The Essential Galileo (3 page)
The Assayer
is written in the form of a letter to Virginio Cesarini (1595â1624), chamberlain to Pope Urban VIII, member of the Lincean Academy, poet, and friend of Galileo's. Additionally, it is structured as a series of long quotations from the
Balance
, each followed by a lengthy critical analysis. The controversy with Grassi did not end then, for in 1626 the latter published in Paris an even more voluminous work entitled
Comparison of the Weights of the Assayer and the Balance
. However, Galileo felt no need for a further reply.
There were several astronomical and philosophical issues underlying this controversy. One was whether comets were located in the earth's atmosphere (as Aristotle had claimed) or in the heavens (as Tycho Brahe had argued based on his study of the comet of 1577). A related question was whether or not the heavenly location of comets implied the existence of heavenly changes and so further undermined the earth-heaven dichotomy. Another issue was whether the precise trajectory followed by the third comet of 1618 could be explained in a geostatic geocentric theory, or whether the explanation had to include the Copernican hypothesis that the earth possesses an annual heliocentric motion. There was also the question whether the Tychonic system of the world was correct; this was the arrangement according to which the planets do revolve around the sun, but the sun (together with the planetary system) revolves both diurnally and annually around the motionless central earth. And there were more general issues: whether natural science should try to reduce secondary qualities, e.g., colors and sounds, to primary qualities, e.g., position and motion (as the corpuscular or atomistic worldview claimed); and what is the relative role of authority and independentmindedness in scientific inquiry. Galileo and Grassi disagreed on almost all these questions. Even when they happened to agree (e.g., on the heavenly location of comets), they disagreed about the manner of arriving at the conclusion.
Galileo's
The Assayer
is thus not only an explicit discussion of comets and scientific method and an explicit critique of the Tychonic system, but also an implicit defense of the banned Copernican system.
[§0.9] The election of Barberini as Pope Urban VIII, and his enthusiasm for
The Assayer
, encouraged Galileo to pursue the Copernican research program. So Galileo went to work to write the book on the system of the world which he had conceived earlier and to adapt its form to the new restrictions.
Thus, he wrote the book in the form of a dialogue among three characters who discuss all the cosmological, astronomical, physical, and epistemological arguments on both sides of the questions; but no biblical or theological arguments are critically examined. This
Dialogue
was published in 1632 in Florence, and its key thesis is best stated as follows: the arguments and evidence in favor of the geokinetic theory are much stronger that those in favor of the geostatic view, and in that sense the earth's motion is much more probable than geostaticism. When so stated, the thesis is successfully established. In the process, Galileo managed to incorporate into the discussion the new telescopic discoveries, his conclusions about the physics of moving bodies, a geokinetic explanation of the tides, and various methodological reflections. From the viewpoint of the ecclesiastic restrictions, Galileo must have felt that the book did not “hold” the theory of the earth's motion because it was not claiming that the geokinetic arguments were conclusive; that it was not “defending” the geokinetic theory because it was merely a critical examination of the arguments on both sides; and that it was a hypothetical discussion because the earth's motion was being presented as a hypothesis that happened to be better than the alternative.
However, Galileo's enemies raised all kinds of charges against the book. One was that the book did not treat the earth's motion as a hypothesis, because it did not regard it merely as a convenient instrument of calculation and prediction, but also as a real possibility; that is, the proposition that the earth moves was regarded as a description of physical reality that could be true or false, even if one could not yet be sure as to which was the case. Another charge was that the book defended the earth's motion because the arguments against it were criticized but the arguments for it were favorably presented. Both of these points involved an alleged violation of the decree of the Index and of Bellarmine's warning. But there was a third charge: that the book violated a special injunction which Galileo had been given in 1616 and which prohibited him from discussing the earth's motion in any way whatsoever; a document reporting on this special injunction had been found in the file of the earlier Inquisition proceedings of 1615â16. Thus Galileo was summoned to Rome to stand trial.
