Honoré Fabri


Quick Info

Born
8 April 1608
Le Grand Abergement, Ain, France
Died
8 March 1688
Rome (now Italy)

Summary
Honoré Fabri was a French Jesuit who worked on astronomy, physics and mathematics.

Biography

Honoré Fabri's name sometime appears with the spelling Fabry, and sometimes in the Latin form Honoratus Fabrius. The first thing we must discuss is his date and place of his birth, since there appears to be considerable disagreement on this among historians. In [9] Lukens provides documents to support the date of Fabri's birth as 8 April 1608 and also the fact that he was born in Le Grand Abergement, a small town about 80 km northeast of Lyon. However other dates and places are commonly given, such as "Belley, near Lyon in 1607" in [12], and the most common "5 April 1607 in Virieu-le-Grand, Dauphiné" given, for example, in [1] and [6]. In fact Jules Duhem writes in [6] that Fabri was born near the beautiful park where Honoré d'Urfé wrote his novel Astrée, which is consistent with his claim that Fabri was born in Virieu-le-Grand. Lukens comments that he "cannot explain these discrepancies." Wherever Fabri was born, certainly Honoré d'Urfé was his godfather. Fabri's family were judges in the Valromey region, related to the Vaugelas family, and the most likely cause for the confusion over Fabri's place of birth is that he lived in Virieu-le-Grand when he was a child. He attended the Institute in Belley where he developed a love for science and showed himself quick-witted and resolute.

He entered the Jesuit Order on 18 October 1626 spending two years at Avignon. In the autumn of 1628 he entered the famous Collège de la Trinité in Lyon where he spent two years studying Scholastic Philosophy under Claude Boniel (1585-1666). Boniel had entered the Jesuit Order in 1604 and, after studying philosophy and theology at Avignon, taught there between 1615 and 1625. After teaching Fabri for two years in Lyon, Boniel returned to Avignon where he was appointed as Rector of the College. After completing his studies of Scholastic Philosophy at Lyon, Fabri taught grammar for two years (1630-32) at the College in Roanne. He was then sent to Rome where he began a theology course at the Collegio Romano before returning to Lyon to continue his study of theology, completing his studies in 1636. He had been ordained in 1635.

