Phoebe Sarah Hertha Marks Ayrton


Quick Info

Born
28 April 1854
Portsea, near Portsmouth, England
Died
23 August 1923
North Lancing, Sussex, England

Summary
Hertha Ayrton was an engineer and mathematician. She was awarded the Royal Society's Hughes Medal, and is well known as a suffragette.

Biography

Hertha Marks Ayrton was given the name Phoebe Sarah Marks when she was born. Ayrton is her married name but less obvious is why she is always known as Hertha. In fact this was a nickname she received after the age of sixteen and she is now almost always known by the name Hertha Ayrton. Her parents were Levi Marks and Alice Theresa Moss. The Jewish Levi Marks had been born in Poland, the son of a Polish innkeeper, but had fled to England when Russian reprisals against Polish uprisings caused many to flee. In England, Levi, a watchmaker and jeweller in Petworth, Sussex, married Alice Theresa Moss, the daughter of Joseph Moss who was a Jewish glass merchant of Portsea. Hertha was the third child of Levi and Alice Marks, having two older brothers. She was born at 6 Queen Street, Portsea, on the south coast of England. She had four younger brothers by 1861 when her father died. Her mother was pregnant with their eighth child at the time. The family had struggled financially while Levi was alive and, after his death, it was a much harder struggle. Alice earned some money as a seamstress while Hertha, who was seven at this time, helped to look after her younger siblings. Let us note at this point that we will refer to the subject of this biography as "Hertha" throughout to avoid the change to her married name half way through, and to avoid confusing her with her husband.

Hertha's aunt, Marion Hartog (1821-1907), ran a school in north-west London along with her husband Alphonse Hartog (1815-1904). Marion, who was the fourth child of Joseph Moss, had married her French teacher Alphonse Hartog in 1845 and they set up their school at 68 Mansell Street, Goodman's Fields. Marion wrote poetry and articles for the Jewish Chronicle and other Jewish magazines. Marion and Alphonse Hartog had five children: Numa Edward Hartog (1846-1871) became the first Jewish Senior Wrangler in mathematics at Cambridge in 1869; Héléna Hartog (1848-1923) became a portrait painter; Marcus Manuel Hartog (1851-1924) took the Natural Science Tripos at Cambridge and became a zoologist; Cécile Sarah Hartog (1857-1940) became a composer and pianist; and Philip Joseph Hartog (1864-1947) studied chemistry. When Hertha was nine years old, Marion Hartog invited her to come and live with her and to be educated at her school. Hertha's mother encouraged her to go for, unlike the general view, she believed that an education for girls was as important (perhaps even more important) as it was for boys.

