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Galileo before the Holy Office, a 19th century painting by Joseph-Nicolas Robert-Fleury

The Galileo affair, in which Galileo Galilei came into conflict with the Catholic Church over his support of Copernican astronomy, is often considered a defining moment in the history of the relationship between religion and science.

In 1610, Galileo published his Sidereus Nuncius (Starry Messenger), describing the surprising observations that he had made with the new telescope. These and other discoveries exposed major difficulties with the understanding of the heavens that had been held since antiquity, and raised new interest in radical teachings such as the heliocentric theory of Copernicus.

In reaction, many scholars attacked the theory because it contradicted several passages of Scripture. Galileo's part in the controversies over theology, astronomy and philosophy culminated in his trial and sentencing in 1633 on a grave suspicion of heresy.

The 1600 revolution in cosmology

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Galileo began his telescopic observations in the later part of 1609, and by March of 1610 was able to publish a small book, The Starry Messenger (Sidereus Nuncius), relating some discoveries that had not been dreamed of in the philosophy of the time: mountains on the Moon, lesser moons in orbit around Jupiter, and the resolution of what had been thought cloudy masses in the sky (nebulae) into collections of stars too faint to see individually. Other observations followed, including the phases of Venus and the existence of sunspots.

None of these findings proved that the Earth moved, or directly contradicted Christian doctrine; all were difficult at first for other astronomers to verify. But they caused difficulties for theologians and for natural philosophers (the name given to scientists at the time), as they contradicted the scientific and philosophical ideas of the time, which were based on those of Aristotle, whose teachings were and are closely associated with the Catholic Church.

Jesuit astronomers, experts both in Church teachings and in natural philosophy, were at first skeptical and hostile to the new ideas. Within a year or two, however, availability of good telescopes enabled them to repeat the new observations. In 1611 Galileo visited the Collegium Romanum in Rome, where the Jesuit astronomers by that time had repeated his observations and treated him with respect. Christoph Grienberger, one of the Jesuit scholars on the faculty, sympathized with Galileo’s theories, but was asked to defend the Aristotelian viewpoint by Claudio Acquaviva, the Father General of the Jesuits. Not all of Galileo's claims were completely accepted: Christopher Clavius, the most distinguished astronomer of his age, never was reconciled to the idea of mountains on the Moon. And outside the Collegium many still disputed the reality of the observations. In a letter to Kepler of August 1610[1], Galileo complained that some of the philosophers who opposed his discoveries had refused even to look through a telescope[2].

There were still problems in relations with the Jesuits. Galileo became involved in a dispute over priority in the discovery of sunspots with Christoph Scheiner, a prominent Jesuit. This became a bitter lifelong feud. Oddly, neither of them was right; there can be little doubt that the first observations were by David Fabricius and his son Johannes.

At this time also, Galileo engaged in a dispute over the reasons that objects float or sink in water, siding with Archimedes against Aristotle, the favorite of the academics. The debate was unfriendly, and Galileo's blunt and sometimes sarcastic style, though not extraordinary in academic debates of the time, made him enemies. Galileo's friends reported to him that a group of professors of philosophy were working quietly to raise opposition to him in the Church, where accusations of heresy were more deadly than anything that could be done to a dissenter in a university; their success is indicated by the sermon of Caccini, described later.

The Bible argument

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A major upset in what had been considered eternal truths concerning the heavens led the more unconventional thinkers to look seriously at the new ideas of astronomy in which the Earth moved and the Sun stood still; these ideas did appear to contradict the Bible: Psalm 93:1, Psalm 96:10, and 1 Chronicles 16:30 state that "the world is firmly established, it cannot be moved." Psalm 104:5 says, "the Lord set the earth on its foundations; it can never be moved." Ecclesiastes 1:5 states that "the sun rises and the sun sets, and hurries back to where it rises."

One of the first suggestions of heresy that Galileo had to deal with came in 1613 from a professor of philosophy, Cosimo Boscaglia, who was neither a theologian nor a priest. In conversation with Galileo's patron, Cosimo II de' Medici, Boscaglia gave the opinion that the telescopic discoveries were valid, but the motion of the Earth was obviously contrary to Scripture. Galileo was defended on the spot by a Benedictine abbot, Benedetto Castelli, who was also a professor of mathematics and a former student of Galileo's. This exchange, reported to Galileo by Castelli, led Galileo to write a letter to Castelli, expounding his views on what he considered the most appropriate way of treating scriptural passages which made assertions about natural phenomena. Sometime later (in 1615) he expanded this into his much longer Letter to the Grand Duchess Christina. Castelli remained Galileo's friend, visiting him at Arcetri near the end of Galileo's life, after months of effort to get permission from the Inquisition to do so.

