William Whewell | |
---|---|
Master of Trinity College | |
In office 1841–1866 | |
Preceded by | Christopher Wordsworth |
Succeeded by | William Hepworth Thompson |
Personal details | |
Born | Lancaster, Lancashire, England | 24 May 1794
Died | 6 March 1866 71) Cambridge, Cambridgeshire, England | (aged
Known for | Coining the words scientist and physicist Consilience |
Alma mater | Trinity College, Cambridge |
Awards | Smith's Prize (1816) Royal Medal (1837) |
Scientific career | |
Fields | Polymath, philosopher, theologian |
Institutions | Trinity College, Cambridge |
William Whewell FRS FGS FRSE (/ˈhjuːəl/ HEW-əl; 24 May 1794 – 6 March 1866) was an English polymath, scientist, Anglican priest, philosopher, theologian, and historian of science. He was Master at Trinity College, Cambridge. In his time as a student there, he achieved distinction in both poetry and mathematics.
The breadth of Whewell's endeavours is his most remarkable feature. In a time of increasing specialization, Whewell belonged in an earlier era when natural philosophers investigated widely. He published work in mechanics, physics, geology, astronomy, and economics, while also composing poetry, writing a Bridgewater Treatise, translating the works of Goethe, and writing sermons and theological tracts. In mathematics, Whewell introduced what is now called the Whewell equation, defining the shape of a curve without reference to an arbitrarily chosen coordinate system. He also organized thousands of volunteers internationally to study ocean tides, in what is now considered one of the first citizen science projects. He received the Royal Medal for this work in 1837.[1]
One of Whewell's greatest gifts to science was his word-smithing. He corresponded with many in his field and helped them come up with neologisms for their discoveries. Whewell coined, among other terms, scientist,[2] physicist, linguistics, consilience, catastrophism, uniformitarianism, and astigmatism;[3] he suggested to Michael Faraday the terms electrode, ion, dielectric, anode, and cathode.[4][5]
Whewell died in Cambridge in 1866 as a result of a fall from his horse.
Early life, education and marriages
Whewell was born in Lancaster, the son of John Whewell and his wife, Elizabeth Bennison.[6] His father was a master carpenter, and wished him to follow his trade, but William's success in mathematics at Lancaster Royal Grammar School and Heversham grammar school won him an exhibition (a type of scholarship) at Trinity College, Cambridge in 1812. He was the eldest of seven children having three brothers and three sisters born after him. Two brothers died as infants; the third died in 1812. Two of his sisters married; he corresponded with them in his career as a student and then a professor. His mother died in 1807, when Whewell was 13 years old. His father died in 1816, the year Whewell received his bachelor degree at Trinity College, but before his most significant professional accomplishments.[7]
Whewell married, firstly, in 1841, Cordelia Marshall, daughter of John Marshall. Within days of his marriage, Whewell was recommended to be master of Trinity College in Cambridge, following Christopher Wordsworth. Cordelia died in 1855. In 1858 he married again, to Everina Frances (née Ellis), widow of Sir Gilbert Affleck, 5th Baronet who had died in 1854.[8] He had no children.
Career
In 1814 he was awarded the Chancellor's Gold Medal for poetry.[9] He was Second Wrangler in 1816, President of the Cambridge Union Society in 1817, became fellow and tutor of his college.
He was professor of mineralogy from 1828 to 1832 and Knightbridge Professor of Philosophy (then called "moral theology and casuistical divinity") from 1838 to 1855.[10][11] During the years as professor of philosophy, in 1841, Whewell succeeded Christopher Wordsworth as master.
Whewell influenced the syllabus of the Mathematical Tripos at Cambridge, which undergraduates studied. He was a proponent of 'mixed mathematics': applied mathematics, descriptive geometry and mathematical physics, in contrast with pure mathematics. Under Whewell, analytic topics such as elliptical integrals were replaced by physical studies of electricity, heat and magnetism. He believed an intuitive geometrical understanding of mathematics, based on Euclid and Newton, was most appropriate.[12]
Death and legacy
Whewell died in Cambridge in 1866 as a result of a fall from his horse.[13] He was buried in the chapel of Trinity College, Cambridge, whilst his wives are buried together in the Mill Road Cemetery, Cambridge. A window dedicated to Lady Affleck, his second wife, was installed in her memory in the chancel of All Saints' Church, Cambridge and made by Morris & Co.
