Fanny Gates

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Fanny Gates
Born26 April 1872[1][2]
Waterloo, Iowa, United States[1]
Died24 February 1931 (aged 58)[1][2]
Chicago, United States[1]
NationalityAmerican
Alma materNorthwestern University;
University of Pennsylvania
OccupationProfessor of Physics

Fanny Cook Gates (26 April 1872 – 24 February 1931) was an American physicist, an

materials both qualitatively and quantitatively.[4] More specifically, Gates showed that the emission of blue light from quinine was temperature dependent, providing evidence that the emitted light is produced from phosphorescence rather than radioactive decay.[5] She also served as head of the physics department at Goucher, professor of physics and dean of women at Grinnell College, and the dean of women at the University of Illinois.[6]

Education and career

Gates received her B.S. from Northwestern University in 1894 and her M.A. in 1895, and finally her Ph.D. from the University of Pennsylvania in 1909. She wrote her PhD dissertation on "The Conductivity of Gases Caused by Certain Chemical Changes."[7] She published two papers during graduate school on the subject of radioactivity.[1][8][5][9][10]

From 1895-1897, she was a scholar and fellow in mathematics at

J.J. Thomson, her research continued to support her reputation in the scientific community.[12]

In 1911, Gates left her position at Goucher in Baltimore to accept a research position at the University of Chicago. Two years after that she was offered a professor of physics and dean of women position at

University of Illinois at Urbana-Champaign in 1916, where she held the position of associate professor of physics and dean of women for two years, and served on the policy and planning committee of the university.[13][14]

There is controversy on the subject of Gates' exit from her position at the University of Illinois, while some sources suggest that Gates was fired by the University for problems relating to drug use, others argue that she faced a great deal of difficulty with the school administration, either due to an inclination for research as opposed to administrative work, or due to discriminatory practices.[15][6] After 1918, Gates largely retired to the private sector, serving as the General Secretary for the YMCA of New York (1918-1919, 1921-1922), and teaching at two private schools in New York and Bryn Mawr, before retiring entirely to research work after a final stint as a physics teacher at Roycenmore School in Evanson, Illinois (1928-1931).[6] When asked about her reason for leaving the University of Illinois, President James told the YWCA, "She did not like the limited scope for her activity which the office here presented and therefore was looking all the time for a wider field. She needs a wider opportunity for her abilities and energy."[16] After 1918, Gates largely retired to the private sector, serving as the General Secretary for the YMCA of New York (1918-1919, 1921-1922), and teaching at two private schools in New York and Bryn Mawr College, before retiring entirely to research work after a final stint as a physics teacher at Roycenmore School in Evanson, Illinois (1928-1931).[6]

Contributions to physics

Effect of Heat on Excited Radioactivity

Published in 1903, this paper expands on the work that Gates did with Ernest Rutherford and Harriet Brooks. This paper explains in detail a series of experiments Gates performed under the direction of Rutherford examining the relationship between heat and excited radioactive particles, concluding with 4 distinct observations.

  1. Excited radioactivity cannot be destroyed by heat.
  2. Active particles are removed from wires (primarily platinum in the detailed experiments) at a temperature just below white heat, and are transferred unchanged to the surfaces of the cooler solids nearby.
  3. By removing the surrounding gas as fast as the wire is heated, a majority of radioactive particles can be carried off with it.
  4. The removal of the excited radioactivity from the wire is probably due to a volatilization of the radioactive material.[9]

On the Nature of Certain Radiations from the Sulphate of Quinine

While under the supervision of Ernest Rutherford in 1903, Gates also researched the phosphorescent and conductive properties of quinine, and whether these properties are also present in other radioactive substances. This work was based on that of Le Bon, and detailed a series of experiments detailing the effects of various tests on samples of heated quinine and comparing them to known tests on the known properties of other radioactive materials, resulting in 5 distinct conclusions.

  1. Radiation from quinine is only apparent when accompanied by great temperature change, is inconsistent during the change, and ends shortly after the temperature change. Temperature change does not affect the rate of discharge of electricity between plates exposed to the radiations from the active elements, and the radiation from said plates does not deteriorate appreciably with time.
  2. Maximum ionization cannot be reached with quinine radiations even in a strong magnetic field, while a comparatively weak field will have this effect on radium and other active elements.
  3. Quinine radiations are largely absorbed in 2–3 mm of air, and can be absorbed far sooner than that, while even the least penetrating radiations from the active elements will pass through at least several cm of air with no appreciable loss in intensity.
  4. Quinine radiation can be completely blocked with a very thin sheet of aluminum, which does not affect the rays of uranium, radium, or thorium.
  5. While the rate of ionization due to radon radiation is independent of the direction of the field they are generated in, ionization from quinine radiation changes dramatically when the field is reversed.

Using these conclusions, Gates was able to assert that ionization from quinine radiation is completely different from that of active elements, resulting from molecular actions rather than he spontaneous projection of charged masses from the atom.[8]

The Conductivity of the Air Due to the Sulphate of Quinine

In 1909, Gates researched and published her PhD thesis, a 12-page work, entitled "The Conductivity of Air Caused by Certain Chemical Changes", on the effect that heated quinine has on conductivity.[7] In this paper Gates thoroughly researched the phenomenon where heating quinine raised the conductivity of the surrounding air in a series of controlled tests, expanding on her previous work in On the nature of certain radiations from the sulphate of quinine. Gates eventually concluded that while quinine did indeed have the reported effect on air conductivity, several other compounds are present in the sulphate solution that the initial concept was based on, which would have a small interfering effect as the heating process progressed.[10]

Death

Fanny Gates continued to work until her passing in Chicago on February 24, 1931. While the cause of her death was either undetermined or unreported, like many early scientists working with radioactive materials, it has been written that her death may have been due to a radiation-related disease.[13]

References

  1. ^
    ISBN 978-0-941901-15-4
    .
  2. ^ a b Fanny Cook Gates (1872–1931) – Find A Grave Memorial. Findagrave.com. Retrieved on 2014-04-22.
  3. doi:10.1090/S0002-9904-1907-01395-2
    .
  4. ^ Byers, Moszkowski, Wong. "Fanny Cook Gates, 1872–1931". Contributions of 20th Century Women to Physics. CWP at UCLA. Retrieved 2014-02-01.{{cite web}}: CS1 maint: multiple names: authors list (link)
  5. ^
    doi:10.1103/physrevseriesi.18.135
    .
  6. ^
    ISBN 9780313323713
    .
  7. ^
    hdl:2027/mdp.39015075957335
    .
  8. ^
    doi:10.1103/PhysRevSeriesI.18.135
    .
  9. ^
    doi:10.1103/PhysRevSeriesI.16.300
    .
  10. ^ a b Gates, Fanny Cook. (1909). The conductivity of air caused by certain chemical changes ... Philadelphia.{{cite book}}: CS1 maint: location missing publisher (link)
  11. OCLC 38886653.{{cite book}}: CS1 maint: multiple names: authors list (link
    )
  12. ISBN 9780941901154
    .
  13. ^ a b CHF
  14. doi:10.1615/JWomenMinorScienEng.v3.i1-2.40
    .
  15. OCLC 8052928.{{cite book}}: CS1 maint: multiple names: authors list (link
    )
  16. ISBN 978-0-941901-15-4
    .
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