Albrecht Dürer
Quick Info
Imperial Free City of Nürnberg (now in Germany)
Imperial Free City of Nürnberg (now in Germany)
Biography
Albrecht Dürer was the third son of Albrecht Dürer and Barbara Holfer. He was one of their eighteen children. The Dürer family came from Hungary, Albrecht Dürer senior being born there, and at this time the family name was Ajtos. The name Ajtos means "door" in Hungarian and when Dürer senior and his brothers came to Germany they chose the name Türer which sounds like the German "Tür" meaning door. The name changed to Dürer but Albrecht Dürer senior always signed himself Türer rather than Dürer.Portraits of his father and mother are at THIS LINK.
Albrecht Dürer senior was a jeweller who had served his apprenticeship with Hieronymus Holfer, and then married Holfer's daughter. Albrecht Dürer junior wrote about his father and his upbringing (see for example [3]):
My father suffered much and toiled painfully all his life, for he had no resources other than the proceeds of his trade from which to support himself and his wife and family. He led an honest, Godfearing life. His character was gentle and patient. He was friendly towards all and full of gratitude to his Maker. He cared little for society and nothing for worldly amusements. A man of very few words and deeply pious, he paid great attention to the religious education of his children. His most earnest hope was that the high principles he instilled into their minds would render them ever more worthy of divine protection and the sympathy of mankind. He told us every day that we must love God and be honourable in our dealings with our neighbours.As a young boy Dürer was educated at the Lateinschule in St Lorenz and he also worked in his father's workshop learning the trade of a goldsmith and jeweller. By the age of 13 he was already a skilled painter as seen from a self portrait which he painted at that time.
You can see this selfportrait at THIS LINK
This was the first of many selfportraits which Dürer painted and they provide a wonderful record. Our collection of such selfportraits is at THIS LINK.
In 1486 Dürer became an apprentice painter and woodcut designer to Michael Wolgemut, the leading producer of altarpieces. After an apprenticeship of four years, Dürer had learnt all he could from Wolgemut and had reached a level of artistic quality exceeding that of his famous teacher. Wolgemut advised Dürer to travel to widen his experience and meet other artists. Following Wolgemut's advice, Dürer delayed visiting Italy (which Wolgemut himself never visited), where there were very different artistic styles, until he had fully developed his own style and learnt more techniques from other German artists.
A portrait of Wolgemut is at THIS LINK.
Dürer travelled first to Nördlingen, where he met artists of the Swabian school. The Swabian style had been influenced by Dutch artistic design which Dürer had not met before. His next visit was to Ulm where he met more artists of the Swabian school. Dürer [3]:
... participated with keen enjoyment in the discussions among artists of his own age, in the lowceilinged taverns, over foaming mugs of beer. These youthful enthusiasts, in common with those of all nations throughout history, were bent on rejuvenation of the art of the world. They were delighted with Dürer's drawings, with his first engravings and the small pictures he had already painted, independently of Wolgemut's directions or opinions.Leaving Ulm, Dürer made his way to Constance which charmed him with its fairyland appearance. Basel was the next town which Dürer visited, and he found it quite similar to his home town of Nürnberg. Finally Dürer returned home, making visits to Colmar and Strasbourg on the way.
It had been a long journey of great importance to Dürer which had taken nearly four years, but after he returned to Nürnberg in 1494 he felt disappointed that he had not visited Italy. He had also become convinced that [1]:
... the new art must be based upon science  in particular, upon mathematics, as the most exact, logical, and graphically constructive of the sciences.Italy was not only a country with new ideas to offer Dürer in art, but it was also leading the world at this time in the revival of mathematics. Before setting out for Italy, however, Dürer married Agnes Frey, the daughter of a learned man Hans Frey who had made quite a lot of money through making jewellery, musical instruments, and mechanical devices.
Portraits of Agnes are at THIS LINK.
The marriage seems to have been more the idea of the parents of Agnes and Albrecht, and the pair were married on 7 July 1494. It was a marriage which helped raise Dürer's status in Nürnberg, as well as provide him with money which helped him set up his own studio.
Before the end of 1494, Dürer was on his travels again, leaving Agnes behind in Nürnberg. First he visited Augsburg where he met strong Italian artistic influences for the first time. Travelling through the Tyrol, he reached Trento and his first view of Italy.
One of his paintings of Trento is at THIS LINK.