The first dangerous attack appears to have been that by Tommaso Caccini, a Dominican friar, who preached a sermon in Florence at the end of 1614, denouncing Galileo, his associates, and mathematicians in general (a category that included astronomers). The biblical text for the sermon on that day was Joshua 10, in which Joshua makes the Sun stand still; this was the story that Castelli had had to interpret for the Medici family the year before. It is said, though it is not verifiable, that Caccini used the passage "Ye men of Galilee, why stand ye gazing up into heaven?"[3]

First meetings with theological authorities

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The Bible argument was a dangerous one for Galileo: why would anybody defend a theory where the Earth moves, given that it contradicts the literal meaning of the Bible? The obvious reason is of course, because it is true and backed by experimental evidence. An alternative reason was, to cast a doubt on the truth of the Bible - in that case, the controversy belonged to the theological field, and the thesis should be condemned as heretical. Once heresy was suggested, Galileo had to prove his good faith by proving his theory.

In late 1614 or early 1615, one of Caccini's fellow Dominicans, Niccolò Lorini, acquired a copy of Galileo's letter to Castelli, which he considered of sufficiently doubtful orthodoxy to bring to the attention of the Inquisition. In February 1615 he accordingly sent a copy to the Secretary of the Inquisition, Cardinal Sfondrati, with a covering letter critical of Galileo's supporters.[4]

A few weeks later, on March 19th, Caccini turned up at the Inquisition's offices in Rome to denounce Galileo for his Copernicanism and various other alleged heresies supposedly being spread by his pupils[5].

Galileo soon heard reports that Lorini had obtained a copy of his letter to Castelli and had, according to the reports, been claiming that it contained many heresies. He also heard that Caccini had gone to Rome and suspected him of trying to stir up trouble with Lorini's copy of the letter.[6]. As 1615 wore on he became more concerned, and eventually determined to go to Rome as soon as his health permitted, which it did at the end of the year. By presenting his case there, he hoped to clear his name of any suspicion of heresy, and to persuade the Church authorities not to suppress heliocentric ideas. In this he was acting against the advice of friends and allies, including Piero Guicciardini, the Tuscan ambassador to Rome; it was thought better not to risk stirring up opposition.

Bellarmine's view

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Robert Cardinal Bellarmine, one of the most respected Catholic theologians of the time, was called on to adjudicate the dispute between Galileo and his opponents, including both religious zealots and secular university professors. The question of heliocentrism had first been raised with Cardinal Bellarmine, in the case of Paolo Antonio Foscarini, a Carmelite father; Foscarini had published a book, Lettera ... sopra l'opinione ... del Copernico, which took the dangerous step of attempting to reconcile Copernicus with the biblical passages that seemed to be in contradiction. Bellarmine at first expressed the opinion that Copernicus would not be banned, but would at most require some editing to assure that the heliocentric idea was presented as purely hypothetical.

Foscarini sent a copy of his book to Bellarmine, who replied in a letter on April 12, 1615, addressed to both Foscarini and Galileo. In this he stated that the heliocentric ideas were "a very dangerous thing, not only by irritating all the philosophers and scholastic theologians, but also by injuring our holy faith and rendering the Holy Scriptures false." Moreover, while the matter was not inherently a matter of faith, it became one "on the part of the ones who have spoken", namely "the holy Fathers and all the Latin and Greek commentators." He conceded that if there were positive proof, "then it would be necessary to proceed with great caution in explaining the passages of Scripture which seemed contrary, and we would rather have to say that we did not understand them than to say that something was false which has been demonstrated." He did not, however, consider this to be a serious possibility. His final argument was that the motion of the Sun could not be a mere appearance, as the shore appears to recede when one sails away from it, because everyone perceives the latter as a mere appearance, while no one so perceives the former.

