Born: 18 March 1796 in Utzenstorf, Switzerland
Died: 1 April 1863 in Bern, Switzerland
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Jakob Steiner's parents were Anna Barbara Weber (1757-1832) and Niklaus Steiner (1752-1826). Anna and Niklaus were married on 28 January 1780 and they had eight children. Jakob was the youngest of the children and spent his early years helping his parents with the small farm and business that they ran near the village of Utzenstorf, about 24 km north of Bern. He did not learn to read and write until he was 14 but he then proved invaluable :-
As a child he had to help his parents on the farm and in their business: his skill in calculation was of great assistance.Jakob, however, wanted something better for himself but his parents were delighted to have his help with their business. At the age of 18, against the wishes of his parents, he left home to attend Johann Heinrich Pestalozzi's school at Yverdom at the south-east end of the Lake of Neuchâtel. Pestalozzi ran his innovative school in the town from 1805 to 1825 and Steiner entered in the spring of 1814. The fact that Steiner was unable to pay anything towards his education at the school was not a problem, for Pestalozzi wanted to try out his educational methods on the poor. Pestalozzi's school had a very significant effect on Steiner's attitude both to the teaching of mathematics and also to his philosophy when undertaking research in mathematics. He wrote in 1826 (see for example ):-
The method used in Pestalozzi's school, treating the truths of mathematics as objects of independent reflection, led me, as a student there, to seek other grounds for the theorems presented in the courses than those provided by my teachers. Where possible I looked for deeper bases, and I succeeded so often that my teachers preferred my proofs to their own. As a result, after I had been there for a year and a half, it was thought that I could give instruction in mathematics. ... Without my knowledge or wishing it, continuous concern with teaching has intensified by striving after scientific unity and coherence. Just as related theorems in a single branch of mathematics grow out of one another in distinct classes, so, I believed, do the branches of mathematics itself. I glimpsed the idea of the organic unity of all the objects of mathematics; and I believed at that time that I could find this unity in some university; if not as an independent subject, at least in the form of specific suggestions.In the autumn of 1818, Steiner left Yverdom and travelled to Heidelberg where he earned his living giving private mathematics lessons. He attended lectures at the Universities of Heidelberg on combinatorial analysis, differential and integral calculus and algebra. Also at this time he became interested in mechanics and he wrote three unpublished manuscripts on the topic in 1821, 1824 and 1825. At Easter 1821 he left Heidelberg and travelled to Berlin, where again he supported himself with a very modest income from tutoring. He had no formal teaching qualifications so he decided that he needed to sit the necessary examinations to allow him to become a mathematics master in a gymnasium. He was not completely successful for after taking the necessary examinations in Berlin he was only awarded a restricted license to teach. His problem was not in mathematics but in the other subjects which were examined such as history and literature. This restricted license was, however, sufficient to allow him to be appointed to the Werder Gymnasium in Berlin.
Steiner's time as a mathematics teacher at the Werder Gymnasium proved a difficult one. At first he received good reports on his teaching but he fell out with the director of the school, Dr Zimmermann. Perhaps, understandably, Zimmermann wanted Steiner to teach his courses using a textbook written by Zimmermann himself. Steiner, who was a firm believer in Pestalozzi's methods of teaching, used those methods in the classroom. Zimmermann claimed that these were only suitable for elementary courses, and Steiner was dismissed in the autumn of 1822. The official reason was that his teaching was receiving criticism but the real reason was clearly his desire to use the methods he thought best rather than those required by the director, Dr Zimmermann. Again he took up private tutoring to earn enough money to allow him to attend courses at the University of Berlin, which he did from November 1822 to August 1824. Carl Jacobi, although eight years younger than Steiner, was a student at the University of Berlin at this time and soon Steiner and Jacobi became friends. In 1825 Steiner was appointed as an assistant master at the Technical School of Berlin.
The type of difficulties that Steiner had experienced at the Werder Gymnasium again arose at the Technical School. He was expected to follow the orders of the director, K F von Klöden, without question. Klöden, almost certainly correctly, believed that Steiner was not giving him the respect that he deserved. He retaliated in a severe manner, making unreasonable demands of Steiner that :-
... even a soldier subject to military discipline could hardly be expected to accept.Despite the bad atmosphere, Steiner managed to carry out some outstanding mathematical research while teaching at the Technical School. He was promoted to senior master in 1829. We have already mentions that Steiner became friendly with Jacobi, but he also became friendly with other influential mathematicians in Berlin. Perhaps most important of these was August Crelle but his friendship with Niels Abel after he arrived in Berlin in 1826 was also significant. Steiner became an early contributor to Crelle's Journal, the Journal für die reine und angewandte Mathematik, which was the first journal devoted entirely to mathematics founded. The first volume of the journal appeared in 1826 and contains Steiner's first long work, Einige geometrische Betrachtungen Ⓣ. This paper is important as being the first published systematic account of the theory of the power of a point with respect to a circle, and the points of similitude of circles. It is also important for Steiner's use of the principle of inversion in many of the proofs. This paper was the first of 62 papers which Steiner published in Crelle's Journal. In his paper Several laws governing the division of planes and space, which also appeared in the first volume of Crelle's Journal, he considers the problem: What is the maximum number of parts into which a space can be divided by n planes? It is a beautiful problem and has the solution (n3 + 5n + 6)/6. See  for a solution.