He travelled on to Verona before reaching Venice which was his main objective. In Venice, Dürer, as he had done throughout his journeys, sketched scenes, visited galleries and churches, and met with the local artists. One of the artists that he met in Venice, Giovanni Bellini, had an important influence on Dürer for [3]:
... everything that [Venice] could teach him was to be found in Giovanni's paintings. He cultivated the artist's society, therefore, with a devotion both impassioned and deferential, retaining throughout his life, with his whole heart and soul, unbounded feelings of gratitude to the man whose pictures had unveiled so wonderful a world to him.Dürer returned to Nürnberg in 1495, and although he does not seem to have met with any of the major Italian mathematicians on his journeys, he did meet Jacopo de Barbari who told him of the mathematical work of Pacioli and its importance to the theory of beauty and art. Nor did Dürer meet with Leonardo da Vinci while in Italy, but he learnt of the importance which that artist placed in mathematics. Back in Nürnberg, Dürer began a serious study of mathematics. He read Euclid's Elements and the important treatise De architectura Ⓣ by Vitruvius (1st century BC), the famous Roman architect and engineer. He also became familiar with the work of Alberti and Pacioli on mathematics and art, in particular work on proportion.
It was not only this scientific approach to art that influenced Dürer as he began his artistic career in Nürnberg, but he also benefited from seeing different artistic styles and the different scenery which he had viewed [3]:
The variety of regions through which Dürer had passed in the course of his travels and the care he had taken with the drawings and watercolours he had made of the most attractive or unfamiliar of them had provided him with a great range of pictorial motives emanating from the most diverse sources.In 1495 Dürer was still not well known as an artist in the highest circles but news of his skill reached Frederick the Wise, Elector of Saxony, and Dürer was commissioned to paint his portrait. Frederick liked his portrait which Dürer painted in April 1496 when Frederick had visited Nürnberg. Despite Frederick's attempts to persuade Dürer to move to Weimar and become Court painter, the artist did not wish to leave Nürnberg.
You can see this portrait at THIS LINK.
He was deeply attached to Nürnberg, painting views of the city in 1497 that you can see at THIS LINK.
From about 1500 Dürer's art showed the influence of the mathematical theory of proportion which he continued to spend so much time studying. It is claimed that his selfportrait in a wig made in 1500 has the dimensions of the head constructed proportionally. See THIS LINK.
For the engraving Adam and Eve made in 1504, Dürer described the intricate ruler and compass constructions which he made to construct the figures. See THIS LINK.
It was not only the mathematical theory of proportion which influenced Dürer's art at this period, but also his mastery of perspective through his study of geometry. This is most clearly seen in his woodcuts Life of the Virgin made between 1502 and 1505. See THIS LINK.
During the ten years after 1496 Dürer went from a relatively unknown artist to someone with a wide reputation as both an artist and a mathematician. His personal circumstances had changed greatly. His father had died in 1502 and Dürer was left to care for his invalid, and nearly blind, mother. He had set up his own printing press while he, or often his wife, sold his works to buyers at local fairs. It was a difficult life and one in which Dürer's health began to suffer. In fact he would never regain full health during the rest of his life.
From 1505 to 1507 Dürer made a second visit to Italy, spending much time again in Venice. It was a very different visit from his first, with Dürer now more interested in his international fame than in learning about art. He was so conscious of his fame, and the threat he perceived that he might hold to the local artists, that [3]:
... he refused invitations to dinner in case someone should try to poison him.It was not about art that Dürer now wished to learn from the Italians, but rather about mathematics. He visited Bologna to meet with Pacioli whom he considered held the mathematical secrets of art. He also visited Jacopo de Barbari and the great efforts which Dürer made to meet de Barbari shows the importance which Dürer more and more attached to mathematical knowledge. Dürer returned to Nürnberg from this second visit to Italy feeling that he must delve yet more deeply into the study of mathematics.
In about 1508 Dürer began to collect material for a major work on mathematics and its applications to the arts. This work would never be finished but Dürer did use parts of the material in later published work. He continued to produce art of outstanding quality, and he produced one of his most famous engravings Melancholia in 1514.
You can see this engraving at THIS LINK
It contains the first magic square to be seen in Europe, cleverly including the date 1514 as two entries in the middle of the bottom row. Also of mathematical interest in Melancholia is the polyhedron in the picture. The faces of the polyhedron appear to consist of two equilateral triangles and six somewhat irregular pentagons. An interesting reconstruction of the polyhedron is given in [19], see also [18] for further details.
