Born: 20 December 1494 in Briançon, France
Died: 8 August 1555 in Paris, France
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Oronce Fine was born in the Dauphiné, a region in southeastern France. At the time of his birth this was a semi-independent region of France, so called since it was ruled by the eldest son of the King of France who was given the title of dauphin. Briançon, the town of Fine's birth, was in the Dauphiné so Fine wrote under the Latin name Orontius Finaeus Delphinatus, the last of these names indicating that he came from the Dauphiné. We are certain of the Latin form of Fine's name since this name is on his written works, but we are less certain of the French form of his name "Fine". Two other forms are possible, Finee or Finé but experts on the Dauphiné are clear that Fine is the form that one would expect in that region and so we have opted for this version.
Fine's father was François Fine who was a medical doctor, educated at the University of Paris, and practicing in Briançon at the time that his son was born. François Fine was certainly at the University of Paris in 1472-73 since copies of lecture notes of a course on Aristotle made by him in that year still survive. Fine's grandfather, Michel Fine, had also been a medical doctor and wrote a text on the plague which in fact Oronce Fine, the subject of this biography, later published. Oronce Fine was brought up in Briançon until his father died after which he was sent to Paris where he was cared for by Antoine Silvestre. At the time Silvestre was a regent at the quasi-monastic Collège de Montaigu, where John Calvin studied few years later in 1523, and Silvestre later held the same position at the Collège de Navarre. Fine was educated at the University of Paris obtaining a medical degree from the Collège de Navarre in 1522. He spent a while in prison in 1518 before completing his degree and again in 1524 he spent some time in prison. Whether he worked on a sundial while in prison is uncertain but he certainly constructed an ivory sundial in 1524 which still exists. Despite his fascination with the theory of instruments, this may well be the only one he actually constructed.
Before being awarded his medical degree, Fine had edited mathematics and astronomy books for a Paris printer. Among the texts which he edited were Peurbach's Theoricae Novae Planetarum, which presented Ptolemy's epicycle theory of the planets, and Sacrobosco's Tractatus de Sphaera, a book on astronomy in four chapters. The first book which Fine authored himself was published in 1526 and it was on the equatorium, an instrument which Fine was very interested in and which he worked on throughout his life, writing four further texts about it. The instrument can be used to determine the positions of the planets. Fine was appointed to the chair of mathematics at the Collège Royal in Paris in 1531 and he taught there from this time until his death. The Collège Royal had been founded in 1530 by Françios I (Francis I), a patron of the arts and scholarship, who was King of France from 1521 to 1544. Also known as the Collegium Trilinguae (College of Three Languages), it still exists today as the Collège de France.
The major work which Fine produced at almost exactly the time that he was appointed to the chair of mathematics at the Collège Royal was known as Protomathesis. It is a slightly strange work for it is in four parts with the parts having more than one volume. In some sense it looks more like a collection of separate works, for each part has a separate title page of its own with dates usually a year or two earlier than the whole work which appeared in 1532. Despite it appearing that volumes of this work were published separately, it is unlikely that this was the case. The first part deals with arithmetic, particularly with whole numbers, common fractions and sexagesimal fractions. This latter topic was important for the later astronomy parts of the Protomathesis. The second part covers geometry and is in two volumes. It begins with setting geometry up in a similar axiomatic way to Euclid's Elements, but then it goes on to more practical considerations of measuring length, height, surface area, and volumes. In this part Fine uses 22/7 for π in calculating with circles. The second of the geometry volumes covers topics in trigonometry but only at an elementary level.
The third and fourth parts of the Protomathesis are on astronomy and astronomical instruments. The third part is an elementary introduction to astronomy and is clearly intended as a fairly low level teaching text rather than a research monograph. Many sundials and quadrants are described in the final volume of the fourth part.
