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{{Short description|Mathematician and astronomer (1473–1543)}} | |||
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{{Infobox scientist | |||
| name = Nicolaus Copernicus | |||
| image = Nikolaus Kopernikus MOT.jpg | |||
| caption = "Toruń portrait" ({{Circa|1580}}){{efn|The oldest known portrait of Copernicus is that on the ], made by ] c. 1571–74. According to the inscription next to that portrait, it was made from a self-portrait by Copernicus himself. This has led to speculation that the Toruń portrait, whose provenance is unknown, may be a copy based on the same self-portrait.<ref>André Goddu, ''Copernicus and the Aristotelian Tradition'' (2010), (note 125), citing Goddu, review of Jerzy Gassowski, "''Poszukiwanie grobu Mikołaja Kopernika''{{-"}} ("Search for Grave of Nicolaus Copernicus"), in ''Journal for the History of Astronomy'', 38.2 (May 2007), p. 255.</ref>}} | |||
| birth_date = 19 February 1473 | |||
| birth_place = {{nowrap|], Royal Prussia, Poland}} | |||
| death_date = 24 May 1543 (aged 70) | |||
| death_place = {{nowrap|], Royal Prussia, Poland}} | |||
| field = {{hlist|Astronomy |] |Economics |Mathematics |Medicine |Politics}} | |||
| education = {{ublist|class=nowrap|] (1491–1495)|] (1496–1500)|] (1501–1503)|] (], 1503)}} | |||
| known_for = {{ublist|class=nowrap|]|]|]}} | |||
| signature = Nicolaus Copernicus signature (podpis Mikołaja Kopernika).svg | |||
| academic_advisors = ] | |||
}} | |||
{{Cosmology|scientists}} | |||
<!------------------- | |||
NOTE TO EDITORS: | |||
Please read the talk page before editing the two introductory paragraphs. They represent a consensus as to how best to present the essential information about Copernicus in the article's introduction. Other issues are discussed later in the article. Whether nationality should be attributed to Copernicus is a contentious issue: see the talk page and its archives. | |||
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'''Nicolaus Copernicus'''{{efn|{{IPAc-en|k|oʊ|ˈ|p|ɝː|n|ɪ|k|ə|s|,_|k|ə|ˈ|-}} {{respell|koh|PUR|nik|əs|,_|kə|-}};{{refn|{{Citation |last=Jones |first=Daniel |author-link=Daniel Jones (phonetician) |editor1-last=Roach |editor1-first=Peter |editor2-last=Hartmann |editor2-first=James |editor3-last=Setter |editor3-first=Jane |year=2003 |orig-year=1917 |title=English Pronouncing Dictionary |publisher=Cambridge University Press |place=Cambridge |isbn=978-3-12-539683-8}}}}{{refn|{{Dictionary.com|Copernicus}}}}{{refn|{{MerriamWebsterDictionary|Copernicus}}}} {{langx|pl|Mikołaj Kopernik}}<ref></ref> {{IPA|pl|miˈkɔwaj kɔˈpɛrɲik||Pl-Mikołaj Kopernik.ogg}}; {{langx|gml|Niklas Koppernigk}}; {{langx|de|Nikolaus Kopernikus}}.}} (19 February 1473 – 24 May 1543) was a ] ], active as a mathematician, astronomer, and ] ], who formulated a ] of ] that placed ]. In all likelihood, Copernicus developed his model independently of ], an ancient Greek astronomer who had formulated such a model some eighteen centuries earlier.<ref>], pp. 39, 119.</ref>{{efn|name=AristarchusNote01a|The Greek mathematician and astronomer ] proposed such a system during the third century BCE (], ). In an early unpublished manuscript of ''De Revolutionibus'' (which still survives in the ] in ]), Copernicus wrote that "It is credible that ... ] believed in the mobility of the Earth and some even say that Aristarchus was of that opinion", a passage that was removed from the published edition, a decision described by ] as "eminently sensible" "from an editorial viewpoint".<ref name="ReferenceA" /> Philolaus was not a heliocentrist as he thought that both the Earth and the Sun moved around a central fire. Gingerich says that there is no evidence that Copernicus was aware of the few clear references to Aristarchus's heliocentrism in ancient texts (as distinct from one other unclear and confusing one), especially ]'s '']'' (which was not in print until the year after Copernicus died), and that it would have been in his interest to mention them had he known of them, before concluding that he developed his idea and its justification independently of Aristarchus.<ref name="ReferenceA">], , '']'', vol. 16, no. 1 (February 1985), pp. 37–42. "There is no question but that Aristarchus had the priority of the heliocentric idea. Yet there is no evidence that Copernicus owed him anything.(!9) As far as we can tell both the idea and its justification were found independently by Copernicus."</ref>}}{{efn|] (2011) writes: "Copernicus had no idea that Aristarchus of Samos had proposed much the same thing in the third century B.C. The only work by Aristarchus known to Copernicus—a treatise called ''On the Sizes and Distances of the Sun and Moon''—made no mention of a heliocentric plan." Sobel (2011) pp. 18–19. Sobel further writes that in Copernicus's dedication of '']'' to ]—which Copernicus hoped would dampen criticism of his ] by "babblers ... completely ignorant of "—the book's author wrote that, in rereading all of philosophy, in the pages of ] and ] he had found references to those few thinkers who dared to move the Earth "against the traditional opinion of astronomers and almost against common sense." Sobel comments: "He still knew nothing of the Earth-moving plan of Aristarchus, which had not yet been reported to Latin audiences" (pp. 179–82).}}{{efn|name=Kish1978}} | |||
The publication of Copernicus's model in his book ''{{lang|la|]}}'' (''On the Revolutions of the Celestial Spheres''), just before his death in 1543, was a major event in the ], triggering the ] and making a pioneering contribution to the ].<ref>], "Copernicus, Nicolaus", '']'', International Edition, volume 7, Danbury, Connecticut, Grolier Incorporated, 1986, {{ISBN|0-7172-0117-1}}, pp. 755–56.</ref> | |||
'''Nicolaus Copernicus''' (in ]; ] ''Mikołaj Kopernik'', ] ''Nikolaus Kopernikus''); ], ] – ], ]) was a ] ], ] and ] who developed the ] (]-centered) ] of the ] in a form detailed enough to make it scientifically useful. His main occupations and services rendered were in ] as church ], governor and administrator, ], ] and as a doctor. Astronomy was actually a byproduct, a hobby of his. His theory about the ] as the center of the ], turning over the traditional ] (that placed ] at the center of the ]), is considered one of the most important ] ever, and is the fundamental starting point of modern ] and modern science itself, (it inaugurated the ]). His theory affected many other aspects of human life as well, opening the door to young astronomers everywhere to challenge the facts and never take anything at face value. | |||
Copernicus was born and died in ], a semiautonomous and multilingual region created within the ] from part of the lands regained from the ] after the ]. A ] and ], he obtained a ] and was a mathematician, astronomer, ], ], ], ], ], and ]. From 1497 he was a ] ] ]. In 1517 he derived a ]—a key concept in economics—and in 1519 he formulated an economic principle that later came to be called ].{{efn|"Copernicus seems to have drawn up some notes while he was at ] in 1519. He made them the basis of a report on the matter, written in German, which he presented to the Prussian Diet held in 1522 at ] ... He later drew up a revised and enlarged version of his little treatise, this time in Latin, and setting forth a general theory of money, for presentation to the Diet of 1528."<ref>Angus Armitage, ''The World of Copernicus'', 1951, p. 91.</ref>}} | |||
==Biography== | |||
== Life == | |||
], by ]]] | |||
] birthplace (ul. Kopernika 15, ''left''). Together with no. 17 (''right''), it forms '']''.]] | |||
Nicolaus Copernicus was born on 19 February 1473 in the city of ] (Thorn), in the province of ], in the ],<ref name="Dzieje nauki polskiej" /><ref name="plato.stanford" /> to German-speaking parents.<ref name="MWeissenbacher" /> | |||
His father was a merchant from ] and his mother was the daughter of a wealthy Toruń merchant.<ref name="psb4" /> Nicolaus was the youngest of four children. His brother Andreas (Andrew) became an ] ] at ] (Frauenburg).<ref name="psb4" /> His sister Barbara, named after her mother, became a ] ] and, in her final years, ] of a ] in ] (Kulm); she died after 1517.<ref name="psb4" /> His sister Katharina married the businessman and Toruń city councilor Barthel Gertner and left five children, whom Copernicus looked after to the end of his life.<ref name="psb4" /> Copernicus never married and is not known to have had children, but from at least 1531 until 1539 his relations with Anna Schilling, a live-in housekeeper, were seen as scandalous by two bishops of Warmia who urged him over the years to break off relations with his "mistress".<ref>], ''Celestial Revolutionary'', ], 2014, {{ISBN|978-1780763507}}, pp. 103–104, 110–113.</ref> | |||
Copernicus was born in ] in the city of ] in ]. His father Nikolas, a citizen of ] (at that time the capital of Poland), moved there in ] and became a respected citizen of Toruń as well, once the war with Teutonic Knights was over. He was ten years of age when his father, a wealthy businessman and ] trader, died. Little is known of his mother, Barbara Watzenrode, but she appears to have predeceased her husband. His maternal uncle, ], a church ] and later the ] governor of ], raised him and his three other siblings after the death of Copernicus' father. His brother Andrew became canon in ]. A sister, Barbara, became a ] nun and the other sister, Katharina, married a businessman and city councillor, Barthel Gertner. | |||
=== Father's family === | |||
In ] Copernicus entered the ] in ], and here he encountered ] for the first time, thanks to his teacher ]. This ] soon fascinated him, as his books (stolen by Swedes during ], and now in ]'s library) show. After four years and a brief stay in ], he moved to ], where he studied ] and ] at the universities of ] and ]. His uncle financed his education and wished for him to become a ] as well. However, while studying ] and ] at ], he met his teacher ], a famous ]. He followed his lessons and became a disciple and assistant. | |||
Copernicus's father's family can be traced to a village in ] between ] (Neiße) and ] (Neustadt). The village's name has been variously spelled Kopernik,{{efn|"The name of the village, not unlike that of the astronomer's family, has been variously spelled. A large German atlas of Silesia, published by Wieland in Nuremberg in 1731, spells it Kopernik."<ref>Mizwa, p. 36.</ref>}} Copernik, Copernic, Kopernic, Coprirnik, and modern ].<ref name="psb3" /> | |||
In the 14th century, members of the family began moving to various other Silesian cities, to the Polish capital, Kraków (1367), and to Toruń (1400).<ref name="psb3" /> The father, Mikołaj the Elder (or {{ill|Niklas Koppernigk|de}}<ref>{{Cite book |last=Freely |first=John |title=Celestial Revolutionary: Copernicus, the Man and His Universe |publisher=I.B. Tauris |year=2014 |isbn=978-0857734907 |page=2}}</ref>), likely the son of Jan (or Johann<ref>{{Cite web |title=Copernicus, Nicolaus |url=https://www.deutsche-biographie.de/gnd118565273.html#ndbcontent |website=NDB-online}}</ref>), came from the Kraków line.<ref name="psb3" /> | |||
The first observation Copernicus made in ] together with Domenico Novara, are recorded in '']''. | |||
Nicolaus was named after his father, who appears in records for the first time as a well-to-do merchant who dealt in copper, selling it mostly in ] (Gdańsk).<ref name="google3" /><ref name="google4" /> He moved from Kraków to Toruń around 1458.<ref name="google5" /> Toruń, situated on the ], was at that time embroiled in the ], in which the ] and the ], an alliance of ] cities, gentry and clergy, fought the ] over control of the region. In this war, ] cities like Danzig and Toruń, Nicolaus Copernicus's hometown, chose to support the ], ], who promised to respect the cities' traditional vast independence, which the Teutonic Order had challenged. Nicolaus's father was actively engaged in the politics of the day and supported Poland and the cities against the Teutonic Order.<ref name="google6" /> In 1454 he mediated negotiations between Poland's Cardinal ] and the Prussian cities for repayment of war loans.<ref name="psb3" /> In the ], the Teutonic Order formally renounced all claims to the conquered lands, which returned to Poland as Royal Prussia and remained part of it until the First (1772) and Second (1793) ]. | |||
In ] his uncle was ordained the bishop of Warmia and Copernicus was named a canon in the Frombork ], but he waited in Italy for the great ] of ]. Copernicus went to ], where he could observe a lunar ] and where he gave some lessons of astronomy or mathematics (unfortunately, nothing of this remains to us). | |||
Copernicus's father married Barbara Watzenrode, the astronomer's mother, between 1461 and 1464.<ref name="psb3" /> He died about 1483.<ref name="psb4" /> | |||
He would have then visited Frombork only in ]. As soon as he reached this town, he asked and obtained permission to return to Italy to complete his studies in Padua (with Guarico and Fracastoro) and in Ferrara (with Bianchini), where in ] received his doctoral degree in canon law. It has been supposed that it was in Padua that he gained access to those passages of ] and ] about the opinion of Ancients on the movement of the Earth, having the first intuition of his theory. His collection of observations and ideas on the theory started in ]. | |||
=== Mother's family === | |||
Having left Italy at the end of his studies, he came to live and work in Frombork. Some time before his return to ], he had received a position at the Collegiate Church of the Holy Cross in ], ], which he held for many years until he resigned a few years prior to his death, when he progressively became ill. Throughout his lifetime he made astronomical observations and calculations, but always in his spare time and never as a profession. | |||
Nicolaus's mother, Barbara Watzenrode, was the daughter of a wealthy Toruń patrician and city councillor, ] (deceased 1462), and Katarzyna (widow of Jan Peckau), mentioned in other sources as ''Katarzyna Rüdiger gente Modlibóg'' (deceased 1476).<ref name="psb4" /> The Modlibógs were a prominent Polish family who had been well known in Poland's history since 1271.<ref name="Stephen Mizwa 1943, p. 38" /> The Watzenrode family, like the Kopernik family, had come from Silesia from near ] (Świdnica), and after 1360 had settled in Toruń. They soon became one of the wealthiest and most influential ] families.<ref name="psb4" /> Through the Watzenrodes' extensive family relationships by marriage, Copernicus was related to wealthy families of Toruń (Thorn), Danzig (Gdansk) and ] (Elbląg), and to prominent Polish noble families of Prussia: the ]s, ]s, ]s and ]s.<ref name="psb4" /> Lucas and Katherine had three children: ] (1447–1512), who would become ] and Copernicus's patron; Barbara, the astronomer's mother (deceased after 1495); and Christina (deceased before 1502), who in 1459 married the Toruń merchant and mayor, Tiedeman von Allen.<ref name="psb4" /> | |||
]]] | |||
Copernicus worked for years with Prussian diet on monetary reform and published some studies about the value of ]; as a governor of ], he administered taxes and dealt out justice. It was at this time that Copernicus came up with one of the earliest iterations of the theory now known as ]. During these years he also travelled extensively on government ] and as a ], on the behalf of the ] of Warmia. | |||
]]] | |||
In ] he made his "Commentariolus"—a short, handwritten text describing his ideas about the heliocentric hypothesis—available to his friends. From there he continued gathering evidence for a more detailed work. | |||
Lucas Watzenrode the Elder, a wealthy merchant and in 1439–62 president of the judicial bench, was a decided opponent of the Teutonic Knights.<ref name="psb4" /> In 1453 he was the delegate from Toruń at the ] (Graudenz) conference that planned the uprising against them.<ref name="psb4" /> During the ensuing ], he actively supported the Prussian cities' war effort with substantial monetary subsidies (only part of which he later re-claimed), with political activity in Toruń and Danzig, and by personally fighting in battles at ] (Lessen) and ] (Marienburg).<ref name="psb4" /> He died in 1462.<ref name="psb4" /> | |||
During the war between ] and Kingdom of Poland (]–]) Copernicus successfully defended ] on the head of royal troops besieged by the troops of ]. | |||
], the astronomer's maternal uncle and patron, was educated at the ] and at the universities of ] and ]. He was a bitter opponent of the Teutonic Order,{{efn|"In 1512, Bishop Watzenrode died suddenly after attending King Sigismund's wedding feast in Kraków. Rumors abounded that the bishop had been poisoned by agents of his long-time foe, the Teutonic Knights."<ref>Hirshfeld, p. 38.</ref>}} and its Grand Master once referred to him as "the devil incarnate".{{efn|" was also firm, and the Teutonic Knights, who remained a constant menace, did not like him at all; the Grand Master of the order once described him as 'the devil incarnate'. was the trusted friend and advisor of three kings in succession: John Albert, Alexander (not to be confused with the poisoning pope), and Sigismund; and his influence greatly strengthened the ties between Warmia and Poland proper."<ref>Moore (1994), pp. 52, 62.</ref>}} In 1489 Watzenrode was elected ] (Ermeland, Ermland) against the preference of King Casimir IV, who had hoped to install his own son in that seat.<ref name="psb5" /> As a result, Watzenrode quarreled with the king until Casimir IV's death three years later.<ref name="watzenrode" /> Watzenrode was then able to form close relations with three successive Polish monarchs: ], ], and ]. He was a friend and key advisor to each ruler, and his influence greatly strengthened the ties between Warmia and Poland proper.<ref>Moore (1994), p. 62.</ref> Watzenrode came to be considered the most powerful man in Warmia, and his wealth, connections and influence allowed him to secure Copernicus's education and career as a canon at ].<ref name="psb5" />{{efn|"To obtain for his nephews the necessary support , the bishop procured their election as canons by the chapter of Frauenburg (1497–1498)."<ref>"", '']'' (online version of the 1913 '']''). Retrieved 9 June 2013.</ref>}} | |||
In ] Albert Widmanstadt delivered a series of lectures in Rome outlining Copernicus' theory. In ] his work was already in a definitive form, and some rumours about his theory had reached the scientists of all ]. From many parts of the continent, Copernicus received invitations to publish it, but he felt quite apprehensive of persecution for his revolutionary work by the establishment of the time. The ] Nicola Schoenberg of ] wrote him asking him to communicate his ideas more widely and requested a copy for himself; "Therefore, learned man, without wishing to be inopportune, I beg you most emphatically to communicate your discovery to the learned world, and to send me as soon as possible your theories about the Universe, together with the tables and whatever else you have pertaining to the subject." Some have proposed that this note may have made Copernicus nervous of publication whereas others have suggested that the church wanted to ensure that his ideas were published. | |||
=== Education === | |||
Copernicus was still completing his work (even if he was not convinced to publish it), when in ] ], a great ] at ], directly arrived in Frombork. ] had arranged with several astronomers for Rheticus to visit and study with them. Rheticus became a disciple of Copernicus' and stayed with him for two years, in which he wrote a book, ''Narratio prima'', in which he included the essence of the theory. | |||
==== Early education ==== | |||
Copernicus' father died around 1483, when the boy was 10. His maternal uncle, ] (1447–1512), took Copernicus under his wing and saw to his education and career.<ref name="psb4" /> Six years later, Watzenrode was elected Bishop of Warmia. Watzenrode maintained contacts with leading intellectual figures in Poland and was a friend of the influential Italian-born ] and ] ] ].<ref name="Polish Literature p. 38" /> There are no surviving primary documents on the early years of Copernicus's childhood and education.<ref name="psb4" /> Copernicus biographers assume that Watzenrode first sent young Copernicus to St. John's School, at Toruń, where he himself had been a master.<ref name="psb4" /> Later, according to Armitage,{{efn|Dobrzycki and Hajdukiewicz (1969) describe Copernicus having attended school at ] as unlikely.<ref name="psb4" />}} the boy attended the Cathedral School at ], up the ] from Toruń, which prepared pupils for entrance to the ].<ref name="armitage55" /> | |||
]'' at ], Copernicus's Polish ''alma mater'']] | |||
In ], in the name of Copernicus, Rheticus published a treatise on ] (later included in the second book of '']''). Under the strong pressure from Rheticus, and having seen that the first general reception of his work had not been favorable, Copernicus finally agreed to give the book to his close friend ], (the ] of ], to be delivered to Rheticus for printing at ]. | |||
===== University of Kraków 1491–1495 ===== | |||
Legend says that the first printed copy of '']'' was put in Copernicus's hands the same day of his death, so that he could say goodbye to his ''opus vitae''. He allegedly awoke from his ] induced ], looked at his book, and died peacefully. | |||
In the winter semester of 1491–92 Copernicus, as "Nicolaus Nicolai de Thuronia", matriculated together with his brother Andrew at the ].<ref name="psb4" /> Copernicus began his studies in the Department of Arts (from the fall of 1491, presumably until the summer or fall of 1495) in the heyday of the ], acquiring the foundations for his subsequent mathematical achievements.<ref name="psb4" /> According to a later but credible tradition (]), Copernicus was a pupil of ], who by then (from 1491) was a professor of ] but taught ] privately outside the university; Copernicus became familiar with Brudzewski's widely read commentary to ]'s ''Theoricæ novæ planetarum'' and almost certainly attended the lectures of ] and ] of ], and probably other astronomical lectures by ], ] (Breslau), ], and ] of ].<ref name="psb4-5" /> | |||
====== Mathematical astronomy ====== | |||
Copernicus was buried in the ] Cathedral. However, a group of archaeologists searching for the body of Copernicus in ] failed to find the corpse of the astronomer. They found, however, several interesting graves from various time periods. The search for the body of Copernicus will continue in ]. | |||
Copernicus's Kraków studies gave him a thorough grounding in the mathematical astronomy taught at the university (arithmetic, geometry, geometric optics, cosmography, theoretical and computational astronomy) and a good knowledge of the philosophical and natural-science writings of ] ('']'', '']'') and ], stimulating his interest in learning and making him conversant with ] culture.<ref name="psb5" /> Copernicus broadened the knowledge that he took from the university lecture halls with independent reading of books that he acquired during his Kraków years (], ], the '']'', ]' ''Tabulae directionum''); to this period, probably, also date his earliest scientific notes, preserved partly at ].<ref name="psb5" /> At Kraków Copernicus began collecting a large library on astronomy; it would later be carried off as war booty by the Swedes during the ] in the 1650s and has been preserved at the ].<ref>Sobel (2011), pp. 7, 232.</ref> | |||
====== Contradictions in the systems of Aristotle and Ptolemy ====== | |||
See also ]. | |||
Copernicus's four years at Kraków played an important role in the development of his critical faculties and initiated his analysis of logical contradictions in the two "official" systems of astronomy—Aristotle's theory of homocentric spheres, and ]'s mechanism of ] and ]s—the surmounting and discarding of which would be the first step toward the creation of Copernicus's own doctrine of the structure of the universe.<ref name="psb5" /> | |||
===== Warmia 1495–96 ===== | |||
==The Copernican heliocentric system== | |||
Without taking a degree, probably in the fall of 1495, Copernicus left Kraków for the court of his uncle Watzenrode, who in 1489 had been elevated to ] and soon (before November 1495) sought to place his nephew in the Warmia ] vacated by 26 August 1495 death of its previous tenant, Jan Czanow. For unclear reasons—probably due to opposition from part of the chapter, who appealed to Rome—Copernicus's installation was delayed, inclining Watzenrode to send both his nephews to study canon law in Italy, seemingly with a view to furthering their ecclesiastic careers and thereby also strengthening his own influence in the Warmia chapter.<ref name="psb5" /> | |||
===Earlier theories=== | |||
Much has been written about earlier heliocentric theories. ] (]) was one of the first to suppose a movement of the Earth, probably inspired by ]'s theories on a spherical Globe. | |||
] in ]]] | |||
] of ] (]) developed some theories by ] (already talking about a revolution of our planet on its axis) to propose what is, to the best of our knowledge, the first serious model of a heliocentric solar system. Unfortunately, his work about his heliocentric hypothesis did not survive, so we can only speculate about what led him to his conclusions. It is notable that, according to Plutarch, a contemporary of Aristarchus accused him of impiety for "putting the Earth in motion". | |||
On 20 October 1497, Copernicus, by proxy, formally succeeded to the Warmia canonry which had been granted to him two years earlier. To this, by a document dated 10 January 1503 at ], he would add a ] at the ] in ] (at the time in the ]). Despite having been granted a papal ] on 29 November 1508 to receive further ]s, through his ecclesiastic career Copernicus not only did not acquire further ]s and higher stations (]) at the chapter, but in 1538 he relinquished the Wrocław sinecure. It is unclear whether he was ever ordained a priest.<ref>Jerzy Dobrzycki and Leszek Hajdukiewicz, "Kopernik, Mikołaj", '']'' (Polish Biographical Dictionary), vol. XIV, Wrocław, ], 1969, p. 5.</ref> ] asserts that he was not.<ref>{{cite journal |last=Rosen |first=Ed |date=December 1960 |title=Copernicus was not a priest |journal=Proc. Am. Philos. Soc. |volume=104 |issue=6 |url=http://www.philosophy-religion.org/handouts/pdfs/Copernicus-rev.pdf |url-status=dead |archive-url=https://web.archive.org/web/20131029214028/http://www.philosophy-religion.org/handouts/pdfs/Copernicus-rev.pdf |archive-date=29 October 2013 }}</ref><ref name="Cop+Succ">{{cite book |last=Rosen |first=Edward |editor1-last=Hilfstein |editor1-first=Erna |year=1995 |title=Copernicus and his successors |publisher=The Hambledon Press <!-- Deny Citation Bot--> |location=UK <!-- Deny Citation Bot--> |chapter=Chapter 6: Copernicus'<!--no "s" in original"--> Alleged Priesthood |isbn=978-1-85285-071-5 |pages=47–56 |chapter-url=https://books.google.com/books?id=C_a1kTvuZ1MC&pg=PA47 |access-date=17 December 2014|bibcode=1995cops.book.....R }}</ref> Copernicus did take ], which sufficed for assuming a chapter canonry.<ref name="psb5" /> The ''Catholic Encyclopedia'' proposes that his ordination was probable, as in 1537 he was one of four candidates for the ] seat of ], a position that required ordination.<ref name="newadvent.org">{{cite encyclopedia |last=Hagen |first=J. |date=1908 |title=Nicolaus Copernicus |encyclopedia=Catholic Encyclopedia |location=New York |publisher=Robert Appleton Company |access-date=6 November 2015 |url=http://www.newadvent.org/cathen/04352b.htm}}</ref> | |||
