John Herschel

Sir John Herschel

1867 photograph by
Julia Margaret Cameron
Born March 7, 1792(1792-03-07)
Slough, then Buckinghamshire now Berkshire, England
Died May 11, 1871(1871-05-11) (aged 79)
Collingwood, near Hawkhurst, Kent, England
John Herschel 1846
[1]
Disa cornuta (L.) Sw.
by Margaret & John Herschel

Sir John Frederick William Herschel, 1st Baronet KH, FRS (March 7, 1792 – May 11, 1871) [2] was an English mathematician, astronomer, chemist, and experimental photographer/inventor, who in some years also did valuable botanical work.[2] He was the son of astronomer Sir Friedrich Wilhelm Herschel and the father of 12 children.[2]

Herschel originated the use of the Julian day system in astronomy. He named seven moons of Saturn and four moons of Uranus. He made many contributions to the science of photography, and investigated colour blindness and the chemical power of ultraviolet rays.

Contents

Early life and work on astronomy

Herschel was born in Slough, Berkshire, and studied shortly at Eton College and St John's College, Cambridge. He graduated as Senior wrangler in 1813.[3] It was during his time as an undergraduate that he became friends with Charles Babbage and George Peacock.[2] He took up astronomy in 1816, building a reflecting telescope with a mirror 18 inches (460 mm) in diameter and with a 20-foot (6.1 m) focal length. Between 1821 and 1823 he re-examined, with James South, the double stars catalogued by his father. For this work he was presented in 1826 with the Gold Medal of the Royal Astronomical Society (which he won again in 1836), and with the Lalande Medal of the French Institute in 1825, while in 1821 the Royal Society bestowed upon him the Copley Medal for his mathematical contributions to their Transactions. Herschel was made a Knight of the Royal Guelphic Order in 1831.[2]

His A preliminary discourse on the study of natural philosophy published early in 1831 as part of Dionysius Lardner's Cabinet cyclopædia set out methods of scientific investigation with an orderly relationship between observation and theorising. He described nature as being governed by laws which were difficult to discern or to state mathematically, and the highest aim of natural philosophy was understanding these laws through inductive reasoning, finding a single unifying explanation for a phenomenon. This became an authoritative statement with wide influence on science, particularly at the University of Cambridge where it inspired the student Charles Darwin with "a burning zeal" to contribute to this work.[4][5]

Visit to South Africa

Declining an offer from the Duke of Sussex that they travel to South Africa on a Navy ship, Herschel and his wife paid £500 for passage on the 'S.S. Mountstuart Elphinstone', a ship of 611 tons, which departed from Portsmouth on 13 November 1833. The voyage to South Africa was made in order to catalogue the stars, nebulae, and other objects of the southern skies.[2] This was to be a completion as well as extension of the survey of the northern heavens undertaken initially by his father Friedrich Wilhelm Herschel. He arrived in Cape Town on 15 January 1834 and set up a private 21 ft (6.4 m) telescope at Feldhausen at Wynberg. Amongst his other observations during this time was that of the return of Comet Halley. Herschel collaborated with Thomas Maclear, the Astronomer Royal at the Cape of Good Hope, and the two families became close friends.

However, in addition to his astronomical work, this voyage to a far corner of the British empire also gave Herschel an escape from the pressures under which he found himself in London, where he was one of the most sought-after of all British men of science. While in southern Africa, he engaged in a broad variety of scientific pursuits free from a sense of strong obligations to a larger scientific community. It was, he later recalled, probably the happiest time in his life. In an extraordinary departure from astronomy, he combined his talents with those of his wife, Margaret, and between 1834 and 1838 they produced 131 botanical illustrations of fine quality, showing the Cape flora. John Herschel used a camera lucida to obtain accurate outlines of the specimens and left the details to his wife. Even though their portfolio had been intended as a personal record, and despite the lack of floral dissections in the paintings, their accurate rendition makes them more valuable than contemporary collections. Some 112 of the 132 known flower studies were collected and published as "Flora Herscheliana" in 1996.

