Urbain Jean Joseph Le Verrier
Born: 11 March 1811 in Saint-Lô, France
Died: 23 September 1877 in Paris, France
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Urbain Le Verrier's father, Louis-Baptiste Le Verrier, was an estates manager and government official who had been born in 1779 in Carentan while his mother, Marie-Jeanne-Josephine de Baudre, had been born in 1783 in Baudre, just a few kilometres south of Saint-Lô. We note that Carentan is only about 23 km north east of Saint-Lô. Louis-Baptiste married Jeanne-Josephine in Notre Dame, Saint-Lô, on 29 October 1807. Urbain had an elder sister Léontine Anne Joséphine (born 1808, baptised on 29 September 1808 in Saint-Lô) and the family, of limited means, lived in a modest home in the Place du Champ de Mars, Saint-Lô. Urbain attended the College in Saint-Lô for eight years, completing his studies there at the age of sixteen in 1827. He had showed himself to be a very talented pupil and, after the College in Saint-Lô, he studied mathematics at the College Royal de Caen for three years, from 1827 to 1830.
Despite being an outstanding pupil at the College in Caen, coming top of his class, he failed the competitive entrance examination to the École Polytechnique in 1830. Le Verrier's father was very keen that his son should have every opportunity to further his education so he sold his home in Saint-Lô to get the necessary funds to send Le Verrier to the Mayer Institute in Paris. There he studied for a year under the mathematician Choquet, the director of the Mayer Institute, and in 1831 he was placed second in the nation-wide Concours général and admitted to the École Polytechnique. He studied for two years before graduating, ranked eighth in his year. His main interest had been in chemistry and he spent the first two years after graduating, 1833-35, studying industrial chemistry at Orsay in Paris. His main interest at this time was in the tobacco industry and he undertook research on the combination of phosphorus with oxygen and with hydrogen, important topics for the tobacco industry since matches were made from phosphorus. He had been taught by the chemist Louis Joseph Gay-Lussac (1778-1850) while he was an undergraduate and Gay-Lussac directed the experiments that Le Verrier was undertaking. His research soon came to the notice of other leading scientists such as the physicist and chemist Pierre Louis Dulong (1785-1838) and the chemist Antoine Jérôme Balard (1802-1876). He published two papers on his chemistry research in the Annales de Chimie et de Physique, namely Sur les combinaisons du phosphore avec l'hydrogène Ⓣ (1835) and Sur les combinaisons du phosphore avec l'oxygène Ⓣ (1837).
Le Verrier was offered a position as a teacher of chemistry in the provinces in 1836 but chose to remain in Paris undertaking research with Gay-Lussac. Of course he required a source of income and he was appointed as a teacher at the Collège Stanislas in Paris. He augmented this income by giving private tuition in mathematics. In 1837, he married Lucile Marie Clothilde Choquet, the daughter of his former teacher at the Mayer Institute. They had three children: Léon (born 1838), Urbain-Louis-Paul (born 1849) and Marie Geneviève Josephine Lucile (born 1853). Le Verrier's wife Lucile was a fine amateur musician, receiving lessons from the composer and pianist César-Auguste Franck (1822-1890). After he married, Le Verrier employed his sister Léontine as a housekeeper.
In 1836 two positions as répétiteur had become vacant at the École Polytechnique. One position, as répétiteur to Gay-Lussac, was a chemistry appointment and Le Verrier applied for this position. Victor Regnault (1810-1878) also applied for this position and he was a strong candidate for, in 1835, he had begun a series of important researches on the haloid and other derivatives of unsaturated hydrocarbons. Regnault was appointed as répétiteur to Gay-Lussac at the École Polytechnique. Le Verrier then decided to apply for the second position of répétiteur to Felix Savary, which was an astronomy appointment. Although it might seem strange for someone who was undertaking research in chemistry to apply for an astronomy position, Le Verrier's mathematical expertise meant that he was qualified. He was offered the position which he accepted. He wrote to his father (see, for example ):-
In daring to accept the duties which had successively been fulfilled by François Arago, Claude-Louis Mathieu, and Felix Savary, I have imposed on myself the obligation not to let the post which they have occupied be depressed in the public esteem, and for this I must not only accept but seek out opportunities to extend my knowledge. ... I have already ascended many ranks, why should I not continue to rise further?Le Verrier was appointed to teach astronomy as Felix Savary's répétiteur at the École Polytechnique in 1837. In addition to Le Verrier, Eugène Catalan and Charles Delaunay were appointed as répétiteurs to Savary in 1838. Also in 1837 Le Verrier was appointed as an admissions examiner for the École Polytechnique. When Savary became seriously ill in 1840, Le Verrier took over all Savary's teaching. Savary died in July 1841 and Le Verrier might have expected to be appointed to succeed him. However, Michel Chasles was appointed as Savary's successor and Le Verrier remained as a répétiteur to Chasles (as did Catalan and Delaunay). Le Verrier's first contribution to astronomy was the paper Sur les variations séculaires des orbites des planètes Ⓣ which he presented to the Academy of Sciences in September 1839. This paper considered the problem of the stability of the solar system. Le Verrier then worked on a study of periodic comets and was able to show that certain comets, previously thought to be distinct objects, were in fact the same object perturbed into a very different orbit by the gravitational attraction of Jupiter. His work gained him considerable recognition and, on 19 January 1846, he was elected to the Academy of Sciences.