A list of his writings was prepared after his death by Isaac Todhunter in two volumes, the first being an index of the names of persons with whom Whewell corresponded.[14][15] Another book was published five years later, as a biography of Whewell's life interspersed with his letters to his father, his sisters, and other correspondence, written and compiled by his niece by marriage, Janet Mary Douglas, called Mrs Stair Douglas on the book's title page.[7] These books are available online in their entirety as part of the Internet Archive.
Endeavours
History and development of science
In 1826 and 1828, Whewell was engaged with George Airy in conducting experiments in Dolcoath mine in Cornwall, in order to determine the density of the earth. Their united labours were unsuccessful, and Whewell did little more in the way of experimental science. He was the author, however, of an Essay on Mineralogical Classification, published in 1828, and carried out extensive work on the tides.[16][11]
When Whewell started his work on tides, there was a theory explaining the forces causing the tides, based on the work of Newton, Bernoulli, and Laplace. But this explained the forces, not how tides actually propagated in oceans bounded by continents. There was a series of tidal observations for a few ports, such as London and Liverpool, which allowed tide tables to be produced for these ports. However the methods used to create such tables, and in some cases the observations, were closely guarded trade secrets. John Lubbock, a former student of Whewell's, had analysed the available historic data (covering up to 25 years) for several ports to allow tables to be generated on a theoretical basis, publishing the methodology.[17][18] This work was supported by Francis Beaufort, Hydrographer of the Navy, and contributed to the publication of the Admiralty Tide Tables starting in 1833.[19]
Whewell built on Lubbock's work to develop an understanding of tidal patterns around the world that could be used to generate predictions for many locations without the need for long series of tidal observations at each port. This required extensive new observations, initially obtained through an informal network, and later through formal projects enabled by Beaufort at the Admiralty. In the first of these, in June 1834, every Coast Guard station in the United Kingdom recorded the tides every fifteen minutes for two weeks.[20]: 169–173 The second, in June 1835, was an international collaboration, involving Admiralty Surveyors, other Royal Navy and British observers, as well as those from the United States, France, Spain, Portugal, Belgium, Denmark, Norway, and the Netherlands. Islands, such as the Channel Islands, were particularly interesting, adding important detail of the progress of the tides through the ocean. The Admiralty also provided the resources for data analysis, and J.F. Dessiou, an expert calculator on the Admiralty staff, was in charge of the calculations. [20]: 175–182
Whewell made extensive use of graphical methods, and these became not just ways of displaying results, but tools in the analysis of data.[20]: 182 He published a number of maps showing cotidal lines (a term coined by Lubbock) – lines joining points where high tide occurred at the same time. These allowed a graphical representation of the progression of tidal waves through the ocean. From this, Whewell predicted that there should be a place where there was no tidal rise or fall in the southern part of the North Sea.[21] Such a "no-tide zone" is now called an amphidromic point. In 1840, the naval surveyor William Hewett confirmed Whewell's prediction. This involved anchoring his ship, HMS Fairy, and taking repeated soundings at the same location with lead and line, precautions being needed to allow for irregularities in the sea bed, and the effects of tidal flow. The data showed a rise of no more than 1 foot (0.30 m).[22][23] He was also an accomplished artist of geological landscapes and his pencil drawing of the Wren's Nest, Dudley was printed in Roderick Murchison's 'Siluria'.
Whewell published about 20 papers over a period of 20 years on his tidal researches. This was his major scientific achievement, and was an important source for his understanding of the process of scientific enquiry, the subject of one of his major works Philosophy of the Inductive Sciences.
His best-known works are two voluminous books that attempt to systematize the development of the sciences, History of the Inductive Sciences (1837) and The Philosophy of the Inductive Sciences, Founded Upon Their History (1840, 1847, 1858–60). While the History traced how each branch of the sciences had evolved since antiquity, Whewell viewed the Philosophy as the "Moral" of the previous work as it sought to extract a universal theory of knowledge through history.