As their home during their stay in the Cape, they had selected 'Feldhausen', an old estate on the south-east side of Table Mountain. Here he set up his reflector to begin his survey of the southern skies. Intrigued by the ideas of gradual formation of landscapes set out in Charles Lyell's Principles of Geology, he wrote to Lyell on 20 February 1836 praising the book as a work which would bring "a complete revolution in [its] subject, by altering entirely the point of view in which it must thenceforward be contemplated." and opening a way for bold speculation on "that mystery of mysteries, the replacement of extinct species by others." Herschel himself thought catastrophic extinction and renewal "an inadequate conception of the Creator", and by analogy with other intermediate causes "the origination of fresh species, could it ever come under our cognizance, would be found to be a natural in contradistinction to a miraculous process".[6] He prefaced his words with the couplet:

He that on such quest would go must know not fear or failing
To coward soul or faithless heart the search were unavailing.

Taking a gradualist view of development and referring to the evolution of language, he commented

"Words are to the Anthropologist what rolled pebbles are to the Geologist — battered relics of past ages often containing within them indelible records capable of intelligent interpretation — and when we see what amount of change 2000 years has been able to produce in the languages of Greece & Italy or 1000 in those of Germany France & Spain we naturally begin to ask how long a period must have lapsed since the Chinese, the Hebrew, the Delaware & the Malesass [Malagasy] had a point in common with the German & Italian & each other — Time! Time! Time! — we must not impugn the Scripture Chronology, but we must interpret it in accordance with whatever shall appear on fair enquiry to be the truth for there cannot be two truths. And really there is scope enough: for the lives of the Patriarchs may as reasonably be extended to 5000 or 50000 years apiece as the days of Creation to as many thousand millions of years."[7][8]

The document was circulated, and Charles Babbage incorporated extracts in his ninth and unofficial Bridgewater Treatise, which postulated laws set up by a divine programmer.[6] When HMS Beagle called at Cape Town, Captain Robert FitzRoy and the young naturalist Charles Darwin visited Herschel on 3 June 1836. Later on, Darwin would be influenced by Herschel's writings in developing his theory advanced in The Origin of Species. In the opening lines of that work, Darwin writes that his intent is "to throw some light on the origin of species — that mystery of mysteries, as it has been called by one of our greatest philosophers", referring to Herschel.

Herschel returned to England in 1838, was created a baronet[2] and published Results of Astronomical Observations made at the Cape of Good Hope in 1847. In this publication he proposed the names still used today for the seven then-known satellites of Saturn: Mimas, Enceladus, Tethys, Dione, Rhea, Titan, and Iapetus.[9] In the same year, Herschel received his second Copley Medal from the Royal Society for this work. A few years later, in 1852, he proposed the names still used today for the four then-known satellites of Uranus: Ariel, Umbriel, Titania, and Oberon.

Portrait of Sir John Herschel by his daughter Margaret Louisa Herschel

Photography

Herschel made numerous important contributions to photography. He made improvements in photographic processes, particularly in inventing the cyanotype process and variations (such as the chrysotype), the precursors of the modern blueprint process. He experimented with color reproduction, noting that rays of different parts of the spectrum tended to impart their own color to a photographic paper. He collaborated in the early 1840s with Henry Collen, portrait painter to Queen Victoria. Herschel originally discovered the platinum process on the basis of the light sensitivity of platinum salts, later developed by William Willis.[10]

Unaware that the term photography had already been coined by Hercules Florence in 1834, Herschel also coined the term in 1839. He applied the terms negative and positive to photography.[2]

He discovered sodium thiosulfate to be a solvent of silver halides in 1819, and informed Talbot and Daguerre of his discovery that this "hyposulphite of soda" ("hypo") could be used as a photographic fixer, to "fix" pictures and make them permanent, after experimentally applying it thus in early 1839. His ground-breaking research on the subject was read at the Royal Society in London in March 1839 and January 1840.

General

Herschel wrote many papers and articles, including entries on meteorology, physical geography and the telescope for the eighth edition of the Encyclopædia Britannica.[2] He also translated The Iliad of Homer.

He proposed a correction to the Gregorian calendar, making years that are multiples of 4000 not leap years, thus reducing the average length of the calendar year from 365.2425 days to 365.24225.[11] Although this is closer to the mean tropical year of 365.24219 days, his proposal has never been adopted because the Gregorian calendar is based on the mean time between vernal equinoxes (currently 365.2424 days).[12]

In 1836, he was elected a foreign member of the Royal Swedish Academy of Sciences.