Hertha studied at Marion Hartog's school from age nine to age sixteen [2]:-
[There she] established her reputation both as a scholar and a fighter in the cause of justice, once going on hunger strike for two days when wrongly accused of some misdemeanour.
There she learnt French and music but it was the Hartog children who taught her topics that girls at this time would not have expected to study. From them she learnt mathematics, science and Latin. At age sixteen she began working as a governess in London and she sent home money that she earned to help support her mother and her siblings. She was now living with the family with whom she worked as a governess but she continued to join in the Hartog's circle of intellectual friends who also included some who had fled their own lands because of persecution. One such family was that of Karl Blind, a German Jew who had emigrated to England. Karl had a daughter Ottilie Hancock who became a close friend of Hertha and, in fact, it was Ottilie who gave her the nickname of 'Hertha' after the heroine of a novel named Hertha, published 1856, by the feminist Swedish author, Frederika Bremer (1801-1865). This novel was highly influential in gaining women's rights in Sweden and was an inspiration for suffragettes in Britain. Barbara Bodichon (1827-1891) was a leading suffragette and the co-founder of Girton College, and Ottilie Hancock introduced Hertha to her. Hertha was persuaded to study for the Cambridge University Local Examinations for secondary schools which, partly through the efforts of Bodichon, were in 1865 open to women for gaining admission to Cambridge University. Bodichon did more than persuade Hertha to study for these examination for she paid for advanced mathematics lessons for her. A P Trotter writes [14] that Hertha passed these examinations:-
... after a few months' coaching instead of grinding for years over elementary classics like boys at public schools. She told me that she never regretted the time and trouble of acquiring a smattering of Greek, and agreed that the true object of a 'pass' examination is to discover the capability of acquiring knowledge quite apart from the value of that knowledge.
Hertha entered Girton College, University of Cambridge, in 1877. Her tutor was Richard Glazebrook (1854-1935) who had graduated from Cambridge with a mathematics degree in 1876 and was elected as a fellow in 1877. During the time that Glazebrook was tutoring Hertha, he was studying with James Clerk Maxwell and Lord Rayleigh. Hertha did not excel in her studies of mathematics but showed amazing talents in other ways. She invented a line-divider which she later patented and constructed a sphygmomanometer for recording the pulse in the arteries. She led the College Choral Society, founded the Girton Fire Brigade and, in collaboration with Charlotte Scott, founded a mathematical club. She began publishing mathematical problems and their solutions in Mathematical Questions from the Educational Times, something which she continued for nearly twenty years. At this time women were not allowed to sit the Tripos examinations with the male students but were allowed to sit the examinations in their college. Their rank position relative to the men was indicated but they could not graduate. Hertha did not distinguish herself in the Tripos examination which she took in 1880 and was ranked as Third Class. She wrote to Barbara Bodichon (see [16]):-
I think it is very hard on you after all you have done for me, that I should do no better. It is not for want of work, nor even entirely of brains, but rather a want of memory and still more presence of mind in the exam room. So I have turned out a failure.
In order to get a degree, Hertha sat the external B.Sc. examinations of the University of London in 1881 and was awarded the bachelor's degree.

Back in London, Hertha used her mathematical training to teach at Notting Hill High School and Ealing High School. She continued to devise mathematical puzzles which, as we noted above, she published. In addition to these activities, she ran a club for working girls, held singing classes for girls who worked in laundries, and looked after her sister who was an invalid. In 1882 she met William Edward Ayrton (1847-1908), known as Will, who taught physics and was a pioneer in electrical engineering. Ayrton was married to Matilda and they had a daughter Edith. By this time Matilda was seriously ill with consumption and she died in 1883. Ayrton had studied at Glasgow under Kelvin and, after working in India and Japan, had returned to England setting up the City and Guilds Institute in 1879. This became the Finsbury Technical College in 1883 and, in the following year, Hertha began to attend evening classes on electricity at the College. In the same year of 1884 she patented the line-divider she had invented while an undergraduate. Taking out a patent requires money but this was paid for by Barbara Bodichon and fellow suffragette Lady Goldsmid who, like Bodichon, had helped found Girton College.

In 1885 Hertha married Will Ayrton and in the following year they had a daughter who they named Barbara Bodichon Ayrton in honour of Barbara Bodichon was such a strong support for Hertha. Let us at this point sat a little about Barbara Bodichon Ayrton (1886-1950). She married the poet, essayist and journalist Gerald Gould (1885-1936) in 1910. Barbara, like her mother, became a leading suffragette and her actions smashing store windows in the West End of London led to her being sent to prison in 1912. She became a member of the National Executive of the Labour Party in 1929 and became a Labour member of parliament for Hendon North in 1945. Let us now return to describe Hertha's major contributions to science.