In the latter, he attempted to follow Francis Bacon's plan for discovery. He examined ideas ("explication of conceptions") and by the "colligation of facts" endeavored to unite these ideas with the facts and so construct science.[11] This colligation is an "act of thought", a mental operation consisting of bringing together a number of empirical facts by "superinducing" upon them a conception which unites the facts and renders them capable of being expressed in general laws.[24] Whewell refers to as an example Kepler and the discovery of the elliptical orbit: the orbit's points were colligated by the conception of the ellipse, not by the discovery of new facts. These conceptions are not "innate" (as in Kant), but being the fruits of the "progress of scientific thought (history) are unfolded in clearness and distinctness".[25]
Whewell's three steps of induction
Whewell analyzed inductive reasoning into three steps:
- The selection of the (fundamental) idea, such as space, number, cause, or likeness (resemblance);
- The formation of the conception, or more special modification of those ideas, as a circle, a uniform force, etc.; and,
- The determination of magnitudes.[11]
Upon these follow special methods of induction applicable to quantity: the method of curves, the method of means, the method of least squares and the method of residues, and special methods depending on resemblance (to which the transition is made through the law of continuity), such as the method of gradation and the method of natural classification.[11] In Philosophy of the Inductive Sciences Whewell was the first to use the term "consilience" to discuss the unification of knowledge between the different branches of learning.
Opponent of English empiricism
Here, as in his ethical doctrine, Whewell was moved by opposition to contemporary English empiricism. Following Immanuel Kant, he asserted against John Stuart Mill the a priori nature of necessary truth, and by his rules for the construction of conceptions he dispensed with the inductive methods of Mill.[11] Yet, according to Laura J. Snyder, "surprisingly, the received view of Whewell's methodology in the 20th century has tended to describe him as an anti-inductivist in the Popperian mold, that is it is claimed that Whewell endorses a 'conjectures and refutations' view of scientific discovery. Whewell explicitly rejects the hypothetico-deductive claim that hypotheses discovered by non-rational guesswork can be confirmed by consequentialist testing. Whewell explained that new hypotheses are 'collected from the facts' (Philosophy of Inductive Sciences, 1849, 17)".[26] In sum, the scientific discovery is a partly empirical and partly rational process; the "discovery of the conceptions is neither guesswork nor merely a matter of observations", we infer more than we see.[27]
Whewell's neologisms
One of Whewell's greatest gifts to science was his wordsmithing. He often corresponded with many in his field and helped them come up with new terms for their discoveries. In fact, Whewell came up with the term scientist itself in 1833, and it was first published in Whewell's anonymous 1834 review of Mary Somerville's On the Connexion of the Physical Sciences published in the Quarterly Review.[28] (They had previously been known as "natural philosophers" or "men of science").
Work in college administration
Whewell was prominent not only in scientific research and philosophy but also in university and college administration. His first work, An Elementary Treatise on Mechanics (1819), cooperated with those of George Peacock and John Herschel in reforming the Cambridge method of mathematical teaching. His work and publications also helped influence the recognition of the moral and natural sciences as an integral part of the Cambridge curriculum.[11]
In general, however, especially in later years, he opposed reform: he defended the tutorial system, and in a controversy with Connop Thirlwall (1834), opposed the admission of Dissenters; he upheld the clerical fellowship system, the privileged class of "fellow-commoners", and the authority of heads of colleges in university affairs.[11]
He opposed the appointment of the University Commission (1850) and wrote two pamphlets (Remarks) against the reform of the university (1855). He stood against the scheme of entrusting elections to the members of the senate and instead, advocated the use of college funds and the subvention of scientific and professorial work.[11]
He was elected Master of Trinity College, Cambridge in 1841, and retained that position until his death in 1866.
The Whewell Professorship of International Law and the Whewell Scholarships were established through the provisions of his will.[29][30]
Whewell's interests in architecture
Aside from Science, Whewell was also interested in the history of architecture throughout his life. He is best known for his writings on Gothic architecture, specifically his book, Architectural Notes on German Churches (first published in 1830). In this work, Whewell established a strict nomenclature for German Gothic churches and came up with a theory of stylistic development. His work is associated with the "scientific trend" of architectural writers, along with Thomas Rickman and Robert Willis.
He paid from his own resources for the construction of two new courts of rooms at Trinity College, Cambridge, built in a Gothic style. The two courts were completed in 1860 and (posthumously) in 1868, and are now collectively named Whewell's Court (in the singular).