Indian mathematicians, astronomers and physicians, most notably ] and ], also predate Copernicus' discoveries, by about 1000 years. The work of the ] Muslim astronomer ] contains results similar to those of Copernicus, and it has even been suggested that Copernicus might have been influenced by them. | |||
==== Italy ==== | |||
Copernicus cited Aristarchus and Philolaus in an early manuscript of his book which has survived, stating: "Philolaus believed in the mobility of the earth, and some even say that Aristarchus of Samos was of that opinion." For reasons unknown he crossed out this passage before publication of his book. | |||
===== University of Bologna 1496–1501 ===== | |||
Meanwhile, leaving Warmia in mid-1496—possibly with the retinue of the chapter's chancellor, Jerzy Pranghe, who was going to Italy—in the fall, possibly in October, Copernicus arrived in ] and a few months later (after 6 January 1497) signed himself into the register of the Bologna University of Jurists' "German nation", which included young Poles from ], ] and ] as well as students of other nationalities.<ref name="psb5" /> | |||
During his three-year stay at Bologna, which occurred between fall 1496 and spring 1501, Copernicus seems to have devoted himself less keenly to studying ] (he received his ] only after seven years, following a second return to Italy in 1503) than to studying the ]—probably attending lectures by ], ], called Codro, ], and ]—and to studying astronomy. He met the famous astronomer ] and became his disciple and assistant.<ref name="psb5" /> Copernicus was developing new ideas inspired by reading the "Epitome of the Almagest" (''Epitome in Almagestum Ptolemei'') by ] and ] (Venice, 1496). He verified its observations about certain peculiarities in Ptolemy's theory of the Moon's motion, by conducting on 9 March 1497 at Bologna a memorable observation of the ] of ], the brightest star in the ] constellation, by the Moon. Copernicus the humanist sought confirmation for his growing doubts through close reading of Greek and Latin authors (], ], ], ], ], ], ], ], ], ]), gathering, especially while at ], fragmentary historic information about ancient astronomical, ] and ] systems.<ref name="psb5-6" /> | |||
===Copernican Theory=== | |||
Copernicus' major theory was published in the book '']'' (''On the Revolutions of the Heavenly Spheres'') in the year of his death ], even though he had arrived at it several decades earlier. | |||
] to Copernicus by Collegium Novum of ] in ]]] | |||
This book marks the beginning of the shift from a ] (and ]) universe with the Earth at its center. Copernicus held that the Earth is another ] revolving around the fixed sun once a ], and turning on its ] once a ]. He arrived at the correct order of the known planets and explained the precession of the ]es correctly by a slow change in the position of the Earth's rotational axis. He also gave a clear account of the cause of the seasons: that the Earth's axis is not perpendicular to the plane of its orbit. He added another motion to the Earth, by which the axis is kept pointed throughout the year at the same place in the heavens; from the time of Galileo it has been recognized that for it ''not'' to point to the same place would be a motion. | |||
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He also replaced ]'s ] circles with epicycles. This is the main source of the statement that his system had even more epicycles than Ptolemy's. With this change his system had only uniform circular motions, correcting what seemed to be a defect in Ptolemy's system. Unfortunately, uniform circular motion is not what happens in the solar system, which runs on elliptical ]s; and this model was no more precise in predicting ] than the then current tables based on Ptolemy's model. Furthermore, he badly underestimated the size of the solar system, like most of the astronomers of the time. | |||
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| image1 = Domenico Maria Novara house location.jpg | |||
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| caption1 = Via Galliera 65, ], site of house of ] | |||
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| caption2 = Close-up of plaque{{efn|Translated to English, it reads: "Here, where stood the house of Domenico Maria Novara, professor of the ancient ], NICOLAUS COPERNICUS, the Polish mathematician and astronomer who would revolutionize concepts of the universe, conducted brilliant celestial observations with his teacher in 1497–1500. Placed on the 5th centenary of birth by the ], the ], the Academy of Sciences of the Institute of Bologna, the ]. 1473 1973."}} | |||
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===== Rome 1500 ===== | |||
The system nevertheless had a large influence on scientists such as ], ], and ], who adopted, championed and (especially in Kepler's case) improved the model. | |||
Copernicus spent the ] 1500 in Rome, where he arrived with his brother Andrew that spring, doubtless to perform an apprenticeship at the ]. Here, too, however, he continued his astronomical work begun at Bologna, observing, for example, a ] on the night of 5–6 November 1500. According to a later account by ], Copernicus also—probably privately, rather than at the Roman '']''—as a "''Professor Mathematum''" (professor of astronomy) delivered, "to numerous ... students and ... leading masters of the science", public lectures devoted probably to a critique of the mathematical solutions of contemporary astronomy.<ref name="psb6" /> | |||
Galileo's observation of the ] of ] produced, however, the first observational evidence for Copernicus' theory. | |||
===== University of Padua 1501–1503 ===== | |||
The Copernican system can be summarized in seven propositions, as Copernicus himself collected them in a Compendium of '']'' that was found and published in ]: | |||
On his return journey doubtless stopping briefly at Bologna, in mid-1501 Copernicus arrived back in Warmia. After on 28 July receiving from the chapter a two-year extension of leave in order to study medicine (since "he may in future be a useful medical advisor to our Reverend Superior ]] and the gentlemen of the chapter"), in late summer or in the fall he returned again to Italy, probably accompanied by his brother Andrew{{efn|Copernicus's brother Andreas would, before the end of 1512, develop ] and be forced to leave Warmia for Italy. In November 1518 Copernicus would learn that his brother had died.<ref>Sobel (2011), pp. 26, 34, 40.</ref>}} and by Canon Bernhard Sculteti. This time he studied at the ], famous as a seat of medical learning, and—except for a brief visit to ] in May–June 1503 to pass examinations for, and receive, his doctorate in canon law—he remained at Padua from fall 1501 to summer 1503.<ref name="psb6" /> | |||
#Orbits and celestial spheres do not have a unique, common, center. | |||
#The center of the Earth is not the center of the Universe, but only the center of the Earth's mass and of the lunar orbit. | |||
#All the planets move along orbits whose center is the Sun, therefore the Sun is the center of the World. (Copernicus was never certain whether the Sun moved or not, claiming that the center of the World is 'in the Sun, or near it.') | |||
#The distance between the Earth and the Sun, compared with the distance between the Earth and the fixed stars, is very small. | |||
#The daytime movement of the Sun is only apparent, and represents the effect of a rotation that the Earth makes every 24 hours around its axis, always parallel to itself. | |||
#The Earth (together with its ], and just like the other planets) moves around the Sun, so the movements that the Sun seems making (its apparent moving during daytime, and its annual moving through the Zodiac) are nothing else than effects of the Earth's real movements. | |||
#These movements of the Earth and of the other planets around the Sun, can explain the stations, and all the particular characteristics of the planets' movements. | |||
Copernicus studied medicine probably under the direction of leading Padua professors—Bartolomeo da Montagnana, ], Gabriele Zerbi, Alessandro Benedetti—and read medical treatises that he acquired at this time, by Valescus de Taranta, Jan Mesue, Hugo Senensis, Jan Ketham, Arnold de Villa Nova, and ], which would form the embryo of his later medical library.<ref name="psb6" /> | |||
These propositions represent the exact contrary of what the dominant geocentric propositions stated. | |||
====== Astrology ====== | |||
===De Revolutionibus Orbium Coelestium=== | |||
One of the subjects that Copernicus must have studied was ], since it was considered an important part of a medical education.<ref name="reference" /> However, unlike most other prominent Renaissance astronomers, he appears never to have practiced or expressed any interest in astrology.<ref name="countenanced" /> | |||
] | |||
''Main article: ].'' | |||
====== Greek studies ====== | |||
The major work of Copernicus, "On the Revolution of Celestial Spheres" (]), is the result of decades of labor. It was dedicated to ], and is divided into 6 books. | |||
As at Bologna, Copernicus did not limit himself to his official studies. It was probably the Padua years that saw the beginning of his Hellenistic interests. He familiarized himself with Greek language and culture with the aid of ]'s grammar (1495) and Johannes Baptista Chrestonius's dictionary (1499), expanding his studies of antiquity, begun at Bologna, to the writings of ], ], and others. There also seems to be evidence that it was during his Padua stay that the idea finally crystallized, of basing a new system of the world on the movement of the Earth.<ref name="psb6" /> | |||
As the time approached for Copernicus to return home, in spring 1503 he journeyed to Ferrara where, on 31 May 1503, having passed the obligatory examinations, he was granted the degree of ] (''Nicolaus Copernich de Prusia, Jure Canonico ... et doctoratus''<ref name="NCGes" />). No doubt it was soon after (at latest, in fall 1503) that he left Italy for good to return to ].<ref name="psb6" /> | |||
=== Planetary observations === | |||
The first book contains a general vision of the heliocentric theory, and a summarized exposition of his idea on the World. | |||
Copernicus made three observations of Mercury, with errors of −3, −15 and −1 minutes of arc. He made one of Venus, with an error of −24 minutes. Four were made of Mars, with errors of 2, 20, 77, and 137 minutes. Four observations were made of Jupiter, with errors of 32, 51, −11 and 25 minutes. He made four of Saturn, with errors of 31, 20, 23 and −4 minutes.<ref>Studia Copernicana 16</ref> | |||
=== Other observations === | |||
The second book is mainly theoretical and reports the principles of spherical astronomy and a list of stars (as a basis for the arguments developed in the following books). | |||
With Novara, Copernicus observed an occultation of Aldebaran by the Moon on 9 March 1497. Copernicus also observed a conjunction of Saturn and the Moon on 4 March 1500. He saw an eclipse of the Moon on 6 November 1500.<ref>{{cite web |url=https://hal.archives-ouvertes.fr/hal-01435500/document |title=Stellarium software and the occultation of Aldebaran observed by Copernicus |last=Sparavigna |first=Ameila Carolina |date=2017 |work=HAL |access-date=22 July 2022}}</ref><ref>{{cite web|url=https://mathshistory.st-andrews.ac.uk/Biographies/Copernicus/|title = Nicolaus Copernicus – Biography}}</ref> | |||
=== Work === | |||
The third book is mainly dedicated to the apparent movements of the Sun and to related phenomena. | |||
]'s ''Epistles''. Cover shows ] of ''(clockwise from top)'' ], Lithuania, and ]]] | |||
], where he lived and worked; reconstructed since ]]] | |||
], where Copernicus resided from 1516 to 1521]] | |||
Having completed all his studies in Italy, 30-year-old Copernicus returned to Warmia, where he would live out the remaining 40 years of his life, apart from brief journeys to ] and to nearby Prussian cities: ] (Thorn), ] (Danzig), ] (Elbing), ] (Graudenz), ] (Marienburg), ] (Królewiec).<ref name="psb6" /> | |||
The fourth book contains a similar description of the Moon and its orbital movements. | |||
The ] enjoyed substantial ], with its own ] (parliament) and monetary unit (the same as in the other parts of ]) and treasury.<ref name="sedlar" /> | |||
The fifth and the sixth books contain the concrete exposition of the new system. | |||
Copernicus was his uncle's secretary and physician from 1503 to 1510 (or perhaps until his uncle's death on 29 March 1512) and resided in the Bishop's castle at ] (Heilsberg), where he began work on his heliocentric theory. In his official capacity, he took part in nearly all his uncle's political, ecclesiastic and administrative-economic duties. From the beginning of 1504, Copernicus accompanied Watzenrode to sessions of the Royal Prussian diet held at Malbork and Elbląg and, write Dobrzycki and Hajdukiewicz, "participated ... in all the more important events in the complex diplomatic game that ambitious politician and statesman played in defense of the particular interests of Prussia and Warmia, between hostility to the Order and loyalty to the Polish Crown."<ref name="psb6" /> | |||
==Copernicus and Copernicanism== | |||
Copernicus' theories have an extraordinary relevance in the history of human knowledge. Many authors suggest that only ]'s ], ]'s ], or ]'s ] could have a similar influence on human ] in general and on ] in particular. | |||
In 1504–1512 Copernicus made numerous journeys as part of his uncle's retinue—in 1504, to Toruń and ], to a session of the Royal Prussian Council in the presence of Poland's King ]; to sessions of the Prussian diet at Malbork (1506), Elbląg (1507) and ] (Stuhm) (1512); and he may have attended a ] (Posen) session (1510) and the coronation of Poland's King ] in Kraków (1507). Watzenrode's itinerary suggests that in spring 1509 Copernicus may have attended the ] ].<ref name="psb6" /> | |||
Many meanings have been seen in his theory, quite apart from its scientific value. His work cut across science and ], ] and freedom of scientific investigation. His academic standing is often compared with ]. | |||
It was probably on the latter occasion, in Kraków, that Copernicus submitted for printing at ]'s press his translation, from Greek to Latin, of a collection, by the 7th-century ] historian ], of 85 brief poems called Epistles, or letters, supposed to have passed between various characters in a Greek story. They are of three kinds—"moral," offering advice on how people should live; "pastoral", giving little pictures of shepherd life; and "amorous", comprising love poems. They are arranged to follow one another in a regular rotation of subjects. Copernicus had translated the Greek verses into Latin prose, and he published his version as ''Theophilacti scolastici Simocati epistolae morales, rurales et amatoriae interpretatione latina'', which he dedicated to his uncle in gratitude for all the benefits he had received from him. With this translation, Copernicus declared himself on the side of the ] in the struggle over the question of whether Greek literature should be revived.<ref name="armitage75–77" /> Copernicus's first poetic work was a Greek ], composed probably during a visit to Kraków, for ]'s ] for ]'s 1512 wedding to ] ].<ref name="psb7" /> | |||
When his work was published, it contradicted then accepted religious dogma: the suggestion being that there is no need for an entity (]) that from outside could give a ], a power and a life to the World and to Human beings when science can explain everything attributed to Him. | |||
==== ''Commentariolus –'' an initial outline of a heliocentric theory ==== | |||
However, Copernicanism also opened a way to ], the view that the divine force, or the divine being, pervades through all things that exist, which has been developed further in modern philosophy. Immanentism also leads into ]: the theory that perception creates reality, and that there is no underlying, true, reality that exists independent of perception. Accordingly some find that Copernicanism demolished the foundations of mediaeval science and ]. | |||
Some time before 1514, Copernicus wrote an initial outline of his heliocentric theory known only from later transcripts, by the title (perhaps given to it by a copyist), ''Nicolai Copernici de hypothesibus motuum coelestium a se constitutis commentariolus''—commonly referred to as the '']''. It was a succinct theoretical description of the world's heliocentric mechanism, without mathematical apparatus, and differed in some important details of geometric construction from ''De revolutionibus''; but it was already based on the same assumptions regarding Earth's triple motions. The ''Commentariolus'', which Copernicus consciously saw as merely a first sketch for his planned book, was not intended for printed distribution. He made only a very few manuscript copies available to his closest acquaintances, including, it seems, several Kraków astronomers with whom he collaborated in 1515–1530 in observing ]s. ] would include a fragment from the '']'' in his own treatise, ''Astronomiae instauratae progymnasmata'', published in ] in 1602, based on a manuscript that he had received from the ]n physician and astronomer ], a friend of ]. The ''Commentariolus'' would appear complete in print for the first time only in 1878.<ref name="psb7" /> | |||
==== Astronomical observations 1513–1516 ==== | |||
One of the consequences of Copernicanism is that scientific laws must not necessarily coincide with appearance. This contrasts with ]'s system, which placed much more value on knowledge gained from the senses. | |||
In 1510 or 1512 Copernicus moved to Frombork, a town to the northwest at the ] on the ] coast. There, in April 1512, he participated in the election of ] as ]. It was only in early June 1512 that the chapter gave Copernicus an "external curia"—a house outside the defensive walls of the cathedral mount. In 1514 he purchased the northwestern tower within the walls of the Frombork stronghold. He would maintain both these residences to the end of his life, despite the devastation of the chapter's buildings by a raid against Frauenburg carried out by the Teutonic Order in January 1520, during which Copernicus's astronomical instruments were probably destroyed. Copernicus conducted astronomical observations in 1513–1516 presumably from his external curia; and in 1522–1543, from an unidentified "small tower" (''turricula''), using primitive instruments modeled on ancient ones—the ], ], ]. At Frombork Copernicus conducted over half of his more than 60 registered astronomical observations.<ref name="psb7" /> | |||
==== Administrative duties in Warmia ==== | |||
Copernicus' innovation was a scientific revolution. Some say "the" revolution . ], for instance, caught the symbolic character of Copernicus' revolution (of which he put in evidence the transcendental ]) postulating that human rationality was the real legislator of observed phenomena. More recent philosophers also have found Copernicanism to remain valid and retain valuable philosophical meaning. | |||
Having settled permanently at Frombork, where he would reside to the end of his life, with interruptions in 1516–1519 and 1520–21, Copernicus found himself at the Warmia chapter's economic and administrative center, which was also one of Warmia's two chief centers of political life. In the difficult, politically complex situation of Warmia, threatened externally by the ]'s aggressions (attacks by Teutonic bands; the ]; Albert's plans to annex Warmia), internally subject to strong separatist pressures (the selection of the ]; ]), he, together with part of the chapter, represented a program of strict cooperation with the ] and demonstrated in all his public activities (the defense of his country against the Order's plans of conquest; proposals to unify its ] system with the Polish Crown's; support for Poland's interests in the Warmia dominion's ecclesiastic administration) that he was consciously a citizen of the ]. Soon after the death of uncle Bishop Watzenrode, he participated in the signing of the ] (7 December 1512), governing the appointment of the ], declaring, despite opposition from part of the chapter, for loyal cooperation with the ].<ref name="psb7" /> | |||
That same year (before 8 November 1512) Copernicus assumed responsibility, as ''magister pistoriae'', for administering the chapter's economic enterprises (he would hold this office again in 1530), having already since 1511 fulfilled the duties of chancellor and visitor of the chapter's estates.<ref name="psb7" /> | |||
==Discussion== | |||
Copernicus' lived in early ] Prussia and Poland, and was influenced by the cultural, religious, and social contexts of life at the time. He was well educated. At the ], which he attended in ] and ], Copernicus studied both mathematics and astronomy in common with all university students of that time. There is evidence that his interest in these subjects continued after he had left ]. | |||
His administrative and economic duties did not distract Copernicus, in 1512–1515, from intensive observational activity. The results of his observations of ] and ] in this period, and especially a series of four observations of the ] made in 1515, led to the discovery of the variability of ]'s ] and of the movement of the solar ] in relation to the ], which in 1515–1519 prompted his first revisions of certain assumptions of his system. Some of the observations that he made in this period may have had a connection with a proposed reform of the ] made in the first half of 1513 at the request of the ], ]. Their contacts in this matter in the period of the ] were later memorialized in a complimentary mention in Copernicus's dedicatory epistle in '']'' and in a treatise by Paul of Middelburg, ''Secundum compendium correctionis Calendarii'' (1516), which mentions Copernicus among the learned men who had sent the Council proposals for the calendar's emendation.<ref name="psb7-8" /> | |||
The Earth-centered ] had been the accepted model of the universe since the ]. Ptolemy's model explained each planet's circular motion individually and was the first model of the universe to explain some of the eccentric behaviour of the planets. It maintained that all planetary motion, and the motion of the Moon, the Sun, and the stars was circular, around a stationary Earth. | |||
During 1516–1521, Copernicus resided at Olsztyn (Allenstein) Castle as economic administrator of Warmia, including ] (Allenstein) and ] (Mehlsack). While there, he wrote a manuscript, '']'' (''Locations of Deserted Fiefs''), with a view to populating those fiefs with industrious farmers and so bolstering the economy of Warmia. When ] by the ] during the ], Copernicus directed the defense of Olsztyn and Warmia by Royal Polish forces. He also represented the Polish side in the ensuing peace negotiations.<ref name="repcheck66" /> | |||
An accurate calculation of the astronomical year was important to a clergyman, like Copernicus, allowing him to forecast properly the various festivals that comprised the liturgical calendar. The mathematical confusion that Copernicus said caused him to develop an alternative to the geocentric model derived from an inadequate reconciliation of the Aristotelian model and amendments to it by Ptolemy. | |||
]: portrait in ]'s ''Icones'' (1587).<ref name=lily>Andreas Kühne, Stefan Kirschner, ''Biographia Copernicana: Die Copernicus-Biographien des 16. bis 18. Jahrhunderts'' (2004), </ref>{{efn|It was based on a sketch by ] (c. 1570), allegedly based on a self-portrait by Copernicus. It inspired most later Copernicus depictions.<ref name=lily />}}]] | |||
The Ptolemaic geocentric model was complicated and inconsistent in Copernicus' estimations and observations, including one in ] of the star ], that did not coincide with predictions made by Ptolemy. Nor did the Ptolemaic model explain ]. Precession is the phenomenon by which the Earth's axis "wobbles". This characteristic of the Earth's movement is apparent only with observation over long periods of time. In Copernicus' view, Ptolemy's explanation failed to provide an accurate mathematical description of the universe. His heliocentric universe theory accomplished this by dispensing with individual explanations for the motion of each planet, and replacing them with a description that applied to all the planets, including the Earth. | |||
===== Advisor on monetary reform ===== | |||
Copernicus' mathematical experience engendered in his thought a desire for a simpler and more elegant model of the universe. He was acquainted with ideas espoused by other classical authors. Some of the ideas expressed by ] (]) and ] (]), proposed cosmological models in which the Earth moved. ] (]) proposed an openly heliocentric model of the universe. Heraclides' description of the revolutions of ] and ] around the Sun might have led Copernicus to consider that the other planets, including the Earth, did the same. | |||
Copernicus for years advised the ]n ] on ], particularly in the 1520s when that was a major question in regional Prussian politics.<ref name="psb9" /> In 1526 he wrote a study on the value of money, "]". In it he formulated an early iteration of the theory called ], that "bad" (]) ]age drives "good" (un-debased) coinage out of circulation—several decades before ]. He also, in 1517, set down a ], a principal concept in modern economics. Copernicus's recommendations on monetary reform were widely read by leaders of both Prussia and Poland in their attempts to stabilize currency.<ref name="beginnings" /> | |||
==== Copernican system presented to the Pope ==== | |||
Elegance was a consequence of the overall simplicity of Copernicus' cosmology and much of this seeming simplicity resulted from his retention of circular orbits for the planets around the central Sun. Copernicus used the eccentrics, epicycles, and equants of Ptolemaic cosmology, but added three kinds of motion to describe the observed behaviour of the Earth: | |||
In 1533, ], secretary to ], explained Copernicus's heliocentric system to the Pope and two cardinals. The Pope was so pleased that he gave Widmanstetter a valuable gift.<ref name="Repcheck" /> In 1535 ] wrote a letter to a gentleman in ], urging him to publish an enclosed ], which he claimed had been written by Copernicus. This is the only mention of a Copernicus almanac in the historical records. The "almanac" was likely Copernicus's tables of planetary positions. Wapowski's letter mentions Copernicus's theory about the motions of the Earth. Nothing came of Wapowski's request, because he died a couple of weeks later.<ref name="Repcheck" /> | |||
*Annual motion — the yearly orbit around the Sun | |||
*Daily rotation — the motion around a tilted axis that results in day and night | |||
*Precession — the axial wobble mentioned earlier that explains why the position of the fixed stars seems to change over long periods of time. | |||
