library membership required.)
  13. "Lord Blackett: Radical Nobel-Prize Winning Physicist". The Times . London. 15 July 1974.
  14. Kirby, M. W.; Rosenhead, J. (2011). "Patrick Blackett". Profiles in Operations Research. International Series in Operations Research & Management Science. Vol. 147. pp. 1–29. doi:10.1007/978-1-4419-6281-2_1. ISBN   978-1-4419-6280-5.
  15. Lovell, Bernard (1976). P. M. S. Blackett: A Biographical Memoir. John Wright & Sons. pp. 1–3. ISBN   0854030778.
  16. Nye, Mary (2004). Blackett. Physics, War, and Politics in the Twentieth Century. Harvard University Press. p. 23. ISBN   9780674015487.
  17. Hore 2002, pp. 9–11.
  18. Lovell 1976, p. 5.
  19. Lovell 1976 , pp. 3–5.
  20. "Atop the Physics Wave: Rutherford Back in Cambridge, 1919-1937". Rutherford's Nuclear World: The Story of the Discovery of the Nucleus. American Institute of Physics. p. 4.
  21. Bird & Sherwin 2005, p. 46.
  22. "Patrick Blackett: Physicist, United Kingdom (Nobel Prize Winner, Scientist)". ahf.nuclearmuseum.org. Retrieved 19 July 2023.
  23. Blackett, Patrick Maynard Stuart; Occhialini, Giuseppe Paolo Stanislao (3 March 1933). "Some photographs of the tracks of penetrating radiation". Proceedings of the Royal Society A . 139 (839). Blackett's contribution to this discovery was a key reason he was later awarded the Nobel Prize.
  24. "The Nobel Prize in Physics 1948". The Nobel Prize.
  25. Blackett, P. M. S. (1957). "Technology and World Advancement". Bulletin of the Atomic Scientists . 13 (9): 323–326.
  26. "Hugh Miller Macmillan". Macmillan Memorial Lectures. The Institution of Engineers in Scotland. Retrieved 16 July 2014.
  27. 1 2 Lovell, Bernard (1975). "Patrick Maynard Stuart Blackett, Baron Blackett, of Chelsea. 18 November 1897 – 13 July 1974". Biographical Memoirs of Fellows of the Royal Society . 21: 1–115. doi:10.1098/rsbm.1975.0001. S2CID   74674634.
  28. Hore 2002, p. 127.
  29. Longmate, Norman (1983). The bombers: the RAF offensive against Germany, 1939–1945. Hutchinson. p. 132. ISBN   978-0-09-151580-5.
  30. Hore, Peter, ed. (2002). Patrick Blackett: Sailor, Scientist, Socialist. Psychology Press. p. 181. ISBN   978-0-7146-5317-4.
  31. Nye, Mary Jo (5 April 2002). "'The Most Versatile Physicist of His Generation'". Science . Vol. 296, no. 5565.
  32. Hodgkin, Alan; Massey, Harrie; Martin, David; Occhialini, G.P.S.; Lovell, Bernard; Waddington, C.H.; Butler, C.C.; Runcorn, S.K.; Menon, M.G.K. (March 1975). "Memorial Meeting for Lord Blackett, O.M., C.H., F.R.S. at the Royal Society on 31 October 1974". Notes and Records of the Royal Society of London. 29 (2): 135–162.
  33. Nye, M. J. (1999). "A Physicist in the Corridors of Power: P. M. S. Blackett's Opposition to Atomic Weapons Following the War". Physics in Perspective. 1 (2): 136–156. Bibcode:1999PhP.....1..136N. doi:10.1007/s000160050013. S2CID   122615883..
  34. Thomas Pynchon, Gravity's Rainbow (Picador 1973) p. 12
  35. Nye, Mary Jo (2008). "Blackett, Patrick Maynard Stuart". Complete Dictionary of Scientific Biography. Vol. 19. Charles Scribner's Sons. p. 293. The grandson of a vicar on his father's side, Blackett respected religious observances that were established social customs, but described himself as agnostic or atheist.
  36. "No. 43667". The London Gazette (Supplement). 12 June 1965. p. 5496.
  37. "No. 44460". The London Gazette . 24 November 1967. p. 12859.
  38. "No. 44776". The London Gazette . 28 January 1969. p. 1008.
  39. Bullard, Edward (1974). "Patrick Blackett: An appreciation". Nature. 250 (5465): 370. Bibcode:1974Natur.250..370B. doi: 10.1038/250370a0 . S2CID   4275713.
  40. "Rare double blue plaque award for home of Nobel Prize winners". BBC News. 20 April 2016. Retrieved 28 April 2016.
  41. Parken, Oliver (29 July 2022). "Royal Navy Christens New Experimental Ship, The XV Patrick Blackett". TheDrive.

Further reading

Books
Articles
Academic offices
Preceded by5th Langworthy Professor at the University of Manchester
1937–53		Succeeded by
Professional and academic associations
Preceded by52nd President of the Royal Society
1965–1970		Succeeded by
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