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Born: 13 June 1555 in Padua, Venetian States (now Italy)
Died: 11 February 1617 in Bologna, Papal States (now Italy)
Giovanni Magini's father, Pasquale Magini, was a citizen of Padua. Nothing else appears to be known concerning his father or the rest of his family. Magini completed his education at the University of Bologna, receiving a doctorate in philosophy in 1579. He published Ephemerides coelestium motuum, a major treatise on astronomy, in 1582 and in the following year he published an Italian version of the original Latin text.
Egnatio Danti held the chair of mathematics at the University of Bologna and, following his death in October 1586, a competition was announced to fill the chair. Magini competed for the chair as did, among others, Galileo. One might think that there would be no competition once Galileo applied for a chair but Magini was nine years older than Galileo and seen as a much safer appointment; he was appointed in 1588 and held the position for the rest of his life. Galileo had revolutionary ideas while Magini's ideas were original but based on the established world-view. In Novae coelestium orbium theoricae congruentes cum observationibus N Copernici (Venice, 1589), Magini writes about "absurd hypotheses, such as Copernicus imagined". He writes (see for example [10]):-
It seems to Copernicus, against all truth and philosophy, that the earth moves, while the sun and the eighth sphere are motionless. ... Copernicus' opinion about the motion of the earth is erroneous. [His hypotheses] are attacked by nearly everybody for being too far away from the truth and absurd.
The book does contain, however, Magini's own version of an Earth-centred theory which was seen at the time as an impressive development. He proposed a system consisting of eleven rotating spheres and soon gained international coverage for his ideas with them being explained to an English audience in Thomas Blundeville's treatise The Theoriques of the Seuen Planets of 1602.
In 1592 Magini published De Planis Triangulis which explains the use of quadrants in astronomy and in surveying, in particular describing details of calculations and measurements which could be performed with a quadrant. In fact several quadrants have survived with an inscription involving Magini's name. Ilaria Meliconi describes a quadrant bearing the inscription "Quadrant of the General Planisphere of Giovanni Antonio Magini" and asks [9]:-
What can be inferred from the appearance of his name on this quadrant? Are we to believe that he had the skill to be the maker of such a fine and elaborate instrument? If not, was he the designer, or just the original owner of the quadrant?
Two quadrants exit, one with the inscription "Giovanni Antonio Magini of Padua designed this in Bologna in the year 1592", the other is dated 1595 and inscribed "Giovanni Antonio Magini Professor of Mathematics in the University of Bologna had this made". We also note that in the Preface to De Planis Triangulis, Magini mentions writing an instruction book and an instrument: "if I had also made the instrument to use together with the book, I would have had it made in brass." Also in 1592 Magini published Tabula tetragonica, then in 1596 published a commentary on Ptolemy's Geographia.
The chair of mathematics at Bologna saw Magini receive a salary of 1000 lire which was doubled to 2000 lire in 1597. However, he also acted as a private tutor and received extra income from this type of work. Of course, the professor of mathematics was only going to tutor the very top people and indeed he did just this acting as a tutor to the sons of the Duke of Mantua beginning in 1599. As well as teaching the boys mathematics, Magini was astrologer to the Duke. In 1599-1600, Magini tutored Ferdinando Gonzaga (1587-1626), the son of Vincenzo I Gonzaga, Duke of Mantua, and his brother, giving instruction on Aristotle's Mechanics. In [5] we learn a lot about the interaction between Magini and Ferdinando over many years as well as understanding a little about Magini's interest in astrology:-
Magini had continued to keep in touch with Ferdinando and rejoiced at his becoming a cardinal [in 1607], commenting at that time upon his unusual erudition; in 1609 he had sent him his own mathematical treatise (on spherical trigonometry) recalling Ferdinando's deep understanding of the subject; early in 1611 he sent another work, his treatise on the partispherical mirror. In 1611-12 a one-sided part survives of what must have been a quite regular correspondence, demonstrating that Ferdinando was engaged on alchemical experiments under Magini's direction. Magini sent particulars of an experiment to him at Mantua in April 1611, and wrote that he had transcribed many more notes for him, but that a German (Martin Horkey), whom he had sent away on Galileo's insistence, had taken them. Ferdinando was evidently well equipped with laboratory apparatus, for Magini asked to be lent some of his glass vessels or instruments. In June the same year, when the Cardinal was at Florence and unwell, Magini wrote to cheer him up with the news that he had found at Venice some new books on the subject, including Philip Müller, 'Miracula Chymica et Mysteria Medica' (first edition, Wittenberg 1611) which he urged Ferdinando also to buy. In February 1612, when Ferdinando was in Paris, Magini wrote of an even more exciting find, some rare books by the thirteenth-century hermeticist Ramon Llull; even Magini dropped an admission that the attribution to Llull might be false, nevertheless he confidently quoted a passage in his letter and asked Ferdinando to check whether an image of Christ and a cross allegedly made from alchemical gold were still in Notre-Dame. Back in Rome in the summer of 1612 Ferdinando evidently continued his alchemical experiments. Magini urged him to persevere in an exercise to extract the 'menstruo vegetabile' from red wine, which could be very well done in Rome, since the wines there were darker and stronger. Evidently the wine had to remain for forty-five days in a warm bath of putrefied water or horse shit. In another letter, promising more transcripts from the pseudo-Llullian text, Magini insisted on the value of this experiment to distil 'solfere vegetabile' from wine; for it would equip Ferdinando with the key to carrying out still greater transmutations.