Following the death of Prince-Bishop of Warmia ] (1 July 1537), Copernicus participated in the election of his successor, ] (20 September 1537). Copernicus was one of four candidates for the post, written in at the initiative of ]; but his candidacy was actually '']'', since Dantiscus had earlier been named ] to Ferber and since Dantiscus had the backing of Poland's King ].<ref name="psb11" /> At first Copernicus maintained friendly relations with the new Prince-Bishop, assisting him medically in spring 1538 and accompanying him that summer on an inspection tour of Chapter holdings. But that autumn, their friendship was strained by suspicions over Copernicus's housekeeper, Anna Schilling, whom Dantiscus banished from Frombork in spring 1539.<ref name="psb11" /> | |||
Until ], the year that Copernicus died, and the year in which his ''de Revolutionibus'' was published, and for many years afterwards, Copernicus' description of the motion of the Earth was not ratified by empirical evidence. In his unauthorized and anonymous preface to ''de Revolutionibus'', Andreas Osiander was technically correct when he made reference to "the hypothesis of this work". However, its consistency with the observed behaviour of the universe in a time before the telescope made more detailed observation and the gathering of more accurate measurements practicable, gave the Copernican model its strongest support. Not much more than a century later, ] had certainly despatched the circular orbits of the planets and replaced them with ellipses, but the Copernican heliocentric universe was still intact. | |||
==== Medical work ==== | |||
In his own preface to his work, dedicated to Pope Paul III, Copernicus took care to point out that his motives for developing a cosmology that included a moving, rather than a stationary, Earth, were inspired by his dissatisfaction with the mathematical and astronomical descriptions of the geocentric model, and were not intended to defy the written Word. "Mathematics", he says, "is written for mathematicians". Copernicus seems to have been benefited from the attitude of the bishops who were his superiors in the church - ] and ]. Both preferred, at least initially, to promote tolerance of differing views within the church rather than open discord, and both encouraged Copernicus' publication of his scientific beliefs. However, the lenient attitudes in ], where Copernicus carried out much of his work, began to change and might have contributed to Copernicus' isolation in the last years of his life. For orthodox Catholics, the Copernican model of the universe might have seemed too radically different from the geocentric model, sustained as it was by its agreement with many scriptural references. They might not have been ready to change to an understanding of the Bible as a source only of moral and ], rather than ], wisdom. | |||
In his younger days, Copernicus the physician had treated his uncle, brother and other chapter members. In later years he was called upon to attend the elderly bishops who in turn occupied the see of Warmia—Mauritius Ferber and Johannes Dantiscus—and, in 1539, his old friend ], Bishop of ] (Kulm). In treating such important patients, he sometimes sought consultations from other physicians, including the physician to Duke Albert and, by letter, the Polish Royal Physician.<ref name="armitage97–98" /> | |||
In the spring of 1541, ]—former Grand Master of the ] who had converted the ] into a ] and hereditary realm, the ], upon doing homage to his uncle, the ]—summoned Copernicus to ] to attend the Duke's counselor, ], who had fallen seriously ill, and for whom the Prussian doctors seemed unable to do anything. Copernicus went willingly; he had met von Kunheim during negotiations over reform of the coinage. And Copernicus had come to feel that Albert himself was not such a bad person; the two had many intellectual interests in common. The Chapter readily gave Copernicus permission to go, as it wished to remain on good terms with the Duke, despite his ] faith. In about a month the patient recovered, and Copernicus returned to Frombork. For a time, he continued to receive reports on von Kunheim's condition, and to send him medical advice by letter.<ref name="armitage98" /> | |||
As far as Copernicus was concerned, the Sun, a distinctive element in classical thought, held the central and most important position in the universe, gave added credence to his cosmology. His reverence for the sun can be seen in the most famous passage of ''de Revolutionibus'': | |||
==== Protestant attacks on the Copernican system ==== | |||
:"In the center of all rests the Sun. For who would place this lamp of a very beautful temple in another or better place then this from which it can illuminate everything at the same time? As a matter of fact, not unhappily do some call it the lantern; others, the mind, and still others, the pilot of the world. Trismegistus calls it a 'visible God'; Sophocles' Electra, 'that which gazes upon all things.' And so the Sun, as if resting on a kingly throne, governs the family of stars which wheel around." | |||
Some of Copernicus's close friends turned Protestant, but Copernicus never showed a tendency in that direction. The first attacks on him came from Protestants. ], a Dutch refugee settled in ], wrote a comedy in ], ''Morosophus'' (The Foolish Sage), and staged it at the Latin school that he had established there. In the play, Copernicus was caricatured as the eponymous Morosophus, a haughty, cold, aloof man who dabbled in ], considered himself inspired by God, and was rumored to have written a large work that was moldering in a chest.<ref name="Polish Literature p. 38" /> | |||
Elsewhere Protestants were the first to react to news of Copernicus's theory. ] wrote: | |||
In this discussion of Copernicus' reasons for discarding such a long-held belief as the geocentric cosmology of Ptolemy, we can see that the Copernican revolution was simmering against a background revolution of theological thought — the Reformation. Neo-Platonic and classical ideas formed the intellectual environment in which Copernicus worked. Although not holding ordained office within the Catholic Church, Copernicus was devout and unwilling to be openly defiant of the Church's teaching, but, in common with supporters of the Reformation, Copernicus was criticizing orthodox theory and belief. His reasons for doing so lay in his dissatisfaction with the inadequacies of the geocentric model, in his strong belief in the truth of the solution to the problem that he developed, its elegance and relative simplicity, and its coincidence with observation and with the classical ideals to which he had subscribed since his youth. | |||
{{blockquote|Some people believe that it is excellent and correct to work out a thing as absurd as did that ] astronomer who moves the earth and stops the sun. Indeed, wise rulers should have curbed such light-mindedness.<ref name="Polish Literature p. 38" />}} | |||
==Quotes== | |||
''']''': | |||
:"Of all discoveries and opinions, none may have exerted a greater effect on the human spirit than the doctrine of Copernicus. The world had scarcely become known as round and complete in itself when it was asked to waive the tremendous privilege of being the center of the universe. Never, perhaps, was a greater demand made on mankind - for by this admission so many things vanished in mist and smoke! What became of our Eden, our world of innocence, piety and poetry; the testimony of the senses; the conviction of a poetic - religious faith? No wonder his contemporaries did not wish to let all this go and offered every possible resistance to a doctrine which in its converts authorized and demanded a freedom of view and greatness of thought so far unknown, indeed not even dreamed of." | |||
Nevertheless, in 1551, eight years after Copernicus's death, astronomer ] published, under the sponsorship of Copernicus's former military adversary, the Protestant Duke Albert, the '']'', a set of astronomical tables based on Copernicus's work. Astronomers and astrologers quickly adopted it in place of its predecessors.<ref name="reference36" /> | |||
'''Copernicus''': | |||
:For I am not so enamored of my own opinions that I disregard what others may think of them. I am aware that a philosopher's ideas are not subject to the judgement of ordinary persons, because it is his endeavor to seek the truth in all things, to the extent permitted to human reason by God. Yet I hold that completely erroneous views should be shunned. Those who know that the consensus of many centuries has sanctioned the conception that the earth remains at rest in the middle of the heaven as its center would, I reflected, regard it as an insane pronouncement if I made the opposite assertion that the earth moves. | |||
=== Heliocentrism === | |||
:For when a ship is floating calmly along, the sailors see its motion mirrored in everything outside, while on the other hand they suppose that they are stationary, together with everything on board. In the same way, the motion of the earth can unquestionably produce the impression that the entire universe is rotating. | |||
] ] ]''", 1597]] | |||
Some time before 1514 Copernicus made available to friends his "]" ("Little Commentary"), a ] describing his ideas about the heliocentric hypothesis.{{efn|A reference to the "Commentariolus" is contained in a library catalogue, dated 1 May 1514, of a 16th-century historian, Matthew of ], so it must have begun circulating before that date (Koyré, ]; Gingerich, ]). ] (1990 p. 99) gives the length of the manuscript as 40 pages.}} It contained seven basic assumptions (detailed below).<ref name="goddu" /> Thereafter he continued gathering data for a more detailed work. | |||
At about 1532, Copernicus had basically completed his work on the manuscript of '']''; but despite urging by his closest friends, he resisted openly publishing his views, not wishing—as he confessed—to risk the scorn "to which he would expose himself on account of the novelty and incomprehensibility of his theses."<ref name="psb11" /> | |||
:“Therefore alongside the ancient hypotheses, which are no more probable, let us permit these new hypotheses also to become known, especially since they are admirable as well as simple and bring with them a huge treasure of very skillful observations. So far as hypotheses are concerned, let no one expect anything certain from astronomy, which cannot furnish it, lest he accept as the truth ideas conceived for another purpose, and depart from this study a greater fool than when he entered it. Farewell.” | |||
==== Reception of the Copernican system in Rome ==== | |||
==University== | |||
In 1533, ] delivered a series of lectures in Rome outlining Copernicus's theory. ] and several ] heard the lectures and were interested in the theory. On 1 November 1536, Cardinal ], ], wrote to Copernicus from Rome: | |||
Copernicus was honoured by Poland when the ], established ], was named after him. | |||
{{blockquote|Some years ago word reached me concerning your proficiency, of which everybody constantly spoke. At that time I began to have a very high regard for you ... For I had learned that you had not merely mastered the discoveries of the ancient astronomers uncommonly well but had also formulated a new cosmology. In it you maintain that the earth moves; that the sun occupies the lowest, and thus the central, place in the universe ... Therefore with the utmost earnestness I entreat you, most learned sir, unless I inconvenience you, to communicate this discovery of yours to scholars, and at the earliest possible moment to send me your writings on the sphere of the universe together with the tables and whatever else you have that is relevant to this subject ...<ref name="webexhibits" />}} | |||
==See also== | |||
* ] | |||
* ] | |||
* ] | |||
* ] | |||
By then, Copernicus's work was nearing its definitive form, and rumors about his theory had reached educated people all over Europe. Despite urgings from many quarters, Copernicus delayed publication of his book, perhaps from fear of criticism—a fear delicately expressed in the subsequent ] of his masterpiece to ]. Scholars disagree on whether Copernicus's concern was limited to possible astronomical and philosophical objections, or whether he was also concerned about religious objections.{{efn|Koyré ] and Rosen ] take the view that Copernicus was indeed concerned about possible objections from theologians, while Lindberg and Numbers ] argue against it. Koestler ] also denies it. Indirect evidence that Copernicus was concerned about objections from theologians comes from a letter written to him by ] in 1541, in which Osiander advises Copernicus to adopt a proposal by which he says "you will be able to appease the Peripatetics and theologians whose opposition you fear". ]}} | |||
==Reference== | |||
DC Goodman, CA Russell, eds. ''The Rise of Scientific Europe 1500-1800''. Bath, UK: Hodder & | |||
=== ''De revolutionibus orbium coelestium'' === | |||
==External links== | |||
{{wikiquote}} | |||
* | |||
*Portraits of Copernicus: ; | |||
* - A reliable website from Cambridge University describing Copernicus' astrological activities. | |||
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* - Full digital facsimile, Lehigh University. | |||
* - Full digital facsimile, Jagiellonian University. | |||
* | |||
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* | |||
* - in Italian | |||
*"''''". - Was One of the Greatest Scientific Works Really Ignored?. All Things Considered, ]. March 4, 2004. | |||
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Copernicus was still working on '']'' (even if not certain that he wanted to publish it) when in 1539 ], a ] mathematician, arrived in Frombork. ], a close theological ally of ], had arranged for Rheticus to visit several astronomers and study with them. Rheticus became Copernicus's pupil, staying with him for two years and writing a book, '']'' (First Account), outlining the essence of Copernicus's theory. In 1542 Rheticus published a treatise on ] by Copernicus (later included as chapters 13 and 14 of Book I of ''De revolutionibus'').<ref>Freely (2014), p. 149</ref> | |||
<!-- Categorization --> | |||
Under strong pressure from Rheticus, and having seen the favorable first general reception of his work, Copernicus finally agreed to give ''De revolutionibus'' to his close friend, ], bishop of ] (Kulm), to be delivered to Rheticus for printing by the German printer ] at ] (''Nürnberg''), Germany. While Rheticus initially supervised the printing, he had to leave Nuremberg before it was completed, and he handed over the task of supervising the rest of the printing to a Lutheran theologian, ].<ref name="archive" /> | |||
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Osiander added an unauthorised and unsigned preface, defending Copernicus's work against those who might be offended by its novel hypotheses. He argued that "different hypotheses are sometimes offered for one and the same motion the astronomer will take as his first choice that hypothesis which is the easiest to grasp." According to Osiander, "these hypotheses need not be true nor even probable. f they provide a calculus consistent with the observations, that alone is enough."<ref>Sobel (2011) p. 188.</ref> | |||
=== Death === | |||
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Toward the close of 1542, Copernicus was seized with ] and paralysis, and he died at age 70 on 24 May 1543. Legend has it that he was presented with the final printed pages of his '']'' on the very day that he died, allowing him to take farewell of his life's work.{{efn|According to {{harvnb|Bell|1992|p=111}}, | |||
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"... Copernicus, on his deathbed, received the printer's proofs of his epoch-breaking ''Dē revolutionibus orbium coelestium''."}} He is reputed to have awoken from a stroke-induced coma, looked at his book, and then died peacefully.{{efn|], page 189, says the following about a letter from Canon ] to ]: " the end came only after several months, on 24 May. In a letter to Rheticus, written a few weeks later, Giese recorded the event in a single, tragic sentence: 'For many days he had been deprived of his memory and mental vigour; he only saw his completed book at the last moment, on the day he died.'" Koestler attributes this quotation to ], ''Nicolaus Copernicus'', Berlin 1883–1884, volume 1, part 2, p. 554.}} | |||
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Copernicus was reportedly buried in Frombork Cathedral, where a 1580 epitaph stood until being defaced; it was replaced in 1735. For over two centuries, archaeologists searched the cathedral in vain for Copernicus's remains. Efforts to locate them in 1802, 1909, 1939 had come to nought. In 2004 a team led by Jerzy Gąssowski, head of an ] and ] institute in ], began a new search, guided by the research of historian ].<ref name=gass2005>{{cite web |last=Gąssowski |first=Jerzy |year=2005 |title=Poszukiwanie grobu Kopernika |trans-title=Searching for Copernicus's Grave |language=pl |website=astronomia.pl |publisher=Grupa Astronomia |url=http://www.astronomia.pl/historia_astronomii/index.php?id=614 |archive-url=https://web.archive.org/web/20140708123031/http://www.astronomia.pl/historia_astronomii/index.php?id=614 |archive-date=8 July 2014 |quote=It results from the research of Dr. Jerzy Sikorski, an Olsztyn historian and an outstanding researcher of the life and work of Nicolaus Copernicus. According to Dr. Sikorski, the canon of the Frombork cathedral was buried in the immediate vicinity of this altar, which was entrusted to their care. This altar was the one who once wore the call of Saint Andrew, and now St. Cross, fourth in the right row. |access-date=7 December 2017}}</ref><ref name="Genetic" /> In August 2005, after scanning beneath the cathedral floor, they discovered what they believed to be Copernicus's remains.<ref name="Polish tests" /> | |||
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The discovery was announced only after further research, on 3 November 2008. Gąssowski said he was "almost 100 percent sure it is Copernicus".<ref name="100 Percent" /> ] expert Capt. Dariusz Zajdel of the Polish Police Central Forensic Laboratory used the skull to reconstruct a face that closely resembled the features—including a broken nose and a scar above the left eye—on a Copernicus self-portrait.<ref name="100 Percent" /> The expert also determined that the skull belonged to a man who had died around age 70—Copernicus's age at the time of his death.<ref name="Polish tests" /> | |||
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The grave was in poor condition, and not all the remains of the skeleton were found; missing, among other things, was the lower jaw.<ref name="guardian" /> The DNA from the bones found in the grave matched hair samples taken from a book owned by Copernicus which was kept at the library of the ] in Sweden.<ref name="Genetic" /><ref name="gravemystery" /> | |||
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On 22 May 2010, Copernicus was given a second funeral in a ] led by ], the former ] to Poland and newly named ]. Copernicus's remains were reburied in the same spot in ] where part of his skull and other bones had been found. A black granite tombstone identifies him as the founder of the ] and also a church ]. The tombstone bears a representation of Copernicus's model of the Solar System—a golden Sun encircled by six of the planets.<ref name="PD20100525" /> | |||
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== Copernican system == | |||
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{{Main|Copernican heliocentrism}} | |||
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=== Predecessors === | |||
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] (c. 470 – c. 385 BCE) described an astronomical system in which a ] (different from the Sun) occupied the centre of the universe, and a counter-Earth, the Earth, Moon, the Sun itself, planets, and stars all revolved around it, in that order outward from the centre.<ref name="archive39" /> ] (387–312 BCE) proposed that the Earth rotates on its axis.<ref name="archive40" /> | |||
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] (c. 310 BCE – c. 230 BCE) was the first to advance a theory that the Earth orbited the Sun.<ref name="archive38" /> Further mathematical details of Aristarchus's heliocentric system were worked out around 150 BCE by the ] astronomer ]. Though Aristarchus's original text has been lost, a reference in ]' book '']'' (''Archimedis Syracusani Arenarius & Dimensio Circuli'') describes a work by Aristarchus in which he advanced the heliocentric model. ] gives the following English translation of Archimedes's text:<ref>], . The italics and parenthetical comments are as they appear in Heath's original.</ref> | |||
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<!--- This is a verbatim quotation of Heath's text. As such, it should preserve the spelling—of such words as "centre", for instance—which he actually used.--> | |||
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{{blockquote|You are now aware that the "universe" is the name given by most astronomers to the sphere the centre of which is the centre of the earth, while its radius is equal to the straight line between the centre of the sun and the centre of the earth. This is the common account (τά γραφόμενα) as you have heard from astronomers. But Aristarchus has brought out a ''book consisting of certain hypotheses'', wherein it appears, as a consequence of the assumptions made, that the universe is many times greater than the "universe" just mentioned. His hypotheses are that ''the fixed stars and the sun remain unmoved, that the earth revolves about the sun on the circumference of a circle, the sun lying in the middle of the orbit'', and that the sphere of the fixed stars, situated about the same centre as the sun, is so great that the circle in which he supposes the earth to revolve bears such a proportion to the distance of the fixed stars as the centre of the sphere bears to its surface.|'']''}} | |||
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In an early unpublished manuscript of ''De Revolutionibus'' (which still survives), Copernicus mentioned the (non-heliocentric) 'moving Earth' theory of Philolaus and the possibility that Aristarchus also had a 'moving Earth' theory (though it is unlikely that he was aware that it was a heliocentric theory). He removed both references from his final published manuscript.{{efn|name=AristarchusNote01a}}{{efn|name=Kish1978|] (1978) argues that Copernicus knew about Aristarchus's heliocentric theory, saying: "Copernicus himself admitted that the theory was attributed to Aristarchus, though this does not seem to be generally known. ... it is a curious fact that Copernicus did mention the theory of Aristarchus in a passage which he later suppressed."<ref>{{cite book|author=George Kish|title=A Source Book in Geography|url=https://books.google.com/books?id=_6qF4vjZvhYC&pg=PA51|year=1978|publisher=]|isbn=978-0-674-82270-2|pages=51–52}}</ref>}} | |||
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Copernicus was probably aware that Pythagoras's system involved a moving Earth. The Pythagorean system was mentioned by Aristotle.<ref>Aristotle, De Caelo, Book 2, Part 13</ref> | |||
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Copernicus owned a copy of Giorgio Valla's ''De expetendis et fugiendis rebus'', which included a translation of Plutarch's reference to Aristarchus's heliostaticism.<ref>E.Rosen, Nicholaus Copernicus and Giorgio Valla, Physis. Rivista internazionale di Storia della Scienza, 23, 1981, pp. 449–57.</ref> | |||
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In Copernicus's dedication of '']'' to ]—which Copernicus hoped would dampen criticism of his ] by "babblers ... completely ignorant of "—the book's author wrote that, in rereading all of philosophy, in the pages of ] and ] he had found references to those few thinkers who dared to move the Earth "against the traditional opinion of astronomers and almost against common sense." | |||
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The prevailing theory during Copernicus's lifetime was the one that ] published in his '']'' {{circa|150 CE}}; the Earth was the stationary center of the universe. Stars were embedded in a large outer sphere that rotated rapidly, approximately daily, while each of the planets, the Sun, and the Moon were embedded in their own, smaller spheres. Ptolemy's system employed devices, including ] and ]s, to account for observations that the paths of these bodies differed from simple, circular orbits centered on the Earth.<ref>{{cite book |last=Gingerich |first=Owen |year=1997 |title=The Eye of Heaven |chapter=Ptolemy, Copernicus, and Kepler |publisher=Springer |pages=3–51}}</ref> | |||
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Beginning in the 10th century, a tradition criticizing Ptolemy developed within ], which climaxed with ] of ]'s ''Al-Shukūk 'alā Baṭalamiyūs'' ("Doubts Concerning Ptolemy").<ref>{{Cite book| publisher = NYU Press| isbn = 978-0-8147-8023-7| last = Saliba| first = George| title = A History of Arabic Astronomy: Planetary Theories During the Golden Age of Islam| date = 1 July 1995| page=31}}</ref> Several Islamic astronomers questioned the Earth's apparent immobility,<ref name=Ragep>{{Citation |last=Ragep |first=F. Jamil |year=2001a |title=Tusi and Copernicus: The Earth's Motion in Context |journal=Science in Context |volume=14 |issue=1–2 |pages=145–63 |doi=10.1017/s0269889701000060|s2cid=145372613 |issn = 0269-8897}}</ref><ref name=Ragep2>{{Citation |last1=Ragep |first1=F. Jamil |year=2001b |title=Freeing Astronomy from Philosophy: An Aspect of Islamic Influence on Science |journal=Osiris |series=2nd Series |volume=16 |issue=Science in Theistic Contexts: Cognitive Dimensions |pages=49–64 & 66–71 |bibcode = 2001Osir...16...49R |doi=10.1086/649338 |last2=Al-Qushji |first2=Ali|s2cid=142586786 |url=http://digitool.library.mcgill.ca:80/R/?func=dbin-jump-full&object_id=156332 }}</ref> and centrality within the universe.<ref name=Setia>{{citation|title=Fakhr Al-Din Al-Razi on Physics and the Nature of the Physical World: A Preliminary Survey|author=Adi Setia|journal=Islam & Science|volume=2|year=2004|url=http://findarticles.com/p/articles/mi_m0QYQ/is_2_2/ai_n9532826/|access-date=2 March 2010|archive-date=10 July 2012|archive-url=https://archive.today/20120710164222/http://findarticles.com/p/articles/mi_m0QYQ/is_2_2/ai_n9532826/|url-status=dead}}</ref> Some accepted that the earth rotates around its axis, such as ] (d. {{circa|1020}}).<ref>{{Cite journal| volume = 108| issue = 67| page = 762| last = Alessandro Bausani| title = Cosmology and Religion in Islam| journal = Scientia/Rivista di Scienza|year = 1973}}</ref><ref name=young /> According to ], al-Sijzi invented an ] based on a belief held by some of his contemporaries "that the motion we see is due to the Earth's movement and not to that of the sky."<ref name=young /><ref>{{Cite book| publisher = SUNY Press| isbn = 978-1-4384-1419-5| last = Nasr| first = Seyyed Hossein| title = An Introduction to Islamic Cosmological Doctrines| date = 1 January 1993|page=135}}</ref> That others besides al-Sijzi held this view is further confirmed by a reference from an Arabic work in the 13th century which states: <blockquote>According to the geometers (''muhandisīn''), the earth is in constant circular motion, and what appears to be the motion of the heavens is actually due to the motion of the earth and not the stars.<ref name=young>{{Cite book| publisher = Cambridge University Press| isbn = 978-0-521-02887-5| editor-last1 = Young| editor-first1 = M.J.L.| title = Religion, Learning and Science in the 'Abbasid Period| date = 2 November 2006|page=}}</ref></blockquote> In the 12th century, ] proposed a complete alternative to the Ptolemaic system (although not heliocentric).<ref name="BEA-bitruji">{{cite encyclopedia | editor = Thomas Hockey | last = Samsó | first = Julio | title=Biṭrūjī: Nūr al-Dīn Abū Isḥāq [Abū Jaʿfar] Ibrāhīm ibn Yūsuf al-Biṭrūjī | encyclopedia = The Biographical Encyclopedia of Astronomers | publisher = Springer |year = 2007 | location = New York | pages = 133–34 | url=http://islamsci.mcgill.ca/RASI/BEA/Bitruji_BEA.htm | isbn=978-0-387-31022-0|display-editors=etal}} ()</ref><ref name=DSB /> He declared the Ptolemaic system as an imaginary model, successful at predicting planetary positions, but not real or physical.<ref name="BEA-bitruji" /><ref name=DSB /> Al-Bitruji's alternative system spread through most of Europe during the 13th century, with debates and refutations of his ideas continued up to the 16th century.<ref name=DSB>{{cite encyclopedia | last = Samsó | first = Julio | title =Al-Bitruji Al-Ishbili, Abu Ishaq| encyclopedia = ] | publisher = Charles Scribner's Sons | location = New York | year=1970–1980 | isbn = 978-0-684-10114-9 | url = http://www.encyclopedia.com/doc/1G2-2830904829.html}}</ref> | |||