His first position was in a newly-opened Jesuit college, namely as professor of philosophy at the College in Arles, where he taught from 1636 to 1638. He made a brilliant start to his career, teaching logic, philosophy and natural philosophy in Arles. In his lectures he taught about the circulation of blood round the body, a discovery he had made independently of William Harvey who had published his findings De Motu Cordis in 1628. However, later in life Fabri wrote (see [7]):-
... at no time did I ever say that the circulation of the blood had been first discovered by me.
After leaving Arles, Fabri continued teaching in Jesuit colleges. He was professor of logic in Aix-en-Provence for a year from 1638 during which time he became the leader of a group of scientists and became a life-long friend of Pierre Gassendi. For six years from 1640, Fabri was professor of logic and mathematics at the Collège de la Trinité in Lyon. There he taught logic, mathematics, natural philosophy, metaphysics and astronomy [1]:-
This period was the most brilliant and fruitful of his life; several books that he published later were developed from lectures delivered during this time. Fabri was the first of many famous professors produced by the Collège de la Trinité: his students included Pierre Mousnier, who later edited many of his teacher's lectures; the mathematician François de Raynaud, who became famous through his friendship with Newton; Jean-Dominique Cassini; and Philippe de La Hire. Claude Dechales and the astronomer and mathematician Berthet were also members of this circle. Among these scholars and the two Huygenses (father and son), Leibniz, Descartes, Mersenne, and others an active correspondence developed.
The logic lectures he gave in Lyon were published by his student Pierre Mousnier in 1646 as Philosophiae tomus primus , and the lectures he gave on natural philosophy were published in the same year as Tractatus physicus de motu locali . In this latter work he uses the parallelogram law for forces, correctly applying it to deduce the law of reflection and the motion of a body acted on simultaneously by two forces. In his philosophy book he included a section Methodus meditationis which contains a list of twenty study tips which are discussed in [18]. Peter Dear writes:-
Most are instructions of some kind, usually just a short sentence. The most common phrases in them are of this sort: "Examine diligently," "Interrogate yourself," "Deliberate," "Consider attentively," ... The most interesting of these precepts on meditating, however, come at the end of the list: "Seventeenth. You learn to separate in your mind all causes, to segregate each one from the others, to consider them all separately; that is, so that everything, as if stripped of its coverings, appears more distinctly." "Eighteenth. Consider attentively whatever you take as a supposition, since it commonly happens, that from a mistaken supposition not having been anticipated, every error arises; in this regard, it will be of benefit to examine each supposition separately. ..." "Twentieth. ... to philosophise is to meditate rightly: moreover, indeed, to have without interruption the abstracted and estranged mind of a sleeper."
These works did not find favour within the Jesuit Order so he was removed from teaching and sent in 1646 to a Jesuit residence at Fréjus, Var. Later that year, on 12 September, he was sent to Rome to take up an administrative position. Gabriel Thibaut wrote to his fellow Minim brother Marin Mersenne in June 1648 saying that the Jesuit Fathers were doing everything they could to expel Fabri from the Jesuit Order, having unsuccessfully tried to prevent publication of his lectures. In 1648, however, Pierre Mousnier was able to publish Fabri's metaphysical lectures which he had given at Lyon, under the title Metaphysica demonstrativa. It is reasonable to ask why his writings were seen to be 'dangerous' by Fabri's superiors. The main reasons appear to be Fabri's rejection of Aristotle's physics and his belief that space and time were composed of indivisibles. Carla Palmerino gives an example one of Fabri's non-Aristotelian views [32]:-
Fabri was convinced of the superiority of mathematics over all other sciences and went so far as to postulate that it was necessary to apply the axiomatic method not only to physico-mathematical disciplines, but to all of philosophy.
Although when Fabri was sent to Rome it was intended to be a temporary measure, he was soon assigned to St Peter's Penitentiary College which is better known as the Inquisition. In Rome Fabri met Michelangelo Ricci and this was to prove helpful to him. Despite being a member of the Inquisition, Fabri was unable to avoid religious problems himself and he was accused of believing the philosophy of Descartes. After spending a year back in Virieu-le-Grand in France in 1668/69, where he went to recover his health, he returned to Rome and was put in prison. His crime seems to have arisen from his study of Saturn's rings in 1660, a topic on which he became involved in a dispute with Huygens which ran for five years. In Eustachii de divinis septempedani brevis annotatio in systema Saturnium Christiani Hugenii (1660) (written anonymously) Fabri wrote:-
As long as no strict proof for the motion of the earth has been found, the Church is competent to decide the issue. If the proof, however, is found, then there should be no difficulty in explaining that the relevant passages in the Bible must be interpreted in a more symbolic sense.
This does not seem an extreme statement but it resulted in his prison sentence. Through Michelangelo Ricci, he had made the acquaintance of the Grand Duke Leopold II and the Grand Duke saw that Fabri was released from prison after serving 50 days.

We have seen that Fabri worked on astronomy, physics and mathematics and, in particular, we have mentioned his dispute with Huygens over Saturn's rings. Fabri did not believe that Saturn had a ring system but rather he postulated in his 1660 work that Saturn had two massive but dark satellites close to the planet and two small but bright satellites farther out. After five years of argument with Huygens, he admitted his error, apologised to Huygens, and adopted Huygens' theory. Fabri also originally had an incorrect theory concerning the satellites of Jupiter which he believed moved so as to always be behind the planet, arguing that if they crossed in front of the planet, then they should be seen against the disk and also a shadow cast by the satellite should be visible on the surface of the planet. He was forced to abandon his theory when shadows were observed. Another significant contribution to astronomy is his discovery of the Andromeda nebula.

Fabri developed a theory of tides which was based on the action of the moon. He also studied magnetism, optics and calculus. In calculus he was closer to Newton than to Cavalieri but his notation was cumbersome. His work on the calculus appeared in his major mathematical publication Opusculum geometricum de linea sinuum et cycloide (1659). He wrote this work under the pseudonym ' Antimus Farbius' because of the controversy about the cycloid which arose following Pascal's challenge. In this work Fabri computed
xnsinxdx\int x^{n}\sin x dx, and sinnxdx\int \sin^{n}x dx
and other integrals. His other mathematical writings include Synopsis geometrica (1669) and its appendix De maximis et minimis in infinitum propositionumcenturia , written ten years earlier. Fabri had a major influence on the development of the calculus through Leibniz. The two agreed over much of their mathematical and physical ideas, although they disagreed over theological matters. For example Leibniz criticised Fabri's Summula theologica in quâ quaestiones omnes alicujus momenti, quae Scholasticus agitari solent, breviter discutiuntur ac definiuntur (1669) writing (see [4]):-
I have been surprised by seeing one day in Father Honoré Fabri's (one of the ablest members of his order) 'Summula theologica' that he denied (as still do some theologians), regarding divine matters, the great principle that states: two things that are equal to a third are equal to each other.
Fabri certainly proposed that one had to treat theological matters differently from physical ones, particularly when dealing with Christian ideas such as the Trinity.

