# Adrien-Marie Legendre

Adrien-Marie Legendre | |
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1820 watercolor caricature of Adrien-Marie Legendre by French artist Julien-Léopold Boilly (see mistaken portrait), the only existing portrait known ^{[1]} | |

Born | Paris, France | 18 September 1752

Died | 9 January 1833 Paris, France | (aged 80)

Nationality | French |

Alma mater | Collège Mazarin |

Known for | Legendre transformation Legendre polynomials Legendre transform Elliptic functions Introducing the character ∂ ^{[2]} |

Scientific career | |

Fields | Mathematician |

Institutions | École Militaire École Normale École Polytechnique |

Influenced | Évariste Galois |

**Adrien-Marie Legendre** (/ləˈʒɑːndər, -ˈʒɑːnd/;^{[3]} French: [adʁiɛ̃ maʁi ləʒɑ̃dʁ]; 18 September 1752 – 9 January 1833) was a French mathematician who made numerous contributions to mathematics. Well-known and important concepts such as the Legendre polynomials and Legendre transformation are named after him.

## LifeEdit

Adrien-Marie Legendre was born in Paris on 18 September 1752 to a wealthy family. He received his education at the Collège Mazarin in Paris, and defended his thesis in physics and mathematics in 1770. He taught at the École Militaire in Paris from 1775 to 1780 and at the École Normale from 1795. At the same time, he was associated with the Bureau des Longitudes. In 1782, the Berlin Academy awarded Legendre a prize for his treatise on projectiles in resistant media. This treatise also brought him to the attention of Lagrange.^{[4]}

The *Académie des sciences* made Legendre an adjoint member in 1783 and an associate in 1785. In 1789, he was elected a Fellow of the Royal Society.^{[5]}

He assisted with the Anglo-French Survey (1784–1790) to calculate the precise distance between the Paris Observatory and the Royal Greenwich Observatory by means of trigonometry. To this end in 1787 he visited Dover and London together with Dominique, comte de Cassini and Pierre Méchain. The three also visited William Herschel, the discoverer of the planet Uranus.

Legendre lost his private fortune in 1793 during the French Revolution. That year, he also married Marguerite-Claudine Couhin, who helped him put his affairs in order. In 1795, Legendre became one of six members of the mathematics section of the reconstituted Académie des Sciences, renamed the Institut National des Sciences et des Arts. Later, in 1803, Napoleon reorganized the Institut National, and Legendre became a member of the Geometry section. From 1799 to 1812, Legendre served as mathematics examiner for graduating artillery students at the École Militaire and from 1799 to 1815 he served as permanent mathematics examiner for the École Polytechnique.^{[6]} In 1824, Legendre's pension from the École Militaire was stopped because he refused to vote for the government candidate at the Institut National.^{[4]} His pension was partially reinstated with the change in government in 1828. In 1831, he was made an officer of the Légion d'Honneur.^{[citation needed]}

Legendre died in Paris on 9 January 1833, after a long and painful illness, and Legendre's widow carefully preserved his belongings to memorialize him. Upon her death in 1856, she was buried next to her husband in the village of Auteuil, where the couple had lived, and left their last country house to the village. Legendre's name is one of the 72 names inscribed on the Eiffel Tower.

## Mathematical workEdit

Abel's work on elliptic functions was built on Legendre's and some of Gauss' work in statistics and number theory completed that of Legendre. He developed, and first communicated to his contemporaries before Gauss, the least squares method ^{[7]} which has broad application in linear regression, signal processing, statistics, and curve fitting; this was published in 1806 as an appendix to his book on the paths of comets. Today, the term "least squares method" is used as a direct translation from the French "méthode des moindres carrés".

