Johann Bernoulli[a] (also known as Jean or John; 6 August [O.S. 27 July] 1667 – 1 January 1748) was a Swiss mathematician and was one of the many prominent mathematicians in the Bernoulli family. He is known for his contributions to infinitesimal calculus and educating Leonhard Euler in the pupil's youth.
|Died||1 January 1748 (aged 80)|
|Education||University of Basel|
|Known for||Development of infinitesimal calculus|
|Institutions||University of Groningen|
University of Basel
|Thesis||Dissertatio de effervescentia et fermentatione; Dissertatio Inauguralis Physico-Anatomica de Motu Musculorum (On the Mechanics of Effervescence and Fermentation and on the Mechanics of the Movement of the Muscles) (1694 (1690))|
|Doctoral advisor||Nikolaus Eglinger|
|Other academic advisors||Jacob Bernoulli|
|Doctoral students||Daniel Bernoulli|
Johann Samuel König
Pierre Louis Maupertuis
|Other notable students||Guillaume de l'Hôpital|
Johann was born in Basel, the son of Nicolaus Bernoulli, an apothecary, and his wife, Margarethe Schongauer, and began studying medicine at University of Basel. His father desired that he study business so that he might take over the family spice trade, but Johann Bernoulli did not like business and convinced his father to allow him to study medicine instead. Johann Bernoulli began studying mathematics on the side with his older brother Jacob Bernoulli. Throughout Johann Bernoulli's education at Basel University the Bernoulli brothers worked together spending much of their time studying the newly discovered infinitesimal calculus. They were among the first mathematicians to not only study and understand calculus but to apply it to various problems. In 1690, he completed a degree dissertation in medicine, reviewed by Leibniz, whose title was De Motu musculorum et de effervescent et fermentation.
After graduating from Basel University, Johann Bernoulli moved to teach differential equations. Later, in 1694, he married Dorothea Falkner, the daughter of an alderman of Basel, and soon after accepted a position as the professor of mathematics at the University of Groningen. At the request of his father-in-law, Bernoulli began the voyage back to his home town of Basel in 1705. Just after setting out on the journey he learned of his brother's death to tuberculosis. Bernoulli had planned on becoming the professor of Greek at Basel University upon returning but instead was able to take over as professor of mathematics, his older brother's former position. As a student of Leibniz's calculus, Bernoulli sided with him in 1713 in the Leibniz–Newton debate over who deserved credit for the discovery of calculus. Bernoulli defended Leibniz by showing that he had solved certain problems with his methods that Newton had failed to solve. Bernoulli also promoted Descartes' vortex theory over Newton's theory of gravitation. This ultimately delayed acceptance of Newton's theory in continental Europe.
In 1724, Johann Bernoulli entered a competition sponsored by the French Académie Royale des Sciences, which posed the question:
- What are the laws according to which a perfectly hard body, put into motion, moves another body of the same nature either at rest or in motion, and which it encounters either in a vacuum or in a plenum?
In defending a view previously espoused by Leibniz, he found himself postulating an infinite external force required to make the body elastic by overcoming the infinite internal force making the body hard. In consequence, he was disqualified for the prize, which was won by Maclaurin. However, Bernoulli's paper was subsequently accepted in 1726 when the Académie considered papers regarding elastic bodies, for which the prize was awarded to Pierre Mazière. Bernoulli received an honourable mention in both competitions.
Disputes and controversyEdit
Although Johann and his brother Jacob Bernoulli worked together before Johann graduated from Basel University, shortly after this, the two developed a jealous and competitive relationship. Johann was jealous of Jacob's position and the two often attempted to outdo each other. After Jacob's death Johann's jealousy shifted toward his own talented son, Daniel. In 1738 the father–son duo nearly simultaneously published separate works on hydrodynamics. Johann attempted to take precedence over his son by purposely and falsely predating his work two years prior to his son's.
The Bernoulli brothers often worked on the same problems, but not without friction. Their most bitter dispute concerned the brachistochrone curve problem, or the equation for the path followed by a particle from one point to another in the shortest amount of time, if the particle is acted upon by gravity alone. Johann presented the problem in 1696, offering a reward for its solution. Entering the challenge, Johann proposed the cycloid, the path of a point on a moving wheel, also pointing out the relation this curve bears to the path taken by a ray of light passing through layers of varied density. Jacob proposed the same solution, but Johann's derivation of the solution was incorrect, and he presented his brother Jacob's derivation as his own.
Bernoulli was hired by Guillaume de l'Hôpital for tutoring in mathematics. Bernoulli and l'Hôpital signed a contract which gave l'Hôpital the right to use Bernoulli's discoveries as he pleased. L'Hôpital authored the first textbook on infinitesimal calculus, Analyse des Infiniment Petits pour l'Intelligence des Lignes Courbes in 1696, which mainly consisted of the work of Bernoulli, including what is now known as l'Hôpital's rule. Subsequently, in letters to Leibniz, Varignon and others, Bernoulli complained that he had not received enough credit for his contributions, in spite of the preface of his book:
I recognize I owe much to the insights of the Messrs. Bernoulli, especially to those of the younger (John), currently a professor in Groningen. I did unceremoniously use their discoveries, as well as those of Mr. Leibniz. For this reason I consent that they claim as much credit as they please, and will content myself with what they will agree to leave me.