Despite now being a major figure, Le Verrier was clearly still in some financial difficulty as can be seen from a letter he wrote shortly after his election to the Academy :-
Paris, April 18, 1846.He worked at the Paris Observatory for most of his life where his drive for efficiency was to made him very unpopular. A contemporary said of him:-
Monsieur le Ministre,
My Father, Receveur des droits de succession at Paris, left on his death a widow, my mother, who has no income except from a pension of six hundred francs; and a daughter, Mademoiselle Léontine Le Verrier, absolutely without any money. I venture to solicit for her [the mother] a Bureau for the distribution of stamped paper at Paris. I have entire faith that my request will not fail so far as concerns the former chief under whom my Father worked, if only I have the good fortune of obtaining a favourable word from you. My justifications in preferring this request to you, Monsieur le Ministre, are that I am connected with the giving of instruction in a school which has the honour of counting you among its former pupils, and that I have carried on certain astronomical investigations which savants have been pleased to recognize favourably, besides which I have recently been elected a member of the Academy of Sciences.
Receive, Monsieur le Ministre, the homage of my respectful regards.
U J Le Verrier, Member of the Institute.
I do not know whether M Le Verrier is actually the most detestable man in France, but I am quite certain that he is the most detested.His main work was in celestial mechanics and his most famous achievement was his calculation of the position of an unknown planet, later named Neptune, from irregularities in Uranus's orbit. François Arago had asked him to work on the irregularities in Uranus's orbit in 1845 and Le Verrier had published his first memoir on the subject in December 1845. A second memoir in June 1846 proved that the irregularities could not result from the known planets and he postulated that the irregularities resulted from a further planet outside the orbit of Uranus. In August 1846 he published his predicted position for the hypothetical planet. His perturbation analysis showed remarkable computational skills for he had taken his approximations to the seventh order, involving 469 distinct terms. On 18 September 1846, Le Verrier wrote to Johann Galle at the Berlin Observatory asking him to look for the planet at the position he predicted. Galle knew of predictions of a planet earlier but said that it was:-
... so novel a thing to undertake observations in reliance upon merely theoretical deductions; and that, while much labour was certain, success appeared very doubtful.However, on receiving Le Verrier's letter, five days after it was sent, Galle saw the confidence that Le Verrier had in his work and so searched for the new planet on the same evening he received the letter. He found it that night within one degree of the predicted position, observed it again on the following night to confirm absolutely that it was a planet and he wrote back to Le Verrier:-
The Planet whose position you indicated really exists. The same day I received your letter I found a star of the eighth magnitude that was not recorded on the excellent Carta Hora XXI (drawn by Dr Bremiker). ... The observation of the following day confirmed that it was the planet sought.As one of Le Verrier's colleagues said:-
... he discovered a star with the tip of his pen, without any instruments other than the strength of his calculations alone.Arago, who had first suggested that Le Verrier work on this problem, said:-
In the eyes of all impartial men, this discovery will remain one of the most magnificent triumphs of theoretical astronomy, one of the glories of the Académie and one of the most beautiful distinctions of our country.John Couch Adams has been recognised as having made similar calculations of a perturbing planet independently of Le Verrier. This is not the place to discuss the validity of the claims for Adams, but we should note that recent research has suggested that his results were considerably less accurate than those of Le Verrier. Le Verrier received many honours and widespread recognition for his achievement. The London Times carried the headline on the 1 October 1846:-