After her marriage and the birth of her daughter, Hertha was fully occupied as a housewife but on the death of Barbara Bodichon in 1891, she was left a substantial sum of money which enabled her to employ a housekeeper and, in addition, to provide financial support for her mother. Her research on the electric arc began through an accident but first let us quote from [8] to put this work into context:-
Arc lights had been used in lighthouses from the mid 1800s, and by the 1890s were taking over from gas for street lighting. To strike the arc, a high voltage was established between two carbon rods a short distance apart in air, so that carbon evaporated from the positive electrode, forming a crater at the tip. A high current was carried by the ionised carbon atoms and counter-streaming electrons as they moved between the two rods, forming what would now be called a plasma in the electrode gap region. Arcs were plagued with problems of humming, hissing, spluttering and instability, and needed constant adjustment of the electrode separation as the carbon evaporated.
The accident which led to Hertha's research is described in [14]:-
During the Chicago Electrical Conference of 1893, a Negro servant lighted a fire with a paper written by Ayrton on "Variation of Potential Difference of the Electric Arc with Current, Size of Carbons, and Distance apart". No rough copy or even an abstract existed of the paper which had not been read in full, and had described an unfinished and inconclusive research.
Ayrton was unhappy with his inconclusive paper and had no wish to rewrite it so his wife began her own research on the electric arc [8]:-
Hertha Ayrton showed that the major problems were caused by oxidation of the carbon anode at its tip. The hissing was due to air rushing in, enlarging the crater and promoting unstable conditions. She achieved the reproducible conditions that had eluded other experimenters by shaping the ends to prevent oxidation, and by careful control.
In the years 1895 and 1896 she published her results in 12 papers in The Electrician. In 1899 the Institution of Electrical Engineers invited her to read her paper The Hissing Arc to the Institution. A journalist who was present at the lecture described Hertha as:-
...a little dark-haired, dark-eyed lady, wearing pince-nez, who created a sensation which perhaps accounted in some degree for the unusually large attendance of young men members.
The Daily Telegraph reported on her demonstration of the electric arc to the Institution, writing that it was attractive because of:-
... the feminine running commentary ... as ... when a peculiar modification of the negative carbon that appears to be due to hissing, the formation of a mushroom, ... failed to make its prompt appearance. "Mushrooms," observed the lady dryly, "won't grow to order;" and again, "It's coming now, but I'm afraid it's on the side you can't see."
The demonstration was such a success that the Royal Society of London invited her to give a demonstration of her experiments to their Society in 1899. The report in The Daily News stated:-
What astonished the lady visitors ... was to find one of their own sex in charge of the most dangerous looking of all the exhibits - a fierce arc light enclosed in glass. She calmly showed how, by excluding air from the light, its unpleasant hissing could be prevented, and by throwing a picture of the burning carbon on the screen, she made the reason evident to the dullest.
Hertha's mathematical training was evident too, since not only did she conduct experiments but she was able to give an equation, now called the Ayrton equation, exhibiting a linear relation between arc length, pressure, and potential difference. For her innovative work Hertha was elected to membership of the Institution of Electrical Engineers in 1899. She was the first woman member, the next being elected 60 years later. In 1900 she read her paper L'intensité lumineuse de l'arc à courants continus to the International Electrical Congress in Paris. She submitted a paper The mechanism of the electric arc to the Royal Society in 1901 and this was read to the Society by John Perry (a colleague of her husband). She gave a detailed description of her work in the book The Electric Arc which she published in 1902.

In 1902 she was proposed for a fellowship of the Royal Society. She was rejected, however, the reason given being:-
We are of the opinion that married women are not eligible as Fellows of the Royal Society.
Hertha undertook other important scientific work which she began in 1901. At that time, her husband was ill and sea air was recommended. They went to Margate and, while on the beach there, she became fascinated by the ripples in the sand created beneath the water. On her return to London, she conducted experiments and attempted to give a mathematical model of the effect. Her mathematical model is, however, defective since we now know that chaotic effects of turbulence are involved. Her experiments, however, were of exceptional quality [4]:-
Hertha Ayrton demonstrated in an elegant manner the association of vortices with mature wave ripples, the shifting of the vortices about the ripple crests in response to the changing direction of the oscillatory wave currents, and the role of vortices in promoting the initiation of the ripples at obstacles and the spread of a pattern of ripples. It was not until the 1940s that experiments of comparable quality and range were to be performed.
She read a paper to the Royal Society in 1904 on this topic, the first paper read by a woman to the Society, and also a paper to the Engineering Section of the British Association in August 1904. She lectured to the Physical Society in June 1907 and again to the Royal Society in 1908 and 1911. Although the Royal Society denied her a fellowship, they did award her their Hughes Medal in 1906 (the first award of this medal to a woman).

For more details concerning the award of the Hughes Medal, see THIS LINK.