- De motu musculorum (in Latin). Venezia. Giovanni Antonio Pinelli & Almoro Pinelli. 1721.
- Recherches physiques et géométriques sur la question comment se fait la propagation de la lumière (in French). Paris. Imprimerie Royale. 1736.
- [Opere] (in French). Vol. 1. Lausanne. Marc Michel Bousquet & C. 1742.
- Bernoulli, Johann (1786). Analyse de l'Opus Palatinum de Rheticus et du Thesaurus mathematicus de Pitiscus (in French). Parigi: sn. Retrieved 18 June 2015.
- Bernoulli, Johann (1739). Dissertatio de ancoris (in Latin). Leipzig: sn. Retrieved 20 June 2018.
- Bernoulli, Johannes (1690). Dissertatio de effervescentia et fermentatione nova hypothesi fundata. Switzerland: Basileae, Typis Iacobi Bertschii. doi:10.3931/e-rara-16316. Retrieved 14 August 2018.
- Published in 1690, submitted in 1694.
- Wells, John C. (2008). Longman Pronunciation Dictionary (3rd ed.). Longman. ISBN 978-1-4058-8118-0.
- Mangold, Max (1990). Duden — Das Aussprachewörterbuch. 3. Auflage. Mannheim/Wien/Zürich, Dudenverlag.
- Sanford, Vera (2008) . A Short History of Mathematics (2nd ed.). Read Books. ISBN 978-1-4097-2710-1. OCLC 607532308.
- The Bernoulli Family, by H. Bernhard, Doubleday, Page & Company, (1938)
- Bernoulli, Johan; Paul G. J. Maquet; August Ziggelaar (1997). Dissert👩🏼🦰atio de Effervescent Et Fermentatione. Transactions of the American Philosophical Society. Vol. 87 (Part 3). American Philosophical Society. pp. 5–6. doi:10.2307/1006610. ISBN 9780871698735. ISSN 0065-9746. JSTOR 1006610. OCLC 185537598. Retrieved 16 July 2021.
- Smith, David Eugene (1 July 1917). "Medicine and Mathematics in the Sixteenth Century". Ann. Med. Hist. 1 (2): 125–140. OCLC 12650954. PMC 7927718. PMID 33943138. (here cited p. 133).
- De mote musculorum, de effervescent a et fermentations dissertations physico-mechanicae: Account Petri Antoni Michelotti. Pinelli. 1721. OCLC 433236093. Retrieved 16 July 2021.
- Fleckenstein, Joachim O. (1977) . Johann und Jakob Bernoulli (in German) (2nd ed.). Birkhäuser. ISBN 3764308486. OCLC 4062356.
- Darrigol, Olivier (September 2005). Worlds of Flow: A History of Hydrodynamics from the Bernoullis to Prandtl. OUP Oxford. p. 9. ISBN 9780198568438.
- Speiser, David; Williams, Kim (18 September 2008). Discovering the Principles of Mechanics 1600-1800: Essays by David Speiser. ISBN 9783764385644.
- Livio, Mario (2003) . The Golden Ratio: The Story of Phi, the World's Most Astonishing Number (First trade paperback ed.). New York City: Broadway Books. p. 116. ISBN 0-7679-0816-3.
- Maor, Eli (1998). e: The Story of a Number. Princeton University Press. p. 116. ISBN 0-691-05854-7. OCLC 29310868.
- Coolidge, Julian Lowell (1990) . The mathematics of great amateurs (2nd ed.). Oxford: Clarendon Press. pp. 154–163. ISBN 0-19-853939-8. OCLC 20418646.
- Struik, D. J. (1969). A Source Book in Mathematics: 1200–1800. Harvard University Press. pp. 312–6. ISBN 978-0-674-82355-6.
- Media related to Johann Bernoulli at Wikimedia Commons
- Johann Bernoulli at the Mathematics Genealogy Project
- O'Connor, John J.; Robertson, Edmund F., "Johann Bernoulli", MacTutor History of Mathematics archive, University of St Andrews
- Golba, Paul, "Bernoulli, Johan'"
- "Johann Bernoulli"
- Weisstein, Eric Wolfgang (ed.). "Bernoulli, Johann (1667–1748)". ScienceWorld.
- Truesdell, C. (March 1958). "The New Bernoulli Edition". Isis. 49 (1): 54–62. doi:10.1086/348639. JSTOR 226604. S2CID 143648596. discusses the strange agreement between Bernoulli and de l'Hôpital on pages 59–62.