In 1832 Steiner published his first book Systematische Entwicklung der Abhangigkeit geometrischer Gestalten voneinander Ⓣ. Much of the material had already appeared in Steiner's papers over the preceding six years. The Preface of this book gives an interesting view of Steiner's approach to mathematics in general and the geometric material of book in particular:-
The present work is an attempt to discover the organism through which the most varied spatial phenomena are linked with one another. There exist a limited number of very simple fundamental relationships that together constitute the schema by means of which the remaining theorems can be developed logically and without difficulty. Through the proper adoption of the few basic relations one becomes master of the entire field. Order replaces chaos: and one sees how all the parts mesh naturally, arrange themselves in the most beautiful order, and form well-defined groups. In this manner one obtains, simultaneously, the elements from which nature starts when, with the greatest possible economy and in the simplest way, it endows the figures with infinitely many properties. Here the main thing is neither the synthetic nor the analytic method, but the discovery of the mutual dependence of the figures and of the way in which their properties are carried over from the simple to the more complex ones. This connection and transition is the real source of all the remaining individual propositions of geometry. Properties of figures the very existence of which one previously had to be convinced through ingenious demonstrations and which, when found, stood as something marvellous, are now revealed as necessary consequences of the common properties of these newly discovered basic elements, and the former are established a priori by the latter.Soon Steiner was being honoured for his remarkable achievements. He was awarded an honorary doctorate by the University of Königsberg on 20 April 1833 on the recommendation of Jacobi, then elected to the Prussian Academy of Sciences on 5 June 1834. He was appointed to a new extraordinary professorship of geometry at the University of Berlin on 8 October 1834. The post had been specially created for him by Alexander and Wilhelm von Humboldt; he held it until his death. He was in Rome in 1844 and on this visit he spent his time investigating a fourth order surface of the third class now called the 'Roman surface' or 'Steiner surface'. He spent the winter of 1854-55 in Paris and during his stay there was elected to the Académie des Sciences.
He was one of the greatest contributors to projective geometry. He discovered the 'Steiner surface' which has a double infinity of conic sections on it. The 'Steiner theorem' states that the two pencils by which a conic is projected from two of its points are projectively related. Another famous result is the 'Poncelet-Steiner theorem' which shows that only one given circle and a straight edge are required for Euclidean constructions. This was basically the topic of his second book Die geometrischen Konstructionen ausgefuhrt mittelst der geraden Linie and eines festen Kreises Ⓣ (1833). The proof, essentially as given by Steiner, is reproduced in . Many of his publications involved an investigation of conic sections and surfaces. For example he considered the problem: Of all ellipses that can be circumscribed about (inscribed in) a given triangle, which one has the smallest (largest) area? Today these ellipses are called the 'Steiner ellipses'.
In a short paper of fundamental importance written in 1848 entitled Allgemeine Eigenschaften algebraischer Curven Ⓣ he discussed polar curves of a point with respect to a given curve. He also introduced Steiner curves, discussed tangents at points of inflection, double tangents, cusps and double points. In particular he indicated the resulting relationships for the twenty-eight double tangents of the fourth degree curve. This wealth of material is presented, however, without any indication of the proofs which Steiner had found. Otto Hesse described these results saying:-
... they are, like Fermat's theorems, riddles for the present and future generations.Complete proofs of all the results in this paper were found by Luigi Cremona and published in his book on algebraic curves.
Steiner disliked algebra and analysis and believed that calculation replaces thinking while geometry stimulates thinking. He was described by Thomas Hirst as follows:-
He is a middle-aged man, of pretty stout proportions, has a long intellectual face, with beard and moustache and a fine prominent forehead, hair dark rather inclining to turn grey. The first thing that strikes you on his face is a dash of care and anxiety, almost pain, as if arising from physical suffering - he has rheumatism. He never prepares his lectures beforehand. He thus often stumbles or fails to prove what he wishes at the moment, and at every such failure he is sure to make some characteristic remark.Jacobi wrote of his friend Steiner:-
Starting from a few spatial properties Steiner attempted, by means of simple schema, to attain a comprehensive view of the multitude of geometric theorems that had been rent asunder. He sought to assign each its special position in relation to the others, to bring order to chaos, to interlock all parts according to nature, and to assemble them into well-defined groups. In discovering the organism through which the most varied phenomena of space are linked, he not only furthered the development of a geometric synthesis; he also provided a model of a complete method and execution for all other branches of mathematics.Despite being a mathematical genius, in other ways Steiner was a difficult person. Burckhardt writes :-
Students and contemporaries wrote of the brilliance of Steiner's geometric research and of the fiery temperament he displayed in leading others into the new territory he had discovered. Combined with this were very liberal political views. Moreover, he often behaved crudely and spoke bluntly, thereby alienating a number of people.The last ten years of Steiner's life were increasingly difficult through illness. Kidney problems caused him to spend most of the year in his native Switzerland, only going to Berlin in the winter to deliver his lectures. Eventually he became totally bedridden and was unable to carry out any teaching duties. Steiner never married and, perhaps as a consequence, left a fortune on his death. One third of this fortune went to the Berlin Academy to found the Steiner Prize. The rest of the money was divided between his relatives and the school in his native village of Utzenstorf. His last wish was that poor children in his home town could have a better educational opportunity than he himself had.
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 (14 books/articles)
A Poster of Jakob Steiner
Mathematicians born in the same country
Additional Material in MacTutor
- Bützberger's Work on Steiner
- Minimal paths
- The title page of Systematische Entwickelung (1832)
Cross-references in MacTutor
- History Topics: The development of group theory
- History Topics: An overview of the history of mathematics
- History Topics: Cubic surfaces
- History Topics: The mathematician and the forger
- History Topics: Thomas Hirst's diary
- Famous Curves: Tricuspoid
- Chronology: 1820 to 1830
- Chronology: 1830 to 1840
- Swiss Mathematical Society
- 1897 ICM - Zurich
- 1932 ICM - Zurich
Other Web sites
- Dictionary of Scientific Biography
- Encyclopaedia Britannica
- Clark Kimberling
- University of Heidelberg (In German)
- MathSciNet Author profile
- zbMATH entry
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