Le Verrier's planet found.He was awarded the Copley Medal of the Royal Society of London and, in France, became an officer in the Legion of Honour. In 1847 a chair of celestial mechanics was specially created for Le Verrier at the Sorbonne. He embarked on an ambitions research programme, namely to produce a single work for the whole of the planetary system. In this work, he wished to (in his own words) :-
... put everything in harmony if possible and, if it is not, declare with certainty that there exist still unknown causes of perturbations, the sources of which would then and only then be recognisable.Le Verrier had now achieved an important status and he used his influence to radically change the mathematics teaching at the École Polytechnique. Ivor Grattan-Guinness writes :-
In 1850 [Le Verrier] chaired a commission to decide the future role of the school. Its members included General Jean-Victor Poncelet (1788-1867) who had just retired after two rather ineffective years as Commandant (the first academic to hold this post since the reforms of 1804), and Jean-Marie Duhamel as Directeur des Études. In six months of 1850 Le Verrier wrote a large and remarkable report on the school, including many aspects of its history drawn from the archives. He also published a substantial supplement with the Assemblée Nationale. He must have had very influential supporters for in a move that I believe to be unique in its history the national newspaper 'Moniteur universel' published a 34-page supplement to its issue of 15 January 1851, reproducing about 250 pages of the report. Irritated by the long and recent dominance of the policies of Laplace and Cauchy, Le Verrier argued in effect for a return to Monge's aspirations. The "flagship" course on analysis and mechanics was discontinued; the part on analysis was somewhat simplified, and the part on mechanics focused on applications and allied to the course on machine theory. When the recommendations were approved, some reactions at the school were stark: Liouville and Chasles resigned immediately in protest at this rejection of the emphasis on teaching purish mathematics that they had inherited and continued from predecessors such as Cauchy.It is not only for his theoretical contributions to astronomy that Le Verrier deserves praise. In addition, he was one of the founders of modern meteorology :-
In 1854 the minister of war requested him to study the cyclone that struck the fleets besieging Sevastopol. His systematic inquiry in Europe and Asia enabled him to determine the path of the cyclone. Occupied during this period with the reorganization of the meteorological observation service of the Paris observatory, Le Verrier conceived "the project of a vast meteorological network designed to warn sailors of approaching storms." The greatest difficulty lay in securing the cooperation of the various telegraphic services. By 1857 the project was sufficiently advanced for distribution of a daily bulletin giving the atmospheric conditions at fourteen French and five foreign stations.Also in 1854 Le Verrier became director of the Paris Observatory which, under Arago's leadership, had not performed to standards that Le Verrier expected. The fact that he had to turn to the Berlin Observatory for the discovery of Neptune he considered a national disgrace. On taking over as director, he immediately insisted on military discipline but the new regime he instigated was strongly opposed by the staff, almost all of whom resigned. Eventually, his unpopularity led to him being removed from the post in 1870. Charles Delaunay was appointed as his successor but Delaunay died in a tragic accident in August 1872. Following this, in 1873 Le Verrier again was given the post but his authority was severely restricted as he was supervised by a council.
