Henrietta Swan Leavitt


Quick Info

Born
4 July 1868
Lancaster, Worcester County, Massachusetts, USA
Died
12 December 1921
Cambridge, Middlesex, Massachusetts, USA

Summary
Henrietta Leavitt was an American astronomer who discovered the relation between the luminosity and the period of Cepheid variables. This was a vital step in measuring the distance to remote galaxies.

Biography

Henrietta Swan Leavitt's parents were George Roswell Leavitt (1838-1911) and Henrietta Swan Kendrick (1844-1922). George Roswell Leavitt was a Congregationalist minister, born in Lowell, Massachusetts, who had studied at Williams College before being awarded a doctorate in divinity from the Andover Theological Seminary. His father was Erasmus Darwin Leavitt, a merchant, while one of George Roswell Leavitt's brothers was also named Erasmus Darwin Leavitt. This uncle of Henrietta's was an engineer who gained fame designing the Leavitt pumping engine. He was the second president of the American Society of Mechanical Engineers and was elected a fellow of the American Academy of Arts and Sciences. George Roswell Leavitt married Henrietta Swan Kendrick, a daughter of Henry Kendrick of Cambridge, Massachusetts, on 2 October 1866. Henrietta, the subject of this biography, was the oldest of her parents' seven children, the others being Roswell Harvey Leavitt (born 4 October 1871 and died an infant), Martha Almira Leavitt (born 1 August 1873), George William (born 2 September 1875), Mira Fay Leavitt (born 20 September 1878 and died aged 2), Caroline Reed Leavitt (born 16 May 1880) and Darwin Ashley Leavitt (born 15 June 1882).

At the time of the 1870 census, Henrietta was two years old and living in her grandfather's home in Lowell, Middlesex, Massachusetts. The head of the household was Erasmus Darwin Leavitt (Sr.), at that time 60 years old and retired, and the house was run by his wife Almira who was 57. At least ten others were living in the house (all named Leavitt), including Erasmus Darwin Leavitt (Jr.), at that time 34 years old, and Henrietta's mother and father.

George Roswell Leavitt became pastor at the Pilgrim Congregational Church in Cambridge, Middlesex, Massachusetts and, by the time that his second child was born in 1871, the family were living in Cambridge. The 1880 census gives us a picture of the Leavitt family living at 9 Warland Street, close to the church where George was the pastor. George is listed at head of the house with his wife "keeping house". Five of their seven children are there, with the two eldest, Henrietta and Martha, being at school. Also living with them is Mary Kendrick, Henrietta's aunt, and a 25 year old servant Catherine McDonald. Living next door, at 11 Warland Street, is Erasamus Darwin Leavitt, Henrietta's grandfather, with his wife Almira and daughter Almira (who is recorded as having spinal difficulties). Erasamus has a 22 year old servant Ada L Marston.

The Leavitt family moved to Cleveland, Ohio and in 1885 Henrietta Leavitt enrolled at Oberlin College. This College, founded in 1833, was coeducational from its founding and was the earliest coeducational college in the United States. She studied the preparatory course in the academic year 1885-86, then spent two years 1886-88 on undergraduate studies. After completing the course she returned to Cambridge and, in 1888, she applied to enter Radcliffe College. This is not strictly accurate since Radcliffe College was not so named until 1894. Some professors from Harvard University had begun teaching women in informal arrangements in the 1870s and this became the Society for the Collegiate Instruction of Women in 1879. Before being accepted, she was tested on her knowledge of classic literature, she had to write a short composition, was tested on her language skills in Latin, Greek and German, was tested on her knowledge of history and of mathematics, physics and astronomy. She passed all these tests successfully except for history but she was allowed to "rectify this deficiency" during her course.

The course that Leavitt took at the Society for the Collegiate Instruction of Women was very arts based and contained little science. She took language courses on Latin, Greek, English, German, French, and Italian. She also studied fine arts, philosophy, introductory physics and mathematics. This course covered analytic geometry and differential calculus and she was awarded an A for this but for an astronomy course that she took in her final year she was awarded A-. She graduated in June 1892 receiving a certificate which stated that, if she had been a man, she would have qualified for a B.A.

Her final year astronomy course had been taken at the Harvard Observatory and, after graduating, she offered to work at the Observatory for free. The head of the Observatory at this time was Edward Charles Pickering who had been a professor of physics at the Massachusetts Institute of Technology before being appointed director of the Harvard Observatory in 1876. He believed that the task of the Observatory was to collect as much data as possible on the stars so that others might be helped in theoretical work. He aimed to tabulate the position, colour and magnitude of as many stars as possible. Delighted to have Leavitt's assistance without having to pay her, he set her the task of studying photographic plates from which she had to record the required data. However, it was known that many stars changed in brightness so one of Leavitt's tasks was to look out for such variable stars. During 1896 she wrote up a draft manuscript of her findings.