After various delays, Galileo finally arrived in Rome in February 1633, although the proceedings did not begin until April. At the first hearing, Galileo was asked about the
Dialogue
and the events of 1616. He admitted receiving from Bellarmine the warning that the earth's motion could not be held or defended, but only discussed hypothetically. He denied receiving a special injunction not to discuss the topic “in any way whatever,” and in his defense he introduced a certificate he had obtained from Bellarmine in 1616, which only mentioned the prohibition to hold or defend. Galileo also claimed that the book did not defend the earth's motion, but rather suggested that the favorable arguments were inconclusive, and so did not violate Bellarmine's warning.
The special injunction must have surprised Galileo as much as Bel-larmine's certificate did the inquisitors. In fact, it took three weeks before they decided on the next step. The inquisitors opted for some out-of-court plea bargaining: they would not press the most serious but most questionable charge (violation of the special injunction), but Galileo would have to plead guilty to a lesser but more provable charge (transgression of the warning not to defend Copernicanism). He requested a few days to devise a dignified way of pleading guilty to the lesser charge. Thus, at later hearings, he stated that the first deposition had prompted him to reread his book; he was surprised to find that it gave readers the impression that the author was defending the earth's motion, even though this had not been his intention. He attributed his error to wanting to appear clever by making the weaker side look stronger. He was sorry and ready to make amends.
Although the authorities accepted this confession of guilt, they were unsure about Galileo's denial of a malicious intention. Thus, in accordance with standard practice, they decided to subject him to an interrogation under the verbal threat of torture. This occurred on June 21, and the transcript indicates that Galileo was threatened with torture but was not actually tortured, and that he was willing to be tortured rather than admit his transgression to have been intentional (thus vindicating the purity of his intention).
The trial ended on 22 June 1633 with a harsher sentence than Galileo had been led to believe he would receive. The verdict found him guilty of a category of heresy intermediate between the most and the least serious, called “vehement suspicion of heresy”; the objectionable beliefs were the cosmological thesis that the earth moves and the methodological principle that the Bible is not a scientific authority. Thus he was forced to recite a humiliating “abjuration.” And the
Dialogue
was banned.
The sentence also states that he was to be held in prison indefinitely. However, this particular penalty was immediately commuted to house arrest. Accordingly, for about one week he was confined to the Villa Medici, a sumptuous palace in Rome belonging to the Tuscan grand duke. Then for about five months he was sent to the residence of Siena's archbishop, who was a good friend of Galileo's. Finally, in December 1633 he was allowed to live in seclusion at his own villa in Arcetri, near Florence.
One of the ironic results of this condemnation was that, to keep his sanity, Galileo went back to his earlier research on motion, organized his notes, and five years later published his most important contribution to physics, the
Two New Sciences
(1638). Without the tragedy of the trial, he might have never done it. This book was written in the form of a dialogue among the same characters (Salviati, Sagredo, and Simplicio) who appeared in the earlier
Dialogue
, with the addition that at various points in the discussion Salviati reads from the manuscript of a treatise on motion written by a so-called Academician; this is a reference to Galileo himself, who was proud of being a member of the Lincean Academy.
Galileo died in Arcetri in 1642, assisted and surrounded by his son Vincenzio and his disciples Vincenzio Vivani and Evangelista Torricelli.
1.
Einstein 1954, 271; Hawking 1988, 179; 1992, xvii.
2.
Here I am adapting Gingerich's (1982) eloquent formulation.
3.
Here, I overlook a fourth aspect, which cannot be appreciated in translation. That is, Galileo also happened to be one of the greatest writers in the (800-year) history of the Italian language, and his writings can be appreciated from the literary and aesthetic point of view.
4.
For more details on this controversy, see Drake 1978, 169â79, and 1981; Biagioli 1993, 159â209; Camerota 2004, 227â38.
5.
Galilei 1890â1909, 4: 35; cf. Camerota 2004, 230.
6.
For more details on the sunspots controversy, see Drake 1978, 179â213; Camerota 2004, 238â59; Biagioli 2006, 135â217; Reeves and van Helden forthcoming.
7.
For more details on the comets controversy, see Drake and O'Malley 1960; Drake 1978, 263â88; Biagioli 1993, 267â312; Camerota 2004, 363â98.