Dürer worked for Maximilian I, the Holy Roman emperor, from about 1512. Maximilian, however, had little in the way of wealth to pay for Dürer's work and he asked the councillors of Nürnberg to exempt Dürer from taxes as compensation. He then asked the councillors to pay Dürer a pension on his behalf, which certainly did not please them. From about 1515 the councillors tried to avoid paying this pension. Dürer met Maximilian personally for the first time in 1518 and, probably from one sitting in Augsburg, painted Maximilian's portrait. See THIS LINK. The following year Maximilian died and this was the final excuse for the councillors to refuse to make any further payment, saying that the new emperor Charles would have to agree to the pension.
Although Dürer was fairly well off by this time and the pension was not necessary for him, it was more a matter of prestige to have his pension restored. He set off for Antwerp on 15 July 1520 with his wife and their maid to visit the Emperor Charles V. Passing through Aachen, Dürer sketched the cathedral at Aachen. See THIS LINK
Dürer had a second reason for this visit to the Netherlands, for he believed that Maximilian's daughter had a book by Jacopo de Barbari on applications of mathematics to art, and Dürer had long sought the truths which he believed this work contained. On meeting Maximilian's daughter he offered her the portrait of her father which he had painted, but was distressed to find that she did not want the portrait. She had already given the book by Jacopo de Barbari to another artist so Dürer's quest was in vain. He did persuade Charles V to restore his pension, however, which was formally agreed on 12 November 1520.
After returning to Nürnberg, Dürer's health became still worse. He did not slacken his work on either mathematics or painting but most of his effort went into his work Treatise on proportion. Although it was completed in 1523, Dürer realised that it required mathematical knowledge which went well beyond what any reader could be expected to have, so he decided to write a more elementary text. He published this more elementary treatise, in four books, in 1525 publishing the work through his own publishing company.
This treatise, Unterweisung der Messung mit dem Zirkel und Richtscheit Ⓣ, is the first mathematics book published in German (if one discounts an earlier commercial arithmetic book) and places Dürer as one of the most important of the Renaissance mathematicians. Dürer's sources for this work are discussed in [21] where three main sources are suggested (i) the practical recipes of craftsmen, (ii) classical mathematics from printed works and manuscripts, and (iii) the manuals of Italian artists. The article [16] gives many details of the mathematics contained in the treatise.
The first of the four books describes the construction of a large number of curves, including the Spiral of Archimedes, the Equiangular or Logarithmic Spiral, the Conchoid, Dürer's Shell Curves, the Epicycloid, the Epitrochoid, the Hypocycloid, the Hypotrochoid, and the Limaçon of Pascal (although of course Dürer did not use that name!). Details about Dürer's descriptions of the curves, in particular one he calls a "muschellini", is given in [9].
In the second book he gave exact and approximate methods to construct regular polygons. Dürer's constructions of regular polygons with 5, 7, 9, 11 and 13 sides is discussed in [12]. Dürer also gave approximate methods to square the circle using ruler and compass constructions in this book. A method to obtain a good approximation to the trisector of an angle by Euclidean construction is also given.
Book three considers pyramids, cylinders and other solid bodies. The second part of this book studies sundials and other astronomical instruments. The final book studies the five Platonic solids as well as the semiregular Archimedean solids. Also in this book is Dürer's theory of shadows and an introduction to the theory of perspective.
In 1527 Dürer published another work, this time on fortifications. There were strong reasons why he produced a work on fortifications at this time, for the people of Germany were in fear of an invasion by the Turks. Many cities, including Nürnberg, would improve their fortifications using the methods set out by Dürer in this book. Dürer's final masterpiece was his Treatise on proportion which was at the proof stage at the time of his death.
Descriptive geometry originated with Dürer in this work although it was only put on a sound mathematical basis in later work of Monge. One of the methods of overcoming the problems of projection, and describing the movement of bodies in space, is descriptive geometry. Dürer's remarkable achievement was through applying mathematics to art, he developed such fundamentally new and important ideas within mathematics itself.
References (show)

M Steck, Biography in Dictionary of Scientific Biography (New York 19701990).
See THIS LINK. 