In September 1896 Leavitt applied for a passport to travel abroad. At this time she was living in Cambridgeport which today is part of Cambridge but at that time was a separate town close to Cambridge. The application was to allow her to go abroad and return "in about two years." The application gives a physical description of Leavitt: Age - 28, Stature - 5 ft 8 ins, Forehead - High, Eyes - Gray, Nose - Long, Mouth - Medium, Chin - Long, Hair - Black, Complexion - Light, Face - Long. She sailed from Boston to Europe. On her return, Leavitt went to Harvard to discuss her work with Pickering. He made some suggestions on how she might make some improvements to her manuscript and then Leavitt set off for Beloit, Rock, Wisconsin where her father was now the Congregational Minister. The 1900 census records the family living at 1263 Chafin Street in Beloit; Leavitt's parents and their five surviving children are all at this address. At this time she described herself as a teacher and she taught art in Beloit College. However, she longed to return to her work on astronomy but, as she explained in a letter to Pickering dated 13 May 1902, she had various difficulties. She wrote:-
The winter after my return was occupied with unexpected cares. When, at last, I had leisure to take up the work, my eyes troubled me so seriously as to prevent my using them so closely.
It is not at all surprising that the work she had been doing, requiring very careful intense inspection of images on photographic plates, had caused her eyes trouble. However, her eyes now having recovered she wanted Pickering to send her the materials that she needed to complete the manuscript she had been working on in 1896. Her letter continues:-
I am more sorry than I can tell you that the work I undertook with such delight, and carried to a certain point with such keen pleasure, should be left uncompleted. I apologise most sincerely for not writing concerning the matter long ago. I am having some trouble with my hearing, worrying, a little oddly, that stargazing might make it worse. My friends say, and I recognise the truth of it, that my hearing is not nearly as good when absorbed in astronomical work. Cold weather seems to aggravate my condition. It is evident that I cannot teach astronomy in any school or college where I should have to be out with classes on cold winter nights. My aurist forbids any such exposure. Do you think it is likely that I could find employment either in an observatory or in a school where there is a mild winter climate? Is there anyone besides yourself to whom I might apply?
Pickering replied immediately offering her a full-time position:-
For this I should be willing to pay thirty cents an hour in view of the quality of your work, although our usual price, in such cases, is twenty-five cents an hour. If it was not possible for you to relocate, I would pay your fare for a short visit to Cambridge. You could get work in order to take home to Beloit. I do not know of any observatory in a warm climate, where you could be employed on similar work and it would be difficult to furnish you with a large amount of work that you could carry on elsewhere. In any case, I should doubt if astronomy had anything to do with the condition of your hearing, unless you have been assured that this is the case by a good aurist.
Leavitt replied:-
My dear Prof. Pickering, it has proved possible for me to arrange my affairs here so that I can go to Cambridge next month and remain until the work is completed. Your very liberal offer of thirty cents an hour will enable me to do this.
Aiming to take up her position by the end of July, Leavitt set out for Cambridge but, stopping to visit a relative in Ohio, she discovered the relative was ill and so she spent time helping out. This delayed her arrival in Cambridge until the end of August.

She did not work too long before taking a winter break and applied for a passport on 1 January 1903. Her physical description is identical to the one on the earlier application in 1896 except she now describes her hair as "dark" rather than "black." She asked for the passport to be sent to the U S Consul in Naples, Italy, so she must have been travelling to Naples. Certainly she was on the S S Commonwealth since she sent a letter from that ship on 3 January. After spending time in Europe she returned to Boston from Liverpool, England, on the S S Ivernia, leaving Liverpool on 29 July and arriving in Boston on 6 August. From Boston she went by train to Beloit, then returned to Cambridge to again take up her permanent position at the Observatory. She lived with her uncle Erasmus Darwin Leavitt, the engineer, in a large villa he had built on Garden Street in Cambridge, only a short walk from the Observatory.

In spring 1904, while examining plates taken of the Small Magellanic Cloud by the Arequipa Observatory, she discovered variable stars. The Small Magellanic Cloud and the Large Magellanic Cloud are galaxies close to Milky Way. To get an idea of distances, the Small Magellanic Cloud is about 7,000 light years in diameter, and lies about 190,000 light years from the Milky Way. The Large Magellanic Cloud is about 14,000 light years in diameter and 160,000 light years from the Milky Way. The Milky Way itself is about 140,000 light years in diameter. Both Magellanic Clouds are only visible from the Southern Hemisphere. After the Arequipa Observatory was established in Peru in 1891, plates of southern stars were sent to the Harvard Observatory. It was these plates that Leavitt was working on, measuring magnitudes and position of stars. She began to find "an extraordinary number" of variables - these were her own words.