His major work is *Exercices de Calcul Intégral*, published in three volumes in 1811, 1817 and 1819. In the first volume he introduced the basic properties of elliptic integrals, beta functions and gamma functions, introducing the symbol Γ normalizing it to Γ(n+1) = n!. Further results on the beta and gamma functions along with their applications to mechanics – such as the rotation of the earth, and the attraction of ellipsoids – appeared in the second volume.^{[8]} In 1830, he gave a proof of Fermat's last theorem for exponent *n* = 5, which was also proven by Lejeune Dirichlet in 1828.^{[8]}

In number theory, he conjectured the quadratic reciprocity law, subsequently proved by Gauss; in connection to this, the Legendre symbol is named after him. He also did pioneering work on the distribution of primes, and on the application of analysis to number theory. His 1798 conjecture of the prime number theorem was rigorously proved by Hadamard and de la Vallée-Poussin in 1896. In 1798 again, Legendre established the condition to express integers as the sum of three squares, following work on this topic by René Descartes.^{[9]}

Legendre did an impressive amount of work on elliptic functions, including the classification of elliptic integrals, but it took Abel's stroke of genius to study the inverses of Jacobi's functions and solve the problem completely.

He is known for the Legendre transformation, which is used to go from the Lagrangian to the Hamiltonian formulation of classical mechanics. In thermodynamics it is also used to obtain the enthalpy and the Helmholtz and Gibbs (free) energies from the internal energy. He is also the namesake of the Legendre polynomials, solutions to Legendre's differential equation, which occur frequently in physics and engineering applications, *e.g.* electrostatics.

Legendre is best known as the author of *Éléments de géométrie*, which was published in 1794 and was the leading elementary text on the topic for around 100 years. This text greatly rearranged and simplified many of the propositions from Euclid's *Elements* to create a more effective textbook.

## HonorsEdit

- Foreign Honorary Member of the American Academy of Arts and Sciences (1832)
^{[10]} - The Moon crater Legendre is named after him.
- Main-belt asteroid 26950 Legendre is named after him.
- Legendre is one of the 72 prominent French scientists who were commemorated on plaques at the first stage of the Eiffel Tower when it first opened.

## PublicationsEdit

- Essays

- 1782
*Recherches sur la trajectoire des projectiles dans les milieux résistants*(prize on projectiles offered by the Berlin Academy)

- Books

*Eléments de géométrie*, textbook 1794*Essai sur la Théorie des Nombres*1797-8 ("An VI"), 2nd ed. 1808, 3rd ed. in 2 vol. 1830*Nouvelles Méthodes pour la Détermination des Orbites des Comètes*, 1805*Exercices de Calcul Intégral*, book in three volumes 1811, 1817, and 1819*Traité des Fonctions Elliptiques*, book in three volumes 1825, 1826, and 1830

- Memoires in
*Histoire de l'Académie Royale des Sciences*

- 1783
*Sur l'attraction des Sphéroïdes homogènes*(work on Legendre polynomials) - 1784
*Recherches sur la figure des Planètes*p. 370 - 1785
*Recherches d'analyse indéterminée*p. 465 (work on number theory) - 1786
*Mémoire sur la manière de distinguer les Maxima des Minima dans le Calcul des Variations*p. 7 (as Legendre) - 1786
*Mémoire sur les Intégrations par arcs d'ellipse*p. 616 (as le Gendre) - 1786
*Second Mémoire sur les Intégrations par arcs d'ellipse*p. 644 - 1787
*L'intégration de quelques équations aux différences Partielles*(Legendre transform)

- In
*Memoires présentés par divers Savants à la l'Académie des Sciences de l'Institut de France*

- 1806
*Nouvelle formula pour réduire en distances vraies les distances apparentes de la Lune au Soleil ou à une étoile*(30–54) - 1807
*Analyse des triangles tracés sur la surface d'un sphéroide*(130–161) - Tome 10
*Recherches sur diverses sortes d'intégrales défines*(416–509) - 1819
*Méthode des moindres carrés pour trouver le milieu le plus probable entre les résultats de différentes observations*(149–154),*Mémoire sur l'attraction des ellipsoïdes homogènes*(155–183) - 1823
*Recherches sur quelques objets d'Analyse indéterminée et particulièrement sur le théorème de Fermat*(1–60) - 1828
*Mémoire sur la détermination des fonctions Y et Z que satisfont à l'équation 4(X^n-1) = (X-1)(Y^2+-nZ^2), n étant un nombre premier 4i-+1*(81–100) - 1833
*Réflexions sur différentes manières de démontrer la théorie des parallèles ou le théorème sur la somme des trois angles du triangle, avec 1 planche*(367–412)