Biography in Encyclopaedia Britannica.
http://www.britannica.com/biography/AlbrechtDurerGermanartist  M Brion, Albrecht Dürer : his life and work (1960).
 G P Matvievskaya, Albrecht Durer  scholar 14711528 (Russian) (Moscow, 1987).
 H Rupprich, Dürer  Schriftlicher Nachlass (Berlin, 195666).
 F Russell, The World of Dürer, 14711528 (1981).
 E Schröder, Dürer : Kunst und Geometrie, Dürers künstlerisches Schaffen aus der Sicht seiner 'Underweysung' (BaselBoston, Mass., 1980).
 P Strieder, The Hidden Dürer (1978).
 M Beech, Albrecht Dürer and his conchoid, Bull. Inst. Math. Appl. 26 (3) (1990), 3840.
 D W Crowe, Albrecht Dürer and the regular pentagon, in Fivefold symmetry (River Edge, NJ, 1992), 465487.
 J V Field, Rediscovering the Archimedean polyhedra : Piero della Francesca, Luca Pacioli, Leonardo da Vinci, Albrecht Dürer, Daniele Barbaro, and Johannes Kepler, Arch. Hist. Exact Sci. 50 (34) (1997), 241289.
 E A Fribus, The construction of regular polygons in A Dürer's geometric treatise (Russian), Moskov. Oblast. Ped. Inst. Ucen. Zap. 185 (1967), 201211.
 F Harary, The knots and links of Albrecht Dürer, Atti Accad. Pontaniana (N.S.) 34 (1985), 97106.
 R HerzFischler, Dürer's paradox or why an ellipse is not eggshaped, Math. Mag. 63 (2) (1990), 7585.
 J E Hofmann, Dürer als Mathematiker. I, Praxis Math. 13 (4) (1971), 8591.
 J E Hofmann, Dürer als Mathematiker. II, Praxis Math. 13 (5) (1971), 117122.
 C E Lenz, Modeling the matrix of Albrecht Dürer, in Modeling and simulation Vol. 10, Part 5 (Pittsburgh, Pa., 1979), 21492161.
 T Lynch, The geometric body in Dürer's engraving 'Melencolia I', J. Warburg Courtauld Inst. 45 (1982), 226232.
 C H MacGillavry, The polyhedron in A Dürer's 'Melencolia I'. An over 450 years old puzzle solved?, Nederl. Akad. Wetensch. Proc. Ser. B 84 (3) (1981), 287294.
 D Pedoe, 'Ausz Disem wirdt vil Dings gemacht' : a Dürer construction for tangent circles, Historia Math. 2 (1975), 312314.
 J Peiffer, Le style mathématique de Dürer et sa conception de la géométrie, in History of mathematics (San Diego, CA, 1996), 4961.
 K Ulshöfer, Zur darstellenden Geometrie in der Sekundarstufe II. IV. Über die Zentralprojektion im Kupferstich 'Der heilige Hieronymus im Gehäus' von Albrecht Dürer, Praxis Math. 25 (5) (1983), 139150.
 K D Walton, Albrecht Dürer's Renaissance Connections between Mathematics and Art, The Mathematics Teacher 87 (1994), 278282.
Additional Resources (show)
Other pages about Albrecht Dürer:
 See Albrecht Dürer on a timeline
 Portraits of his father and mother
 Selfportrait at 13
 Selfportraits
 Portrait of Wolgemut
 Portraits of Agnes
 Trento
 Portrait of Frederick
 Nürnberg
 Self portrait
 Adam and Eve
 Life of the Virgin
 Melancholia
 Portrait of Maximilian
 Aachen
 Dürer's work on facial proportions
 Heinz Klaus Strick biography
Honours (show)
Honours awarded to Albrecht Dürer
Crossreferences (show)
 History Topics: Mathematical games and recreations
 History Topics: Mathematics and Architecture
 History Topics: Mathematics and art  perspective
 History Topics: The history of cartography
 Famous Curves: Durer's Shell Curves
 Famous Curves: Epicycloid
 Famous Curves: Epitrochoid
 Famous Curves: Hypocycloid
 Famous Curves: Limacon of Pascal
 Other: 2009 Most popular biographies
 Other: Most popular biographies
 Other: Using a computer to visualise change in biological organisms
Written by
J J O'Connor and E F Robertson
Last Update December 1996
Last Update December 1996