In 1908 Leavitt published a full account of her work in the 21-page paper 1777 Variables in the Magellanic Clouds. The paper begins as follows:-
In the spring of 1904, a comparison of two photographs of the Small Magellanic Cloud, taken with the 24-inch Bruce Telescope [at the Arequipa Observatory], led to the discovery of a number of faint variable stars. As the region appeared to be interesting, other plates were examined, and although the quality of most of these was below the usual high standard of excellence of later plates, 57 new variables were found, and announced in Circular 79. In order to furnish material for determining their periods, a series of sixteen plates, having exposures from two to four hours, was taken with the Bruce Telescope the following autumn. When they arrived in Cambridge, in January 1905, a comparison of one of them with an early plate led immediately to the discovery of an extraordinary number of new variable stars. It was found, also, that plates taken within two or three days of each other, could be compared with equally interesting results, showing that the periods of many of the variables are short. The number thus discovered, up to the present time, is 969. Adding to these 23 previously known, the total number of variables in this region is 992. The Large Magellanic Cloud has also been examined on 18 photographs taken with the 24-inch Bruce Telescope, and 808 new variables have been found, of which 152 were announced in Circular 82. As much time will be required for the discussion of these variables, the provisional catalogues given below have been prepared.
At the end of the paper she gave a list of sixteen variable stars, showing their periods and magnitudes. She then made the important statement:-
It is worthy of notice that the brighter variables have the longer periods.
Let us note that since no distance scale was known at this time, the absolute magnitude of variables in the Milky Way could not be estimated from their apparent brightness. However, the absolute magnitude of stars in the Small Magellanic Cloud, being at least approximately the same distance away from the Earth, could be fairly accurately deduced from their apparent magnitude. This allowed Leavitt to make the vitally important observation that the periods of the variables was related to their absolute magnitudes. However, although the results were convincing they were only based on a sample of sixteen stars. Leavitt needed to continue to work on making further measurements. However, this work was interrupted when she fell ill.

By December 1908 Leavitt was in hospital in Boston. On her release she went to Beloit to stay with her parents and two unmarried brothers, George William Leavitt, now a missionary, and Darwin Ashley Leavitt, now a Congregationalist minister. She spent much of the year 1909 at the family home in Beloit, intending to resume work at the Observatory in the autumn. However a "slight illness" prevented her from carrying out this aim. Pickering was keen that she return, but not to work on the variable stars project, but rather to work on his favourite project of obtaining accurate data on 96 stars close to Polaris. Eventually, when she still was not well enough to come to Cambridge, Pickering sent her material to work on at Beloit. She carried out work on these plates, returning data to the Harvard Observatory, until May 1910 when she was well enough to resume her work in Cambridge.

Further interruptions to her work followed, for example in March 1911 her father died and again she returned to the family home at Beloit. She was again sent plates for the 96 near Polaris stars and worked on these while in Beloit. She was back in Cambridge by the autumn of 1911 when, in addition to other work, she was able to continue to work on the variable stars in the Small Magellanic Cloud. Her work is reported on in a Harvard Circular of 1912 where she wrote:-
A remarkable relation between the brightness of these variables and the lengths of their periods will be noticed. [In the 1908 paper] attention was called to the fact that the brighter variables have longer periods, but at that time it was felt that the number was too small to warrant the drawing of general conclusions. The periods of 8 additional variables which have been determined since that time, however, conform to the same law. The relation is shown graphically ... The resulting curves, one for maxima and one for minima, are surprisingly smooth, and of remarkable form. ... A straight line can readily be drawn among each of the two series of points corresponding to maxima and minima, thus showing that there is a simple relation between the brightness of the variables and their periods. The logarithm of the period increases by about 0.48 for each increase of one magnitude in brightness ... Since the variables are probably at nearly the same distance from the Earth their periods are apparently associated with their actual emission of light, as determined by their mass, density, and surface brightness.
Leavitt did not refer to these variable stars as Cepheid variables, but they are known today by that name after the first such star discovered in 1784 by John Goodricke. Leavitt's discovery allowed the scale of the universe to be determined, although more work was required since the relation that she discovered only allowed relative distances to be determined while other techniques were required to determine the distance to at least one such variable star to calibrate the scale. Leavitt was not given the chance to participate in this as Pickering used her skills on other projects.