Whewell's works in philosophy and morals
Between 1835 and 1861 Whewell produced various works on the philosophy of morals and politics, the chief of which, Elements of Morality, including Polity, was published in 1845. The peculiarity of this work—written from what is known as the intuitional point of view—is its fivefold division of the springs of action and of their objects, of the primary and universal rights of man (personal security, property, contract, family rights, and government), and of the cardinal virtues (benevolence, justice, truth, purity and order).[11]
Among Whewell's other works—too numerous to mention—were popular writings such as:
- the third Bridgewater Treatise, Astronomy and General Physics considered with reference to Natural Theology (1833),
- the two volumes treatise The Philosophy of the Inductive Sciences: Founded Upon Their History (1840),[31][32]
- the essay Of the Plurality of Worlds (1853), in which he argued against the probability of life on other planets,
- the Platonic Dialogues for English Readers (1850–1861),
- the Lectures on the History of Moral Philosophy in England (1852),
- the essay, Of a Liberal Education in General, with particular reference to the Leading Studies of the University of Cambridge (1845),
- the important edition and abridged translation of Hugo Grotius, De jure belli ac pacis (1853),[33] and
- the edition of the Mathematical Works of Isaac Barrow (1860).[34][11]
Whewell was one of the Cambridge dons whom Charles Darwin met during his education there, and when Darwin returned from the Beagle voyage he was directly influenced by Whewell, who persuaded Darwin to become secretary of the Geological Society of London. The title pages of On the Origin of Species open with a quotation from Whewell's Bridgewater Treatise about science founded on a natural theology of a creator establishing laws:[35]
But with regard to the material world, we can at least go so far as this—we can perceive that events are brought about not by insulated interpositions of Divine power, exerted in each particular case, but by the establishment of general laws.
Though Darwin used the concepts of Whewell as he made and tested his hypotheses regarding the theory of evolution, Whewell did not support Darwin's theory itself.
“Whewell also famously opposed the idea of evolution. First he published a new book, Indications of the Creator, 1845, composed of extracts from his earlier works to counteract the popular anonymous evolutionary work Vestiges of the Natural History of Creation. Later Whewell opposed Darwin's theories of evolution.”[36]
Works by Whewell
- (1830) Architectural Notes on German Churches: With Remarks on the Origin of Gothic Architecture. Cambridge: J. & J.J. Deighton. 1830. New edition 1835. Third edition 1842.
- (1831) "Review of J. Herschel's Preliminary discourse on the study of Natural Philosophy". The Quarterly Review. 45 (90): 374–407. July 1831.
- (1833) Astronomy and general physics considered with reference to Natural Theology (Bridgewater Treatise). Cambridge.
- (1836) Elementary Treatise on Mechanics, 5th edition, first edition 1819.
- (1837) History of the Inductive Sciences, from the Earliest to the Present Times. 3 vols, London. Volume 1, volume 2, volume 3. 2nd ed 1847 (2 vols). 3rd ed 1857 (2 vols). 1st German ed 1840–41.
- (1837) On the Principles of English University Education. London, 1837.[37]
- (1840) The Philosophy of the Inductive Sciences, founded upon their history. 2 vols, London. 2nd ed 1847. Volume 1. Volume 2.
- (1845) The Elements of Morality, including polity. 2 vols, London. Volume 1 Volume 2.
- (1846) Lectures on systematic Morality. London.
- (1849) Of Induction, with especial reference to Mr. J. Stuart Mill's System of Logic. London.
- (1850) Mathematical exposition of some doctrines of political economy: a second memoir. Transactions of the Cambridge Philosophical Society 9:128–49.
- (1852) Lectures on the history of Moral Philosophy. Cambridge: Cambridge University Press.
- (1853) Hugonis Grotii de jure belli et pacis libri tres : accompanied by an abridged translation by William Whewell, London: John W. Parker, volume 1, volume 2, volume 3.
- (1853) Of the Plurality of Worlds. London.
- (1857) Spedding's complete edition of the works of Bacon. Edinburgh Review 106:287–322.
- (1858a) The history of scientific ideas. 2 vols, London.
- (1858b) Novum Organon renovatum, London.
- (1860a) On the philosophy of discovery: chapters historical and critical. London.
- (1861) Plato's Republic (translation). Cambridge.
- (1862) Six Lectures on Political Economy, Cambridge.
- (1862) Additional Lectures on the History of Moral Philosophy, Cambridge.
- (1866) Comte and Positivism. Macmillan's Magazine 13:353–62.
Honors and recognitions
- Foreign Honorary Member of the American Academy of Arts and Sciences (1847)[38]
- The debating society at Lancaster Royal Grammar School is named the Whewell Society in honor of Whewell being an Old Lancastrian.