In sum, he found no problem with heliocentrism so long as it was treated purely as hypothesis and not as an absolute truth, unless there was conclusive proof. This put Galileo in an extremely difficult position, as he had many powerful arguments but no "conclusive" proof for the truth of his position. In fact, his theories had gaps and errors, as is (we now know) the usual condition of all radically new scientific work. The main argument against a movable Earth was well known at the time, and was presented by Aristotle almost two millennia before : If the Earth moves, why are there no observable parallax shifts? It was to take 300 years before there were instruments good enough to observe these, in stars. As Simon Singh shows in his book "The Big Bang", there were other serious related problems with the Copernican model. The model by Ptolemy corresponded better to observed data than the Copernican model. It was not until Kepler suggested ellipses, rather than circles that even better correspondence to observed data could be demonstrated. So despite his theory contradicting both simple theoretical arguments and observed data, he wanted his conviction to be taught as truth. Today, scientists tend to present only those parts of their findings as "truth" that are very clearly shown, such as the results of a particular experiment. Careful suggestions of new theories are rarely considered truth until a consensus is reached.

Inquisition examination

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On February 19, 1616, the Inquisition asked a commission of theologians, known as qualifiers, about the propositions that the Sun is at the center of the planets' motions and does not move, and that the Earth is not at the center and does move[7]. Historians of the Galileo affair have offered different accounts of why the matter was referred to the qualifiers at this time. Baretta (2005, pp.247-248) points out that the Inquisition had taken a deposition from Gianozzi Attavanti in November, 1615[8], as part of its investigation into the denunciations of Galileo by Lorini and Caccini. In this deposition, Attavanti confirmed that Galileo had advocated the Copernican doctrines of a stationary sun and a mobile Earth, and as a consequence the Tribunal of the Inquisition would have eventually needed to determine the theological status of those doctrines. It is however possible, as surmised by the Tuscan ambassador, Piero Guiccardini, in a letter to the Grand Duke[9], that the actual referral may have been precipitated by Galileo's aggressive campaign to prevent the condemnation of Copernicanism.[10].

On February 24 the Qualifiers delivered their unanimous report: the idea that the Sun is stationary is "foolish and absurd in philosophy, and formally heretical since it explicitly contradicts in many places the sense of Holy Scripture..."; while the Earth's movement "receives the same judgement in philosophy and ... in regard to theological truth it is at least erroneous in faith."

At a meeting of the cardinals of the Inquisition on the following day, Pope Paul V instructed Bellarmine to deliver this result to Galileo, and to order him to abandon the Copernican opinions; should Galileo resist the decree, stronger action would be taken. On February 26 Galileo was called to Bellarmine's residence, and accepted the orders.[11] On March 5, the decree was issued by the Congregation for the Index, prohibiting, condemning, or suspending various books which advocated the truth of the Copernican system.

Galileo met again with Bellarmine, apparently on friendly terms; and on March 11 he met with the Pope, who assured him that he was safe from persecution so long as he, the Pope, should live. Nonetheless, Galileo's friends Sagredo and Castelli reported that there were rumors that Galileo had been forced to recant and do penance. To protect his good name, Galileo requested a letter from Bellarmine stating the truth of the matter. This letter assumed great importance in 1633, as did the question whether Galileo had been ordered not to "hold or defend" Copernican ideas (which would have allowed their hypothetical treatment) or not to teach them in any way. If the Inquisition had issued the order not to teach heliocentrism at all, it would have been ignoring Bellarmine's position, which was in any case effectively ignored in the proceedings in 1633.

In the end, the mission was a failure. Galileo did not persuade the Church to stay out of the controversy, but instead saw heliocentrism formally declared an idea that could not be held as truth, for lack of evidence. It was consequently termed heretical by the Qualifiers, since it contradicted the literal meaning of the Scriptures, though this position was not binding on the Church. Foscarini's book was banned; Copernicus' De Revolutionibus, though not formally banned, was removed from circulation pending revisions, and in fact was not fully cleared until the 19th century. Though Galileo was personally safe, and his works had not been banned, there was now much doubt (felt by other astronomers as far away as Germany) whether it was possible to do serious work in Copernican astronomy.

The Dialogue

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In 1632 Galileo published a book, Dialogue Concerning the Two Chief World Systems, with formal authorization from the Inquisition for a book which presented a balanced view of both Copernican's and church's theories. However, in the book, the Copernican theory clearly receives better treatment, instead of a balanced view. Because of this, Galileo was ordered to appear before the Inquisition for trial.