For the next four years Leavitt worked at the Harvard Observatory, except for a break of three months in the first half of 1913 when she had surgery to her stomach. She completed work on the 96 near Polaris stars and published the results, a remarkable piece of work which she and checked and rechecked using data from 299 plates produced by 13 different telescopes.

Harlow Shapley was working on the size of the Milky Way galaxy and he contacted Pickering in August 1917 with questions for Leavitt concerning variables in globular clusters. He wrote in his letter:-
Her discovery of the relation of period to brightness is destined to be one of the most significant results of stellar astronomy, I believe.
Only after writing again in July 1918 did Shapley receive a response from Pickering saying that Leavitt had plates to investigate his question. She corresponded with Shapley herself in 1920, asking advice on what she should focus her research and he replied, again suggesting variables in globular clusters. In March 1921 Shapley became Director of the Harvard Observatory and by this time Leavitt was Head of Stellar Photometry. However, by November 1921 she was serious ill with stomach cancer, living as she had done for some time, with her mother on Linnean Street, Cambridge. A friend visited her on 6 December and wrote:-
Went to see poor Henrietta Leavitt, dying with a malignant stomach trouble. So thin and changed. Very, very, sad.
Leavitt died at 10.30 p.m. on 12 December, and her funeral was held at the Chapel of the 1st Congregational Church on 14 December. She was buried in Cambridge Cemetery. We note that her mother did not outlive her daughter by much for she died in 1922. Although Leavitt died without making a will, she owned a share of two adjacent properties in Beloit and her share went, after her death, to her brothers (since her mother had died before this was settled).

There is a postscript that we must add. In 1925 Gösta Mittag-Leffler wrote to Leavitt at the Harvard Observatory, not being aware that she had died. He wrote:-
Honoured Miss Leavitt, What my friend and colleague Professor von Zeipel of Uppsala has told me about your admirable discovery of the empirical law touching the connection between magnitude and period-length for the S Cepheid-variables of the Little Magellan's cloud, has impressed me so deeply that I feel seriously inclined to nominate you to the Nobel prize in physics for 1926 ...
The letter was given to Shapely who informed Mittag-Leffler of Leavitt's death. However, his reply does him no credit for it is clear that he was trying to take much of the credit for Leavitt's discovery, probably in the hope that Mittag-Leffler would nominate him for a Nobel prize!


References (show)

  1. G Johnson, Miss Leavitt's Stars : The Untold Story of the Woman Who Discovered How To Measure the Universe (W W Norton, New York, 2005).
  2. C W Carey, Henrietta Swan Leavitt, American Scientists, Facts on File library of American history (Infobase Publishing, 2014), 220-221
  3. Henrietta Swan Leavitt, Encyclopedia of World Biography (The Gale Group Inc., 2004).
  4. Henrietta Swan Leavitt, A to Z of Women in Science and Math, Facts on File library of American history (Infobase Publishing,1999), 170.
  5. E Howell, Henrietta Swan Leavitt: Discovered How to Measure Stellar Distances, Space.com (11 November 2016). https://www.space.com/34708-henrietta-swan-leavitt-biography.html
  6. A Lightman, Great Scientific Discoveries of the Twentieth Century, Bulletin of the American Academy of Arts and Sciences 60 (2) (2007), 26-30.
  7. G Mariani, Henrietta Leavitt - Celebrating the Forgotten Astronomer, American Association of Variable Star Observers (2012). https://www.aavso.org/henrietta-leavitt - celebrating-forgotten - astronomer
  8. M Nix, Learning about early women astronomers can inspire today's students to blaze new trailsin scientific research: Stellar Women, The Science Teacher 65 (3) (1998), 28-31.
  9. E H Oakes, Henrietta Swan Leavitt, Encyclopedia of World Scientists. Facts on File library of American history (Infobase Publishing, 2007), 434-435.
  10. M Ogilvie and J Harvey, Henrietta Swan Leavitt, The Biographical Dictionary of Women in Science: Pioneering Lives From Ancient Times to the Mid-20th Century (Routledge, 2003), 759.
  11. M Ogilvie, Henrietta Swan Leavitt, Women in Science: Antiquity Through the Nineteenth Century : a Biographical Dictionary with Annotated Bibliography (MIT Press, 1986), 121.
  12. J Stewart, Henrietta Swan Leavitt : A Star of the Brightest Magnitude, Chicago Section American Chemical Society (October 2006). http://chicagoacs.org/articles.php?id=286

Additional Resources (show)

Other websites about Henrietta Swan Leavitt:

  1. Sci Hi blog
  2. Astronomas

Written by J J O'Connor and E F Robertson
Last Update August 2017