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Sir James Alfred Ewing KCB FRS FRSE DL[1] MInstitCE (27 March 1855 − 7 January 1935) was a Scottish physicist and engineer, best known for his work on the magnetic properties of metals and, in particular, for his discovery of, and coinage of the word, hysteresis.

Sir Alfred Ewing
Born(1855-03-27)27 March 1855
Dundee, Scotland
Died7 January 1935(1935-01-07) (aged 79)
NationalityScottish
Known forhysteresis
AwardsRoyal Medal (1895)
Albert Medal (1929)
Scientific career
Fieldsphysics and engineering
InstitutionsUniversity of Edinburgh

It was said of Ewing that he was 'Careful at all times of his appearance, his suits were mostly grey, added to which he generally wore – whatever the fashion – a white piqué stripe to his waistcoat, a mauve shirt, a white butterfly collar and a dark blue bow tie with white spots.'[citation needed] He was regarded as brilliant and successful, but was conscious of his dignity and position. On appointment to head the newly created Admiralty codebreaking department, the Director of Naval Intelligence, Henry Oliver, described him as 'too distinguished a man to be placed officially under the orders of the Director of Intelligence or Chief of Staff'. His first wife, Annie, was an American, a great great niece of George Washington.[2]

Life

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Early life

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Born in Dundee, Scotland, Ewing was the third son of the Reverend James Ewing a minister of the Free Church of Scotland.[3] He was educated at West End Academy and the High School of Dundee, Ewing showed an early interest in science and technology.

In a family whose chief interests were clerical and literary, I took my pleasure in machines and experiments. My scanty pocket money was spent on tools and chemicals. The domestic attic was put at my disposal. It became the scene of hair-raising explosions. There too the domestic cat found herself an unwilling instrument of electrification and a partner in various shocking experiences.[4]

Ewing won a scholarship to the University of Edinburgh where he studied physics under Peter Guthrie Tait before graduating in engineering. During his summer vacations, he worked on telegraph cable laying expeditions, including one to Brazil, under William Thomson, 1st Baron Kelvin and Fleeming Jenkin.

Japan

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In 1878, on Fleeming Jenkin's recommendation, Ewing was recruited to help the modernisation of Meiji Era Japan as one of the o-yatoi gaikokujin (hired foreigners). Serving as professor of mechanical engineering at the Tokyo Imperial University, he was instrumental in founding Japanese seismology.

Ewing made two special friends at Tokyo University soon after arriving: Basil Hall Chamberlain and Lieutenant Thomas Henry James RN, who taught navigation. He was also in close contact with Henry Dyer and William Edward Ayrton at the Imperial College of Engineering (Kobu Dai Gakkō).

In Tokyo, Ewing taught courses on mechanics and heat engines to engineering students, and on electricity and magnetism to physics students. He carried out many research projects on magnetism and coined the word 'hysteresis'. His investigations into earthquakes led him to help develop the first modern seismograph, alongside Thomas Gray and John Milne of the Imperial College of Engineering, from 1880 to 1895. All three men worked as a team on the invention and use of seismographs, though Milne is generally credited with the invention of the first modern horizontal-pendulum seismograph.

Ewing joined Gray and Milne in founding the Seismological Society of Japan (SSJ) in 1880.[5]

Return to Dundee

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In 1883, Ewing returned to his native Dundee to work at the recently established University College Dundee as its first Professor of Engineering.[6] He was appalled by the living conditions he found in many of the poorer areas of the town which he felt compared unfavourably with those in Japan. He worked fervently with local government and industry to improve amenities, in particular sewer systems, and to lower the infant mortality rate. Some of the letters Ewing wrote at this time are now held by Archive Services, University of Dundee along with some of his other papers.[3][7]

A reminder of Ewing's connection with both University College and the city of Dundee is the University of Dundee's Ewing Building which was built in 1954 and named in his honour.[3][8] The Ewing Building is currently part of the University's School of Science and Engineering.

University of Cambridge

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In 1890, Ewing took up the post of Professor of Mechanism and Applied Mechanics at the University of Cambridge, initially at Trinity College, though he later moved to King's College.[9] At Cambridge, Ewing's research into the magnetisation of metals led him to criticise the conventional account of Wilhelm Weber. In 1890, he observed that magnetisation lagged behind an applied alternating current. He described the characteristic hysteresis curve and speculated that individual molecules act as magnets, resisting changes in magnetising potential. (Note: According to the book Sir Alfred Ewing: A Pioneer in Physics and Engineering (1946) by Professor Bates, the discovery of magnetic hysteresis probably occurred before Ewing. However, Ewing re-discovered it, studied it in detail and coined the word hysteresis).[citation needed]

Ewing also researched into the crystalline structure of metals and, in 1903, was the first to propose that fatigue failures originated in microscopic defects or slip bands in materials. In 1895 he was awarded the Gold Medal of the Royal Society for his work on Magnetic Induction in Iron and other Metals.[10]

