Julius Peter Christian Petersen (16 June 1839,

Sorø Sorø () is a town in Sorø municipality in Region Sjælland on the island of Zealand (''Sjælland'') in east Denmark. The population is 7,999 (2022).

, West Zealand – 5 August 1910,

Copenhagen Copenhagen ( or .; da, København ) is the capital and most populous city of Denmark, with a proper population of around 815.000 in the last quarter of 2022; and some 1.370,000 in the urban area; and the wider Copenhagen metropolitan ar ...

) was a

Danish Danish may refer to: * Something of, from, or related to the country of Denmark People * A national or citizen of Denmark, also called a "Dane," see Demographics of Denmark * Culture of Denmark * Danish people or Danes, people with a Danish a ...

mathematician A mathematician is someone who uses an extensive knowledge of mathematics in their work, typically to solve mathematical problems. Mathematicians are concerned with numbers, data, quantity, structure, space, models, and change. History On ...

. His contributions to the field of mathematics led to the birth of

graph theory In mathematics, graph theory is the study of ''graphs'', which are mathematical structures used to model pairwise relations between objects. A graph in this context is made up of '' vertices'' (also called ''nodes'' or ''points'') which are conn ...

Biography

Petersen's interests in mathematics were manifold, including:

geometry Geometry (; ) is, with arithmetic, one of the oldest branches of mathematics. It is concerned with properties of space such as the distance, shape, size, and relative position of figures. A mathematician who works in the field of geometry is ...

, complex analysis,

number theory Number theory (or arithmetic or higher arithmetic in older usage) is a branch of pure mathematics devoted primarily to the study of the integers and integer-valued functions. German mathematician Carl Friedrich Gauss (1777–1855) said, "Mat ...

mathematical physics Mathematical physics refers to the development of mathematical methods for application to problems in physics. The '' Journal of Mathematical Physics'' defines the field as "the application of mathematics to problems in physics and the developme ...

, mathematical economics,

cryptography Cryptography, or cryptology (from grc, , translit=kryptós "hidden, secret"; and ''graphein'', "to write", or ''-logia'', "study", respectively), is the practice and study of techniques for secure communication in the presence of adver ...

and

. His famous paper ''Die Theorie der regulären graphs'' was a fundamental contribution to modern graph theory as we know it today. In 1898, he presented a counterexample to Tait's claimed theorem about 1-factorability of 3-regular graphs, which is nowadays known as the "

Petersen graph In the mathematical field of graph theory, the Petersen graph is an undirected graph with 10 vertices and 15 edges. It is a small graph that serves as a useful example and counterexample for many problems in graph theory. The Petersen graph is n ...

". In cryptography and mathematical economics he made contributions which today are seen as pioneering. He published a systematic treatment of

geometrical Geometry (; ) is, with arithmetic, one of the oldest branches of mathematics. It is concerned with properties of space such as the distance, shape, size, and relative position of figures. A mathematician who works in the field of geometry is ...

constructions (with straightedge and compass) in 1880. A French translation was reprinted in 1990. A special issue of Discrete Mathematics has been dedicated to the 150th birthday of Petersen. Petersen, as he claimed, had a very independent way of thinking. In order to preserve this independence he made a habit to read as little as possible of other people's mathematics, pushing it to extremes. The consequences for his lack of knowledge of the literature of the time were severe. He spent a significant part of his time rediscovering already known results, in other cases already existing results had to be removed from a submitted paper and in other more serious cases a paper did not get published at all. He started from very modest beginnings, and by hard work, some luck and some good connections, moved steadily upward to a station of considerable importance. In 1891 his work received royal recognition through the award of the Order of the Dannebrog. Among mathematicians he enjoyed an international reputation. At his death –which was front-page news in Copenhagen– the socialist newspaper Social-Demokraten correctly sensed the popular appeal of his story: here was a kind of Hans Christian Andersen of science, a child of the people who had made good in the intellectual world.

Early life and education

Peter Christian Julius Petersen was born on the 16th of June 1839 in

Sorø Sorø () is a town in Sorø municipality in Region Sjælland on the island of Zealand (''Sjælland'') in east Denmark. The population is 7,999 (2022).

on Zealand. His parents were Jens Petersen (1803–1873), a dyer by profession, and Anna Cathrine Petersen (1813–1896), born Wiuff. He had two younger brothers, Hans Christian Rudolf Petersen (1844–1868) and Carl Sophus Valdemar Petersen (1846–1935), and two sisters, Nielsine Cathrine Marie Petersen (1837–?) and Sophie Caroline Petersen (1842–?). After preparation in a private school, he was admitted in 1849 into second grade at the

Sorø Academy Sorø Academy ( Danish, ''Sorø Akademi'') is a boarding school and gymnasium located in the small town of Sorø, Denmark. It traces its history back to the 12th century when Bishop Absalon founded a monastery at the site, which was confiscated b ...