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Mathematical techniques developed in the 13th to 14th centuries by ], ], and ] for geocentric models of planetary motions closely resemble some of those used later by Copernicus in his heliocentric models.<ref>{{harvnb|Esposito|1999|page=289}}</ref> Copernicus used what is now known as the ] and the ] in the same planetary models as found in Arabic sources.<ref name=Saliba95>{{Cite book| publisher = NYU Press| isbn = 978-0-8147-8023-7| last = Saliba| first = George| title = A History of Arabic Astronomy: Planetary Theories During the Golden Age of Islam| date = 1 July 1995}}</ref> Furthermore, the exact replacement of the ] by two ] used by Copernicus in the '']'' was found in an earlier work by Ibn al-Shatir (d. c. 1375) of Damascus.<ref name=Swerdlow>{{Cite journal| issn = 0003-049X| volume = 117| issue = 6| pages = 423–512| last = Swerdlow| first = Noel M.| title = The Derivation and First Draft of Copernicus's Planetary Theory: A Translation of the Commentariolus with Commentary| journal = Proceedings of the American Philosophical Society| date = 31 December 1973| jstor = 986461| bibcode = 1973PAPhS.117..423S}}</ref> Ibn al-Shatir's lunar and Mercury models are also identical to those of Copernicus.<ref>{{cite encyclopedia | editor = Thomas Hockey | display-editors = etal | last = King | first = David A. | title=Ibn al-Shāṭir: ʿAlāʾ al-Dīn ʿAlī ibn Ibrāhīm | encyclopedia = The Biographical Encyclopedia of Astronomers | publisher = Springer |year = 2007 | location = New York | pages = 569–70 | url=http://islamsci.mcgill.ca/RASI/BEA/Ibn_al-Shatir_BEA.htm | isbn=978-0-387-31022-0}} ()</ref> This has led some scholars to argue that Copernicus must have had access to some yet to be identified work on the ideas of those earlier astronomers.<ref name="google42">Linton ], pp. , , Saliba ], Swerdlow & Neugebauer (], pp. ).</ref> However, no likely candidate for this conjectured work has yet come to light, and other scholars have argued that Copernicus could well have developed these ideas independently of the late Islamic tradition.<ref name="google43">Goddu ], Huff ], , di Bono ], Veselovsky ].</ref> Nevertheless, Copernicus cited some of the Islamic astronomers whose theories and observations he used in ''De Revolutionibus'', namely ], ], ], ], and ].<ref name=freely>{{Cite book| publisher = I.B.Tauris| isbn = 978-1-78453-138-6| last = Freely| first = John| title = Light from the East: How the Science of Medieval Islam Helped to Shape the Western World| date = 30 March 2015| page=179}}</ref> It has been suggested<ref>Claudia Kren, "The Rolling Device," p. 497.</ref><ref>], "Whose Science is Arabic Science in Renaissance Europe?" </ref> that the idea of the Tusi couple may have arrived in Europe leaving few manuscript traces, since it could have occurred without the translation of any Arabic text into Latin. One possible route of transmission may have been through ]; ] translated some of al-Tusi's works from Arabic into ]. Several Byzantine Greek manuscripts containing the Tusi-couple are still extant in Italy.<ref>{{cite web|author=George Saliba|author-link=George Saliba|title=Islamic Science and the Making of Renaissance Europe|website=] |date=27 April 2006|url=https://www.loc.gov/today/cyberlc/feature_wdesc.php?rec=3883|access-date=1 March 2008}}</ref> | |||
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=== Copernicus === | |||
{{multiple image | |||
| direction = vertical | |||
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| header = Copernicus's schematic diagram of his heliocentric theory of the Solar System from ''De revolutionibus orbium coelestium''<ref>Except for the circle labelled "V. Telluris" in the diagram from the printed edition, representing the orbital path of the Earth, and the first circle in both diagrams, representing the outer boundary of the universe, and of a presumed spherical shell of fixed stars, the numbered circles in the diagrams represent the boundaries of hypothetical spherical shells ("orbes" in Copernicus's Latin) whose motion was assumed to carry the planets and their epicycles around the Sun (Gingerich, ], pp. ; ], pp. ).</ref> | |||
| image1 = De Revolutionibus ms p9v.jpg | |||
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| caption1 = As it appears in the surviving autograph manuscript | |||
| image2 = Copernican heliocentrism theory diagram.svg | |||
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| caption2 = As it appears in the first printed edition | |||
}} | |||
Copernicus's major work on his ] was '']'' (''On the Revolutions of the Celestial Spheres''), published in the year of his death, 1543. He had formulated his theory by 1510. "He wrote out a short overview of his new heavenly arrangement ]'', or ''Brief Sketch''], also probably in 1510 , and sent it off to at least one correspondent beyond ] ] for "Warmia"]. That person in turn copied the document for further circulation, and presumably the new recipients did, too ...".<ref>Sobel (2011), p. 18.</ref> | |||
Copernicus's ''Commentariolus'' summarized his heliocentric theory. It listed the "assumptions" upon which the theory was based, as follows:<ref name="seven assumptions" /> | |||
<blockquote> | |||
# There is no one center of all the celestial circles<ref>Latin ''orbium''</ref> or spheres.<ref>Latin ''sphaerarum''</ref> | |||
# The center of the earth is not the center of the universe, but only the center towards which heavy bodies move and the center of the lunar sphere. | |||
# All the spheres surround the sun as if it were in the middle of them all, and therefore the center of the universe is near the sun. | |||
# The ratio of the earth's distance from the sun to the height of the ] (outermost celestial sphere containing the stars) is so much smaller than the ratio of the earth's radius to its distance from the sun that the distance from the earth to the sun is imperceptible in comparison with the height of the firmament. | |||
# Whatever motion appears in the firmament arises not from any motion of the firmament, but from the earth's motion. The earth together with its circumjacent elements performs a complete rotation on its fixed poles in a daily motion, while the firmament and highest heaven abide unchanged. | |||
# What appear to us as motions of the sun arise not from its motion but from the motion of the earth and our sphere, with which we revolve about the sun like any other planet. The earth has, then, more than one motion. | |||
# The apparent retrograde and direct motion of the planets arises not from their motion but from the earth's. The motion of the earth alone, therefore, suffices to explain so many apparent inequalities in the heavens.</blockquote> | |||
''De revolutionibus'' itself was divided into six sections or parts, called "books":<ref>{{cite book |last=Dreyer |first=John L.E. |year=1906 |title=History of the planetary systems from Thales to Kepler |page=342 |url=https://archive.org/details/historyofplaneta00dreyuoft|publisher=Cambridge University Press }}</ref> | |||
# General vision of the heliocentric theory, and a summarized exposition of his idea of the World | |||
# Mainly theoretical, presents the principles of spherical astronomy and a list of stars (as a basis for the arguments developed in the subsequent books) | |||
# Mainly dedicated to the apparent motions of the Sun and to related phenomena | |||
# Description of the Moon and its orbital motions | |||
# Exposition of the motions in longitude of the non-terrestrial planets | |||
# Exposition of the motions in latitude of the non-terrestrial planets | |||
=== Successors === | |||
{{See also|Copernican Revolution}} | |||
]]] | |||
] could have been Copernicus's successor, but did not rise to the occasion.<ref name="Repcheck" /> ] could have been his successor, but died prematurely.<ref name="Repcheck" /> The first of the great successors was ]<ref name="Repcheck" /> (though he did not think the Earth orbited the Sun), followed by ],<ref name="Repcheck" /> who had collaborated with Tycho in Prague and benefited from Tycho's decades' worth of detailed observational data.<ref>Sobel (2011), pp. 207–10.</ref> | |||
Despite the near universal acceptance later of the heliocentric idea (though not the epicycles or the circular orbits), Copernicus's theory was originally slow to catch on. Scholars hold that sixty years after the publication of ''The Revolutions'' there were only around 15 astronomers espousing Copernicanism in all of Europe: "] and ] in England; ] and ] in Italy; ] in Spain; ] in the Low Countries; and in Germany, the largest group—], ], ] (who may have later recanted),<ref name="Danielson" /> and ]."<ref name="Danielson" /> Additional possibilities are Englishman ], along with ], Georg Vogelin, Valentin Otto, and ].<ref name="Danielson" /> The ] priest ] supported Copernicus's view in his ''Uranoscopia'' (1617) but was forced to retract it.<ref>{{cite journal |author=Manzo, S. |year=2010 |title=Utopian science and empire: notes on the iberian background of Francis Bacon's project. |url=http://www.memoria.fahce.unlp.edu.ar/art_revistas/pr.10043/pr.10043.pdf |journal=Studii de Stiinta Si Cultura |volume=6 |issue=4 |pages=111–129}}</ref> | |||
], in his popular book '']'', asserted that Copernicus's book had not been widely read on its first publication.<ref name="reference40" /> This claim was trenchantly criticised by ],{{efn|Rosen ], originally published in 1967 in ''Saggi su Galileo Galilei ''. Rosen is particularly scathing about this and other statements in ''The Sleepwalkers'', which he criticizes as inaccurate.}} and has been decisively disproved by ], who examined nearly every surviving copy of the first two editions and found copious marginal notes by their owners throughout many of them. Gingerich published his conclusions in 2004 in ''The Book Nobody Read''.<ref name="DeMarco" /> | |||
The intellectual climate of the time "remained dominated by Aristotelian philosophy and the corresponding Ptolemaic astronomy. At that time there was no reason to accept the Copernican theory, except for its mathematical simplicity ] in determining planetary positions]."<ref name="Kobe" /> Tycho Brahe's system ("that the earth is stationary, the sun revolves about the earth, and the other planets revolve about the sun")<ref name="Kobe" /> also directly competed with Copernicus's. It was only a half-century later with the work of Kepler and Galileo that any substantial evidence defending Copernicanism appeared, starting "from the time when Galileo formulated the principle of inertia ... helped to explain why everything would not fall off the earth if it were in motion."<ref name="Kobe" /> " after ] formulated the universal law of gravitation and the laws of mechanics ]''], which unified terrestrial and celestial mechanics, was the heliocentric view generally accepted."<ref name="Kobe" /> | |||
{{multiple image | |||
|footer=In 1610 ] observed with his telescope that ], despite remaining near the Sun in Earth's sky (first image). This proved that, as predicted by Copernicus's ], Venus orbits the ] and not ], and disproved the then conventional ] (second image). | |||
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|image1 = Phases-of-Venus2.svg| | |||
|image2 = Phases-of-Venus-Geocentric.svg|}} | |||
== Controversy == | |||
{{See also|Catholic Church and science#Copernicus|l1=Catholic Church and science}} | |||
The immediate result of the 1543 publication of Copernicus's book was only mild controversy. At the ] (1545–1563) neither Copernicus's theory nor calendar reform (which would later use tables deduced from Copernicus's calculations) were discussed.<ref>]</ref> It has been much debated why it was not until six decades after the publication of '']'' that the ] took any official action against it, even the efforts of Tolosani going unheeded. Catholic side opposition only commenced seventy-three years later, when it was occasioned by Galileo.<ref>{{Cite web|url=https://www.newadvent.org/cathen/04352b.htm|title=CATHOLIC ENCYCLOPEDIA: Nicolaus Copernicus|website=www.newadvent.org}}</ref> | |||
=== Tolosani === | |||
The first notable to move against Copernicanism was the Magister of the Holy Palace (i.e., the Catholic Church's chief ]), Dominican ], who "expressed a desire to stamp out the Copernican doctrine".<ref>]</ref> But with Spina's death in 1546, his cause fell to his friend, the well-known theologian-astronomer, the Dominican ] of the Convent of St. Mark in Florence. Tolosani had written a treatise on reforming the calendar (in which astronomy would play a large role) and had attended the ] (1512–1517) to discuss the matter. He had obtained a copy of '']'' in 1544. His denunciation of Copernicanism was written a year later, in 1545, in an appendix to his unpublished work, ''On the Truth of Sacred Scripture''.<ref name="Westman 2011, p. 195">]</ref> | |||
Emulating the rationalistic style of ], Tolosani sought to refute Copernicanism by philosophical argument. Copernicanism was absurd, according to Tolosani, because it was scientifically unproven and unfounded. First, Copernicus had assumed the motion of the Earth but offered no physical theory whereby one would deduce this motion. (No one realized that the investigation into Copernicanism would result in a rethinking of the entire field of ].) Second, Tolosani charged that Copernicus's thought process was backwards. He held that Copernicus had come up with his idea and then sought phenomena that would support it, rather than observing phenomena and deducing from them the idea of what caused them. In this, Tolosani was linking Copernicus's mathematical equations with the practices of the ] (whom ] had made arguments against, which were later picked up by Thomas Aquinas). It was argued that mathematical numbers were a mere product of the intellect without any physical reality, and as such could not provide physical causes in the investigation of nature.<ref>]</ref> | |||
Some astronomical hypotheses at the time (such as epicycles and eccentrics) were seen as mere mathematical devices to adjust calculations of where the heavenly bodies would appear, rather than an explanation of the cause of those motions. (As Copernicus still maintained the idea of perfectly spherical orbits, he relied on epicycles.) This "saving the phenomena" was seen as proof that astronomy and mathematics could not be taken as serious means to determine physical causes. Tolosani invoked this view in his final critique of Copernicus, saying that his biggest error was that he had started with "inferior" fields of science to make pronouncements about "superior" fields. Copernicus had used mathematics and astronomy to postulate about physics and cosmology, rather than beginning with the accepted principles of physics and cosmology to determine things about astronomy and mathematics. Thus Copernicus seemed to be undermining the whole system of the philosophy of science at the time. Tolosani held that Copernicus had fallen into philosophical error because he had not been versed in physics and logic; anyone without such knowledge would make a poor astronomer and be unable to distinguish truth from falsehood. Because Copernicanism had not met the criteria for scientific truth set out by Thomas Aquinas, Tolosani held that it could only be viewed as a wild unproven theory.<ref>]</ref><ref>]</ref> | |||
Tolosani recognized that the ] preface to Copernicus's book was not actually by him. Its thesis that astronomy as a whole would never be able to make truth claims was rejected by Tolosani (though he still held that Copernicus's attempt to describe physical reality had been faulty); he found it ridiculous that ''Ad Lectorem'' had been included in the book (unaware that Copernicus had not authorized its inclusion). Tolosani wrote: "By means of these words , the foolishness of this book's author is rebuked. For by a foolish effort he tried to revive the weak Pythagorean opinion , long ago deservedly destroyed, since it is expressly contrary to human reason and also opposes holy writ. From this situation, there could easily arise disagreements between Catholic expositors of holy scripture and those who might wish to adhere obstinately to this false opinion."<ref name="Westman 2011, p. 196">]</ref> Tolosani declared: "Nicolaus Copernicus neither read nor understood the arguments of Aristotle the philosopher and Ptolemy the astronomer."<ref name="Westman 2011, p. 195" /> Tolosani wrote that Copernicus "is expert indeed in the sciences of mathematics and astronomy, but he is very deficient in the sciences of physics and logic. Moreover, it appears that he is unskilled with regard to holy scripture, since he contradicts several of its principles, not without danger of infidelity to himself and the readers of his book. ... his arguments have no force and can very easily be taken apart. For it is stupid to contradict an opinion accepted by everyone over a very long time for the strongest reasons, unless the impugner uses more powerful and insoluble demonstrations and completely dissolves the opposed reasons. But he does not do this in the least."<ref name="Westman 2011, p. 196" /> | |||
Tolosani declared that he had written against Copernicus "for the purpose of preserving the truth to the common advantage of the Holy Church."<ref name="Westman 2011, p. 197">]</ref> Despite this, his work remained unpublished and there is no evidence that it received serious consideration. Robert Westman describes it as becoming a "dormant" viewpoint with "no audience in the Catholic world" of the late sixteenth century, but also notes that there is some evidence that it did become known to ], who would criticize Galileo in a sermon in December 1613.<ref name="Westman 2011, p. 197" /> | |||
=== Theology === | |||
] | |||
Tolosani may have criticized the Copernican theory as scientifically unproven and unfounded, but the theory also conflicted with the theology of the time, as can be seen in a sample of the works of ]. In his ''Commentary on Genesis'' he said that "We indeed are not ignorant that the circuit of the heavens is finite, and that the earth, like a little globe, is placed in the centre."<ref>]</ref> In his commentary on Psalms 93:1 he states that "The heavens revolve daily, and, immense as is their fabric and inconceivable the rapidity of their revolutions, we experience no concussion ... How could the earth hang suspended in the air were it not upheld by God's hand? By what means could it maintain itself unmoved, while the heavens above are in constant rapid motion, did not its Divine Maker fix and establish it."<ref>]</ref> One sharp point of conflict between Copernicus's theory and the Bible concerned the story of the Battle of ] in the Book of Joshua where the Hebrew forces were winning but whose opponents were likely to escape once night fell. This is averted by Joshua's prayers causing the Sun and the Moon to stand still. ] once made a remark about Copernicus, although without mentioning his name. According to Anthony Lauterbach, while eating with Martin Luther the topic of Copernicus arose during dinner on 4 June 1539 (in the same year as professor George Joachim Rheticus of the local University had been granted leave to visit him). Luther is said to have remarked "So it goes now. Whoever wants to be clever must agree with nothing others esteem. He must do something of his own. This is what ''that fellow'' does who wishes to turn the whole of astronomy upside down. Even in these things that are thrown into disorder I believe the Holy Scriptures, for Joshua commanded the sun to stand still and not the earth."<ref name="Kobe" /> These remarks were made four years before the publication of ''On the Revolutions of the Heavenly Spheres'' and a year before Rheticus's ''Narratio Prima''. In ]'s account of the conversation Luther calls Copernicus "that fool" rather than "that fellow", this version is viewed by historians as less reliably sourced.<ref name="Kobe" /> | |||
Luther's collaborator ] also took issue with Copernicanism. After receiving the first pages of ''Narratio Prima'' from ] himself, Melanchthon wrote to Mithobius (physician and mathematician Burkard Mithob of Feldkirch) on 16 October 1541 condemning the theory and calling for it to be repressed by governmental force, writing "certain people believe it is a marvelous achievement to extol so crazy a thing, like that Polish astronomer who makes the earth move and the sun stand still. Really, wise governments ought to repress impudence of mind."<ref name="Rosen 1995, p. 198">]</ref> It had appeared to Rheticus that Melanchton would understand the theory and would be open to it. This was because Melanchton had taught Ptolemaic astronomy and had even recommended his friend Rheticus to an appointment to the Deanship of the Faculty of Arts & Sciences at the University of Wittenberg after he had returned from studying with Copernicus.<ref>]</ref> | |||
Rheticus's hopes were dashed when six years after the publication of '']'' Melanchthon published his ''Initia Doctrinae Physicae'' presenting three grounds to reject Copernicanism. These were "the evidence of the senses, the thousand-year consensus of men of science, and the authority of the Bible".<ref name="Cohen" /> Blasting the new theory Melanchthon wrote, "Out of love for novelty or in order to make a show of their cleverness, some people have argued that the earth moves. They maintain that neither the eighth sphere nor the sun moves, whereas they attribute motion to the other celestial spheres, and also place the earth among the heavenly bodies. Nor were these jokes invented recently. There is still extant Archimedes's book on '']''; in which he reports that Aristarchus of Samos propounded the paradox that the sun stands still and the earth revolves around the sun. Even though subtle experts institute many investigations for the sake of exercising their ingenuity, nevertheless public proclamation of absurd opinions is indecent and sets a harmful example."<ref name="Rosen 1995, p. 198" /> Melanchthon went on to cite Bible passages and then declare "Encouraged by this divine evidence, let us cherish the truth and let us not permit ourselves to be alienated from it by the tricks of those who deem it an intellectual honor to introduce confusion into the arts."<ref name="Rosen 1995, p. 198" /> In the first edition of ''Initia Doctrinae Physicae'', Melanchthon even questioned Copernicus's character claiming his motivation was "either from love of novelty or from desire to appear clever", these more personal attacks were largely removed by the second edition in 1550.<ref name="Cohen" /> | |||
]]] | |||
Another Protestant theologian who disparaged heliocentrism on scriptural grounds was ]. In a passing remark in an essay on the origin of the sabbath, he characterised "the late hypothesis, fixing the sun as in the centre of the world" as being "built on fallible phenomena, and advanced by many arbitrary presumptions against evident testimonies of Scripture."<ref>Owen (], p. ); Rosen (], p. ). Owen's remark appears in volume XI of his collected works, not the volume (XIX) cited by Rosen.</ref> | |||
In Roman Catholic circles, Copernicus's book was incorporated into scholarly curricula throughout the 16th century. For example, at the ] in 1561 it became one of four text books that students of astronomy could choose from, and in 1594 it was made mandatory.<ref name=Crowther>{{cite book |last1=Crowther |first1=Kathleen M. |title=De sphaera of Johannes de Sacrobosco in the Early Modern Period |chapter=Sacrobosco's Sphaera in Spain and Portugal |year=2020 |pages=161–184 |doi=10.1007/978-3-030-30833-9_7|isbn=978-3-030-30832-2 |s2cid=214562125 |doi-access=free }}</ref> German Jesuit Nicolaus Serarius was one of the first Catholics to write against Copernicus's theory as heretical, citing the Joshua passage, in a work published in 1609–1610, and again in a book in 1612.<ref>]</ref> In his 12 April 1615 letter to a Catholic defender of Copernicus, ], Catholic Cardinal ] condemned Copernican theory, writing, "not only the Holy Fathers, but also the modern commentaries on Genesis, the Psalms, Ecclesiastes, and Joshua, you will find all agreeing in the literal interpretation that the sun is in heaven and turns around the earth with great speed, and that the earth is very far from heaven and sits motionless at the center of the world ... Nor can one answer that this is not a matter of faith, since if it is not a matter of faith 'as regards the topic,' it is a matter of faith 'as regards the speaker': and so it would be heretical to say that Abraham did not have two children and Jacob twelve, as well as to say that Christ was not born of a virgin, because both are said by the Holy Spirit through the mouth of prophets and apostles."<ref>]</ref> One year later, the Roman Inquisition prohibited Copernicus's work. Nevertheless, the Spanish Inquisition never banned the ''De revolutionibus'', which continued to be taught at Salamanca.<ref name=Crowther /> | |||
=== Ingoli === | |||