Ewing was a close friend of Sir Charles Algernon Parsons and collaborated with him on the development of the steam turbine. During this time, Ewing published The Steam Engine and other Heat Engines around this time. In 1897 he took part in the sea-trials of the experimental vessel Turbinia, which set a new speed record of 35 knots.[citation needed]

In 1898, Ewing took his wife and children to Switzerland for a mountaineering holiday with the family of noted Professor of Electrical Engineering at King's College, John Hopkinson. All five of the Hopkinson brothers were members of the Alpine Club and soon initiated Ewing into the sport of rock climbing. On 27 August, John Hopkinson set out with his son Jack and two of his three daughters to climb. Ewing decided not to go with them as he was feeling a little stiff after his climb the previous day. The party never returned, and was found the next morning, all four bodies roped together five hundred feet below the summit.[citation needed]

In 1898 Ewing was elected to a Professorial Fellowship at King's College.[citation needed]

Admiralty

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On 8 April 1903, The Times announced that the Board of Admiralty selected Ewing for the newly created post of Director of Naval Education (DNE) in Greenwich.[11]

He married Anne Maria Thomasina Blackburn Washington on 14 May 1879 in Tokyo, Japan. She was a descendant of President George Washington's brother John Augustine Washington. Ewing's first wife, Annie (née Washington) died in 1909 and, in 1912, he married Ellen, the surviving daughter of his old friend and patron, John Hopkinson. He had two children with his first wife: Maud Janet Wills, née Ewing (20 May 1880 – 27 April 1952) and Alfred Washington Ewing (1 November 1881 – 5 December 1962).

As reward for his services, Ewing was made Companion of the Order of the Bath in 1906 and then Knight Commander of the Bath in 1911.[12]

During World War I, from 1914 to May 1917, Ewing managed Room 40, the Admiralty intelligence department of cryptanalysis, responsible predominantly for the decryption of intercepted German naval messages. In this capacity, he achieved considerable fame in the popular press when Room 40 deciphered the Zimmermann Telegram in 1917 (which suggested a German plot to assist Mexico in recovering the southwestern United States). The publication of the Zimmermann Telegram is generally credited as the trigger event which brought American into the Great War.

University of Edinburgh

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In May 1916 Ewing accepted an invitation to become Principal of the University of Edinburgh, in the course of which he instituted an extensive series of effective reforms and which he held until his retirement in 1929. In 1927 he gave a lecture to the Edinburgh Philosophical Institution which contained the first semi-official disclosure of the work done by Room 40.[12] A house in Pollock Halls of Residence is named in his honour.[citation needed]

Sir Alfred Ewing died in 1935 and is buried at the Parish of the Ascension Burial Ground in Cambridge, with his second wife Lady Ellen Ewing, the daughter of John Hopkinson.[13]

Honours

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Works

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See also

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References

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  1. ^ a b Glazebrook, R. T. (1935). "James Alfred Ewing. 1855-1935". Obituary Notices of Fellows of the Royal Society. 1 (4): 475–492. doi:10.1098/rsbm.1935.0011. JSTOR 768978.
  2. ^ Beesley p. 10
  3. ^ a b c "Notable University Figures (1): Sir James Alfred Ewing". Archives Records and Artefacts at the University of Dundee. 29 June 2011. Retrieved 12 June 2015.
  4. ^ University of Cambridge biography
  5. ^ Massachusetts Institute of Technology, Inventor, John Milne
  6. ^ Shafe, Michael (1982). University Education in Dundee: A Pictorial History. Dundee: University of Dundee. p. 13.
  7. ^ "University of Dundee Archives Services Online Catalogue". University of Dundee. Retrieved 12 June 2015.
  8. ^ Shafe, Michael (1982). University Education in Dundee: A Pictorial History. Dundee: University of Dundee. pp. 112–114.
  9. ^ "Ewing, James Alfred (EWN891JA)". A Cambridge Alumni Database. University of Cambridge.
  10. ^ "EWING, James Alfred". Who's Who. Vol. 59. 1907. p. 571.
  11. ^ The Times, Wednesday, 8 April 1903; The New Director of Naval Education. Category: Official Appointments and Notices.
  12. ^ a b Beesley p.10
  13. ^ Chorley, Katharine (2001). "Introduction". Manchester Made Them. Silk Press Ltd. ISBN 978-1902685090.
  14. ^ "University intelligence". The Times. No. 36711. London. 10 March 1902. p. 11.
  15. ^ "Sir Alfred Ewing's "Monument"". Nature. 132 (3329): 259. 1933. doi:10.1038/132259a0. S2CID 186243018.
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Bibliography

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Preceded by Edinburgh University Principals
1916–1926
Succeeded by