- The crater Whewell on the Moon
- The Gothic buildings known as Whewell's Court in Trinity College, Cambridge
- The Whewell Mineral Gallery in the Sedgwick Museum of Earth Sciences, Cambridge[39]
- The mineral whewellite
In fiction
In the 1857 novel Barchester Towers Charlotte Stanhope uses the topic of the theological arguments, concerning the possibility of intelligent life on other planets, between Whewell and David Brewster in an attempt to start up a conversation between her impecunious brother and the wealthy young widow Eleanor Bold.[40]
See also
- Catastrophism
- Uniformitarianism
- Earl of Bridgewater for other Bridgewater Treatise
- Law of three stages for Whewell's opposition to Auguste Comte's positivism
- Michael Faraday
References
- ↑ Cooper, Caren (20 December 2016). Citizen Science: How Ordinary People are Changing the Face of Discovery. Overlook Press. pp. 3–8. ISBN 9781468314144.
- ↑ Lewis, Christopher (2007). "Chapter 5: Energy and Entropy: The Birth of Thermodynamics". Heat and Thermodynamics: A Historical Perspective. United States of America: Greenwood Press. p. 95. ISBN 978-0-313-33332-3.
- ↑ Leffler CT, Schwartz SG, Stackhouse R, Davenport B, Spetzler K (2013). "Evolution and impact of eye and vision terms in written English". JAMA Ophthalmology. 131 (12): 1625–31. doi:10.1001/jamaophthalmol.2013.917. PMID 24337558. Archived from the original on 23 December 2014.
- ↑ Faraday, Michael (1834). "On Electrical Decomposition". Philosophical Transactions of the Royal Society. Archived from the original on 20 July 2011. Retrieved 17 January 2010. In this article Faraday coins the words electrode, anode, cathode, anion, cation, electrolyte, and electrolyze.
- ↑ Baigrie, Brian (2007). "Chapter 8: Forces and Fields". Electricity and Magnetism: A Historical Perspective. United States of America: Greenwood Press. p. 86. ISBN 978-0-313-33358-3.
- ↑ Biographical Index of Former Fellows of the Royal Society of Edinburgh 1783–2002 (PDF). The Royal Society of Edinburgh. July 2006. ISBN 978-0-902198-84-5. Archived from the original (PDF) on 4 March 2016. Retrieved 8 April 2019.
- 1 2 Douglas, Janet Mary (1881). The Life and Selections from the Correspondence of William Whewell, D.D. London: C. Kegan Paul & Co.
- ↑ Yeo, Richard. "Whewell, William". Oxford Dictionary of National Biography (online ed.). Oxford University Press. doi:10.1093/ref:odnb/29200. (Subscription or UK public library membership required.)
- ↑ University of Cambridge (1859), A Complete Collection of the English Poems which Have Obtained the Chancellor's Gold Medal in the University of Cambridge, Cambridge: W. Metcalfe
- ↑ "Whewell, William (WHWL811W)". A Cambridge Alumni Database. University of Cambridge.
- 1 2 3 4 5 6 7 8 9 10 11 One or more of the preceding sentences incorporates text from a publication now in the public domain: Chisholm, Hugh, ed. (1911). "Whewell, William". Encyclopædia Britannica. Vol. 28 (11th ed.). Cambridge University Press. p. 587.
- ↑ Verburgt, Lukas M. (April 2023). "The Venn Behind the Diagram". Mathematics Today. Vol. 59, no. 2. Institute of Mathematics and its Applications. pp. 53–55.
- ↑ GRO Register of Deaths: MAR 1866 3b 353 CAMBRIDGE – William Whewell, aged 71
- ↑ Todhunter, Isaac (1876). William Whewell: An Account of his Writings, with a selection from his literary and scientific correspondence. Vol. 1. London: Macmillan.
- ↑ Todhunter, Isaac (1876). William Whewell: An Account of his Writings, with a selection from his literary and scientific correspondence. Vol. 2. London: Macmillan.
- ↑ Whewell, William (1828). Essay on Mineralogical Classification and Nomenclature; with tables with the Orders and Species of Minerals. Cambridge: Printed by J. Smith, Printer to the University. Retrieved 21 July 2023 – via Google Books.
- ↑ Lubbock, John William (1831). "On the tides in the Port of London". Philosophical Transactions of the Royal Society of London. 121: 379–415.