Le Verrier's major piece of work looking at the whole planetary system began with a look at the inner planets and immediately he discovered a discrepancy in the motion in the perihelion of Mercury in 1855. In fact the perihelion of Mercury advances 5600 seconds of arc per century. Now 5026 seconds of this is accounted for by precession of the equinoxes of the Earth and 531 seconds of arc is a result of perturbations by the other planets. This leaves 43 seconds of arc per century unaccounted for. In fact Le Verrier, because the masses of the planets was not known very accurately in his day, found an advance of the perihelion of Mercury of 38 seconds of arc per century unaccounted for. Now the advance of the perihelion of Mercury by more than Newtonian theory predicted was to become important evidence for Einstein's general theory of relativity, but of course none of this could be known to Le Verrier who, in a paper presented to the Academy of Sciences on 12 September 1859, attributed it to an undiscovered planet, which he called Vulcan, closer to the Sun than Mercury or to a second asteroid belt so close to the Sun as to be invisible. He spent much effort searching for asteroids inside the orbit of Mercury in an attempt to prove his theory. Only three months after presenting his paper he received a letter from Edmond Lescarbault who lived in Orgères near Rennes saying he had observed the transit of Vulcan nine months earlier. Le Verrier rushed to Orgères to meet with Monsieur Lescarbault. Here is a contemporary account of their meeting 
One should have seen M Lescarbault, so small, so simple, so modest, and so timid, in order to understand the emotion with which he was seized, when Le Verrier, from his great height, and with that blunt intonation which he can command, thus addressed him: "It is then you, Sir, who pretend to have observed the intra-Mercurial planet, and who have committed the grave offence of keeping your observation secret for nine months. I warn you I have come here with the intention of doing justice to your pretensions, and of demonstrating either that you have been dishonest or deceived. Tell me, then, unequivocally, what you have seen."Le Verrier eventually convinced himself that Lescarbault had seen a transit of Vulcan. Other astronomers were not convinced as no other astronomer had observed the transit. Over the following years many tried to find Vulcan, either by looking for transits or during a total eclipse when a planet close to the sun would become visible. For example, Le Verrier himself led an expedition to Spain in July 1860 to observe a total eclipse. Many false reports encouraged Le Verrier, but none proved correct. It was long after Le Verrier's death, in 1915, that Einstein's general theory of relativity explained the orbit of Mercury without the need for perturbing bodies.
Vulcan was, in many ways, an unfortunate side-show in Le Verrier's important work on the orbits of all the planetary bodies. He constructed tables for the planets and theories for their orbits. He published Théorie du mouvement apparent du Soleil Ⓣ(1858), and Tables du Soleil Ⓣ (1858); Théorie de Mercure Ⓣ (1859), and Tables de Mercure Ⓣ (1859); Théorie de Vénus Ⓣ (1861), and Tables de Vénus Ⓣ (1861); Théorie de Mars Ⓣ (1861), and Tables de Mars Ⓣ (1861); Théorie de Jupiter Ⓣ (1876), and Tables de Jupiter Ⓣ (1876); Théorie de Saturne Ⓣ (1876), and Tables de Saturne Ⓣ (1876); Théorie d'Uranus Ⓣ (1876); Théorie de Neptune Ⓣ (1876); and Tables d'Uranus Ⓣ (1877). He received the Gold Medal of the Royal Astronomical Society in 1868 for his work on the theories and tables of Mercury, Venus, Earth and Mars, and he received a second Gold Medal from the Royal Astronomical Society in 1876 for his work on the remaining planets. Charles Pritchard (1808-1893) presented him with the Gold Medal in 1868 and John Couch Adams presented Le Verrier with the second Gold Medal in 1876 but by this time he was too ill to receive it in person.
Le Verrier began to suffer from a liver disease in 1873. It became progressively worse and he died in Paris, being buried in the Montparnasse Cemetery in a grave which has a large stone celestial globe over it.
He has received many honours, in addition to those mentioned above. He was elected to almost every Academy in Europe. An asteroid, a ring of Neptune, and a lunar crater have been named after Le Verrier. Streets in Besançon, Brive-la-Gaillarde, Caen, Joué-lès-Tours, Lille, Nantes, Paris, Saint-Lô, Toulouse, and Tourcoing have been named after him. There has been an Air France plane and a French weather ship named 'Le Verrier'. French stamps and notes have borne his image.
Article by: J J O'Connor and E F Robertson
Click on this link to see a list of the Glossary entries for this page
List of References (15 books/articles)
A Poster of Urbain Le Verrier
Mathematicians born in the same country
Additional Material in MacTutor
- A cartoon about the discovery of Neptune
- Astronomy: The Reaches of the Milky Way
(Click the link below for those honoured in this way)
|2.||Lunar features||Crater Le Verrier|
|3.||Paris street names||Rue Le Verrier (6th Arrondissement)|
|4.||Commemorated on the Eiffel Tower|
|5.||Royal Society Copley Medal||1846|
|6.||Fellow of the Royal Society||1847|
|7.||Fellow of the Royal Society of Edinburgh||1847|
Cross-references in MacTutor
- History Topics: Orbits and gravitation
- History Topics: Mathematical discovery of planets
- History Topics: General relativity
- 1900 ICM - Paris
Other Web sites
- Dictionary of Scientific Biography
- Encyclopaedia Britannica
- zbMATH entry