Chronology of Galileo's Career and Aftermath
| 1543Â Â Â | Polish astronomer Nicolaus Copernicus publishes his book On the Revolutions of the Heavenly Spheres; he dies the same year. |
| 1545Â Â Â | The Catholic Church convenes the Council of Trent to deal with the Protestant Reformation, and the Catholic Counter- Reformation begins; the Council will not conclude its work until 1563. |
| 1564Â Â Â | 15 February: Galileo is born in Pisa, which is part of the Grand Duchy of Tuscany ruled by the House of Medici. |
| 1574Â Â Â | Galileos family moves to Florence, the capital of the Grand Duchy. |
| 1581Â Â Â | Galileo enrolls at the University of Pisa in medicine and studies mathematics privately. In 1585, he leaves without a degree. |
| 1589Â Â Â | Galileo becomes professor of mathematics at the University of Pisa, where he teaches for the next three years. While there, he writes a work On Motion but does not publish it. |
| 1592Â Â Â | Galileo leaves Pisa and becomes professor of mathematics at the University of Padua, which is part of the Republic of Venice. |
| 1593Â Â Â | Galileo writes a Treatise on Fortifications for the use of his students, but does not publish it. |
| 1594Â Â Â | Galileo finishes writing a treatise on practical Mechanics begun the previous year; again, it is for student use and is not published. |
| 1597Â Â Â | Galileo writes, again for student use and without publishing it, a traditionally oriented Treatise on the Sphere, or Cosmography. |
| 1600Â Â Â | Apostate Dominican friar Giordano Bruno is convicted of heresy and burned at the stake by the Inquisition in Rome. Galileo and his common-law wife, Marina Gamba, have a daughter named Virginia. |
| 1601Â Â Â | Danish astronomer Tycho Brahe dies. A second daughter, Livia, is born to Galileo and Marina. |
| 1604Â Â Â | Galileo is convinced of the truth of two laws of falling bodies and is attempting to derive them from some more fundamental principle: the law of squares, according to which the distance traversed by a freely falling body is proportional to the square of the time elapsed; and the law of odd numbers, according to which in free fall, the distances covered in successive equal times increase as the odd numbers from unity. |
| 1605Â Â Â | During the summer vacation, Galileo tutors the fifteen-year-old prince Cosimo II de Medici. |
| 1606Â Â Â | Galileo publishes in Padua a booklet entitled Operations of the Geometric and Military Compass, containing instructions on using an instrument of his own invention that makes rapid calculations to solve engineering and military problems. A son named Vincenzio is born to Galileo and Marina. |
| 1609Â Â Â | German astronomer Johannes Kepler publishes his New Astronomy, containing the first two of his famous three laws of elliptical planetary motion. February: Cosimo II becomes grand duke of Tuscany, after the death of his father Ferdinando I. June: Galileo claims to have arrived at several correct theoretical principles underlying the laws of falling bodies. Summer: Galileo builds his first telescope. Fall: He begins to observe the heavens with the telescope and to make various discoveries. |
| 1610Â Â Â | 13 March: Galileos Sidereal Messenger is published in Venice , describing his discovery of mountains on the moon, satellites of Jupiter, new fixed stars, and the stellar composition of the Milky Way and nebulas. 19 April: Kepler sends his Conversation with the Sidereal Messenger to Galileo, supporting the new discoveries. 10 July: Cosimo II de Medici appoints Galileo Philosopher and Chief Mathematician to the grand duke of Tuscany. Summer: Galileo observes Saturn as three-bodied, a puzzle that was only solved after his death when better observations showed Saturn to have rings. September: Galileo leaves Padua and moves permanently to Florence. Fall: Galileo observes the phases of Venus. |
| 1611Â Â Â | Kepler publishes in Frankfurt an account of his observations of Jupiters satellites, further supporting Galileo. 25 April: Galileo is made a member of the Lincean Academy. 13 May: The Jesuit Roman College holds a special meeting at which, in the presence of Galileo, Father Odo van Maelcote delivers a lecture praising The Sidereal Messenger. |
| 1612Â Â Â | Galileo publishes in Florence his Discourse on Bodies in Water, attempting to resolve a controversy with Aristotelian philosophers. |