In 1835, the New York Sun newspaper wrote a series of satiric articles that came to be known as the Great Moon Hoax, with statements falsely attributed to Herschel about his supposed discoveries of animals living on the Moon, including batlike winged humanoids.

Herschel Island (in the Arctic Ocean, north of the Yukon Territory), the village of Herschel in western Saskatchewan, Canada, Mount Herschel (in Antarctica) and the crater J. Herschel on the Moon are named after him. So is Herschel Girls School in Cape Town, South Africa, which commemorates his visit to the area.

Influences

Economics

Family

Margaret Brodie Stewart
by Alfred Edward Chalon 1829
John Frederick William Herschel
by Alfred Edward Chalon 1829

He married Margaret Brodie Stewart (1810–1884) on 3 March 1829 at Edinburgh and produced the following children:

  1. Caroline Emilia Mary Herschel (31 March 1830–29 Jan 1909), who married Alexander Hamilton-Gordon
  2. Isabella Herschel (5 June 1831–1893)
  3. Sir William James Herschel, 2nd Bt. (9 January 1833–1917),
  4. Margaret Louisa Herschel (1834–1861), an accomplished artist
  5. Prof. Alexander Stewart Herschel (1836-1907), FRS
  6. Col. John Herschel (1837–1921), FRS, FRAS
  7. Maria Sophie Herschel (1839–1929)
  8. Amelia Herschel (1841–1926) married Sir Thomas Francis Wade, diplomat and sinologist
  9. Julia Mary Herschel (1842–1933) married on 4 June 1878 to Captain (later Admiral) John Fiot Lee Pearse Maclear
  10. Matilda Rose Herschel (1844–1914)
  11. Francisca Herschel (1846–1932)
  12. Constance Ann Herschel (1855–20 Jun 1939)

On his death at Collingwood, his home near Hawkhurst in Kent, he was given a national funeral and buried in Westminster Abbey.

Bibliography

References

  1. John Timbs, The Year-book of Facts in Science and Art, London: Simpkin, Marshall, and Co., 1846
  2. 2.00 2.01 2.02 2.03 2.04 2.05 2.06 2.07 2.08 2.09 2.10 2.11 2.12 "Herschel | Sir | John Frederick William | 1792-1871 | astronomer" (biography), NAHSTE project, University of Edinburgh, NAHSTE-JHerschel.
  3. Herschel, John Frederick William in Venn, J. & J. A., Alumni Cantabrigienses, Cambridge University Press, 10 vols, 1922–1958.
  4. Darwin 1958, p. 67–68
    Browne 1995, pp. 128, 133
  5. 5.0 5.1 Darwin Correspondence Project - Letter 94 — Darwin, C. R. to Fox, W. D., (15 Feb 1831), http://www.darwinproject.ac.uk/darwinletters/calendar/entry-94.html#mark-94.f2, retrieved 2008-12-11 
  6. 6.0 6.1 van Wyhe 2007, p. 197
    Babbage 1838, pp. 225–227
  7. Desmond & Moore 1991, pp. 214–215
  8. Letter 346 — Darwin, C. R. to Darwin, C. S., 27 Feb 1837 Darwin Correspondence Project, Darwin Correspondence Project, http://www.darwinproject.ac.uk/entry-346#mark-346.f5, retrieved 2010-04-30 
  9. "Monthly Notices of the Royal Astronomical Society, volume 8, page 42" (archive), NASA, 2004, ADsabs.Harvard.edu webpage: Adsabs-MNRAS.
  10. William Willis
  11. John Herschel (1849), Outlines of Astronomy, http://visualiseur.bnf.fr/Visualiseur?Destination=Gallica&O=NUMM-94926 
  12. Duncan Steel (2000), Marking time: the epic quest to invent the perfect calendar, John Wiley and Sons, p. 185, ISBN 9780471298274, http://books.google.com/?id=fsni_qV-FJoC&pg=PA185&dq=4000+gregorian+divisible+error+herschel&q=4000%20gregorian%20divisible%20error%20herschel 
  13. John Hershell, A preliminary discourse on the study of natural philosophy, 1831

Further reading

External links