Views of Fabri's importance have varied considerably over time. He was viewed as a leading scientist by his contemporaries and elected to the Accademia del Cimento in 1657, the year the Academy was founded. John Heilbron writes [26]:-
Leibniz placed him with Galileo, Torricelli, Steno and Borelli for his work on elasticity and the theory of vibrations, and alone with Galileo for his efforts to 'rationalise experimental kinematics'. ... Mersenne rated him 'a veritable giant in science' ... the Accademia del Cimento esteemed Fabri, whose 'candor makes his learning additionally agreeable'. ...' I think the keenness of this priest's mind is truly admirable,' [J A Borelli] wrote to Leopold, 'as well as the great learning, frankness, and conviction with which he treats innumerable difficult and recondite matters'.
However, over the years historians have tended to be critical of Fabri's contributions, seeing him as a defender of traditional theories rather than an advocate for the new physics which was flowering in his time. One must, of course, understand the difficult position that Fabri was in, for his views, which are seen as too traditional by many historians, were sufficiently daring to see him continually in trouble with the Church. As Knowles Middleton writes in [27] concerning Fabri's Dialogi physici, in quibus de motu terrae disputatur, marini aestus nova causa proponitur, necnon aquarum et mercurii supra libellam elevatio examinatur (1665):-
The book gives the distinct impression that its author was really highly sympathetic to the new cosmology, and it may be that his position as a Papal Penitentiary influenced him to appear to fight a rearguard action in defence of the old theories.
Again Domenico Meli writes in [29]:-
... it appears that Fabri was highly unpopular both among the most conservative Jesuits, who saw him as dangerously close to novelties, and among the neoterics and especially Borelli, who saw him as a champion of the old philosophy trying to contrast them on their own ground.
Michael Elazar had recently done much to restore Fabri's reputation. For example, he discusses Fabri's theory of impetus in [7]. This is an area where previously historians, such as Alexandre Koyré in Études Galiléennes (1939), have tended to be highly critical of Fabri:-
[Fabri's] concept of impetus should not be seen as a backward device serving to fight the New Science, but should rather be deemed a sophisticated tool for assimilating it. In particular, regarding Fabri's concept of impetus as alien to inertia is simply wrong; for Fabri carefully redefined the concept of impetus, as well as the causal connection between impetus and motion, so as to be able to smoothly assimilate the basic idea behind "inertia", i.e. the tendency of a moving and unhindered object to continue its motion with uniform velocity and along a straight line ad infinitum. Fabri, eager to adopt linear conservation of motion - officially and explicitly published only in Descartes' 'Principia' (1644) - achieved this by defining (in 1646) impetus as a formal (rather than efficient) cause of motion, thus evading the argument Koyré would raise (three centuries after Fabri) against the compatibility of impetus and inertia. In order to ensure the linearity of the motion conserved, Fabri followed Giovanni Battista Benedetti, against the medieval impetus tradition, in limiting the action of impetus to straight lines. Moreover, although Fabri - unlike Descartes before him and Newton after him - did not define linear conservation of motion as a law of nature, nevertheless it was an integral part of what could be described as his "inertial framework", which was expressed also by the analysis of natural phenomena in vacuum, by support for Galileo's claim concerning the universal velocity of fall in the void, and by the abstraction of air resistance from the analysis of motion. Fabri actually used linear conservation of motion within the discrete analysis he developed as a "mirror image" of Galileo's (continuous) treatment of free fall, and took pains to prove that this discrete analysis - a product of the seventeenth, not the fourteenth, century - converges (assuming infinitesimal instants) to Galileo's famous "odd numbers" law. Fabri is indeed far from being an opponent of vacuum, and contrary to Buridan and many of his contemporaries never denies motion devoid of any resistance, i.e. motion in the void. Rather, Fabri claims that the (full) universe is immersed in an infinite vacuum, and passionately defends the scientific validity of the concept of void, both by sharply attacking the "paradoxes" formulated by Aristotle to prove the "absurdity" of the concept of void, and by severely criticizing Descartes' anti-vacuist reduction of matter to extension.


References (show)

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Additional Resources (show)


Written by J J O'Connor and E F Robertson
Last Update January 2012