| 1613Â Â Â | 22 March: Galileos History and Demonstrations Concerning Sunspots is published in Rome, sponsored by the Lincean Academy; it contains a collection of letters exchanged with German Jesuit astronomer Christoph Scheiner. 21 December: After his former pupil Benedetto Castelli reports that Galileos views have been criticized at the ducal court on scriptural grounds, Galileo writes a refutation of the argument that Copernicanism is wrong because it contradicts Scripture; the refutation is in the form of a private letter to Castelli. |
| 1614Â Â Â | 21 December: At the church of Santa Maria Novella in Florence , Dominican friar Tommaso Caccini preaches a sermon against mathematicians in general and Galileo in particular, on the grounds that they hold beliefs contrary to Scripture and so are heretics. |
| 1615   | January: Carmelite friar Paolo Antonio Foscarini publishes in Naples a book entitled Letter on the Opinion, Held by Pythagoreans and by Copernicus, of the Earths Motion and Suns Stability and of the New Pythagorean World System; it argues that Copernicanism is compatible with Scripture and probably true. 6 February: Christoph Scheiner sends to Galileo, together with a courteous letter, a copy of a book (Mathematical Investigations on Astronomical Novelties and Controversies) written by one of his disciples ( Johannes Locher); in it the proponents of the earths motion are violently attacked. Galileo will include some harsh criticism of this book in his Dialogue (1632). February: Dominican friar Niccolò Lorini sends a formal complaint against Galileo to Cardinal Paolo Sfondrati (member of the Inquisition and prefect of the Index), enclosing Galileos Letter to Castelli as incriminating evidence. March: Caccini gives a deposition to the Inquisition in Rome , charging Galileo with suspicion of heresy, based on the content of his Letter to Castelli and his book on Sunspots. April: Cardinal Robert Bellarmine, influential theologian and member of the Congregations of the Inquisition and of the Index, replies to Foscarinis private request for an opinion on his Letter on the Earths Motion; Bellarmines letter explicitly states that his remarks apply to Galileo as well as to Foscarini. Spring and summer: Galileo expands his Letter to Castelli into the Letter to the Grand Duchess Christina and writes his Considerations on the Copernican Opinion in response to Bellarmines letter to Foscarini. December: After a long delay due to illness, Galileo goes to Rome to defend himself and the Copernican doctrine from the charge of heresy. |
| 1616Â Â Â | 8 January: At the request of Cardinal Alessandro Orsini , Galileo writes his Discourse on the Tides, containing a physical argument for the earths motion based on its ability to explain the existence of tides; this argument will later be expanded and included in the Dialogue. 24 February: A committee of eleven consultants reports to the Roman Inquisition their unanimous opinion that the heliocentric and heliostatic thesis is philosophically absurd and formally heretical; and that the geokinetic thesis is philosophically absurd and theologically erroneous. 25 February: At an Inquisition meeting, Pope Paul V orders Cardinal Robert Bellarmine to warn Galileo to abandon his Copernican views. 26 February: Bellarmine calls Galileo to his house and gives him the warning. 3 March: Bellarmine reports to the Inquisition that Galileo has acquiesced. 5 March: The Congregation of the Index publishes a decree declaring the earths motion physically false and contrary to Scripture, prohibiting and condemning Foscarinis book, suspending until corrected Copernicus book, and ordering analogous censures for analogous works; Galileo is not mentioned at all. 26 May: Bellarmine writes a certificate for Galileo, denying rumors that he has been tried and condemned, and clarifying that he has been warned not to hold or defend the earths motion. June: Galileo returns to Florence. |
| 1619Â Â Â | June: Mario Guiducci, a disciple of Galileo, publishes a booklet entitled Discourse on the Comets; it contains two lectures he (Guiducci) had given about the three comets that had appeared the previous year and had sparked wide discussion; although Galileo collaborated in its writing, the book is published under Guiduccis name. October: Using a pseudonym, Orazio Grassi, a Jesuit professor of mathematics at the Roman College, publishes a book (Astronomical and Philosophical Balance) highly critical of Galileos (and Guiduccis) view of comets; Grassi argues, among other things, that their view of comets is committed to Copernicanism and thus violates the anti Copernican decree. |