, a prestigious boarding school. He was taken out of school after his confirmation in 1854, because his parents could not afford to keep him there, and he worked as an apprentice for almost a year in an uncle's grocery in Kolding, Jutland. The uncle died, however, and left Petersen a sum of money that enabled him to return to Sorø, pass the real-examination in 1856 with distinction, and begin his studies at the Polytechnical College in Copenhagen. In 1860 Petersen passed the first part of the civil engineering examination. By that same year he had decided to study mathematics at the university, rather than to continue with the more practical second part of the engineering education. However, his inheritance was used up and he now had to teach to make a living. From 1859 to 1871 he taught at one of Copenhagen's most prestigious private high-schools, the von Westenske Institut, with occasional part-time teaching jobs at other private schools. In 1862 he passed the student-examination, and could now enter the university. In 1866 Julius Petersen obtained the degree of magister in mathematics at the University, and by 1871 he obtained the Dr. Phil. Degree at Copenhagen University. In his ''doctorvita'' written for the university, Petersen wrote: ''"Mathematics had, from the time I started to learn it, taken my complete interest, and most of my work consisted in solving problems of my own and my friends, and in seeking the trisection of the angle, a problem that has had a great influence on my whole development".'' In the summer of 1871 he married Laura Kirstine Bertelsen (1837–1901) and seven months later the couple had their first son Aage Wiuff-Petersen (1863–1927). Later the family increased with another son, Thor Ejnar Petersen (1867–1946), and a daughter, Agnete Helga Kathrine Petersen (1872–1941).

Work

Many of Petersen's early contributions to mathematics were mainly focused on geometry. During the 1860s he wrote five textbooks along with some papers, all on geometry. One of his most remarkable works was a book, ''‘Methods and Theories’''. The first edition of this book appeared only in Danish, but the 1879 edition was translated into eight different languages including English, French, and Spanish, earning him an international reputation more than any of his other works. In graph theory, two of Petersen's most famous contributions are: the Petersen graph, exhibited in 1898, served as a counterexample to Tait's ‘theorem’ on the 4-colour problem: a bridgeless 3-regular graph is factorable into three 1-factors and the theorem: ''‘a connected 3-regular graph with at most two leaves contains a 1-factor’''. In 1891 Petersen published a paper in the Acta Mathematica (volume 15, pages 193–220) entitled ''‘Die Theorie der regularen graphs’''. It was the first paper containing (correct) results explicitly in graph theory. The paper consisted of four major parts: :(i) The transformation of the original algebraic problem into a graph theoretical one :(ii) The problem of factorizing regular graphs of even degree. Here Petersen proves his first major result, viz. that any such graph has a 2-factorization ( 2-factor theorem). :(iii) Criteria for the existence of edge-separating factorizations of 4-regular graphs. :(iv) The factorization of regular graphs of odd degree, in particular, the theorem that any bridgeless 3-regular graph can be decomposed into a l-factor and a 2-factor (

Petersen's theorem In the mathematical discipline of graph theory, Petersen's theorem, named after Julius Petersen, is one of the earliest results in graph theory and can be stated as follows: Petersen's Theorem. Every cubic, bridgeless graph contains a perfect m ...

). Between 1887 and 1895 Petersen also contributed to mathematics with different models and instruments. one of these models was a ‘eine Serie von kinematischen Modellen’ which in 1888 was asked by ‘Verlagsbuchhandler L. Brill’ for permission to produce and sell. In 1887 Petersen had constructed another model; a

planimeter A planimeter, also known as a platometer, is a measuring instrument used to determine the area of an arbitrary two-dimensional shape. Construction There are several kinds of planimeters, but all operate in a similar way. The precise way in whic ...

which was presented to the

Royal Danish Academy of Science and Letters {{Infobox organization , name = The Royal Danish Academy of Sciences and Letters , full_name = , native_name = Det Kongelige Danske Videnskabernes Selskab , native_name_lang = , logo = Royal ...

. It consisted of an arm, of, whose one end o is fixed to the paper by a lead cylinder with a pin p, and whose other end f is connected to a second arm dc (or df) of length L. When the stylus d is moved around the domain once, the area is measured as L∫dh, where dh is the differential displacement of the arm dc orthogonal to itself.

Last years

In the spring of 1908 Petersen suffered a stroke. But even in this condition his optimism and desire to work did not stop him. In a letter to Mittag-Leffler in Stockholm he wrote: ''“I feel in all respects rather well, it is only that I cannot walk and have difficulties in talking. However I hope to get so far this summer that I can resume my lectures in the autumn”.'' His last two years became a period of physical and mental debility, where, towards the end, he hardly had any memory left of his wide interests and the rich work which had filled his life. In 1909 he retired from his professorship. He died on August 5, 1910, after having been hospitalized for five months. He was buried at Vestre Kirkegaard, where Copenhagen University cared for his grave until 1947.

References

* K. Andersen and T. Bang, Matematik, in: Kobenhavns Universitet 1479–1979, Vol. XII, Gad (1983) 113–197. * M. Borup, Georg og Edvard Brandes: Breweksling med nordiske Forfattere og Videnskabsmand (Gyldendal, Kobenhavn, 1939). * N.L. Biggs, E.K. Lloyd and R.J. Wilson, ''

Graph Theory, 1736–1936 ''Graph Theory, 1736–1936'' is a book in the history of mathematics on graph theory. It focuses on the foundational documents of the field, beginning with the 1736 paper of Leonhard Euler on the Seven Bridges of Königsberg and ending with the ...

'' (Clarendon Press, Oxford, 1976). * F. Bing and J. Petersen, For references to Bing and Petersen see: Margit Christiansen, J. Liitzen, G. Sabidussi and B. Toft: Julius Petersen annotated bibliography, Discrete Math. 100 (this Vol.) (1992) 83–97. * H. Mulder., Julius Petersen's theory of regular graphs., Discrete Mathematics 100 (1992) 157–175

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