- ↑ Lubbock, John William (1837). "On the tides". Philosophical Transactions of the Royal Society of London. 127: 97–140.
- ↑ Friendly, Alfred (1977). Beaufort of the Admiralty. The life of Sir Francis Beaufort 1774–1857. New York: Random House. pp. 294–295. ISBN 0-394-41760-7.
- 1 2 3 Reidy, M.S. (2009). Tides of History: Ocean Science and Her Majesty's Navy. University of Chicago Press. ISBN 9780226709338.
- 1 2 Whewell, William (1836). "Researches on the tides, sixth series. On the results of an extensive system of tide observations made on the coasts of Europe and America in June 1835". Philosophical Transactions of the Royal Society of London. 126: 289–341.
- ↑ Hewett, William (1841). "Tide observations in the North Sea". The Nautical Magazine: 180–183.
- ↑ Cartwright, David Edgar (17 August 2000). Tides: A Scientific History. Cambridge University Press. ISBN 978-0-521-79746-7. OCLC 1001932580.
- ↑ L.J. Snyder, entry: "W. Whewell" in "Stanford Encyclopedia of Philosophy".
- ↑ W. Whewell "The Philosophy of the Inductive Sciences, Founded Upon Their History" (1860, 373), London J.W. Parker.
- ↑ L.J. Snyder, entry: "Whewell" in "Stanford Encyclopedia of Philosophy".
- ↑ W. Whewell "The History of Scientific Ideas", 1858, I, 46, two volumes, London: John W. Parker.
- ↑ Ross, Sydney (1962). "Scientist: The story of a word" (PDF). Annals of Science. 18 (2): 65–85. doi:10.1080/00033796200202722. To be exact, the person coined the term scientist was referred to in Whewell 1834 only as "some ingenious gentleman". Ross added a comment that this "some ingenious gentleman" was Whewell himself, without giving the reason for the identification. Ross 1962, p.72.
- ↑ Statutes and Ordinances of the University of Cambridge. Cambridge University Press. 2009. pp. 49–50. ISBN 9780521137454.
- ↑ William Whewell laid in his will: "an earnest and express injunction on the occupant of this chair that he should make it his aim in all parts of his treatment of the subject, to lay down such rules and suggest such measures as might tend to diminish the evils of war and finally to extinguish war among nations. See Maine, Henry Sumner (1888). Whewell Lectures, International Law, A Series of Lectures Delivered before the University of Cambridge, 1887 (1 ed.). London: John Murray. p. 1. via Internet Archive
- ↑ The Philosophy of the Inductive Sciences: Founded Upon Their History, Volume 1
- ↑ The Philosophy of the Inductive Sciences: Founded Upon Their History, Volume 2
- ↑ Grotius on the Right of War and Peace, An Abridged Translation by William Whewell, Cambridge: At the University Press, 1853 at Internet Archive
- ↑ The Mathematical Works of Isaac Barrow, D.D., edited for Trinity College by W. Whewell, Cambridge: At University Press, 1860, at Internet Archive
- ↑ Darwin, Charles (1859), On the Origin of Species by Means of Natural Selection, or the Preservation of Favoured Races in the Struggle for Life, London: John Murray (The Origin of Species page ii.) Retrieved on 5 January 2007
- ↑ van Wyhe, John. "William Whewell (1794–1866) gentleman of science". Victorian Web. Retrieved 21 September 2021.
- ↑ "Review of On the Principles of English University Education by William Whewell". The Quarterly Review. 59: 439–483. October 1837.
- ↑ "Book of Members, 1780–2010: Chapter W" (PDF). American Academy of Arts and Sciences.
- ↑ "Sedgwick Museum of Earth Sciences – Whewell Mineral Gallery".
- ↑ Bowen, John, ed. (2014). "Explanatory notes". Barchester Towers. Oxford University Press. p. 452. ISBN 9780199665860.
Further reading
- Heilbron, J. L. (2002), "Coming to terms", Nature (published 7 February 2002), vol. 415, no. 6872, p. 585, doi:10.1038/415585a, PMID 11832919, S2CID 5407465
- Losee, J. (1983), "Whewell and Mill on the relation between philosophy of science and history of science", Studies in History and Philosophy of Science (published June 1983), vol. 14, no. 2, pp. 113–126, Bibcode:1983SHPSA..14..113L, doi:10.1016/0039-3681(83)90016-X, PMID 11615935
- Fisch, M. (1991), William Whewell Philosopher of Science, Oxford: Oxford University Press.
