Antonio Luigi Gaudenzio Giuseppe Cremona

Quick Info

7 December 1830
Pavia, Lombardy (now Italy)
10 June 1903
Rome, Italy

Luigi Cremona was the originator of graphical statics, the study of forces in equilibrium, using graphical methods. He wrote papers on geometrical transformations, projective geometry and on graphical solutions.


Luigi Cremona was educated at the Ginnasio in Pavia. Luigi's father died when Luigi was 11 years old and this nearly prevented him from having a proper education. However, his stepfather supported him through school so that he was able to complete his school education and enter the University of Pavia.

Political events, however, were to have a major effect on Cremona's life and the first impact came from the revolution of 1848 which attempted to achieve a new and more liberal constitution. The Austrian government arrested opposition leaders of the revolution in Venice and Milan, and suppressed student demonstrations in Padua and Pavia. Cremona, all his life an ardent Italian nationalist, immediately joined the 'Free Italy' battalion.

Within a few days the Austrian army lost nearly all of Lombardy - Venetia and retreated. Sardinia - Piedmont declared war on Austria. After some initial successes by the Italians, the Austrian armies began to win victories. In Lombardy the Austrian reconquest of Brescia in March 1849, after 10 days of fighting, left Venice isolated. Cremona, by this time a sergeant, was with the troops defending Venice. The city resisted Austrian forces until 24 August 1849. The bravery of the defending forces had been such that the Austrian attackers allowed them to leave the city with honour. Cremona was able to return to Pavia.

Back in Pavia, Cremona discovered that his mother had died while he had been fighting to free Italy. Again he was financially unable to return to university without the support of his family and again his family rallied round and provided the necessary support. He entered the University of Pavia on 27 November 1849 to study for a degree in civil engineering. There he was taught by Bordoni, Casorati and Brioschi but he was most influenced by Brioschi. Cremona later wrote, see [6]:-
The years that I passed with Brioschi as pupil and later as colleague are a grand part of my life; in the first portion of these years I learned to love science and in the other how to transfer it to a large circle of auditors.
On 9 May 1853 Cremona was awarded his doctorate in civil engineering from the University of Pavia. By this time Camillo Benso di Cavour had become the head of the cabinet, and the unification of Italy had begun. But Austria still controlled the region and this made life hard for Cremona who had fought against the Austrian occupation. As Greitzer writes in [1]:-
His record of military service against Austrian rule prevented him from obtaining an official teaching post in the education system, so his first employment was as a private tutor to several families in Pavia.
Cremona was by this time engaged in mathematical research and his first paper appeared in March 1855. This must have had some effect in helping him to gain permission to teach physics on a temporary basis at the Ginnasio in Pavia where he had himself been trained for university. In May 1856 his second mathematical paper appeared and this, together with his good teaching, seems to have helped him secure the position of associate teacher at the Ginnasio in December 1856.

On 17 January 1857, Cremona was appointed a full teacher at the Ginnasio in Cremona. Cremona, the capital of the Cremona region of Lombardy was situated on the north bank of the Po River southeast of Milan. Cremona was to remain at the school there for three years and during this time he wrote a number of mathematical articles. They are not of great importance except that some of them were examining curves using projective methods, techniques which would be characteristic of Cremona's later important mathematics.

While the mathematician Cremona taught in the town of Cremona, political events were taking place which would have a large effect on his future. In July 1858 Cavour made an agreement with Napoleon III of France for his support of Piedmont. When Austria declared war on Piedmont on 26 April 1859, France honoured its alliance with Piedmont. After a number of battles the Austrians were in retreat and a treaty was signed at Villafranca by Napoleon III accepting the cession of Lombardy from Austria, which he then passed to Piedmont. Lombardy, liberated from Austrian rule, were quick to see that Cremona should no longer be held back for political reasons. On 28 November 1859 he was appointed as teacher at the Lycée St Alexandre in Milan.

With events moving quickly towards a unified Italy under Victor Emmanuel II as King, Cremona was appointed by Royal decree as an ordinary professor at the University of Bologna on 10 June 1860. The Kingdom of Italy was officially proclaimed on 17 March 1861, by a parliament sitting in Turin. Cremona was to remain in Bologna until October 1867.

In Cremona's Complete Works there appear 45 articles which he published while at Bologna. Sixteen of these articles are answers to questions posed in the Nouvelles Annales. There are eight book reviews and four historical articles intended to encourage research into geometry. Also included are Cremona's important work on transformations of plane curves, which were published during this period in 1863 and 1865. It was this work which won him the Steiner Prize for 1866, the prize being awarded jointly to Cremona and Rudolf Sturm. Also while at Bologna Cremona developed the theory of birational transformations, later known as Cremona transformations, and wrote a series of papers on twisted cubic surfaces.