The Trial

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Cristiano Banti's 1857 painting Galileo facing the Roman Inquisition

Galileo was ordered to Rome to stand trial on suspicion of heresy in 1633, "for holding as true the false doctrine taught by some that the sun is the center of the world", against the 1616 condemnation, since "it was decided at the Holy Congregation [...] on 25 Feb 1616 that [...] the Holy Office would give you an injunction to abandon this doctrine, not to teach it to others, not to defend it, and not to treat of it; and that if you did not acquiesce in this injunction, you should be imprisoned"[12]. The sentence of the Inquisition was in three essential parts:

  • Galileo was required to recant his heliocentric ideas, declaring the immobility of the sun to be "absurd in philosophy and formally heretical", and the mobility of the Earth "to be at least erroneous in faith";
  • He was ordered imprisoned; the sentence was later commuted to house arrest for the rest of his life.
  • His offending Dialogue was banned; and in an action not announced at the trial, publication of any of his works was forbidden, including any he might write in the future[13]

After a period with the friendly Archbishop Piccolomini in Siena, Galileo was allowed to return to his villa at Arcetri near Florence, where he spent the remainder of his life under house arrest with his friend and pupil Ferdinando II de' Medici, the Grand Duke of Tuscany. His standing would remain questioned at every turn. In March 1641, Vincentio Reinieri, a follower and pupil of Galileo, wrote him at Arcetri that an Inquisitor had recently compelled the author of a book printed at Florence to change the words "most distinguished Galileo" to "Galileo, man of noted name."[14]

However, partially in tribute to Galileo, at Arcetri the first academy devoted to the new experimental science, The Accademia del Cimento was formed, which is where Francesco Redi performed the first controlled experiment and many other important advancements were made which would eventually help usher in The Age of Enlightenment.

Modern church views

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On February 15th, 1990, in a speech delivered at La Sapienza University in Rome,[15] Cardinal Ratzinger cited some current views on the Galileo affair as forming what he called "a symptomatic case that permits us to see how deep the self-doubt of the modern age, of science and technology goes today." [16] Some of the views he cited were those of the philosopher Paul Feyerabend, whom he quoted as saying:

"The Church at the time of Galileo kept much more closely to reason than did Galileo himself, and she took into consideration the ethical and social consequences of Galileo's teaching too. Her verdict against Galileo was rational and just, and the revision of this verdict can be justified only on the grounds of what is politically opportune."[17]

Ratzinger did not indicate whether he agreed or disagreed with Feyerabend's assertions, but he did say "It would be foolish to construct an impulsive apologetic on the basis of such views".[16] In January 2008, as Pope Benedict XVI, he canceled a visit to the same university, following a protest letter signed by sixty-seven of its academics. The petition included a truncated version of the above quotation (it omitted the second clause of the first sentence) and asserted that Ratzinger's reiteration of the quoted words had "offended and humiliated" them.[18]

In 1992, it was much lauded in the news that the Catholic Church had apparently "vindicated" Galileo. In 2000, Pope John Paul II issued a formal apology for all the errors of the Church over the last 2000 years including the trial of Galileo among others.[19][20]

Thanks to his intuition as a brilliant physicist and by relying on different arguments, Galileo, who practically invented the experimental method, understood why only the sun could function as the centre of the world, as it was then known, that is to say, as a planetary system. The error of the theologians of the time, when they maintained the centrality of the Earth, was to think that our understanding of the physical world's structure was, in some way, imposed by the literal sense of Sacred Scripture....

— Pope John Paul II, L'Osservatore Romano N. 44 (1264) - 4th November,1992
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The incident inspired the American duo Indigo Girls to release a song in 1992 about the "king of night vision" whose head was "on the block." Entitled "Galileo," the song hit the #10 spot on the Billboard's Modern Rock Tracks chart, the biggest hit to date for the musical duo.