Perhaps the most influential opponent of the Copernican theory was ], a ]. Ingoli wrote a January 1616 essay to Galileo presenting more than twenty arguments against the Copernican theory.<ref name="Graney 2015, p. 68-69">]</ref> Though "it is not certain, it is probable that he was commissioned by the ] to write an expert opinion on the controversy",<ref name="Finocchiaro 2010, p. 72">]</ref> (after the Congregation of the Index's decree against Copernicanism on 5 March 1616, Ingoli was officially appointed its consultant).<ref name="Finocchiaro 2010, p. 72" /> Galileo himself was of the opinion that the essay played an important role in the rejection of the theory by church authorities, writing in a later letter to Ingoli that he was concerned that people thought the theory was rejected because Ingoli was right.<ref name="Graney 2015, p. 68-69" /> Ingoli presented five physical arguments against the theory, thirteen mathematical arguments (plus a separate discussion of the sizes of stars), and four theological arguments. The physical and mathematical arguments were of uneven quality, but many of them came directly from the writings of ], and Ingoli repeatedly cited Brahe, the leading astronomer of the era. These included arguments about the effect of a moving Earth on the trajectory of projectiles, and about parallax and Brahe's argument that the Copernican theory required that stars be absurdly large.<ref>]</ref> | |||
Two of Ingoli's theological issues with the Copernican theory were "common Catholic beliefs not directly traceable to Scripture: the doctrine that hell is located at the center of Earth and is most distant from heaven; and the explicit assertion that Earth is motionless in a hymn sung on Tuesdays as part of the Liturgy of the Hours of the Divine Office prayers regularly recited by priests."<ref name="Finocchiaro 2010, p. 73">]</ref> Ingoli cited Robert Bellarmine in regards to both of these arguments, and may have been trying to convey to Galileo a sense of Bellarmine's opinion.<ref>]</ref> Ingoli also cited Genesis 1:14 where God places "lights in the firmament of the heavens to divide the day from the night." Ingoli did not think the central location of the Sun in the Copernican theory was compatible with it being described as one of the lights placed in the firmament.<ref name="Finocchiaro 2010, p. 73" /> Like previous commentators Ingoli also pointed to the passages about the Battle of Gibeon. He dismissed arguments that they should be taken metaphorically, saying "Replies which assert that Scripture speaks according to our mode of understanding are not satisfactory: both because in explaining the Sacred Writings the rule is always to preserve the literal sense, when it is possible, as it is in this case; and also because all the Fathers unanimously take this passage to mean that the Sun which was truly moving stopped at Joshua's request. An interpretation that is contrary to the unanimous consent of the Fathers is condemned by the Council of Trent, Session IV, in the decree on the edition and use of the Sacred Books. Furthermore, although the Council speaks about matters of faith and morals, nevertheless it cannot be denied that the Holy Fathers would be displeased with an interpretation of Sacred Scriptures which is contrary to their common agreement."<ref name="Finocchiaro 2010, p. 73" /> However, Ingoli closed the essay by suggesting Galileo respond primarily to the better of his physical and mathematical arguments rather than to his theological arguments, writing "Let it be your choice to respond to this either entirely of in part—clearly at least to the mathematical and physical arguments, and not to all even of these, but to the more weighty ones."<ref name="Graney 2015, p. 70">]</ref> When Galileo wrote a letter in reply to Ingoli years later, he in fact only addressed the mathematical and physical arguments.<ref name="Graney 2015, p. 70" /> | |||
In March 1616, in connection with the ], the Roman Catholic Church's ] issued a decree suspending '']'' until it could be "corrected," on the grounds of ensuring that Copernicanism, which it described as a "false Pythagorean doctrine, altogether contrary to the Holy Scripture," would not "creep any further to the prejudice of Catholic truth."<ref name="archive48" /> The corrections consisted largely of removing or altering wording that spoke of heliocentrism as a fact, rather than a hypothesis.<ref>]</ref> The corrections were made based largely on work by Ingoli.<ref name="Finocchiaro 2010, p. 72" /> | |||
=== Galileo === | |||
On the orders of ], Cardinal ] gave Galileo prior notice that the decree was about to be issued, and warned him that he could not "hold or defend" the Copernican doctrine.{{efn|Fantoli ]; Finocchiaro ]. On-line copies of Finocchiaro's translations of the relevant documents, and , have been made available by Gagné ]. This notice of the decree would not have prevented Galileo from discussing heliocentrism solely as a mathematical hypothesis, but a stronger ] not to teach it "in any way whatever, either orally or in writing", allegedly issued to him by the Commissary of the Holy Office, Father Michelangelo Segizzi, would certainly have done so ]. There has been much controversy over whether the copy of this injunction in the Vatican archives is authentic; if so, whether it was ever issued; and if so, whether it was legally valid ].}} The corrections to '']'', which omitted or altered nine sentences, were issued four years later, in 1620.<ref name="newadvent" /> | |||
In 1633, ] was convicted of grave suspicion of ] for "following the position of Copernicus, which is contrary to the true sense and authority of Holy Scripture",<ref name="google50" /> and was placed under ] for the rest of his life.<ref name=Hilliam1>{{cite book |last=Hilliam |first=Rachel |year=2005 |title=Galileo Galilei: Father of Modern Science |publisher=The Rosen Publishing Group |page=96 |url=https://books.google.com/books?id=KBKSyHOLzZAC&pg=PA96|isbn=978-1-4042-0314-3 }}</ref><ref name=History1>{{cite web |title=Galileo is convicted of heresy |publisher=history.com |url=http://www.history.com/this-day-in-history/galileo-is-convicted-of-heresy |access-date=13 December 2013}}</ref> | |||
At the instance of ], the Catholic Church's 1758 '']'' omitted the general prohibition of works defending heliocentrism,<ref name="omission of general ban" /> but retained the specific prohibitions of the original uncensored versions of ''De revolutionibus'' and Galileo's '']''. Those prohibitions were finally dropped from the 1835 ''Index''.<ref name="omission of specific ban" /> | |||
== Languages, name, nationality == | |||
=== Languages === | |||
] to ], giving medical advice for ]]] | |||
Copernicus is postulated to have spoken ], German, and Polish with equal fluency; he also spoke ] and ].{{efn|"He spoke German, Polish and Latin with equal fluency as well as Italian."<ref>Stone, p. 101.</ref>}}{{efn|"He spoke Polish, Latin, and Greek."<ref>Somerville, p. 10.</ref>}}{{efn|"He was a linguist with a command of Polish, German and Latin, and he possessed also a knowledge of Greek rare at that period in northeastern Europe and probably had some acquaintance with Italian and Hebrew."<ref>Angus Armitage, ''Copernicus, the founder of modern astronomy'', p. 62.</ref>}}{{efn|He used ] and German, knew enough ] to translate the 7th-century ] poet ]'s verses into Latin prose,<ref name="armitage75–77" /> and "there is ample evidence that he knew the ]."<ref name="Davies26" /> ] mentions that Copernicus recorded Polish farm tenants' names inconsistently, gainsaying that he was fluent in the Polish language.<ref>], .</ref> (But decades after Copernicus, each of ]'s extant ] signatures showed a different spelling.<ref>], '''', London, Smith Elder, 1899.</ref>) During his several years' studies in Italy, Copernicus presumably learned some Italian; Professor Stefan Melkowski of ] asserts that Copernicus also spoke both German and Polish.<ref name="O historii i o współczesności" />}} The vast majority of Copernicus's extant writings are in ], the language of European ] in his lifetime. | |||
Arguments for German being Copernicus's native tongue are that he was born into a predominantly German-speaking urban patrician class using German, next to Latin, as language of trade and commerce in written documents,<ref>{{citation |first1=Maria |last1=Bogucka |first2=Henryk |last2=Samsonowicz |date=1986 |title=Dzieje Miast i Mieszczaństwa w Polsce Przedrozbiorowej |pages=266–267 |url=https://bon.edu.pl/media/book/pdf/Dzieje_miast_i_mieszczanstwa-MB.pdf}}</ref> and that, while studying ] at the ] in 1496, he signed into the German '']'' (''Natio Germanorum'')—a student organization which, according to its 1497 by-laws, was open to students of all kingdoms and states whose mother-tongue was German.<ref name="Rosen1995 p. 127" /> However, according to French philosopher ], Copernicus's registration with the ''Natio Germanorum'' does not in itself imply that Copernicus considered himself German, since students from Prussia and Silesia were routinely so categorized, which carried certain privileges that made it a natural choice for German-speaking students, regardless of their ethnicity or self-identification.<ref name="Rosen1995 p. 127" />{{efn|"Although great importance has frequently been ascribed to this fact, it does not imply that Copernicus considered himself to be a German. The 'nationes' of a medieval university had nothing in common with nations in the modern sense of the word. Students who were natives of Prussia and Silesia were automatically described as belonging to the Natio Germanorum. Furthmore, at Bologna, this was the 'privileged' nation; consequently, Copernicus had very good reason for inscribing himself on its register."<ref>Koyre, p. 21.</ref>}}{{efn|"It is important to recognize, however, that the medieval Latin concept of ''natio'', or "nation", referred to the community of feudal lords both in Germany and elsewhere, not to 'the people' in the nineteenth-century democratic or nationalistic sense of the word."<ref>Johnson, p. 23.</ref>}}<ref name="google21" /> | |||
=== Name === | |||
The surname ''Kopernik'', ''Copernik'', ''Koppernigk'', in various spellings, is recorded in ] from c. 1350, apparently given to people from the village of ] (prior to 1845 rendered ''Kopernik'', ''Copernik'', ''Copirnik'', and ''Koppirnik'') in the ], 10 km south of ], and now 10 km north of the Polish-Czech border. Nicolaus Copernicus's great-grandfather is recorded as having received citizenship in ] in 1386. The toponym ''Kopernik'' (modern ''Koperniki'') has been variously tied to the Polish word for "]" (''koper'') and the German word for "copper" (''Kupfer'').{{efn|These interpretations date to the dispute about Copernicus's (Polish vs. German) ethnicity, which had been open since the 1870s, and the "copper" vs. "dill" interpretations go back to the 19th century (''Magazin für die Literatur des Auslandes'', 1875, 534 f), but the dispute became virulent again in the 1960s, culminating in a controversy between E. Mosko ("copper") and S. Rospond ("dill") in 1963–64, summarized by Zygmunt Brocki, ''"Wsrôd publikacji o etymologii nazwiska Mikotaja Kopernika'' , ''Komunikaty mazur.-warm.'', 1970.}} The ] '']'' (or ], ''-niki'') denotes a ] and ] ]. | |||
As was common in the period, the spellings of both the ] and the ] vary greatly. Copernicus "was rather indifferent about ]".<ref name="Gingerich p143" /> During his childhood, about 1480, the name of his father (and thus of the future astronomer) was recorded in Thorn as ''Niclas Koppernigk''.<ref name="google26" /> | |||
At Kraków he signed himself, in Latin, ''Nicolaus Nicolai de Torunia'' (Nicolaus, son of Nicolaus, of Toruń).{{efn|"In the documents still in existence we find the entry: Nicolaus Nicolai de Torunia."<ref>Moore (1994), p. 50.</ref>}} At Bologna, in 1496, he registered in the ''Matricula Nobilissimi Germanorum Collegii, resp. Annales Clarissimae Nacionis Germanorum'', of the ''Natio Germanica Bononiae'', as ''Dominus Nicolaus Kopperlingk de Thorn – IX ]''.<ref name="google27" /><ref name="google28" /> At Padua he signed himself "Nicolaus Copernik", later "Coppernicus".<ref name="Gingerich p143" /> The astronomer thus Latinized his name to ''Coppernicus'', generally with two "p"s (in 23 of 31 documents studied),<ref name="wikisource" /> but later in life he used a single "p". On the title page of '']'', ] published the name (in the ], or ], case) as "''Nicolai Copernici''". | |||
=== Nationality === | |||
There has been discussion of Copernicus's nationality and of whether it is meaningful to ascribe to him a nationality in the modern sense. | |||
Nicolaus Copernicus was born and raised in ], a semiautonomous and multilingual region of the ].<ref name="Krystyna Poray Goddu 2010, p. 7">Krystyna Poray Goddu, ''Copernicus and the Aristotelian Tradition'', BRILL, 2010, {{ISBN|978-90-04-18107-6}}, part 1, chapter 1, p. 7.</ref><ref>Jack Repcheck, ''Copernicus'<!--no "s" in original"--> Secret: How the Scientific Revolution Began'', Simon & Schuster, 2008, {{ISBN|978-0-7432-8952-8}}, p. 32.</ref> He was the child of German-speaking parents and grew up with German as his mother tongue.<ref name="MWeissenbacher">Manfred Weissenbacher, ''Sources of Power: How Energy Forges Human History'', Praeger, 2009, {{ISBN|978-0-313-35626-1}}, p. 170.</ref><ref>Marvin Bolt, JoAnn Palmeri, Thomas Hockey, ''The Biographical Encyclopedia of Astronomers'', Springer, 2009, {{ISBN|978-0-387-35133-9}}, p. 252.</ref><ref>Charles E. Hummel, ''The Galileo Connection'', InterVarsity Press, 1986, {{ISBN|978-0-87784-500-3}}, p. 40.</ref> His first '']'' was the ] in Poland. When he later studied in Italy, at the ], he joined the ''German Nation'', a student organization for German-speakers of all allegiances (] would not become a nation-state ]).<ref>Krystyna Poray Goddu, ''Copernicus and the Aristotelian Tradition'', BRILL, 2010, {{ISBN|978-90-04-18107-6}}, chapter 6, p. 173.</ref><ref>Freely (2014), pp. 56–57.</ref> His family stood against the ] and actively supported the city of ] during the ]. Copernicus's father lent money to Poland's King ] to finance the war against the Teutonic Knights,<ref>Freely (2014), p. 6</ref> but the inhabitants of Royal Prussia also resisted the Polish crown's efforts for greater control over the region.<ref name="Krystyna Poray Goddu 2010, p. 7" /> | |||
'']'',<ref name="encyclopedia" /> ''The Concise Columbia Encyclopedia'',<ref>"Copernicus, Nicholas", ''The Concise Columbia Encyclopedia'', New York, Avon Books, 1983, {{ISBN|0-380-63396-5}}, p. 198: "Polish astronomer".</ref> ''The Oxford World Encyclopedia'',<ref name="encyclopedia43" /> and '']''<ref name="copernicus1" /> refer to Copernicus as a "Polish astronomer". Sheila Rabin, writing in the '']'', describes Copernicus as a "child of a German family was a subject of the Polish crown",<ref name="plato.stanford" /> while Manfred Weissenbacher writes that Copernicus's father was a Germanized Pole.<ref name="weissenbacher" /> {{ill|Andrzej Wojtkowski|pl|Andrzej Wojtkowski (historyk)}} noted that most of the 19th and 20th century encyclopedias, particularly the English-language sources, described Copernicus as a "German scientist".<ref name=Kasparek2023>{{Cite journal|last1=Kasparek|first1=Danuta|last2=Kasparek|first2=Norbert|date=August 2023|title=A discourse on Copernicus' nationality in the first half of the 19th century – a monographic article|journal=Echa Przeszłości|volume=24|issue=1|pages=121–134|doi=10.31648/ep.9300|doi-access=free}}</ref> Kasparek and Kasparek stated that it is incorrect to ascribe him German or Polish nationality, as "a 16th century figure cannot be described with the use of 19th and 20th century concepts".<ref name=Kasparek2023 /> | |||
No Polish texts by Copernicus survive due to the rarity of Polish language in literature before the writings of the ] poets ] and ] (educated Poles had generally written in Latin); but it is known that Copernicus knew Polish on a par with German and Latin.<ref>], ''Mikołaj Kopernik. Środowisko społeczne i samotność'' (Mikołaj Kopernik : His Social Setting and Isolation), Toruń, ], 2012, {{ISBN|978-83-231-2777-2}}.</ref> | |||
Historian ] describes the nationality debate as a "totally insignificant battle" between German and Polish scholars during the ].<ref name="Germany" /> Polish astronomer ] calls the discussion a "fierce scholarly quarrel in ... times of nationalism" and describes Copernicus as an inhabitant of a German-speaking territory that belonged to Poland, himself being of mixed Polish-German extraction.<ref name="Rudnicki 2006" /> | |||
] describes the debate as an "absurd" projection of a modern understanding of nationality onto ] people, who identified with their home territories rather than with a nation.<ref name="Milosz37" /> Similarly, historian ] writes that Copernicus, as was common in his era, was "largely indifferent" to nationality, being a local patriot who considered himself "]".<ref name="Davies20"/> Miłosz and Davies both write that Copernicus had a ] cultural background, while his working language was ] in accord with the usage of the time.<ref name=Milosz37 /><ref name=Davies20 /> Additionally, according to Davies, "there is ample evidence that he knew the Polish language".<ref name=Davies20 /> Davies concludes that, "Taking everything into consideration, there is good reason to regard him both as a German and as a Pole: and yet, in the sense that modern nationalists understand it, he was neither."<ref name=Davies20 /> | |||
== Commemoration == | |||
=== Orbiting Astronomical Observatory 3 === | |||
The third in ]'s ] series of missions, launched on 21 August 1972, was named ''Copernicus'' after its successful launch. The satellite carried an X-ray detector and an ] telescope, and operated until February 1981. | |||
=== Copernicia === | |||
{{multiple image | |||
|align=right | |||
|width1=140 | |||
|image1=Copernic Montreal 01.jpg | |||
|caption1=Replica of ], in ], ] | |||
|width2=140 | |||
|image2=Copernicus Walhalla.jpg | |||
|caption2=Bust by ], 1807, in the ] | |||
}} | |||
]]] | |||
]]] | |||
], a genus of palm trees native to South America and the Greater Antilles, was named after Copernicus in 1837. In some of the species, the leaves are coated with a thin layer of ], known as ]. | |||
=== Copernicium === | |||
{{Main|Copernicium}} | |||
On 14 July 2009, the discoverers, from the ] in ], Germany, of ] 112 (temporarily named ]) proposed to the ] (IUPAC) that its permanent name be "]" (symbol Cn). "After we had named elements after our city and our state, we wanted to make a statement with a name that was known to everyone," said Hofmann. "We didn't want to select someone who was a German. We were looking world-wide."<ref name="fox" /> On the 537th anniversary of his birthday the name became official.<ref name="Element112" /> | |||
=== 55 Cancri A === | |||
In July 2014 the International Astronomical Union launched ], a process for giving proper names to certain exoplanets and their host stars.<ref>. IAU.org. 9 July 2014</ref> The process involved public nomination and voting for the new names.<ref>{{cite web|url=http://nameexoworlds.iau.org/process|title=NameExoWorlds|website=nameexoworlds.iau.org|access-date=7 January 2016|archive-date=15 August 2015|archive-url=https://web.archive.org/web/20150815025117/http://www.nameexoworlds.iau.org/process|url-status=dead}}</ref> In December 2015, the IAU announced the winning name for ] was Copernicus.<ref>, International Astronomical Union, 15 December 2015.</ref> | |||
=== Poland === | |||
Copernicus is commemorated by the ], designed by ] (1822), completed in 1830; and by ]'s 1873 painting, '']''. | |||
Named for Copernicus are ]; ]'s ], the ] (a principal Polish research institution in astrophysics) and Copernicus Hospital in Poland's fourth largest city, ]. | |||
A ] was established jointly by the ] and the ], to promote Polish-German scientific cooperation. | |||
=== In arts and literature === | |||
Contemporary literary and artistic works inspired by Copernicus include: | |||
* '']'', overture for symphony orchestra, by composer ], commissioned by ].<ref>World premiere, {{Webarchive|url=https://web.archive.org/web/20140521203622/http://www.sallepleyel.fr/anglais/concert/12500-orchestre-national-d-ile-de-france-enrique-mazzola-cedric-tiberghien |date=21 May 2014 }}</ref><ref name="nedpho">Dutch premiere, 1 March 2014, at ]'s ] – </ref> | |||
* '']'', 1975 novel by ], sketching the life of Copernicus and the 16th-century world in which he lived. | |||
* '']'', a Japanese ] series from 2020, later adapted into ]<ref>{{Cite web |date=2024-10-14 |title=The Fall 2024 Anime Preview Guide - Orb: On the Movements of the Earth |url=https://www.animenewsnetwork.com/preview-guide/2024/fall/orb-on-the-movements-of-the-earth/.215485 |access-date=2024-10-14 |website=Anime News Network |language=en}}</ref><ref>{{Cite web |date=2024-10-14 |title=The Fall 2023 Manga Guide - Orb: On the Movements of the Earth |url=https://www.animenewsnetwork.com/feature/2023-09-28/the-fall-2023-manga-guide/orb-on-the-movements-of-the-earth/.202241 |access-date=2024-10-14 |website=Anime News Network |language=en}}</ref> | |||
== See also == | |||
* ] | |||
* ] | |||
* ] | |||
* ] | |||
* ] | |||
* ] | |||
== Notes == | |||
{{reflist|group=n}} | |||
{{notelist|30em}} | |||
== References == | |||
{{reflist|30em|refs= | |||
<ref name="O historii i o współczesności">{{cite web |last=Melkowski |first=Stefan |date=May 2003 |title=O historii i o współczesności |language=pl |trans-title=On History and the Present Day |url=http://glos.uni.torun.pl/2003/05/historia/ |access-date=22 April 2007 |archive-url=https://web.archive.org/web/20040124020346/http://glos.uni.torun.pl/2003/05/historia/ |archive-date=24 January 2004 |url-status=dead }}</ref> | |||
<ref name="100 Percent">{{cite news |date=3 November 2005 |title=Copernicus's grave found in Polish church |work=USA Today |url=https://www.usatoday.com/tech/science/discoveries/2005-11-03-copernicus-grave_x.htm |access-date=26 July 2012}}</ref> | |||
<ref name="archive">] .</ref> | |||
<ref name="archive38">] (1953, ); ], </ref> | |||
<ref name="archive39">], ; ].</ref> | |||
<ref name="archive40">], ; ].</ref> | |||
<ref name="archive48">Decree of the General Congregation of the Index, 5 March 1616, translated from the Latin by Finocchiaro ]. An of Finocchiaro's translation has been made available by Gagné ].</ref> | |||
<ref name="armitage55">Angus Armitage, ''The World of Copernicus'', p. 55.</ref> | |||
<ref name="armitage75–77">Angus Armitage, ''The World of Copernicus'', pp. 75–77.</ref> | |||
<ref name="armitage97–98">Angus Armitage, ''The World of Copernicus'', pp. 97–98.</ref> | |||
<ref name="armitage98">Angus Armitage, ''The World of Copernicus'', p. 98.</ref> | |||
<ref name="beginnings">{{cite journal |last=Volckart |first=Oliver |year=1997 |title=Early Beginnings of the Quantity Theory of Money and Their Context in Polish and Prussian Monetary Policies, c. 1520–1550 |journal=The Economic History Review |series=New Series |doi=10.1111/1468-0289.00063 |volume=50 |issue=3 |pages=430–49}}</ref> | |||
<ref name="Cohen">{{cite book |last=Cohen |first=I. Bernard |date=1985 |title=Revolution in Science |url=https://archive.org/details/revolutioninscie00cohe |url-access=registration |publisher=Belknap Press of Harvard University Press |location=Cambridge, MA |isbn=978-0-674-76778-2 |page=}}</ref> | |||
<ref name="copernicus1">{{cite web |last=Findlen |first=Paula |year=2013 |title=Copernicus, Nicolaus |publisher=World Book Advanced |url=http://photo.pds.org:5005/advanced/article?id=ar132860&st=copernicus |archive-url=https://web.archive.org/web/20151018072645/http://photo.pds.org:5005/advanced/article?id=ar132860&st=copernicus |url-status=dead |archive-date=18 October 2015 |access-date=31 May 2013 }}</ref> | |||
<ref name="countenanced">Gingerich ]; Koyré ]; Kuhn ]; Rosen ]; Rabin ]. Robbins ], however, includes Copernicus among a list of Renaissance astronomers who "either practiced astrology themselves or countenanced its practice".</ref> | |||
<ref name="Danielson">Danielson ]</ref> | |||
<ref name="Davies20">{{cite book |last=Davies |first=Norman |year=2005 |title=God's playground. A History of Poland in Two Volumes |publisher=Oxford University Press |volume=II |isbn=978-0-19-925340-1 |page=20}}</ref> | |||
<ref name="Davies26">{{cite book |last=Davies |first=Norman |year=2005 |title=God's playground. A History of Poland in Two Volumes |publisher=Oxford University Press |volume=II |isbn=978-0-19-925340-1 |page=26}}</ref> | |||
<ref name="DeMarco">{{cite web |last=DeMarco |first=Peter |date=13 April 2004 |title=Book quest took him around the globe |work=The Boston Globe |url=http://www.boston.com/news/education/higher/articles/2004/04/13/book_quest_took_him_around_the_globe |access-date=3 June 2013}}</ref> | |||
<ref name="Dzieje nauki polskiej">{{cite book |last=Iłowiecki |first=Maciej |year=1981 |title=Dzieje nauki polskiej |language=pl |publisher=Wydawnictwo Interpress |location=Warszawa |isbn=978-83-223-1876-8 |page=40}}</ref> | |||
<ref name="Element112">{{cite web |last=Renner |first=Terrence |date=20 February 2010 |title=Element 112 is Named Copernicium |publisher=International Union of Pure and Applied Chemistry |url=http://www.iupac.org/web/nt/2010-02-20_112_Copernicium |access-date=20 February 2010 |url-status=dead |archive-url=https://web.archive.org/web/20100222083725/http://www.iupac.org/web/nt/2010-02-20_112_Copernicium |archive-date=22 February 2010 }}</ref> | |||
<ref name="encyclopedia">"Copernicus, Nicolaus", '']'', 1986, vol. 7, pp. 755–56.</ref> | |||
<!--<ref name="encyclopedia42">, ''The Columbia Encyclopedia'', sixth edition, 2008. Encyclopedia.com. 18 July 2009.</ref> --> | |||
<ref name="encyclopedia43">"Copernicus, Nicolaus", ''The Oxford World Encyclopedia'', Oxford University Press, 1998.</ref> | |||
<ref name="fox">{{cite web |last=Fox |first=Stuart |date=14 July 2009 |title=Newly Discovered Element 112 Named 'Copernicum' |publisher=popsci.com |url=http://www.popsci.com/scitech/article/2009-07/element-112-named-copernicum |access-date=17 August 2012}}</ref> | |||
<ref name="Genetic">{{Cite journal |last1=Bogdanowicz |first1=W. |last2=Allen |first2=M. |last3=Branicki |first3=W. |last4=Lembring |first4=M. |last5=Gajewska |first5=M. |last6=Kupiec |first6=T. |year=2009 |title=Genetic identification of putative remains of the famous astronomer Nicolaus Copernicus |journal=] |doi=10.1073/pnas.0901848106 |bibcode=2009PNAS..10612279B |pmid=19584252 |volume=106 |issue=30 |pmc=2718376 |pages=12279–82|doi-access=free }}</ref> | |||
<ref name="Germany">{{cite book |last=Burleigh |first=Michael |year=1988 |title=Germany turns eastwards. A study of Ostforschung in the Third Reich |publisher=CUP Archive |isbn=978-0-521-35120-1 |pages=60,133,280}}</ref> | |||
<ref name="Gingerich p143">Gingerich (2004), p. 143.</ref> | |||
<ref name="goddu">Goddu (2010: 245–46)</ref> | |||
<ref name="google21">Koestler, 1968, p. 129.</ref> | |||
<ref name="google26">Biskup (1973), p. 32</ref> | |||
<ref name="google27">Biskup (1973), pp. 38, 82</ref> | |||
<ref name="google28">Malagola (1878), p. 562–65</ref> | |||
<ref name="google3">Bieńkowska (1973), p. 15</ref> | |||
<ref name="google4">Rybka (1973), p. 23.</ref> | |||
<ref name="google5">Sakolsky (2005), p. 8.</ref> | |||
<ref name="google50">From the Inquisition's sentence of 22 June 1633 ], ; ] </ref> | |||
<ref name="google6">Biskup (1973), p. 16</ref> | |||
<ref name="guardian">{{cite news|author=Bowcott, Owen|date=21 November 2008|url=https://www.theguardian.com/science/2008/nov/21/astronomy-archaeology|title=16th-century skeleton identified as astronomer Copernicus|work=The Guardian|access-date=18 January 2010}}</ref> | |||