| 1620Â Â Â | May: The Congregation of the Index issues a decree containing the corrections of Copernicus book On the Revolutions, promised in the Decree of 5 March 1616. August: Florentine Cardinal Maffeo Barberini sends Galileo a Latin poem entitled Dangerous Adulation, which he has written in praise of Galileo. |
| 1621Â Â Â | January: Pope Paul V dies; Alessandro Ludovisi is then elected Pope Gregory XV. February: Grand Duke Cosimo II dies prematurely and is succeeded by his son Ferdinando II; but due to the latters young age (10 years), Tuscany is governed by a regency council until 1627. September: Cardinal Bellarmine dies. |
| 1623Â Â Â | July: Pope Gregory XV dies. August: Cardinal Maffeo Barberini is elected Pope Urban VIII. October: Galileos The Assayer is published in Rome, sponsored by the Lincean Academy and dedicated to the new pope; it contains a discussion of comets and is highly critical of Grassis views. |
| 1624Â Â Â | Spring: Galileo visits Rome to pay homage to his old patron , now Pope Urban VIII; he stays for six weeks, receiving weekly audiences from the pope and warm treatment from other Church officials. Fall: Galileo begins working on a book that discusses the system of the world and ties together all his discoveries and ideas on the subject (except for questions of biblical interpretation). |
| 1625Â Â Â | Sometime in 1625, or perhaps in 1624, a complaint is sent to a Church official, charging that the atomistic theory of matter in Galileos The Assayer conflicts with the Catholic doctrine of the Eucharist; but the identities of the writer and the recipient are unknown, nor is it known whether the Inquisition conducted an investigation. April: After investigating another complaint, that Galileos The Assayer contains too much praise for Copernicanism, the Inquisition concludes the case with a clear and strong exoneration. |
| 1626Â Â Â | Grassi, again using a pseudonym, publishes in Paris a book (Comparison of the Weights of the Assayer and the Balance) against Galileos The Assayer; it argues that Galileos physics implies a denial of the Catholic doctrine of the Eucharist, and more generally the other alleged impieties of the atomists. Galileo feels no need to reply. |
| 1630Â Â Â | Spring: Galileo completes work on the book he had been writing since 1624; he goes to Rome to obtain the imprimatur from Church authorities, and to arrange for its publication by the Lincean Academy. June: Scheiner publishes a massive book on sunspots, filled with valuable observations and interesting speculations; it also has a long beginning section that violently attacks Galileo, especially his claim of priority in the discovery of sunspots. Galileo will include a brief reply and criticism in the Dialogue. August: Prince Federico Cesi, founder and head of the Lincean Academy, dies |
| 1632Â Â Â | February: Printing is completed in Florence for Galileos Dialogue on the Two Chief World Systems, Ptolemaic and Copernican. Summer: The Dialogue is received with great enthusiasm and praise in many quarters; but a number of questions, rumors, complaints, and criticisms emerge in Rome concerning its content, form, and manner of publication; these lead the pope to prohibit the sale of the book and to appoint a special commission to investigate the matter. September: At a meeting of the Inquisition presided by the pope, the special commissions report is discussed and the pope decides to forward the case to the Inquisition and to summon Galileo to Rome to stand trial. |
| 1633Â Â Â | 13 February: Galileo arrives in Rome and is lodged at the Tuscan embassy (Palazzo Firenze). Spring: The Inquisition trial proceedings begin, go through several stages, and are concluded. 22 June: Galileo is convicted of vehement suspicion of heresy; the punishments include a formal abjuration, the prohibition of the Dialogue, imprisonment at the pleasure of the Inquisition, and some religious penances; he recites the abjuration at the convent of Santa Maria sopra Minerva. 23 June: Galileos prison sentence is commuted to house arrest at Villa Medici, a sumptuous palace in Rome owned by the grand duke of Tuscany. 30 June: His prison sentence is again commuted to house arrest in Siena, at the residence of the archbishop, who was a good friend of Galileos. JulyNovember: In Siena, Galileo starts writing a book on topics he had researched earlier, the strength of materials and the motion of falling bodies. 1 December: Galileos prison sentence is commuted once again , now to house arrest at his villa in Arcetri near Florence. |