Notes

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  1. ^ Drake (1978, p.162), Sharratt (1996, p.86), Favaro(1900, 10:421-423) (in Latin).
  2. ^ Galileo did not name the philosophers concerned, but Galileo scholars have identified two of them as Cesare Cremonini and Giulio Libri (Drake, 1978, pp.162, 165; Sharratt, 1996, p.87). Claims of similar refusals by bishops and cardinals have sometimes been made, but there appears to be no evidence to support them.
  3. ^ Acts 1:11.
  4. ^ Drake (1978, p.240), Sharratt (1996, pp.110−111),Favaro(1907, 19:297−298)] (in Italian).
  5. ^ Sharratt (1996, p.111), Favaro(1907, 19:307−311) (in Latin and Italian).
  6. ^ Drake (1978, p.241), Favaro(1895, 5:291−292) (in Italian).
  7. ^ Fantoli (2005, p.118), McMullin (2005b, p.152), Favaro(1907, 19:320) (in Italian).
  8. ^ Favaro(1907, 19:318) (in Italian).
  9. ^ McMullin (2005b, pp.167-168), Drake (1978, p.252), Sharratt (1996, p.127), Favaro(1902,12:242) (in Italian).
  10. ^ An inaccuracy in Guicciardini's letter has led some historians (e.g. Drake, 1978, p.252; Sharratt, 1996, p.127) to identify a meeting between Cardinal Orsini and the Pope as the specific incident which triggered the Copernican propositions' referral to the qualifiers. This cannot have been the case, however, because the meeting did not occur until several days after the propositions had been referred to them. (McMullin, 2005b, pp.152, 153)
  11. ^ Drake (1978, p. 253).
  12. ^ See Texts from The Galileo Affair: A Documentary History, edited and translated by Maurice A. Finocchiaro .
  13. ^ Drake (1978, p.367), Sharratt (1996, p.184), Favaro (1905, 16:209, 230)(in Italian). When Fulgenzio Micanzio, one of Galileo's friends in Venice, sought to have Galileo's Discourse on Floating Bodies reprinted in 1635, he was informed by the Venetian Inquisitor that the Inquisition had forbidden further publication of any of Galileo's works (Favaro, 1905, 16:209)(in Italian), and was later shown a copy of the order (Favaro,1905, 16:230).(in Italian) When the Dutch publishers Elzevir published Galileo's Dialogues Concerning Two New Sciences in 1638, some five years after his trial, they did so under the pretense that a manuscript he had presented to the French Ambassador to Rome for preservation and circulation to interested intellectuals had been used without his knowledge (Sharratt, 1996, p.184; Galilei, 1954, p.xvii; Favaro, 1898, 8:43 (in Italian)). Return to other article: Galileo Galilei; Dialogue; Two New Sciences.
  14. ^ Drake (1978, p. 414).
  15. ^ An earlier version had been delivered on December 16th, 1989, in Rieti, and a later version in Madrid on February 24th, 1990 (Ratzinger, 1994, p.81). According to Feyerabend himself, Ratzinger had also mentioned him "in support of" his own views in a speech in Parma around the same time (Feyerabend, 1995, p.178).
  16. ^ a b Ratzinger (1994, p.98).
  17. ^ Ratzinger (1994, p.98). A partly browsable on-line copy of Ratzinger's text is available at Amazon.com. The page containing the quotation can be obtained by searching on a short extract.
  18. ^ "Sapienza Academics Reject Pope's University Address". Corriere della Sera (English edition). 2008-01-15.; "Papal visit scuppered by scholars". BBC News. 2008-01-15.
  19. ^ Galileo had tried to emphasize that science describes the physical world and how it works, while the Bible describes the spiritual world and how we should live. This conflict has made a lasting impact in the world and become an important part of history.Pope says sorry for sins of church | World news | The Guardian
  20. ^ Online NewsHour: A Papal Apology, March 13, 2000

References

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  • Baretta, Francesco (2005), Galileo, Urban VIII, and the Prosecution of Natural Philosophers. in McMullin (2005, pp.234-261)
  • Drake, Stillman (1978), Galileo At Work. Chicago: University of Chicago Press. ISBN 0-226-16226-5
  • Finocchiaro, Maurice A. (1989), The Galileo Affair: A Documentary History. Berkeley: University of California Press. ISBN 0-520-06662-6
  • McMullen, Emerson Thomas, Galileo's condemnation: The real and complex story (Georgia Journal of Science, vol.61(2) 2003)
  • McMullin, Ernan ed.(2005), The Church and Galileo, University of Notre Dame Press, Notre Dame, IN. ISBN 0-268-03483-4
  • Redondi, Pietro (1983), Galileo eretico, Einaudi, Turin; Galileo: Heretic (transl: Raymond Rosenthal) Princeton University Press, 1987 (reprint 1989 ISBN 0-691-02426-X); Penguin, 1988 (reprint 1990 ISBN 0-14-012541-8)
  • Speller, Jules, Galileo's Inquisition Trial Revisited , Peter Lang Europäischer Verlag, Frankfurt am Main, Berlin, Bern, Bruxelles, New York, Oxford, Wien, 2008. 431 pp. ISBN 978-3-631-56229-1 / US-ISBN 978-0-8204-8798-4
  • Sharratt, Michael (1996), Galileo: Decisive Innovator. Cambridge University Press, Cambridge. ISBN 0-521-56671-1
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[[Category:Galileo Galilei|Affair]] [[Category:History of astronomy]] [[Category:Christian history]] [[Category:Roman Catholicism and science]] [[it:Processo a Galileo Galilei]] [[fi:Galileo Galilein tapaus]]