<ref name="NCGes">''Nicolaus Copernicus Gesamtausgabe Bd. VI: Urkunden, Akten und NachrichtenDocumenta Copernicana – Urkunden, Akten und Nachrichten, alle erhaltenen Urkunden und Akten zur Familiengeschichte, zur Biographie und Tätigkeitsfeldern von Copernicus'', 1996, {{ISBN|978-3-05-003009-8}} , pp. 62–63.</ref> | |||
<ref name="psb3">Dobrzycki and Hajdukiewicz (1969), p. 3.</ref> | |||
<ref name="psb4">Dobrzycki and Hajdukiewicz (1969), p. 4.</ref> | |||
<ref name="psb4-5">Dobrzycki and Hajdukiewicz (1969), pp. 4–5.</ref> | |||
<ref name="psb5">Dobrzycki and Hajdukiewicz (1969), p. 5.</ref> | |||
<ref name="psb5-6">Dobrzycki and Hajdukiewicz (1969), pp. 5–6.</ref> | |||
<ref name="psb6">Dobrzycki and Hajdukiewicz (1969), p. 6.</ref> | |||
<ref name="psb7">Dobrzycki and Hajdukiewicz (1969), p. 7.</ref> | |||
<ref name="psb7-8">Dobrzycki and Hajdukiewicz (1969), pp. 7–8.</ref> | |||
<ref name="psb9">Dobrzycki and Hajdukiewicz (1969), p. 9.</ref> | |||
<ref name="psb11">Dobrzycki and Hajdukiewicz (1969), p. 11.</ref> | |||
<ref name="Kobe">{{cite journal|author=Donald H. Kobe|title=Copernicus and Martin Luther: An Encounter Between Science and Religion|journal=American Journal of Physics|volume=66|issue=3|page=190|doi=10.1119/1.18844|year=1998|bibcode = 1998AmJPh..66..190K }}</ref> | |||
<ref name="Milosz37">{{cite book|last=Miłosz|first=Czesław|title=The history of Polish literature|publisher=University of California Press|date=1983|edition=2|isbn=978-0-520-04477-7|page=37}}</ref> | |||
<ref name="newadvent">.</ref> | |||
<ref name="PD20100525">{{cite news|url=http://www.cleveland.com/world/index.ssf/2010/05/16th-century_astronomer_copern.html|title=16th-century astronomer Copernicus reburied as hero in Poland|publisher=Cleveland Plain Dealer/Associated Press|date=25 May 2010}}</ref> | |||
<ref name="omission of general ban">Heilbron ]; Coyne ].</ref> | |||
<ref name="omission of specific ban">McMullin ]; Coyne ].</ref> | |||
<ref name="plato.stanford">{{cite web |url=http://plato.stanford.edu/entries/copernicus/#1 |author=Sheila Rabin |title=Nicolaus Copernicus |access-date=22 April 2007 |website=Stanford Encyclopedia of Philosophy}}</ref> | |||
<ref name="Polish Literature p. 38">], ''The History of Polish Literature'', p. 38.</ref> | |||
<ref name="Polish tests">{{cite news |author=Easton, Adam |url=http://news.bbc.co.uk/1/hi/world/europe/7740908.stm |title=Polish tests 'confirm Copernicus'<!--not a possessive--> |access-date=18 January 2010 |work=BBC News |date= 21 November 2008}}</ref> | |||
<ref name="reference">Rabin ].</ref> | |||
<ref name="reference36">].</ref> | |||
<ref name="reference40">Koestler ].</ref> | |||
<ref name="Repcheck">Repcheck (2007), pp. 78–79, 184, 186.</ref> | |||
<ref name="repcheck66">Repcheck (2007), p. 66.</ref> | |||
<ref name="Rosen1995 p. 127">] (1995, ).</ref> | |||
<ref name="Rudnicki 2006">{{cite journal | last = Rudnicki | first = Konrad |date=November–December 2006 | title = The Genuine Copernican Cosmological Principle | journal=Southern Cross Review | pages = note 2 | url = http://southerncrossreview.org/50/rudnicki1.htm | access-date =21 January 2010}}</ref> | |||
<ref name="sedlar">Sedlar (1994).</ref> | |||
<ref name="seven assumptions">Rosen (], ); Swerdlow (], p. 436)</ref> | |||
<ref name="Stephen Mizwa 1943, p. 38">Mizwa, 1943, p. 38.</ref> | |||
<ref name="gravemystery">{{Cite journal |last=Gingerich |first=O. |year=2009 |title=The Copernicus grave mystery |journal=PNAS |volume=106 |issue= 30|pages=12215–16 |doi=10.1073/pnas.0907491106 |pmid=19622737 |pmc=2718392 |bibcode = 2009PNAS..10612215G |doi-access=free }}</ref> | |||
<ref name="watzenrode">{{BBKL|w/watzenrode|author=Wojciech Iwanczak|artikel=Watzenrode, Lucas|band=13|spalte=389–93}}</ref> | |||
<ref name="webexhibits">{{Cite web|url=http://www.webexhibits.org/calendars/year-text-Copernicus.html|title=Nicholas Copernicus | Calendars|website=www.webexhibits.org}}</ref> | |||
<ref name="weissenbacher">Weissenbacher (2009), p. 170.</ref> | |||
<ref name="wikisource">{{Cite web|url=https://de.wikisource.org/Nicolaus_Coppernicus_aus_Thorn_%C3%BCber_die_Kreisbewegungen_der_Weltk%C3%B6rper/Vorwort|title=Nicolaus Coppernicus aus Thorn über die Kreisbewegungen der Weltkörper/Vorwort – Wikisource|website=de.wikisource.org}}</ref> | |||
}} | |||
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| last=Finocchiaro |first=Maurice A. | |||
| publisher=University of California Press | |||
| year = 1989 | |||
| location = Berkeley | |||
| isbn = 978-0-520-06662-5 | |||
| ref = Reference-Finocchiaro-1989}} | |||
* {{cite web | |||
| title = Texts from ''The Galileo Affair: A Documentary History'' | |||
|editor-first=Maurice A. | |||
|editor-last=Finocchiaro | |||
|translator=Finocchiaro | |||
| last=Gagné |first=Marc | |||
| publisher=West Chester University course ESS 362/562 in History of Astronomy | |||
| year = 2005 | |||
| access-date =15 January 2008 | |||
| url = http://astro.wcupa.edu/mgagne/ess362/resources/finocchiaro.html | |||
|archive-url = https://web.archive.org/web/20070930013053/http://astro.wcupa.edu/mgagne/ess362/resources/finocchiaro.html | |||
|archive-date=30 September 2007 | |||
|ref=Reference-Gagne-2005 | |||
}} (Extracts from ]) | |||
* {{cite book|author1=Pierre Gassendi|author2=Olivier Thill|title=The Life of Copernicus 1473–1543|date=September 2002|publisher=Xulon Press|isbn=978-1-59160-193-7}} | |||
* {{cite book | |||
| title = The Book Nobody Read | |||
| last=Gingerich |first=Owen |author-link=Owen Gingerich | |||
| publisher=William Heinemann | |||
| year = 2004 | |||
| isbn = 978-0-434-01315-9 | |||
| location = London | |||
| ref = Reference-Gingerich-2004}} | |||
* {{citation | |||
| title =God's Planet | |||
| last=Gingerich |first=Owen |author-link=Owen Gingerich | |||
| url=https://books.google.com/books?id=po69BAAAQBAJ | |||
| year =2014 | |||
| publisher=Harvard University Press | isbn =978-0-674-41710-6 | |||
| bibcode=2014gopl.book.....G }} | |||
* {{citation | |||
| title = Copernicus: A Very Short Introduction | |||
| last=Gingerich |first=Owen |author-link=Owen Gingerich | |||
| publisher=Oxford University Press | |||
| location=Oxford & New York, NY | |||
| url=https://books.google.com/books?id=kKVHDAAAQBAJ | |||
| year =2016 | |||
| isbn =978-0-19-933096-6 | |||
}} | |||
* {{cite book | |||
|last=Goddu | |||
|first=André | |||
|title=Copernicus and the Aristotelian tradition | |||
|year=2010 | |||
|publisher=Brill | |||
|location=Leiden, Netherlands | |||
|isbn=978-90-04-18107-6 | |||
}} | |||
* {{cite book | |||
| title = Setting Aside All Authority: Giovanni Battista Riccioli and the Science Against Copernicus in the Age of Galileo | |||
| url=https://books.google.com/books?id=6r_nrQEACAAJ | |||
| last=Graney |first=Christopher M. | |||
| publisher=University of Notre Dame Press | |||
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| date = 2015 | |||
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| isbn = 978-0-268-02988-3}} | |||
* {{cite book | |||
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* {{cite book |last= Heath | |||
|first= Sir Thomas | |||
|author-link= Thomas Little Heath | |||
|title= Aristarchus of Samos, the ancient Copernicus; a history of Greek astronomy to Aristarchus, together with Aristarchus's Treatise on the sizes and distances of the sun and moon : a new Greek text with translation and notes | |||
|url= https://archive.org/details/aristarchusofsam00heatuoft | |||
|date= 1913 | |||
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|location= London | |||
|ref= Reference-Heath-1913}} | |||
* {{cite book|author=Alan W. Hirshfeld|title=Parallax: The Race to Measure the Cosmos|date=1 May 2002|publisher=Henry Holt and Company|isbn=978-0-8050-7133-7}} | |||
* {{cite book | |||
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* {{cite book |last=Hoskin |first=Michael |title=The Cambridge Concise History of Astronomy|date=18 March 1999|publisher=Cambridge University Press|isbn=978-0-521-57600-0}} | |||
* {{cite book |last=Johnson |first=Lonnie |date=28 September 1996 |title=Central Europe: Enemies, Neighbors, Friends |url=https://archive.org/details/isbn_9780195100716 |url-access=registration |publisher=Oxford University Press, US |isbn=978-0-19-802607-5}} | |||
* {{cite book | |||
| title = The Sleepwalkers: A History of Man's Changing Vision of the Universe | |||
| last=Koestler | |||
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| author-link=Arthur Koestler | |||
| publisher=Grosset & Dunlap | |||
| date = 1963 | |||
| orig-year = 1959 | |||
| isbn = 978-0-448-00159-3 | |||
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| ref = Reference-Koestler-1963| title-link=The Sleepwalkers (Koestler book) | |||
}} Original edition published by Hutchinson (1959, London) | |||
* {{cite book|author=Arthur Koestler|title=The Sleepwalkers|date=1968|publisher=Macmillan}} | |||
* {{Cite book <!-- Deny Citation Bot--> | |||
| title = Nicolaus Copernicus zum 500. Geburtstag | |||
| last=Koeppen |first=Hans | |||
| display-authors=etal | |||
| publisher=Böhlau Verlag | |||
| date = 1973 | |||
| isbn = 978-3-412-83573-6| bibcode=1973ncz..book.....K }} | |||
* {{cite book | |||
| title = The Astronomical Revolution: Copernicus – Kepler – Borelli | |||
| last=Koyré |first=Alexandre |author-link=Alexandre Koyré | |||
| publisher=Cornell University Press | |||
| date = 1973 | |||
| isbn = 978-0-8014-0504-4 | |||
| location = Ithaca, NY | |||
| ref = Reference-Koyre-1973}} | |||
* {{Cite book <!-- Deny Citation Bot--> | |||
| title = The Copernican Revolution: Planetary Astronomy in the Development of Western Thought | |||
| location=Cambridge |publisher=Harvard University Press | |||
| last=Kuhn |first=Thomas |author-link=Thomas Kuhn | |||
| date = 1957 | |||
| oclc = 535467 | |||
| ref = Reference-Kuhn-1957| title-link=The Copernican Revolution: Planetary Astronomy in the Development of Western Thought | bibcode=1957crpa.book.....K }} | |||
* {{Cite journal | last1 = Lindberg | first1 = David C. | author-link1 = David C. Lindberg | last2 = Numbers | first2 = Ronald L. | author2-link = Ronald L. Numbers | title = Beyond War and Peace: A Reappraisal of the Encounter between Christianity and Science | journal=Church History | volume = 55 | issue = 3 | pages = 338–354 |year = 1986 | doi = 10.2307/3166822 | jstor = 3166822| s2cid = 163075869 }} | |||
* {{cite book | title= From Eudoxus to Einstein: A History of Mathematical Astronomy | |||
| last=Linton |first=Christopher M. | |||
| publisher=Cambridge University Press | |||
| date= 2004 | |||
| location= Cambridge | |||
| isbn= 978-0-521-82750-8 | |||
| ref=Reference-Linton-2004}} | |||
* {{cite book |last=Malagola |first=Carlo |title=Della vita e delle opere di Antonio Urceo detto Codro: studi e ricerch|date=1878|publisher=Fava e Garagnani}} | |||
* {{cite book| title= Manetho Ptolemy Tetrabiblos | |||
| author1= Manetho | |||
| author2= Ptolemy | |||
| others= Loeb Classical Library edition, translated by W.G.Waddell and F.E.Robbins PhD | |||
| date= 1964 | |||
| orig-year= 1940 | |||
| location= London | |||
| publisher=William Heinemann | |||
| ref= Reference-Waddell&Robbins-1964 | |||
| title-link= Tetrabiblos | |||
}} | |||
* {{cite book | |||
| editor-last=McMullin |editor-first=Ernan | |||
| year= 2005 | |||
| title = The Church and Galileo | |||
| publisher=University of Notre Dame Press | |||
| location = Notre Dame, IN | |||
| isbn = 978-0-268-03483-2 | |||
| ref = Reference-McMullin-2005}} | |||
* ], ''The History of Polish Literature'', second edition, Berkeley, University of California Press, 1969, {{ISBN|0-520-04477-0}}. | |||
* ], ''Nicolaus Copernicus, 1543–1943'', Kessinger Publishing, 1943. | |||
* {{cite book | |||
|last=Moore |first=Patrick | |||
|title=The great astronomical revolution 1543–1687 and the Space Age epilogue | |||
|year=1994 | |||
|publisher=Albion | |||
|isbn=978-1-898563-18-1}} | |||
* {{citation | |||
| title =Of the Original of the Sabbath | |||
| first= John | |||
| last= Owen | |||
| author-link=John Owen (theologian) | |||
| url=https://archive.org/details/worksofjohnowen186911owen/page/286 | |||
| encyclopedia=The Works of John Owen | |||
| editor1-first= William H. | |||
| editor1-last= Goold | |||
| editor2-first= Charles W. | |||
| editor2-last= Quick | |||
| volume=XI | |||
| publisher=The Leighton Publications | |||
| location=Philadelphia | |||
| date = 1869 | |||
| orig-year= 1671 | |||
| pages= 286–326 | |||
}} | |||
* {{cite book |title=Tetrabiblos | |||
| last= Ptolemy |first= Claudius | |||
| year=1964 | |||
| orig-year=1940 | |||
| others=translated by F.E. Robbins | |||
| edition=Loeb Classical Library | |||
| publisher=William Heinemann | |||
| location= London | |||
| ref= Reference-Robbins-1964 | |||
}} | |||
* {{cite encyclopedia | |||
| title = Nicolaus Copernicus | |||
| last=Rabin |first=Sheila | |||
| encyclopedia=The Stanford Encyclopedia of Philosophy | |||
|edition=Summer 2005 | |||
|editor-first=Edward N. |editor-last=Zalta | |||
| year= 2005 | |||
| url = http://plato.stanford.edu/archives/sum2005/entries/copernicus/ | |||
|access-date=26 May 2008 | |||
|ref=Reference-Rabin-2005 | |||
}} | |||
* {{cite book | |||
|last=Repcheck | |||
|first=Jack | |||
|title=Copernicus'<!--no "s" in original"--> Secret: How the Scientific Revolution Began | |||
|publisher=Simon & Schuster | |||
|location=New York | |||
|year=2007 | |||
|isbn=978-0-7432-8951-1 | |||
|ref=repcheck-2007 | |||
|url=https://archive.org/details/copernicussecret00repc | |||
}} | |||
* {{cite journal|last=Rosen |first=Edward|title=Calvin's Attitude toward Copernicus|journal=Journal of the History of Ideas|volume=21|year=1960|pages=431–41|issue=3|doi=10.2307/2708147|ref=rosen-1960|jstor=2708147}} | |||
* {{Cite book | |||
| title = Copernicus and his Successors | |||
| url=https://books.google.com/books?id=Y_fUAwAAQBAJ&printsec=frontcover <!-- Deny Citation Bot--> | |||
| last=Rosen |first=Edward | |||
| editor-last=Hilfstein | editor-first=Erna | |||
| publisher=Hambledon Press | |||
| date = 1995 | |||
| isbn = 978-1-85285-071-5 | |||
| location = London | |||
| ref = Reference-Rosen-1995| bibcode=1995cops.book.....R }} | |||
* {{cite book | |||
| title = Three Copernican Treatises:The Commentariolus of Copernicus; The Letter against ]; The Narratio Prima of Rheticus<!-- Deny Citation Bot--> | |||
| author=Rosen, Edward | |||
| publisher=Dover Publications | |||
| edition = Second Edition, revised | |||
| year = 2004 | |||
| orig-year = 1939 | |||
| isbn = 978-0-486-43605-0 | |||
| location = New York | |||
| ref = Reference-Rosen-2004 | |||
}} | |||
* {{cite book | |||
| title = Inventing the Flat Earth – Columbus and Modern Historians | |||
| author=] | |||
| publisher=Praeger | |||
| date = 1997 | |||
| orig-year = 1991 | |||
| isbn = 978-0-275-95904-3 | |||
| location = New York | |||
| ref = Reference-Russell-1997}} | |||
* {{cite book|title=The Review of the Polish Academy of Sciences|date=1973|publisher="Ossolineum", the Polish Academy of Sciences Press}} | |||
* {{cite book|author=Josh Sakolsky|title=Copernicus And Modern Astronomy|date=1 October 2004|publisher=The Rosen Publishing Group|isbn=978-1-4042-0305-1}} | |||
* {{citation | |||
|last=Saliba | |||
|first=George | |||
|title=Islamic reception of Greek astronomy | |||
|volume=260 | |||
|author-link=George Saliba | |||
|year=2009 | |||
|work=in ] | |||
|pages=149–65 | |||
|url=https://www.cambridge.org/core/services/aop-cambridge-core/content/view/4815D5D2879A9719F1DA0DE098900586/S1743921311002237a.pdf/islamic_reception_of_greek_astronomy.pdf | |||
|bibcode=2011IAUS..260..149S | |||
|doi=10.1017/S1743921311002237 | |||
|doi-access=free | |||
}} | |||
* {{cite book| title= The Crime of Galileo | |||
| first=Giorgio | |||
| last=de Santillana | |||
| author-link= Giorgio de Santillana | |||
| orig-year= 1955 | |||
| publisher=University of Chicago Press | |||
| date= 1976 | |||
| type=Midway reprint | |||
| location = Chicago, Ill | |||
| isbn= 978-0-226-73481-1 | |||
| ref= Reference-Santillana-1976}} | |||
* {{cite book | |||
| title = East Central Europe in the Middle Ages 1000–1500 | |||
| last=Sedlar |first=Jean W. | |||
| publisher=University of Washington Press | |||
| isbn = 978-0-295-97290-9 | |||
|year = 1994}} | |||
* ], ''A More Perfect Heaven: How Copernicus Revolutionized the Cosmos'', New York, Walker & Company, 2011, {{ISBN|978-0-8027-1793-1}}. {{unreliable source?|date=April 2017}} Features a fictional play about ]' visit to Copernicus, sandwiched between chapters about the visit's pre-history and post-history. | |||
* {{cite book|author=Barbara A. Somervill|title=Nicolaus Copernicus: Father of Modern Astronomy|date=1 January 2005|publisher=Capstone|isbn=978-0-7565-0812-8}} | |||
* {{cite book|author=Daniel Stone|title=The Polish-Lithuanian State: 1386–1795|date=2001|publisher=University of Washington Press|isbn=978-0-295-98093-5}} | |||
* {{citation | |||
| title =The Derivation and First Draft of Copernicus's Planetary Theory—A Translation of the Commentariolus with Commentary | |||
| first= Noel | |||
| last= Swerdlow | |||
| journal=Proceedings of the American Philosophical Society | |||
| volume=117 | |||
| number=6 | |||
| date =December 1973 | |||
| pages= 423–512 | |||
}} | |||
* {{citation| title=Mathematical Astronomy in Copernicus'<!--no "s" in original"--> De Revolutionibus: In Two Parts | |||
| url=https://books.google.com/books?id=uHPgBwAAQBAJ | |||
| first1=Noel Mark | |||
| last1=Swerdlow | |||
| author1-link=Noel Swerdlow | |||
| first2=Otto Eduard | |||
| last2=Neugebauer | |||
| author2-link=Otto E. Neugebauer | |||
| publisher=Springer Verlag | |||
| location=New York | |||
| year=1984 | |||
| isbn=978-1-4613-8264-5 | |||
}} | |||
* {{cite book | |||
| title = The Lord of Uraniborg | |||
| first= Victor E. | |||
| last= Thoren | |||
| publisher=Cambridge University Press | |||
| date = 1990 | |||
| isbn = 978-0-521-35158-4 | |||
| location = Cambridge | |||
| ref = thoren-1990}} (A biography of Danish astronomer and alchemist ].) | |||
* {{cite book | |||
|editor1-last=Valls-Gabaud | |||
|editor1-first=D. | |||
|editor2-last=Boskenberg | |||
|editor2-first=A. | |||
|title=The Role of Astronomy in Society and Culture | |||
|series=Proceedings IAU Symposium No. 260 | |||
|year=2009 | |||
}} | |||
* {{cite book|author=Manfred Weissenbacher|title=Sources of Power: How Energy Forges Human History|date=September 2009|publisher=ABC-CLIO|isbn=978-0-313-35626-1}} | |||
* {{cite book | |||
| title = The Copernican Question: Prognostication, Skepticism, and Celestial Order | |||
| url=https://books.google.com/books?id=iEueQqLQyiIC | |||
| first= Robert S. | |||
| last= Westman | |||
| publisher=University of California Press | |||
| date = 2011 | |||
| isbn = 978-0-520-25481-7 | |||
| location = Los Angeles | |||
| ref = westman-2011}} | |||
{{refend}} | |||
== External links == | |||
{{Sister project links|wikt=no|v=no|n=no|s=Author:Nicolaus Copernicus}} | |||
{{Wikisourcelang|la|Scriptor:Nicolaus Copernicus|Nicolaus Copernicus}} | |||
{{Wikisourcelang|de}}'''Primary sources''' | |||
* {{Gutenberg author |id=6426| name=Nicolaus Copernicus}} | |||
* {{Internet Archive author |sname=Copernicus}} | |||
* {{Librivox author |id=2716}} | |||
* – Full digital facsimile, Jagiellonian University | |||
* {{in lang|pl}} {{Webarchive|url=https://web.archive.org/web/20151018072646/http://domwarminski.pl/index.php?option=com_content&view=article&id=19 |date=18 October 2015 }} | |||
* {{Webarchive|url=https://web.archive.org/web/20130721202608/http://hos.ou.edu/galleries//16thCentury/Copernicus/ |date=21 July 2013 }} High resolution images of works by and/or portraits of Nicolaus Copernicus in .jpg and .tiff format. | |||
* in digital library ] | |||
'''General''' | |||
* {{MacTutor Biography|id=Copernicus}} | |||
* {{MathGenealogy|id=126177}} | |||
* | |||
* | |||
* by the | |||
* | |||
* {{Cite EB1911|wstitle= Copernicus, Nicolaus | volume= 7 |last1= Clerke |first1= Agnes Mary |author1-link= Agnes Mary Clerke | pages = 100–101 |short=1}} | |||
* Portraits of Copernicus: ; {{Webarchive|url=https://web.archive.org/web/20070927183826/http://www-groups.dcs.st-andrews.ac.uk/~history/PictDisplay/Copernicus.html |date=27 September 2007 }}; | |||
* {{Webarchive|url=https://web.archive.org/web/20090121212438/http://www.hps.cam.ac.uk/starry/coperastrol.html |date=21 January 2009 }} | |||
* | |||
* – BBC article including image of Copernicus using facial reconstruction based on located skull | |||
* | |||
* | |||
* | |||
* | |||
* | |||
* | |||
* | |||
'''About ''De Revolutionibus''''' | |||
* | |||
* – Full digital facsimile, Lehigh University | |||
* | |||
* (1543) with annotations of ] on ] | |||
'''Prizes''' | |||
* , awarded since 1995 | |||
'''German-Polish cooperation''' | |||
* {{in lang|en|de|pl}} German-Polish "Copernicus Prize" awarded to German and Polish scientists () | |||
* {{in lang|en|de|pl}} | |||
* {{in lang|de|pl}} | |||
{{Nicolaus Copernicus|state=expanded}} | |||
{{Portal bar|Biography|Mathematics|Medicine|Astronomy|Stars|Language|Germany|Poland|Science}} | |||
{{Authority control}} | |||
{{DEFAULTSORT:Copernicus, Nicolaus}} | |||
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Latest revision as of 12:07, 21 December 2024
Mathematician and astronomer (1473–1543) "Copernicus" and "Kopernik" redirect here. For other uses, see Copernicus (disambiguation).
Nicolaus Copernicus | |
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"Toruń portrait" (c. 1580) | |
Born | 19 February 1473 Toruń, Royal Prussia, Poland |
Died | 24 May 1543 (aged 70) Frombork, Royal Prussia, Poland |
Education |
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Known for | |
Scientific career | |
Fields |
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Academic advisors | Domenico Maria Novara da Ferrara |
Signature | |
Part of a series on | ||||
Physical cosmology | ||||
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Early universe
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Expansion · Future | ||||
Components · Structure
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Experiments | ||||
Scientists | ||||
Subject history | ||||
Nicolaus Copernicus (19 February 1473 – 24 May 1543) was a Renaissance polymath, active as a mathematician, astronomer, and Catholic canon, who formulated a model of the universe that placed the Sun rather than Earth at its center. In all likelihood, Copernicus developed his model independently of Aristarchus of Samos, an ancient Greek astronomer who had formulated such a model some eighteen centuries earlier.
The publication of Copernicus's model in his book De revolutionibus orbium coelestium (On the Revolutions of the Celestial Spheres), just before his death in 1543, was a major event in the history of science, triggering the Copernican Revolution and making a pioneering contribution to the Scientific Revolution.
Copernicus was born and died in Royal Prussia, a semiautonomous and multilingual region created within the Crown of the Kingdom of Poland from part of the lands regained from the Teutonic Order after the Thirteen Years' War. A polyglot and polymath, he obtained a doctorate in canon law and was a mathematician, astronomer, physician, classics scholar, translator, governor, diplomat, and economist. From 1497 he was a Warmian Cathedral chapter canon. In 1517 he derived a quantity theory of money—a key concept in economics—and in 1519 he formulated an economic principle that later came to be called Gresham's law.
Life
Nicolaus Copernicus was born on 19 February 1473 in the city of Toruń (Thorn), in the province of Royal Prussia, in the Crown of the Kingdom of Poland, to German-speaking parents.
His father was a merchant from Kraków and his mother was the daughter of a wealthy Toruń merchant. Nicolaus was the youngest of four children. His brother Andreas (Andrew) became an Augustinian canon at Frombork (Frauenburg). His sister Barbara, named after her mother, became a Benedictine nun and, in her final years, prioress of a convent in Chełmno (Kulm); she died after 1517. His sister Katharina married the businessman and Toruń city councilor Barthel Gertner and left five children, whom Copernicus looked after to the end of his life. Copernicus never married and is not known to have had children, but from at least 1531 until 1539 his relations with Anna Schilling, a live-in housekeeper, were seen as scandalous by two bishops of Warmia who urged him over the years to break off relations with his "mistress".
Father's family
Copernicus's father's family can be traced to a village in Silesia between Nysa (Neiße) and Prudnik (Neustadt). The village's name has been variously spelled Kopernik, Copernik, Copernic, Kopernic, Coprirnik, and modern Koperniki.
In the 14th century, members of the family began moving to various other Silesian cities, to the Polish capital, Kraków (1367), and to Toruń (1400). The father, Mikołaj the Elder (or Niklas Koppernigk [de]), likely the son of Jan (or Johann), came from the Kraków line.
Nicolaus was named after his father, who appears in records for the first time as a well-to-do merchant who dealt in copper, selling it mostly in Danzig (Gdańsk). He moved from Kraków to Toruń around 1458. Toruń, situated on the Vistula River, was at that time embroiled in the Thirteen Years' War, in which the Kingdom of Poland and the Prussian Confederation, an alliance of Prussian cities, gentry and clergy, fought the Teutonic Order over control of the region. In this war, Hanseatic cities like Danzig and Toruń, Nicolaus Copernicus's hometown, chose to support the Polish King, Casimir IV Jagiellon, who promised to respect the cities' traditional vast independence, which the Teutonic Order had challenged. Nicolaus's father was actively engaged in the politics of the day and supported Poland and the cities against the Teutonic Order. In 1454 he mediated negotiations between Poland's Cardinal Zbigniew Oleśnicki and the Prussian cities for repayment of war loans. In the Second Peace of Thorn (1466), the Teutonic Order formally renounced all claims to the conquered lands, which returned to Poland as Royal Prussia and remained part of it until the First (1772) and Second (1793) Partitions of Poland.
Copernicus's father married Barbara Watzenrode, the astronomer's mother, between 1461 and 1464. He died about 1483.
Mother's family
Nicolaus's mother, Barbara Watzenrode, was the daughter of a wealthy Toruń patrician and city councillor, Lucas Watzenrode the Elder (deceased 1462), and Katarzyna (widow of Jan Peckau), mentioned in other sources as Katarzyna Rüdiger gente Modlibóg (deceased 1476). The Modlibógs were a prominent Polish family who had been well known in Poland's history since 1271. The Watzenrode family, like the Kopernik family, had come from Silesia from near Schweidnitz (Świdnica), and after 1360 had settled in Toruń. They soon became one of the wealthiest and most influential patrician families. Through the Watzenrodes' extensive family relationships by marriage, Copernicus was related to wealthy families of Toruń (Thorn), Danzig (Gdansk) and Elbing (Elbląg), and to prominent Polish noble families of Prussia: the Czapskis, Działyńskis, Konopackis and Kościeleckis. Lucas and Katherine had three children: Lucas Watzenrode the Younger (1447–1512), who would become Bishop of Warmia and Copernicus's patron; Barbara, the astronomer's mother (deceased after 1495); and Christina (deceased before 1502), who in 1459 married the Toruń merchant and mayor, Tiedeman von Allen.