Will Ayrton died in 1908 and [14]:-
... she turned the large drawing-room of her house at 41 Norfolk Square into a laboratory, and equipped it with glass tanks. Some were a yard long and about ten inches wide and deep, filled with water, and a layer of sand about an inch deep on the bottom. They were mounted on rollers and moved to and fro to make waves swing backwards and forwards. Some were kept in motion by electric motors.
World War I began in 1914 and Hertha carried out experiments as part of the war effort:-
Early in 1915 the Germans with fiendish brutality began to use poison gas. She thought that eddies of air might be used to repel gas attacks. ... The Ayrton fan was quite capable of rolling it back in the open, and, unexpectedly, even I think by Mrs Ayrton, of clearing dugouts into which gas had fallen.
She described her fan in the paper On a New Method of Driving off Poisonous Gases which was published in the Proceedings of the Royal Society of London. Over 100,000 Ayrton fans were manufactured for use on the Western Front in World War I.

There are some other comments we should make about Hertha. She was a close friend of Marie Curie and in the summers of 1912 and 1913 Marie Curie and her daughters spent their summer holidays staying with Hertha. When the discovery of radium was attributed to Marie Curie's husband, Hertha campaigned to have its discovery correctly attributed. She wrote that:-
... errors are notoriously hard to kill, but an error that ascribes to a man what was actually the work of a woman has more lives than a cat.
The end of Hertha's life is described in [7]:-
Hertha Ayrton helped found the International Federation of University Women in 1919 and the National Union of Scientific Workers in 1920. She died of blood poisoning (resulting from an insect bite) on 26 August 1923 at New Cottage, North Lancing, Sussex.


References (show)

  1. E Sharp, Hertha Ayrton 1854-1923, a memoir (Edward Arnold, London, 1926).
  2. Archives Biographies: Hertha Ayrton, The Institution of Engineering and Technology. http://www.theiet.org/resources/library/archives/biographies/ayrtonh.cfm
  3. H E Armstrong, Obituary: Mrs Hertha Ayrton, Nature 112 (1923), 800-801.
  4. F Henderson, Almost a Fellow: Hertha Ayrton and an embarrassing episode in the history of the Royal Society, The Royal Society of London (8 March 2012).
    http://blogs.royalsociety.org/history-of-science/2012/03/08/almost-a-fellow/
  5. P Hirsch, Hertha Ayrton, in Jewish Women: A Comprehensive Historical Encyclopedia (Brookline, Massachusetts, 2009).
  6. J Johnson, Hertha Ayrton, Women Inventors and Discoverers, Cassier's Magazine (1909), 548-553.
  7. J Mason, Ayrton, (Phoebe) Sarah (1854-1923), in Oxford Dictionary of National Biography (Oxford University Press, Oxford, 2004). See THIS LINK.
  8. J Mason, Hertha Ayrton, in Nina Byers and Gary Williams (eds.), Out Of The Shadows: Contributions of 20th Century Women to Physics (Cambridge University Press, Cambridge, 2006), 15-25.
  9. J Mason, Hertha Ayrton (1854-1923) and the admission of women to the Royal Society of London, Notes and Records Roy. Soc. London 45 (2) (1991), 201-220.
  10. G Moore, Hertha Ayrton - first lady of the IEE, Electronics and Power 32 (8) (1986), 583.
  11. Obituary: Hertha Ayrton, The Girton Review 67 (2) (1923).
  12. M B Ogilvie, Hertha Ayrton, in Women in Science, antiquity through the nineteenth century (MIT Press, Cambridge, Massachusetts, 1986), 32-34.
  13. M B Ogilvie, Hertha Ayrton, in Uneasy careers and intimate lives, women in science 1789-1979 (Rutgers University Press, New Brunswick, 1987), 115-123.
  14. Reminiscences of Hertha Ayrton by A P Trotter, Contributions of 20th Century Women to Physics. http://cwp.library.ucla.edu/articles/ayrton/ayrtonrem1.html
  15. A P Trotter, Mrs Ayrton's work on the electric arc, Nature 113 (1924), 48-49.
  16. G L Walker, Hertha Ayrton. http://www.projectcontinua.org/hertha-ayrton/

Additional Resources (show)


Honours (show)

Honours awarded to Hertha Marks Ayrton

  1. Google doodle 2016

Written by J J O'Connor and E F Robertson
Last Update August 2016