- Fisch, M. and Schaffer S. J. (eds.) (1991), William Whewell: A Composite Portrait, Oxford: Oxford University Press.
- Henderson, James P. (1996). Early Mathematical Economics: William Whewell and the British Case. Lanham: Rowman & Littlefield. ISBN 978-0-8476-8201-0.
- Metcalfe, J. F. (1991), "Whewell's developmental psychologism: a Victorian account of scientific progress", Studies in History and Philosophy of Science (published March 1991), vol. 22, no. 1, pp. 117–139, Bibcode:1991SHPSA..22..117M, doi:10.1016/0039-3681(91)90017-M, PMID 11622706
- Morrison, M. (1997), "Whewell on the ultimate problem of philosophy", Studies in History and Philosophy of Science Part A, vol. 28, no. 3, pp. 417–437, Bibcode:1997SHPSA..28..417M, doi:10.1016/S0039-3681(96)00028-3
- Ruse, M. (1975), "Darwin's debt to philosophy: an examination of the influence of the philosophical ideas of John F. W. Herschel and William Whewell on the development of Charles Darwin's theory of evolution", Studies in History and Philosophy of Science (published June 1975), vol. 6, no. 2, pp. 159–181, Bibcode:1975SHPSA...6..159R, doi:10.1016/0039-3681(75)90019-9, PMID 11615591
- Sandoz, R. (2016), "Whewell on the classification of the sciences", Studies in History and Philosophy of Science Part A, vol. 60, pp. 48–54, Bibcode:2016SHPSA..60...48S, doi:10.1016/j.shpsa.2016.10.001, PMID 27938721
- Schipper, F. (1988), "William Whewell's conception of scientific revolutions", Studies in History and Philosophy of Science Part A, vol. 19, no. 1, pp. 43–53, Bibcode:1988SHPSA..19...43S, doi:10.1016/0039-3681(88)90019-2
- Snyder, Laura J. (2006), Reforming Philosophy: A Victorian Debate on Science and Society, Chicago: The University of Chicago Press. Includes an extensive bibliography.
- Snyder, Laura J. (2011), The Philosophical Breakfast Club, New York: Broadway Books.
- Whewell, W., Astronomy and General Physics Considered with Reference to Natural Theology; Bridgewater Treatises, W. Pickering, 1833 (reissued by Cambridge University Press, 2009; ISBN 978-1-108-00012-3)
- Whewell, W., Of the Plurality of Worlds. An Essay; J. W. Parker and son, 1853 (reissued by Cambridge University Press, 2009; ISBN 978-1-108-00018-5)
- Yeo, Richard. "Whewell, William (1794–1866)". Oxford Dictionary of National Biography (online ed.). Oxford University Press. doi:10.1093/ref:odnb/29200. (Subscription or UK public library membership required.)
- Yeo, R. (1991), Defining Science: William Whewell, Natural Knowledge and Public Debate in Early Victorian Britain, Cambridge: Cambridge University Press.
- Zamecki, Stefan, Komentarze do naukoznawczych poglądów Williama Whewella (1794–1866): studium historyczno-metodologiczne [Commentaries to the Logological Views of William Whewell (1794–1866): A Historical-Methodological Study], Warsaw, Wydawnictwa IHN PAN, 2012, ISBN 978-83-86062-09-6, English-language summary: pp. 741–43.
External links
- The philosophy of the inductive sciences, founded upon their history (1847) – Complete Text
- William Whewell (1794–1866) by Menachem Fisch, from The Routledge Encyclopedia of Philosophy
- William Whewell by Laura J. Snyder, from Stanford Encyclopedia of Philosophy
- Six Lectures from Archive for the History of Economic Thought – papers on mathematical economics as well as a set of introductory lectures
- William Whewell from History of Economic Thought
- Papers of William Whewell
- The Master of Trinity at Trinity College, Cambridge
- "William Whewell" at The MacTutor History of Mathematics archive
- Sharon Carleton (23 June 2018). "William Whewell – coined osmosis, conductivity, ion and scientist!". The Science Show (mp3 podcast). ABC News (Australia).
- Works by William Whewell at Project Gutenberg
- Works by or about William Whewell at Internet Archive
- Portraits of William Whewell at the National Portrait Gallery, London
- William Whewell at Find a Grave