Lucas Watzenrode the Elder, a wealthy merchant and in 1439–62 president of the judicial bench, was a decided opponent of the Teutonic Knights. In 1453 he was the delegate from Toruń at the Grudziądz (Graudenz) conference that planned the uprising against them. During the ensuing Thirteen Years' War, he actively supported the Prussian cities' war effort with substantial monetary subsidies (only part of which he later re-claimed), with political activity in Toruń and Danzig, and by personally fighting in battles at Łasin (Lessen) and Malbork (Marienburg). He died in 1462.
Lucas Watzenrode the Younger, the astronomer's maternal uncle and patron, was educated at the University of Kraków and at the universities of Cologne and Bologna. He was a bitter opponent of the Teutonic Order, and its Grand Master once referred to him as "the devil incarnate". In 1489 Watzenrode was elected Bishop of Warmia (Ermeland, Ermland) against the preference of King Casimir IV, who had hoped to install his own son in that seat. As a result, Watzenrode quarreled with the king until Casimir IV's death three years later. Watzenrode was then able to form close relations with three successive Polish monarchs: John I Albert, Alexander Jagiellon, and Sigismund I the Old. He was a friend and key advisor to each ruler, and his influence greatly strengthened the ties between Warmia and Poland proper. Watzenrode came to be considered the most powerful man in Warmia, and his wealth, connections and influence allowed him to secure Copernicus's education and career as a canon at Frombork Cathedral.
Education
Early education
Copernicus' father died around 1483, when the boy was 10. His maternal uncle, Lucas Watzenrode the Younger (1447–1512), took Copernicus under his wing and saw to his education and career. Six years later, Watzenrode was elected Bishop of Warmia. Watzenrode maintained contacts with leading intellectual figures in Poland and was a friend of the influential Italian-born humanist and Kraków courtier Filippo Buonaccorsi. There are no surviving primary documents on the early years of Copernicus's childhood and education. Copernicus biographers assume that Watzenrode first sent young Copernicus to St. John's School, at Toruń, where he himself had been a master. Later, according to Armitage, the boy attended the Cathedral School at Włocławek, up the Vistula River from Toruń, which prepared pupils for entrance to the University of Kraków.
University of Kraków 1491–1495
In the winter semester of 1491–92 Copernicus, as "Nicolaus Nicolai de Thuronia", matriculated together with his brother Andrew at the University of Kraków. Copernicus began his studies in the Department of Arts (from the fall of 1491, presumably until the summer or fall of 1495) in the heyday of the Kraków astronomical-mathematical school, acquiring the foundations for his subsequent mathematical achievements. According to a later but credible tradition (Jan Brożek), Copernicus was a pupil of Albert Brudzewski, who by then (from 1491) was a professor of Aristotelian philosophy but taught astronomy privately outside the university; Copernicus became familiar with Brudzewski's widely read commentary to Georg von Peuerbach's Theoricæ novæ planetarum and almost certainly attended the lectures of Bernard of Biskupie and Wojciech Krypa of Szamotuły, and probably other astronomical lectures by Jan of Głogów, Michał of Wrocław (Breslau), Wojciech of Pniewy, and Marcin Bylica of Olkusz.
Mathematical astronomy
Copernicus's Kraków studies gave him a thorough grounding in the mathematical astronomy taught at the university (arithmetic, geometry, geometric optics, cosmography, theoretical and computational astronomy) and a good knowledge of the philosophical and natural-science writings of Aristotle (De coelo, Metaphysics) and Averroes, stimulating his interest in learning and making him conversant with humanistic culture. Copernicus broadened the knowledge that he took from the university lecture halls with independent reading of books that he acquired during his Kraków years (Euclid, Haly Abenragel, the Alfonsine Tables, Johannes Regiomontanus' Tabulae directionum); to this period, probably, also date his earliest scientific notes, preserved partly at Uppsala University. At Kraków Copernicus began collecting a large library on astronomy; it would later be carried off as war booty by the Swedes during the Deluge in the 1650s and has been preserved at the Uppsala University Library.
Contradictions in the systems of Aristotle and Ptolemy
Copernicus's four years at Kraków played an important role in the development of his critical faculties and initiated his analysis of logical contradictions in the two "official" systems of astronomy—Aristotle's theory of homocentric spheres, and Ptolemy's mechanism of eccentrics and epicycles—the surmounting and discarding of which would be the first step toward the creation of Copernicus's own doctrine of the structure of the universe.
Warmia 1495–96
Without taking a degree, probably in the fall of 1495, Copernicus left Kraków for the court of his uncle Watzenrode, who in 1489 had been elevated to Prince-Bishop of Warmia and soon (before November 1495) sought to place his nephew in the Warmia canonry vacated by 26 August 1495 death of its previous tenant, Jan Czanow. For unclear reasons—probably due to opposition from part of the chapter, who appealed to Rome—Copernicus's installation was delayed, inclining Watzenrode to send both his nephews to study canon law in Italy, seemingly with a view to furthering their ecclesiastic careers and thereby also strengthening his own influence in the Warmia chapter.
On 20 October 1497, Copernicus, by proxy, formally succeeded to the Warmia canonry which had been granted to him two years earlier. To this, by a document dated 10 January 1503 at Padua, he would add a sinecure at the Collegiate Church of the Holy Cross and St. Bartholomew in Wrocław (at the time in the Crown of Bohemia). Despite having been granted a papal indult on 29 November 1508 to receive further benefices, through his ecclesiastic career Copernicus not only did not acquire further prebends and higher stations (prelacies) at the chapter, but in 1538 he relinquished the Wrocław sinecure. It is unclear whether he was ever ordained a priest. Edward Rosen asserts that he was not. Copernicus did take minor orders, which sufficed for assuming a chapter canonry. The Catholic Encyclopedia proposes that his ordination was probable, as in 1537 he was one of four candidates for the episcopal seat of Warmia, a position that required ordination.
Italy
University of Bologna 1496–1501
Meanwhile, leaving Warmia in mid-1496—possibly with the retinue of the chapter's chancellor, Jerzy Pranghe, who was going to Italy—in the fall, possibly in October, Copernicus arrived in Bologna and a few months later (after 6 January 1497) signed himself into the register of the Bologna University of Jurists' "German nation", which included young Poles from Silesia, Prussia and Pomerania as well as students of other nationalities.
During his three-year stay at Bologna, which occurred between fall 1496 and spring 1501, Copernicus seems to have devoted himself less keenly to studying canon law (he received his doctorate in canon law only after seven years, following a second return to Italy in 1503) than to studying the humanities—probably attending lectures by Filippo Beroaldo, Antonio Urceo, called Codro, Giovanni Garzoni, and Alessandro Achillini—and to studying astronomy. He met the famous astronomer Domenico Maria Novara da Ferrara and became his disciple and assistant. Copernicus was developing new ideas inspired by reading the "Epitome of the Almagest" (Epitome in Almagestum Ptolemei) by George von Peuerbach and Johannes Regiomontanus (Venice, 1496). He verified its observations about certain peculiarities in Ptolemy's theory of the Moon's motion, by conducting on 9 March 1497 at Bologna a memorable observation of the occultation of Aldebaran, the brightest star in the Taurus constellation, by the Moon. Copernicus the humanist sought confirmation for his growing doubts through close reading of Greek and Latin authors (Pythagoras, Aristarchos of Samos, Cleomedes, Cicero, Pliny the Elder, Plutarch, Philolaus, Heraclides, Ecphantos, Plato), gathering, especially while at Padua, fragmentary historic information about ancient astronomical, cosmological and calendar systems.
Via Galliera 65, Bologna, site of house of Domenico Maria NovaraClose-up of plaqueRome 1500
Copernicus spent the jubilee year 1500 in Rome, where he arrived with his brother Andrew that spring, doubtless to perform an apprenticeship at the Papal Curia. Here, too, however, he continued his astronomical work begun at Bologna, observing, for example, a lunar eclipse on the night of 5–6 November 1500. According to a later account by Rheticus, Copernicus also—probably privately, rather than at the Roman Sapienza—as a "Professor Mathematum" (professor of astronomy) delivered, "to numerous ... students and ... leading masters of the science", public lectures devoted probably to a critique of the mathematical solutions of contemporary astronomy.
University of Padua 1501–1503
On his return journey doubtless stopping briefly at Bologna, in mid-1501 Copernicus arrived back in Warmia. After on 28 July receiving from the chapter a two-year extension of leave in order to study medicine (since "he may in future be a useful medical advisor to our Reverend Superior and the gentlemen of the chapter"), in late summer or in the fall he returned again to Italy, probably accompanied by his brother Andrew and by Canon Bernhard Sculteti. This time he studied at the University of Padua, famous as a seat of medical learning, and—except for a brief visit to Ferrara in May–June 1503 to pass examinations for, and receive, his doctorate in canon law—he remained at Padua from fall 1501 to summer 1503.
Copernicus studied medicine probably under the direction of leading Padua professors—Bartolomeo da Montagnana, Girolamo Fracastoro, Gabriele Zerbi, Alessandro Benedetti—and read medical treatises that he acquired at this time, by Valescus de Taranta, Jan Mesue, Hugo Senensis, Jan Ketham, Arnold de Villa Nova, and Michele Savonarola, which would form the embryo of his later medical library.
Astrology
One of the subjects that Copernicus must have studied was astrology, since it was considered an important part of a medical education. However, unlike most other prominent Renaissance astronomers, he appears never to have practiced or expressed any interest in astrology.
Greek studies
As at Bologna, Copernicus did not limit himself to his official studies. It was probably the Padua years that saw the beginning of his Hellenistic interests. He familiarized himself with Greek language and culture with the aid of Theodorus Gaza's grammar (1495) and Johannes Baptista Chrestonius's dictionary (1499), expanding his studies of antiquity, begun at Bologna, to the writings of Bessarion, Lorenzo Valla, and others. There also seems to be evidence that it was during his Padua stay that the idea finally crystallized, of basing a new system of the world on the movement of the Earth. As the time approached for Copernicus to return home, in spring 1503 he journeyed to Ferrara where, on 31 May 1503, having passed the obligatory examinations, he was granted the degree of Doctor of Canon Law (Nicolaus Copernich de Prusia, Jure Canonico ... et doctoratus). No doubt it was soon after (at latest, in fall 1503) that he left Italy for good to return to Warmia.
Planetary observations
Copernicus made three observations of Mercury, with errors of −3, −15 and −1 minutes of arc. He made one of Venus, with an error of −24 minutes. Four were made of Mars, with errors of 2, 20, 77, and 137 minutes. Four observations were made of Jupiter, with errors of 32, 51, −11 and 25 minutes. He made four of Saturn, with errors of 31, 20, 23 and −4 minutes.
Other observations
With Novara, Copernicus observed an occultation of Aldebaran by the Moon on 9 March 1497. Copernicus also observed a conjunction of Saturn and the Moon on 4 March 1500. He saw an eclipse of the Moon on 6 November 1500.
Work
Having completed all his studies in Italy, 30-year-old Copernicus returned to Warmia, where he would live out the remaining 40 years of his life, apart from brief journeys to Kraków and to nearby Prussian cities: Toruń (Thorn), Gdańsk (Danzig), Elbląg (Elbing), Grudziądz (Graudenz), Malbork (Marienburg), Königsberg (Królewiec).
The Prince-Bishopric of Warmia enjoyed substantial autonomy, with its own diet (parliament) and monetary unit (the same as in the other parts of Royal Prussia) and treasury.
Copernicus was his uncle's secretary and physician from 1503 to 1510 (or perhaps until his uncle's death on 29 March 1512) and resided in the Bishop's castle at Lidzbark (Heilsberg), where he began work on his heliocentric theory. In his official capacity, he took part in nearly all his uncle's political, ecclesiastic and administrative-economic duties. From the beginning of 1504, Copernicus accompanied Watzenrode to sessions of the Royal Prussian diet held at Malbork and Elbląg and, write Dobrzycki and Hajdukiewicz, "participated ... in all the more important events in the complex diplomatic game that ambitious politician and statesman played in defense of the particular interests of Prussia and Warmia, between hostility to the Order and loyalty to the Polish Crown."
In 1504–1512 Copernicus made numerous journeys as part of his uncle's retinue—in 1504, to Toruń and Gdańsk, to a session of the Royal Prussian Council in the presence of Poland's King Alexander Jagiellon; to sessions of the Prussian diet at Malbork (1506), Elbląg (1507) and Sztum (Stuhm) (1512); and he may have attended a Poznań (Posen) session (1510) and the coronation of Poland's King Sigismund I the Old in Kraków (1507). Watzenrode's itinerary suggests that in spring 1509 Copernicus may have attended the Kraków sejm.
It was probably on the latter occasion, in Kraków, that Copernicus submitted for printing at Jan Haller's press his translation, from Greek to Latin, of a collection, by the 7th-century Byzantine historian Theophylact Simocatta, of 85 brief poems called Epistles, or letters, supposed to have passed between various characters in a Greek story. They are of three kinds—"moral," offering advice on how people should live; "pastoral", giving little pictures of shepherd life; and "amorous", comprising love poems. They are arranged to follow one another in a regular rotation of subjects. Copernicus had translated the Greek verses into Latin prose, and he published his version as Theophilacti scolastici Simocati epistolae morales, rurales et amatoriae interpretatione latina, which he dedicated to his uncle in gratitude for all the benefits he had received from him. With this translation, Copernicus declared himself on the side of the humanists in the struggle over the question of whether Greek literature should be revived. Copernicus's first poetic work was a Greek epigram, composed probably during a visit to Kraków, for Johannes Dantiscus's epithalamium for Barbara Zapolya's 1512 wedding to King Zygmunt I the Old.
Commentariolus – an initial outline of a heliocentric theory
Some time before 1514, Copernicus wrote an initial outline of his heliocentric theory known only from later transcripts, by the title (perhaps given to it by a copyist), Nicolai Copernici de hypothesibus motuum coelestium a se constitutis commentariolus—commonly referred to as the Commentariolus. It was a succinct theoretical description of the world's heliocentric mechanism, without mathematical apparatus, and differed in some important details of geometric construction from De revolutionibus; but it was already based on the same assumptions regarding Earth's triple motions. The Commentariolus, which Copernicus consciously saw as merely a first sketch for his planned book, was not intended for printed distribution. He made only a very few manuscript copies available to his closest acquaintances, including, it seems, several Kraków astronomers with whom he collaborated in 1515–1530 in observing eclipses. Tycho Brahe would include a fragment from the Commentariolus in his own treatise, Astronomiae instauratae progymnasmata, published in Prague in 1602, based on a manuscript that he had received from the Bohemian physician and astronomer Tadeáš Hájek, a friend of Rheticus. The Commentariolus would appear complete in print for the first time only in 1878.
Astronomical observations 1513–1516
In 1510 or 1512 Copernicus moved to Frombork, a town to the northwest at the Vistula Lagoon on the Baltic Sea coast. There, in April 1512, he participated in the election of Fabian of Lossainen as Prince-Bishop of Warmia. It was only in early June 1512 that the chapter gave Copernicus an "external curia"—a house outside the defensive walls of the cathedral mount. In 1514 he purchased the northwestern tower within the walls of the Frombork stronghold. He would maintain both these residences to the end of his life, despite the devastation of the chapter's buildings by a raid against Frauenburg carried out by the Teutonic Order in January 1520, during which Copernicus's astronomical instruments were probably destroyed. Copernicus conducted astronomical observations in 1513–1516 presumably from his external curia; and in 1522–1543, from an unidentified "small tower" (turricula), using primitive instruments modeled on ancient ones—the quadrant, triquetrum, armillary sphere. At Frombork Copernicus conducted over half of his more than 60 registered astronomical observations.
Administrative duties in Warmia
Having settled permanently at Frombork, where he would reside to the end of his life, with interruptions in 1516–1519 and 1520–21, Copernicus found himself at the Warmia chapter's economic and administrative center, which was also one of Warmia's two chief centers of political life. In the difficult, politically complex situation of Warmia, threatened externally by the Teutonic Order's aggressions (attacks by Teutonic bands; the Polish–Teutonic War of 1519–1521; Albert's plans to annex Warmia), internally subject to strong separatist pressures (the selection of the prince-bishops of Warmia; currency reform), he, together with part of the chapter, represented a program of strict cooperation with the Polish Crown and demonstrated in all his public activities (the defense of his country against the Order's plans of conquest; proposals to unify its monetary system with the Polish Crown's; support for Poland's interests in the Warmia dominion's ecclesiastic administration) that he was consciously a citizen of the Polish–Lithuanian Republic. Soon after the death of uncle Bishop Watzenrode, he participated in the signing of the Second Treaty of Piotrków Trybunalski (7 December 1512), governing the appointment of the Bishop of Warmia, declaring, despite opposition from part of the chapter, for loyal cooperation with the Polish Crown.
That same year (before 8 November 1512) Copernicus assumed responsibility, as magister pistoriae, for administering the chapter's economic enterprises (he would hold this office again in 1530), having already since 1511 fulfilled the duties of chancellor and visitor of the chapter's estates.
His administrative and economic duties did not distract Copernicus, in 1512–1515, from intensive observational activity. The results of his observations of Mars and Saturn in this period, and especially a series of four observations of the Sun made in 1515, led to the discovery of the variability of Earth's eccentricity and of the movement of the solar apogee in relation to the fixed stars, which in 1515–1519 prompted his first revisions of certain assumptions of his system. Some of the observations that he made in this period may have had a connection with a proposed reform of the Julian calendar made in the first half of 1513 at the request of the Bishop of Fossombrone, Paul of Middelburg. Their contacts in this matter in the period of the Fifth Lateran Council were later memorialized in a complimentary mention in Copernicus's dedicatory epistle in Dē revolutionibus orbium coelestium and in a treatise by Paul of Middelburg, Secundum compendium correctionis Calendarii (1516), which mentions Copernicus among the learned men who had sent the Council proposals for the calendar's emendation.
During 1516–1521, Copernicus resided at Olsztyn (Allenstein) Castle as economic administrator of Warmia, including Olsztyn (Allenstein) and Pieniężno (Mehlsack). While there, he wrote a manuscript, Locationes mansorum desertorum (Locations of Deserted Fiefs), with a view to populating those fiefs with industrious farmers and so bolstering the economy of Warmia. When Olsztyn was besieged by the Teutonic Knights during the Polish–Teutonic War, Copernicus directed the defense of Olsztyn and Warmia by Royal Polish forces. He also represented the Polish side in the ensuing peace negotiations.
Advisor on monetary reform
Copernicus for years advised the Royal Prussian sejmik on monetary reform, particularly in the 1520s when that was a major question in regional Prussian politics. In 1526 he wrote a study on the value of money, "Monetae cudendae ratio". In it he formulated an early iteration of the theory called Gresham's law, that "bad" (debased) coinage drives "good" (un-debased) coinage out of circulation—several decades before Thomas Gresham. He also, in 1517, set down a quantity theory of money, a principal concept in modern economics. Copernicus's recommendations on monetary reform were widely read by leaders of both Prussia and Poland in their attempts to stabilize currency.
Copernican system presented to the Pope
In 1533, Johann Widmanstetter, secretary to Pope Clement VII, explained Copernicus's heliocentric system to the Pope and two cardinals. The Pope was so pleased that he gave Widmanstetter a valuable gift. In 1535 Bernard Wapowski wrote a letter to a gentleman in Vienna, urging him to publish an enclosed almanac, which he claimed had been written by Copernicus. This is the only mention of a Copernicus almanac in the historical records. The "almanac" was likely Copernicus's tables of planetary positions. Wapowski's letter mentions Copernicus's theory about the motions of the Earth. Nothing came of Wapowski's request, because he died a couple of weeks later.
Following the death of Prince-Bishop of Warmia Mauritius Ferber (1 July 1537), Copernicus participated in the election of his successor, Johannes Dantiscus (20 September 1537). Copernicus was one of four candidates for the post, written in at the initiative of Tiedemann Giese; but his candidacy was actually pro forma, since Dantiscus had earlier been named coadjutor bishop to Ferber and since Dantiscus had the backing of Poland's King Sigismund I. At first Copernicus maintained friendly relations with the new Prince-Bishop, assisting him medically in spring 1538 and accompanying him that summer on an inspection tour of Chapter holdings. But that autumn, their friendship was strained by suspicions over Copernicus's housekeeper, Anna Schilling, whom Dantiscus banished from Frombork in spring 1539.
Medical work
In his younger days, Copernicus the physician had treated his uncle, brother and other chapter members. In later years he was called upon to attend the elderly bishops who in turn occupied the see of Warmia—Mauritius Ferber and Johannes Dantiscus—and, in 1539, his old friend Tiedemann Giese, Bishop of Chełmno (Kulm). In treating such important patients, he sometimes sought consultations from other physicians, including the physician to Duke Albert and, by letter, the Polish Royal Physician.
In the spring of 1541, Duke Albert—former Grand Master of the Teutonic Order who had converted the Monastic State of the Teutonic Knights into a Lutheran and hereditary realm, the Duchy of Prussia, upon doing homage to his uncle, the King of Poland, Sigismund I—summoned Copernicus to Königsberg to attend the Duke's counselor, George von Kunheim, who had fallen seriously ill, and for whom the Prussian doctors seemed unable to do anything. Copernicus went willingly; he had met von Kunheim during negotiations over reform of the coinage. And Copernicus had come to feel that Albert himself was not such a bad person; the two had many intellectual interests in common. The Chapter readily gave Copernicus permission to go, as it wished to remain on good terms with the Duke, despite his Lutheran faith. In about a month the patient recovered, and Copernicus returned to Frombork. For a time, he continued to receive reports on von Kunheim's condition, and to send him medical advice by letter.
Protestant attacks on the Copernican system
Some of Copernicus's close friends turned Protestant, but Copernicus never showed a tendency in that direction. The first attacks on him came from Protestants. Wilhelm Gnapheus, a Dutch refugee settled in Elbląg, wrote a comedy in Latin, Morosophus (The Foolish Sage), and staged it at the Latin school that he had established there. In the play, Copernicus was caricatured as the eponymous Morosophus, a haughty, cold, aloof man who dabbled in astrology, considered himself inspired by God, and was rumored to have written a large work that was moldering in a chest.
Elsewhere Protestants were the first to react to news of Copernicus's theory. Melanchthon wrote:
Some people believe that it is excellent and correct to work out a thing as absurd as did that Sarmatian astronomer who moves the earth and stops the sun. Indeed, wise rulers should have curbed such light-mindedness.
Nevertheless, in 1551, eight years after Copernicus's death, astronomer Erasmus Reinhold published, under the sponsorship of Copernicus's former military adversary, the Protestant Duke Albert, the Prussian Tables, a set of astronomical tables based on Copernicus's work. Astronomers and astrologers quickly adopted it in place of its predecessors.
Heliocentrism
Some time before 1514 Copernicus made available to friends his "Commentariolus" ("Little Commentary"), a manuscript describing his ideas about the heliocentric hypothesis. It contained seven basic assumptions (detailed below). Thereafter he continued gathering data for a more detailed work.
At about 1532, Copernicus had basically completed his work on the manuscript of Dē revolutionibus orbium coelestium; but despite urging by his closest friends, he resisted openly publishing his views, not wishing—as he confessed—to risk the scorn "to which he would expose himself on account of the novelty and incomprehensibility of his theses."
Reception of the Copernican system in Rome
In 1533, Johann Albrecht Widmannstetter delivered a series of lectures in Rome outlining Copernicus's theory. Pope Clement VII and several Catholic cardinals heard the lectures and were interested in the theory. On 1 November 1536, Cardinal Nikolaus von Schönberg, Archbishop of Capua, wrote to Copernicus from Rome:
Some years ago word reached me concerning your proficiency, of which everybody constantly spoke. At that time I began to have a very high regard for you ... For I had learned that you had not merely mastered the discoveries of the ancient astronomers uncommonly well but had also formulated a new cosmology. In it you maintain that the earth moves; that the sun occupies the lowest, and thus the central, place in the universe ... Therefore with the utmost earnestness I entreat you, most learned sir, unless I inconvenience you, to communicate this discovery of yours to scholars, and at the earliest possible moment to send me your writings on the sphere of the universe together with the tables and whatever else you have that is relevant to this subject ...
By then, Copernicus's work was nearing its definitive form, and rumors about his theory had reached educated people all over Europe. Despite urgings from many quarters, Copernicus delayed publication of his book, perhaps from fear of criticism—a fear delicately expressed in the subsequent dedication of his masterpiece to Pope Paul III. Scholars disagree on whether Copernicus's concern was limited to possible astronomical and philosophical objections, or whether he was also concerned about religious objections.
De revolutionibus orbium coelestium
Copernicus was still working on De revolutionibus orbium coelestium (even if not certain that he wanted to publish it) when in 1539 Georg Joachim Rheticus, a Wittenberg mathematician, arrived in Frombork. Philipp Melanchthon, a close theological ally of Martin Luther, had arranged for Rheticus to visit several astronomers and study with them. Rheticus became Copernicus's pupil, staying with him for two years and writing a book, Narratio prima (First Account), outlining the essence of Copernicus's theory. In 1542 Rheticus published a treatise on trigonometry by Copernicus (later included as chapters 13 and 14 of Book I of De revolutionibus). Under strong pressure from Rheticus, and having seen the favorable first general reception of his work, Copernicus finally agreed to give De revolutionibus to his close friend, Tiedemann Giese, bishop of Chełmno (Kulm), to be delivered to Rheticus for printing by the German printer Johannes Petreius at Nuremberg (Nürnberg), Germany. While Rheticus initially supervised the printing, he had to leave Nuremberg before it was completed, and he handed over the task of supervising the rest of the printing to a Lutheran theologian, Andreas Osiander.
Osiander added an unauthorised and unsigned preface, defending Copernicus's work against those who might be offended by its novel hypotheses. He argued that "different hypotheses are sometimes offered for one and the same motion the astronomer will take as his first choice that hypothesis which is the easiest to grasp." According to Osiander, "these hypotheses need not be true nor even probable. f they provide a calculus consistent with the observations, that alone is enough."