## Mistaken portraitEdit

For two centuries, until the recent discovery of the error in 2005, books, paintings and articles have incorrectly shown a side-view portrait of the obscure French politician Louis Legendre (1752–1797) as that of the mathematician Legendre. The error arose from the fact that the sketch was labelled simply "Legendre" and appeared in a book along with contemporary mathematicians such as Lagrange. The only known portrait of Legendre, rediscovered in 2008, is found in the 1820 book *Album de 73 portraits-charge aquarellés des membres de I'Institut*, a book of caricatures of seventy-three members of the Institut de France in Paris by the French artist Julien-Léopold Boilly as shown below:^{[11]}^{[1]}

## See alsoEdit

- List of things named after Adrien-Marie Legendre
- Associated Legendre polynomials
- Gauss–Legendre algorithm
- Legendre's constant
- Legendre's equation in number theory
- Legendre's functional relation for elliptic integrals
- Legendre's conjecture
- Legendre sieve
- Legendre symbol
- Legendre's theorem on spherical triangles
- Saccheri–Legendre theorem
- Least squares
- Seconds pendulum

## NotesEdit

- ↑
^{1.0}^{1.1}^{1.2}Duren, Peter (December 2009). "Changing Faces: The Mistaken Portrait of Legendre" (PDF).*Notices of the AMS*.**56**(11): 1440–1443, 1455. - ↑ Aldrich, John. "Earliest Uses of Symbols of Calculus". Retrieved 20 April 2017.
- ↑ "Legendre".
*Random House Webster's Unabridged Dictionary*. - ↑
^{4.0}^{4.1}O'Connor, John J.; Robertson, Edmund F., "Adrien-Marie Legendre",*MacTutor History of Mathematics archive*, University of St Andrews. - ↑ "Library and Archive". Royal Society. Retrieved 6 August 2012.
- ↑ André Weil,
*Number Theory: An approach through history From Hammurapi to Legendre*, Springer Science & Business Media2006, p. 325. - ↑ Stephen M. Stigler (1981). "Gauss and the Invention of Least Squares".
*Ann. Stat*.**9**(3): 465–474. doi:10.1214/aos/1176345451. - ↑
^{8.0}^{8.1}Agarwal, Ravi P.; Sen, Syamal K. (2014).*Creators of mathematical and computational sciences*. Springer. pp. 218–19. ISBN 9783319108704. OCLC 895161901. - ↑ Wolfram, Stephen (2002).
*A New Kind of Science*. Wolfram Media, Inc. p. 910. ISBN 1-57955-008-8. - ↑ "Book of Members, 1780–2010: Chapter L" (PDF). American Academy of Arts and Sciences. Retrieved 28 July 2014.
- ↑
^{11.0}^{11.1}Boilly, Julien-Léopold. (1820).*Album de 73 portraits-charge aquarellés des membres de I'Institut*(watercolor portrait #29). Biliotheque de l'Institut de France.

## External linksEdit

- Media related to [[commons:
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Wikisource has the text of the 1911 Encyclopædia Britannica article .Legendre, Adrien Marie |

- Adrien-Marie Legendre at PlanetMath.
- The True Face of Adrien-Marie Legendre (Portrait of Legendre)
- Biography at Fermat's Last Theorem Blog
- References for Adrien-Marie Legendre
- (in French) Eléments de géométrie (Paris : F. Didot, 1817)
- Elements of geometry and trigonometry, from the works of A. M. Legendre. Revised and adapted to the course of mathematical instruction in the United States, by Charles Davies. (New York: A. S. Barnes & co., 1858) : English translation of the above text
- Mémoires sur la méthode des moindres quarrés, et sur l'attraction des ellipsoïdes homogènes (1830)
- Théorie des nombres (Paris : Firmin-Didot, 1830)
- Traité des fonctions elliptiques et des intégrales eulériennes (Paris : Huzard-Courcier, 1825–1828)
- Nouvelles Méthodes pour la Détermination des Orbites des Comètes (Paris : Courcier, 1806)
- Essai sur la Théorie des Nombres (Paris : Duprat, 1798)
- Exercices de Calcul Intégral V.3 (Paris : Courcier, 1816)
- Correspondance mathématique avec Legendre in C. G. J. Jacobis gesammelte Werke (Berlin: 1852)

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