White describes this period of Cremona's work in [11]:-
Chasles was the type on whom at first Cremona modelled his own work. The geometrical purism of von Staudt was a later influence. Hence it is natural to find metric foundations for geometric definitions instead of, or interchangeably with, projective. The apparatus of algebraic geometry is built upon polars, and these upon distances. The geometric method is principally a use of terms or descriptive relations instead of equations. And the beginnings of enumerative geometry are here...
Greitzer, writing in [1], describes the importance of Cremona transformations which he introduced in his Bologna period:-
Cremona transformations have been used for studying rational surfaces, for the resolution of singularities of plane and space curves, and for the study of elliptic integrals and Riemann surfaces. They are effective in the reduction of singularities of curves to double points with distinct tangents.
In October 1867, on Brioschi's recommendation, another Royal Decree was issued, this time appointing Cremona to the Polytechnic Institute of Milan. He received the title of Professor in 1872 while at Milan. Greitzer writes in [1]:-
The period in Milan, where he remained until 1873, was the time of Cremona's greatest creativity. He wrote articles on such diverse topics as twisted cubics, developable surfaces, the theory of conics, the theory of plane curves, third- and fourth-degree surfaces, statics and projective geometry.
Cremona's work in statics is of great importance and gives, in a clearer form, some theorems due to Maxwell. In a paper of 1872 Cremona took an idea of Maxwell's on forces in frame structures that had appeared in an engineering journal in 1867 and interpreted Maxwell's notion of reciprocal figures as duality in projective 3-space. These reciprocal figures, for example, have three forces in equilibrium in one figure represented by a triangle while in the reciprocal figure they are represented by three concurrent lines.

In 1873 Cremona was offered a political post as secretary general of the new Italian Government. This was a fitting tribute to the highly patriotic Cremona yet his mathematics researches were of such interest that he refused to accept the political post. Instead he moved to Rome on 9 October 1873, again appointed by Royal Decree, as director of the newly established Polytechnic School of Engineering. In addition he was appointed professor of graphic statics. However, if he had hoped that refusing the political post would leave him able to continue his mathematical research he soon found that his administration and teaching duties put an effective end to research.

In November 1877, Cremona was appointed to the chair of higher mathematics at the University of Rome. However political pressures made him feel that he should serve the new Italian State. On 16 March 1879 he was appointed a senator and at this point his mathematical work ended completely. He became Minister of Public Education and ended his political career as Vice-President of the Senate. Greitzer writes in [1]:-
On 10 June 1903, after leaving a sickbed to act on some legislation, Cremona succumbed to a heart attack.
Cremona had a large influence on geometry in Italy. Many of Steiner's proofs on synthetic geometry were revised and improved by Cremona. One of the themes which were present in almost all his work throughout his career was projective geometry. But, Greitzer [1], states:-
Cremona made no startling discoveries in this area: but he did derive many properties of projectively related figures, and he did present the subject to has classes in a manner calculated to clarify and bring out relationships most simply.
In fact Cremona had a fine reputation as a lecturer [1]:-
Cremona was an excellent lecturer: calm, rigorous, yet interesting and even exciting.
White [11] writes:-
... it is evident from his writings that it was the innate love of his chosen science that moved him to teaching and to the preparation of the books through which his name is most widely known.
Cremona was extremely fair in citing the works of others, something which was not too common among many mathematicians at that time. Again we quote White [11]:-

Cremona himself was conscientious and indefatigable in searching out the work of his predecessors upon matters that he himself was investigating.

In one of his works, after two pages of historical summary, he gives a footnote excusing:-
... his previous ignorance of, and failure to cite, the works of Möbius and Seydewitz to which the essay of Schröter had now directed his attention.
Cremona had many pupils who were to make major contributions to geometry, for example Bertini, Veronese and Guccia.

In 1879, the year he became a Senator, he received the scientific honour of becoming a corresponding member of the Royal Society of London.

References (show)

  1. S L Greitzer, Biography in Dictionary of Scientific Biography (New York 1970-1990). See THIS LINK.
  2. Biography in Encyclopaedia Britannica.
  3. G Arrighi, Nuovo contributo al carteggio Guido Grandi-Tommaso Narducci. Storia di una polemica - una memoria sconosciuta del matematico di Cremona 'Sopra le curve geometriche, o meccaniche', Physis - Riv. Internaz. Storia Sci. 18 (3-4) (1976), 366-382.
  4. A Gabba, Le trasformazioni cremoniane in una lettera di Luigi Cremona a Giovanni Schiaparelli, Ist. Lombardo Sci. Lett. Rend. Cl. Sci. Mat. Nat. (3) 18 (87) (1954), 290-294.
  5. K-R Biermann, Die Wahlvorschläge für Betti, Brioschi, Beltrami, Casorati und Cremona zu Korrespondierenden Mitgliedern der Berliner Akademie der Wissenschaften, Boll. Storia Sci. Mat. 3 (1) (1983), 127-136.
  6. G Loria, Luigi Cremona et son oeuvre mathématique, Bibliotheca mathematica (1904), 125-195.
  7. Luigi Cremona, Proc. London Math. Soc. 1 (1904), 5-18.
  8. Luigi Cremona, Archimede 9 (1957), 137-139.
  9. M Menghini, Notes on the correspondence between Luigi Cremona and Max Noether, Historia Math. 13 (4) (1986), 341-351.
  10. G Parasad, Some great mathematicians of the nineteenth century II (Benares, 1934), 116-143.
  11. H S White, Cremona's works, Bull. Amer. Math. Soc. 24 (1917/18), 238-243.

Additional Resources (show)

Honours (show)

Cross-references (show)

Written by J J O'Connor and E F Robertson
Last Update November 1997