This seems the appropriate place to say a little more about Magini's contributions to astrology. He published De astrologica ratione in 1607, a work in which he discusses the uses of astrology in medicine. He was also a strong believer in metoposcopy, the art of deducing someone's personality from the pattern of the lines across their forehead, and he published a work on that topic.
In 1606 Magini published an extremely accurate set of trigonometric tables. This mathematical work is typical of all of Magini's mathematical contributions which are all highly practical; they include treatises on the geometry of the sphere, on applications of trigonometry, and on calculating devices of his own invention. He had triumphed over Galileo in the competition for the chair at Bologna but he also strongly opposed Galileo's views [11]:-
During the Easter holidays of 1610, Galileo stopped in Bologna on his way from Padua to Florence to stay at the house of his colleague Giovanni Antonio Magini .... Many in Bologna, including Magini, were sceptical of Galileo's discoveries, and therefore an opportunity presented itself for a demonstration. In the presence of a number of learned men, Galileo showed his telescope and let others observe earthly and celestial things through it. They agreed that for earthly objects the instrument performed as promised but that in the heavens it was not reliable.
The reason the telescope was believed to be unreliable was that when it was turned on certain stars they appeared as double and another star was seen to have four small stars nearby.
Magini was also interested in mirrors, both in their theory, publishing a treatise on the theory of concave spherical mirrors, and in their practical manufacture. He presented large concave spherical mirrors to Jacopo Boncompagni (son of Pope Gregory XIII and Prince of Sora), to Cardinal Alessandro Farnese (son Pier Luigi Farnese, Duke of Parma), and to the Holy Roman Emperor Rudolf II. The Duke of Mantua paid him a handsome sum for one of the mirrors but there was a long battle between Magini and Rudolf II since Magini felt he had been promised payment for the mirror which he did not receive.
We have not yet mentioned the work for which Magini is best known namely his map of Italy. On 15 March 1595 Magini published a map of the Bologna region and wrote in the dedication (see for example [4]):-
Inasmuch as I desire to publish a complete atlas of Italy, showing, besides the provinces, the territories of each city, I have decided to publish first this map of the territory of Bologna ...
Let us quote from [4] which provides a good summary of how Magini's map of Italy developed from that point:-
[The Bologna map] was soon followed by other maps, and in two years he had the greater part of the maps of North Italy already engraved, and some of them published. They were apparently sold separately and are extremely rare in this state; for, being unable to obtain material for his maps of Southern Italy, he started correcting and revising what he had already done, publishing a new map of the territory of Bologna in two sheets in 1599. At last, in 1602, he received materials for the formation of the maps of the kingdom of Naples; and in 1604 nearly the whole atlas was ready, and an index of it appeared in the Latin edition of his astronomical work, the 'Tavole del Primo Mobile'. But now he was unable to obtain engravers, owing to a series of misfortunes, and began a lengthy descriptive commentary which was to accompany the maps, but which was never published, and is for the most part lost. At last, in 1607, he secured the services of one Benjamin Wright, who, in the following year, engraved for him a large map of Italy in six sheets. Wright, however, was something of a drunkard, and pawned several of the plates which he had done: and it was only in 1613 that the engraving of the plates was finished, after a good deal of further revision. The printing at last began in Bologna at the end of 1616; but Magini's death delayed the appearance of the work until 1620, when his son Fabio, who was not fifteen when his father died, finally brought it out. He dedicated it to Ferdinando Gonzaga, a member of the ducal family of Mantua, with which Giovanni had been in close personal relations, and who indeed had procured him a great deal of manuscript material from the governments of the various states of Italy.
Almagià, in [1], argues that Magini's maps made a considerable contribution to modern geography:-
Previous errors both in latitude and longitude are reduced; the political boundaries and physical features are far better indicated than ever before; and a number of names have been added. It was indeed a long time before Magini's work was superseded.
Finally, let us note that one of the main sources of biographical information about Magini is his correspondence with leading scientists which was edited and published by Antonio Favaro in 1886 (see [3]).
Books:
Articles:
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دراسة يابانية لتقليل مخاطر أمراض المواليد منخفضي الوزن
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اكتشاف أكبر مرجان في العالم قبالة سواحل جزر سليمان
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اتحاد كليات الطب الملكية البريطانية يشيد بالمستوى العلمي لطلبة جامعة العميد وبيئتها التعليمية
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