As we have noted, Fine gave the value of π to be 22/7 in the geometry part of the Protomathesis (which is dated 1530). However he claimed that (222/9)/7 was a better approximation in a work which appeared in 1544. Later he gave 47/15 and, in De rebus mathematicis (published posthumously in 1556), he gave 311/78. Now, computing approximate values, we have
π = 3.141592654,We see, therefore, that Fine's values of (222/9)/7 and 47/15 are both worse than 22/7, but his final attempt of 311/78 is actually better. These attempts to find better approximations to π are muddled up with Fine's attempts to square the circle. He gave several, of course fallacious, proofs, and his contemporaries were quick to point out the errors he had made. As Poulle writes in :-
22/7 = 3.142857143,
(22 + 2/9)/7 = 3.174603175,
47/15 = 3.133333333,
3 + 11/78 = 3.141025641
It must be acknowledged that Fine's arrogance about his own accomplishments undoubtedly made his errors of logic all the more intolerable to his opponents.Like many mathematicians of his time Fine was an expert on fortifications and he worked on fortifications of Milan. His suggestion that eclipses of the moon could be used to determine the longitude of places was an important idea which was relevant to his other major contribution, namely cartography. Fine was born two years after the discovery of America and when he was three years old Vasco da Gama sailed round Africa to India. he lived through a time when maps were of the utmost importance to the European powers. It was natural therefore that Fine would be encouraged to use his mathematical skills in this task. In making maps, Fine had two distinct sources of information, one being the recently rediscovered maps of Ptolemy and others from that period, the other being the newly reported discoveries from his own time. Fine invented a map projection and, around 1519, he produced a map of the world using his heart-shaped projection. This was around the time that Magellan was sailing round the tip of South America. Fine also produced maps of France in 1525 and on another map of the world which he produced in 1531 with a double heart-shaped projection the name "Terra Australis" appears for the first time. It is only in recent years, however, that this map has achieved a certain celebrity status as we now describe.
Charles Hapgood was a teacher who, in 1956, got his students to undertake a project studying ancient world maps. Hapgood was particularly excited by Fine's 1531 map of the world and he began to develop rather amazing theories about the map. These theories were published in Hapgood's Maps of the Ancient Sea Kings in 1965. What struck Hapgood when he examined Fine's world map was that there was a fairly accurate representation of Antarctica on the map. It was drawn in 1531 yet Antarctica was not discovered until 1820. How was this possible? The fairly accurate representation of Antarctica, however, shows rivers and the Ross Sea which cannot be seen for the thick sheets of ice which cover the continent. Hapgood's theory that Fine was in possession of an ancient map, drawn at a time when Antarctica was not covered in sheets of ice, seems too ridiculous to discuss. However, we are still left with the problem of how Fine knew that Antarctica was there. The most likely is the following. It had long been believed that there had to be a balance between the land masses of the northern hemisphere and the southern hemisphere so some land mass in the south was necessary. Leonardo da Vinci, for example, produced a globe with a southern land below Africa more than twenty years before Fine drew his map. The northern coast of Australia had probably been visited by Europeans by this time and the northern coast of Fine's Antarctica is probably drawn from such representations. There may also have been reports which did indeed represent the sighting of Antarctica and Fine put the reports together to produce a half real, half guessed, map. Of course this explanation puts the fact that Fine's Antarctica looks quite close to the actual Antarctica down to just good luck.
What evidence do we have for the above suggestion? On another map of about 1513 (also investigated by Hapgood) the following is written on land in this region:-
It is related by the Portuguese that on this spot, night and day are, at their shortest period, of two hours duration, and at longest phase, of twenty-two hours. But the day is very warm and in the night there is much dew.The first sentence here suggests that Portuguese explorers had indeed reached Antarctic latitudes. The second sentence suggests a climate more like the north coast of Australia. Certainly this is evidence of Antarctica being confused with Australia and we suggest that Fine's 1531 map suffers from a similar confusion.
Poulle  sums up Fine's contributions as follows:-
Fine's scientific work may be briefly characterised as encyclopaedic, elementary, and unoriginal. It appears that the goal of his publications, which range in subject from astronomy to instrumental music, was to popularise the university science that he himself had been taught.
Article by: J J O'Connor and E F Robertson
List of References (6 books/articles)
A Poster of Oronce Fine
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Mathematicians born in the same country
Honours awarded to Oronce Fine
(Click the link below for those honoured in this way)
|1.||Lunar features||Crater Orontius|
|2.||Paris street names||Square Oronce Fine (5th Arrondissement)|
Cross-references in MacTutor
- History Topics: Longitude and the Académie Royale
- History Topics: Squaring the circle
Other Web sites
- Dictionary of Scientific Biography
- The Galileo Project