Death
Toward the close of 1542, Copernicus was seized with apoplexy and paralysis, and he died at age 70 on 24 May 1543. Legend has it that he was presented with the final printed pages of his Dē revolutionibus orbium coelestium on the very day that he died, allowing him to take farewell of his life's work. He is reputed to have awoken from a stroke-induced coma, looked at his book, and then died peacefully.
Copernicus was reportedly buried in Frombork Cathedral, where a 1580 epitaph stood until being defaced; it was replaced in 1735. For over two centuries, archaeologists searched the cathedral in vain for Copernicus's remains. Efforts to locate them in 1802, 1909, 1939 had come to nought. In 2004 a team led by Jerzy Gąssowski, head of an archaeology and anthropology institute in Pułtusk, began a new search, guided by the research of historian Jerzy Sikorski. In August 2005, after scanning beneath the cathedral floor, they discovered what they believed to be Copernicus's remains.
The discovery was announced only after further research, on 3 November 2008. Gąssowski said he was "almost 100 percent sure it is Copernicus". Forensic expert Capt. Dariusz Zajdel of the Polish Police Central Forensic Laboratory used the skull to reconstruct a face that closely resembled the features—including a broken nose and a scar above the left eye—on a Copernicus self-portrait. The expert also determined that the skull belonged to a man who had died around age 70—Copernicus's age at the time of his death.
The grave was in poor condition, and not all the remains of the skeleton were found; missing, among other things, was the lower jaw. The DNA from the bones found in the grave matched hair samples taken from a book owned by Copernicus which was kept at the library of the University of Uppsala in Sweden.
On 22 May 2010, Copernicus was given a second funeral in a Mass led by Józef Kowalczyk, the former papal nuncio to Poland and newly named Primate of Poland. Copernicus's remains were reburied in the same spot in Frombork Cathedral where part of his skull and other bones had been found. A black granite tombstone identifies him as the founder of the heliocentric theory and also a church canon. The tombstone bears a representation of Copernicus's model of the Solar System—a golden Sun encircled by six of the planets.
Copernican system
Main article: Copernican heliocentrismPredecessors
Philolaus (c. 470 – c. 385 BCE) described an astronomical system in which a Central Fire (different from the Sun) occupied the centre of the universe, and a counter-Earth, the Earth, Moon, the Sun itself, planets, and stars all revolved around it, in that order outward from the centre. Heraclides Ponticus (387–312 BCE) proposed that the Earth rotates on its axis. Aristarchus of Samos (c. 310 BCE – c. 230 BCE) was the first to advance a theory that the Earth orbited the Sun. Further mathematical details of Aristarchus's heliocentric system were worked out around 150 BCE by the Hellenistic astronomer Seleucus of Seleucia. Though Aristarchus's original text has been lost, a reference in Archimedes' book The Sand Reckoner (Archimedis Syracusani Arenarius & Dimensio Circuli) describes a work by Aristarchus in which he advanced the heliocentric model. Thomas Heath gives the following English translation of Archimedes's text:
You are now aware that the "universe" is the name given by most astronomers to the sphere the centre of which is the centre of the earth, while its radius is equal to the straight line between the centre of the sun and the centre of the earth. This is the common account (τά γραφόμενα) as you have heard from astronomers. But Aristarchus has brought out a book consisting of certain hypotheses, wherein it appears, as a consequence of the assumptions made, that the universe is many times greater than the "universe" just mentioned. His hypotheses are that the fixed stars and the sun remain unmoved, that the earth revolves about the sun on the circumference of a circle, the sun lying in the middle of the orbit, and that the sphere of the fixed stars, situated about the same centre as the sun, is so great that the circle in which he supposes the earth to revolve bears such a proportion to the distance of the fixed stars as the centre of the sphere bears to its surface.
— The Sand Reckoner
In an early unpublished manuscript of De Revolutionibus (which still survives), Copernicus mentioned the (non-heliocentric) 'moving Earth' theory of Philolaus and the possibility that Aristarchus also had a 'moving Earth' theory (though it is unlikely that he was aware that it was a heliocentric theory). He removed both references from his final published manuscript.
Copernicus was probably aware that Pythagoras's system involved a moving Earth. The Pythagorean system was mentioned by Aristotle.
Copernicus owned a copy of Giorgio Valla's De expetendis et fugiendis rebus, which included a translation of Plutarch's reference to Aristarchus's heliostaticism.
In Copernicus's dedication of On the Revolutions to Pope Paul III—which Copernicus hoped would dampen criticism of his heliocentric theory by "babblers ... completely ignorant of "—the book's author wrote that, in rereading all of philosophy, in the pages of Cicero and Plutarch he had found references to those few thinkers who dared to move the Earth "against the traditional opinion of astronomers and almost against common sense."
The prevailing theory during Copernicus's lifetime was the one that Ptolemy published in his Almagest c. 150 CE; the Earth was the stationary center of the universe. Stars were embedded in a large outer sphere that rotated rapidly, approximately daily, while each of the planets, the Sun, and the Moon were embedded in their own, smaller spheres. Ptolemy's system employed devices, including epicycles, deferents and equants, to account for observations that the paths of these bodies differed from simple, circular orbits centered on the Earth.
Beginning in the 10th century, a tradition criticizing Ptolemy developed within Islamic astronomy, which climaxed with Ibn al-Haytham of Basra's Al-Shukūk 'alā Baṭalamiyūs ("Doubts Concerning Ptolemy"). Several Islamic astronomers questioned the Earth's apparent immobility, and centrality within the universe. Some accepted that the earth rotates around its axis, such as Abu Sa'id al-Sijzi (d. c. 1020). According to al-Biruni, al-Sijzi invented an astrolabe based on a belief held by some of his contemporaries "that the motion we see is due to the Earth's movement and not to that of the sky." That others besides al-Sijzi held this view is further confirmed by a reference from an Arabic work in the 13th century which states:
According to the geometers (muhandisīn), the earth is in constant circular motion, and what appears to be the motion of the heavens is actually due to the motion of the earth and not the stars.
In the 12th century, Nur ad-Din al-Bitruji proposed a complete alternative to the Ptolemaic system (although not heliocentric). He declared the Ptolemaic system as an imaginary model, successful at predicting planetary positions, but not real or physical. Al-Bitruji's alternative system spread through most of Europe during the 13th century, with debates and refutations of his ideas continued up to the 16th century.
Mathematical techniques developed in the 13th to 14th centuries by Mo'ayyeduddin al-Urdi, Nasir al-Din al-Tusi, and Ibn al-Shatir for geocentric models of planetary motions closely resemble some of those used later by Copernicus in his heliocentric models. Copernicus used what is now known as the Urdi lemma and the Tusi couple in the same planetary models as found in Arabic sources. Furthermore, the exact replacement of the equant by two epicycles used by Copernicus in the Commentariolus was found in an earlier work by Ibn al-Shatir (d. c. 1375) of Damascus. Ibn al-Shatir's lunar and Mercury models are also identical to those of Copernicus. This has led some scholars to argue that Copernicus must have had access to some yet to be identified work on the ideas of those earlier astronomers. However, no likely candidate for this conjectured work has yet come to light, and other scholars have argued that Copernicus could well have developed these ideas independently of the late Islamic tradition. Nevertheless, Copernicus cited some of the Islamic astronomers whose theories and observations he used in De Revolutionibus, namely al-Battani, Thabit ibn Qurra, al-Zarqali, Averroes, and al-Bitruji. It has been suggested that the idea of the Tusi couple may have arrived in Europe leaving few manuscript traces, since it could have occurred without the translation of any Arabic text into Latin. One possible route of transmission may have been through Byzantine science; Gregory Chioniades translated some of al-Tusi's works from Arabic into Byzantine Greek. Several Byzantine Greek manuscripts containing the Tusi-couple are still extant in Italy.
Copernicus
Copernicus's schematic diagram of his heliocentric theory of the Solar System from De revolutionibus orbium coelestiumAs it appears in the surviving autograph manuscriptAs it appears in the first printed editionCopernicus's major work on his heliocentric theory was Dē revolutionibus orbium coelestium (On the Revolutions of the Celestial Spheres), published in the year of his death, 1543. He had formulated his theory by 1510. "He wrote out a short overview of his new heavenly arrangement , also probably in 1510 , and sent it off to at least one correspondent beyond Varmia . That person in turn copied the document for further circulation, and presumably the new recipients did, too ...".
Copernicus's Commentariolus summarized his heliocentric theory. It listed the "assumptions" upon which the theory was based, as follows:
- There is no one center of all the celestial circles or spheres.
- The center of the earth is not the center of the universe, but only the center towards which heavy bodies move and the center of the lunar sphere.
- All the spheres surround the sun as if it were in the middle of them all, and therefore the center of the universe is near the sun.
- The ratio of the earth's distance from the sun to the height of the firmament (outermost celestial sphere containing the stars) is so much smaller than the ratio of the earth's radius to its distance from the sun that the distance from the earth to the sun is imperceptible in comparison with the height of the firmament.
- Whatever motion appears in the firmament arises not from any motion of the firmament, but from the earth's motion. The earth together with its circumjacent elements performs a complete rotation on its fixed poles in a daily motion, while the firmament and highest heaven abide unchanged.
- What appear to us as motions of the sun arise not from its motion but from the motion of the earth and our sphere, with which we revolve about the sun like any other planet. The earth has, then, more than one motion.
- The apparent retrograde and direct motion of the planets arises not from their motion but from the earth's. The motion of the earth alone, therefore, suffices to explain so many apparent inequalities in the heavens.
De revolutionibus itself was divided into six sections or parts, called "books":
- General vision of the heliocentric theory, and a summarized exposition of his idea of the World
- Mainly theoretical, presents the principles of spherical astronomy and a list of stars (as a basis for the arguments developed in the subsequent books)
- Mainly dedicated to the apparent motions of the Sun and to related phenomena
- Description of the Moon and its orbital motions
- Exposition of the motions in longitude of the non-terrestrial planets
- Exposition of the motions in latitude of the non-terrestrial planets
Successors
See also: Copernican RevolutionGeorg Joachim Rheticus could have been Copernicus's successor, but did not rise to the occasion. Erasmus Reinhold could have been his successor, but died prematurely. The first of the great successors was Tycho Brahe (though he did not think the Earth orbited the Sun), followed by Johannes Kepler, who had collaborated with Tycho in Prague and benefited from Tycho's decades' worth of detailed observational data.
Despite the near universal acceptance later of the heliocentric idea (though not the epicycles or the circular orbits), Copernicus's theory was originally slow to catch on. Scholars hold that sixty years after the publication of The Revolutions there were only around 15 astronomers espousing Copernicanism in all of Europe: "Thomas Digges and Thomas Harriot in England; Giordano Bruno and Galileo Galilei in Italy; Diego Zuniga in Spain; Simon Stevin in the Low Countries; and in Germany, the largest group—Georg Joachim Rheticus, Michael Maestlin, Christoph Rothmann (who may have later recanted), and Johannes Kepler." Additional possibilities are Englishman William Gilbert, along with Achilles Gasser, Georg Vogelin, Valentin Otto, and Tiedemann Giese. The Barnabite priest Redento Baranzano supported Copernicus's view in his Uranoscopia (1617) but was forced to retract it.
Arthur Koestler, in his popular book The Sleepwalkers, asserted that Copernicus's book had not been widely read on its first publication. This claim was trenchantly criticised by Edward Rosen, and has been decisively disproved by Owen Gingerich, who examined nearly every surviving copy of the first two editions and found copious marginal notes by their owners throughout many of them. Gingerich published his conclusions in 2004 in The Book Nobody Read.
The intellectual climate of the time "remained dominated by Aristotelian philosophy and the corresponding Ptolemaic astronomy. At that time there was no reason to accept the Copernican theory, except for its mathematical simplicity ." Tycho Brahe's system ("that the earth is stationary, the sun revolves about the earth, and the other planets revolve about the sun") also directly competed with Copernicus's. It was only a half-century later with the work of Kepler and Galileo that any substantial evidence defending Copernicanism appeared, starting "from the time when Galileo formulated the principle of inertia ... helped to explain why everything would not fall off the earth if it were in motion." " after Isaac Newton formulated the universal law of gravitation and the laws of mechanics , which unified terrestrial and celestial mechanics, was the heliocentric view generally accepted."
In 1610 Galileo Galilei observed with his telescope that Venus showed phases, despite remaining near the Sun in Earth's sky (first image). This proved that, as predicted by Copernicus's heliocentric model, Venus orbits the Sun and not Earth, and disproved the then conventional geocentric model (second image).Controversy
See also: Catholic Church and scienceThe immediate result of the 1543 publication of Copernicus's book was only mild controversy. At the Council of Trent (1545–1563) neither Copernicus's theory nor calendar reform (which would later use tables deduced from Copernicus's calculations) were discussed. It has been much debated why it was not until six decades after the publication of De revolutionibus that the Catholic Church took any official action against it, even the efforts of Tolosani going unheeded. Catholic side opposition only commenced seventy-three years later, when it was occasioned by Galileo.
Tolosani
The first notable to move against Copernicanism was the Magister of the Holy Palace (i.e., the Catholic Church's chief censor), Dominican Bartolomeo Spina, who "expressed a desire to stamp out the Copernican doctrine". But with Spina's death in 1546, his cause fell to his friend, the well-known theologian-astronomer, the Dominican Giovanni Maria Tolosani of the Convent of St. Mark in Florence. Tolosani had written a treatise on reforming the calendar (in which astronomy would play a large role) and had attended the Fifth Lateran Council (1512–1517) to discuss the matter. He had obtained a copy of De Revolutionibus in 1544. His denunciation of Copernicanism was written a year later, in 1545, in an appendix to his unpublished work, On the Truth of Sacred Scripture.
Emulating the rationalistic style of Thomas Aquinas, Tolosani sought to refute Copernicanism by philosophical argument. Copernicanism was absurd, according to Tolosani, because it was scientifically unproven and unfounded. First, Copernicus had assumed the motion of the Earth but offered no physical theory whereby one would deduce this motion. (No one realized that the investigation into Copernicanism would result in a rethinking of the entire field of physics.) Second, Tolosani charged that Copernicus's thought process was backwards. He held that Copernicus had come up with his idea and then sought phenomena that would support it, rather than observing phenomena and deducing from them the idea of what caused them. In this, Tolosani was linking Copernicus's mathematical equations with the practices of the Pythagoreans (whom Aristotle had made arguments against, which were later picked up by Thomas Aquinas). It was argued that mathematical numbers were a mere product of the intellect without any physical reality, and as such could not provide physical causes in the investigation of nature.
Some astronomical hypotheses at the time (such as epicycles and eccentrics) were seen as mere mathematical devices to adjust calculations of where the heavenly bodies would appear, rather than an explanation of the cause of those motions. (As Copernicus still maintained the idea of perfectly spherical orbits, he relied on epicycles.) This "saving the phenomena" was seen as proof that astronomy and mathematics could not be taken as serious means to determine physical causes. Tolosani invoked this view in his final critique of Copernicus, saying that his biggest error was that he had started with "inferior" fields of science to make pronouncements about "superior" fields. Copernicus had used mathematics and astronomy to postulate about physics and cosmology, rather than beginning with the accepted principles of physics and cosmology to determine things about astronomy and mathematics. Thus Copernicus seemed to be undermining the whole system of the philosophy of science at the time. Tolosani held that Copernicus had fallen into philosophical error because he had not been versed in physics and logic; anyone without such knowledge would make a poor astronomer and be unable to distinguish truth from falsehood. Because Copernicanism had not met the criteria for scientific truth set out by Thomas Aquinas, Tolosani held that it could only be viewed as a wild unproven theory.
Tolosani recognized that the Ad Lectorem preface to Copernicus's book was not actually by him. Its thesis that astronomy as a whole would never be able to make truth claims was rejected by Tolosani (though he still held that Copernicus's attempt to describe physical reality had been faulty); he found it ridiculous that Ad Lectorem had been included in the book (unaware that Copernicus had not authorized its inclusion). Tolosani wrote: "By means of these words , the foolishness of this book's author is rebuked. For by a foolish effort he tried to revive the weak Pythagorean opinion , long ago deservedly destroyed, since it is expressly contrary to human reason and also opposes holy writ. From this situation, there could easily arise disagreements between Catholic expositors of holy scripture and those who might wish to adhere obstinately to this false opinion." Tolosani declared: "Nicolaus Copernicus neither read nor understood the arguments of Aristotle the philosopher and Ptolemy the astronomer." Tolosani wrote that Copernicus "is expert indeed in the sciences of mathematics and astronomy, but he is very deficient in the sciences of physics and logic. Moreover, it appears that he is unskilled with regard to holy scripture, since he contradicts several of its principles, not without danger of infidelity to himself and the readers of his book. ... his arguments have no force and can very easily be taken apart. For it is stupid to contradict an opinion accepted by everyone over a very long time for the strongest reasons, unless the impugner uses more powerful and insoluble demonstrations and completely dissolves the opposed reasons. But he does not do this in the least."
Tolosani declared that he had written against Copernicus "for the purpose of preserving the truth to the common advantage of the Holy Church." Despite this, his work remained unpublished and there is no evidence that it received serious consideration. Robert Westman describes it as becoming a "dormant" viewpoint with "no audience in the Catholic world" of the late sixteenth century, but also notes that there is some evidence that it did become known to Tommaso Caccini, who would criticize Galileo in a sermon in December 1613.
Theology
Tolosani may have criticized the Copernican theory as scientifically unproven and unfounded, but the theory also conflicted with the theology of the time, as can be seen in a sample of the works of John Calvin. In his Commentary on Genesis he said that "We indeed are not ignorant that the circuit of the heavens is finite, and that the earth, like a little globe, is placed in the centre." In his commentary on Psalms 93:1 he states that "The heavens revolve daily, and, immense as is their fabric and inconceivable the rapidity of their revolutions, we experience no concussion ... How could the earth hang suspended in the air were it not upheld by God's hand? By what means could it maintain itself unmoved, while the heavens above are in constant rapid motion, did not its Divine Maker fix and establish it." One sharp point of conflict between Copernicus's theory and the Bible concerned the story of the Battle of Gibeon in the Book of Joshua where the Hebrew forces were winning but whose opponents were likely to escape once night fell. This is averted by Joshua's prayers causing the Sun and the Moon to stand still. Martin Luther once made a remark about Copernicus, although without mentioning his name. According to Anthony Lauterbach, while eating with Martin Luther the topic of Copernicus arose during dinner on 4 June 1539 (in the same year as professor George Joachim Rheticus of the local University had been granted leave to visit him). Luther is said to have remarked "So it goes now. Whoever wants to be clever must agree with nothing others esteem. He must do something of his own. This is what that fellow does who wishes to turn the whole of astronomy upside down. Even in these things that are thrown into disorder I believe the Holy Scriptures, for Joshua commanded the sun to stand still and not the earth." These remarks were made four years before the publication of On the Revolutions of the Heavenly Spheres and a year before Rheticus's Narratio Prima. In John Aurifaber's account of the conversation Luther calls Copernicus "that fool" rather than "that fellow", this version is viewed by historians as less reliably sourced.
Luther's collaborator Philipp Melanchthon also took issue with Copernicanism. After receiving the first pages of Narratio Prima from Rheticus himself, Melanchthon wrote to Mithobius (physician and mathematician Burkard Mithob of Feldkirch) on 16 October 1541 condemning the theory and calling for it to be repressed by governmental force, writing "certain people believe it is a marvelous achievement to extol so crazy a thing, like that Polish astronomer who makes the earth move and the sun stand still. Really, wise governments ought to repress impudence of mind." It had appeared to Rheticus that Melanchton would understand the theory and would be open to it. This was because Melanchton had taught Ptolemaic astronomy and had even recommended his friend Rheticus to an appointment to the Deanship of the Faculty of Arts & Sciences at the University of Wittenberg after he had returned from studying with Copernicus.
Rheticus's hopes were dashed when six years after the publication of De Revolutionibus Melanchthon published his Initia Doctrinae Physicae presenting three grounds to reject Copernicanism. These were "the evidence of the senses, the thousand-year consensus of men of science, and the authority of the Bible". Blasting the new theory Melanchthon wrote, "Out of love for novelty or in order to make a show of their cleverness, some people have argued that the earth moves. They maintain that neither the eighth sphere nor the sun moves, whereas they attribute motion to the other celestial spheres, and also place the earth among the heavenly bodies. Nor were these jokes invented recently. There is still extant Archimedes's book on The Sand Reckoner; in which he reports that Aristarchus of Samos propounded the paradox that the sun stands still and the earth revolves around the sun. Even though subtle experts institute many investigations for the sake of exercising their ingenuity, nevertheless public proclamation of absurd opinions is indecent and sets a harmful example." Melanchthon went on to cite Bible passages and then declare "Encouraged by this divine evidence, let us cherish the truth and let us not permit ourselves to be alienated from it by the tricks of those who deem it an intellectual honor to introduce confusion into the arts." In the first edition of Initia Doctrinae Physicae, Melanchthon even questioned Copernicus's character claiming his motivation was "either from love of novelty or from desire to appear clever", these more personal attacks were largely removed by the second edition in 1550.
Another Protestant theologian who disparaged heliocentrism on scriptural grounds was John Owen. In a passing remark in an essay on the origin of the sabbath, he characterised "the late hypothesis, fixing the sun as in the centre of the world" as being "built on fallible phenomena, and advanced by many arbitrary presumptions against evident testimonies of Scripture."
In Roman Catholic circles, Copernicus's book was incorporated into scholarly curricula throughout the 16th century. For example, at the University of Salamanca in 1561 it became one of four text books that students of astronomy could choose from, and in 1594 it was made mandatory. German Jesuit Nicolaus Serarius was one of the first Catholics to write against Copernicus's theory as heretical, citing the Joshua passage, in a work published in 1609–1610, and again in a book in 1612. In his 12 April 1615 letter to a Catholic defender of Copernicus, Paolo Antonio Foscarini, Catholic Cardinal Robert Bellarmine condemned Copernican theory, writing, "not only the Holy Fathers, but also the modern commentaries on Genesis, the Psalms, Ecclesiastes, and Joshua, you will find all agreeing in the literal interpretation that the sun is in heaven and turns around the earth with great speed, and that the earth is very far from heaven and sits motionless at the center of the world ... Nor can one answer that this is not a matter of faith, since if it is not a matter of faith 'as regards the topic,' it is a matter of faith 'as regards the speaker': and so it would be heretical to say that Abraham did not have two children and Jacob twelve, as well as to say that Christ was not born of a virgin, because both are said by the Holy Spirit through the mouth of prophets and apostles." One year later, the Roman Inquisition prohibited Copernicus's work. Nevertheless, the Spanish Inquisition never banned the De revolutionibus, which continued to be taught at Salamanca.
Ingoli
Perhaps the most influential opponent of the Copernican theory was Francesco Ingoli, a Catholic priest. Ingoli wrote a January 1616 essay to Galileo presenting more than twenty arguments against the Copernican theory. Though "it is not certain, it is probable that he was commissioned by the Inquisition to write an expert opinion on the controversy", (after the Congregation of the Index's decree against Copernicanism on 5 March 1616, Ingoli was officially appointed its consultant). Galileo himself was of the opinion that the essay played an important role in the rejection of the theory by church authorities, writing in a later letter to Ingoli that he was concerned that people thought the theory was rejected because Ingoli was right. Ingoli presented five physical arguments against the theory, thirteen mathematical arguments (plus a separate discussion of the sizes of stars), and four theological arguments. The physical and mathematical arguments were of uneven quality, but many of them came directly from the writings of Tycho Brahe, and Ingoli repeatedly cited Brahe, the leading astronomer of the era. These included arguments about the effect of a moving Earth on the trajectory of projectiles, and about parallax and Brahe's argument that the Copernican theory required that stars be absurdly large.
Two of Ingoli's theological issues with the Copernican theory were "common Catholic beliefs not directly traceable to Scripture: the doctrine that hell is located at the center of Earth and is most distant from heaven; and the explicit assertion that Earth is motionless in a hymn sung on Tuesdays as part of the Liturgy of the Hours of the Divine Office prayers regularly recited by priests." Ingoli cited Robert Bellarmine in regards to both of these arguments, and may have been trying to convey to Galileo a sense of Bellarmine's opinion. Ingoli also cited Genesis 1:14 where God places "lights in the firmament of the heavens to divide the day from the night." Ingoli did not think the central location of the Sun in the Copernican theory was compatible with it being described as one of the lights placed in the firmament. Like previous commentators Ingoli also pointed to the passages about the Battle of Gibeon. He dismissed arguments that they should be taken metaphorically, saying "Replies which assert that Scripture speaks according to our mode of understanding are not satisfactory: both because in explaining the Sacred Writings the rule is always to preserve the literal sense, when it is possible, as it is in this case; and also because all the Fathers unanimously take this passage to mean that the Sun which was truly moving stopped at Joshua's request. An interpretation that is contrary to the unanimous consent of the Fathers is condemned by the Council of Trent, Session IV, in the decree on the edition and use of the Sacred Books. Furthermore, although the Council speaks about matters of faith and morals, nevertheless it cannot be denied that the Holy Fathers would be displeased with an interpretation of Sacred Scriptures which is contrary to their common agreement." However, Ingoli closed the essay by suggesting Galileo respond primarily to the better of his physical and mathematical arguments rather than to his theological arguments, writing "Let it be your choice to respond to this either entirely of in part—clearly at least to the mathematical and physical arguments, and not to all even of these, but to the more weighty ones." When Galileo wrote a letter in reply to Ingoli years later, he in fact only addressed the mathematical and physical arguments.
In March 1616, in connection with the Galileo affair, the Roman Catholic Church's Congregation of the Index issued a decree suspending De revolutionibus until it could be "corrected," on the grounds of ensuring that Copernicanism, which it described as a "false Pythagorean doctrine, altogether contrary to the Holy Scripture," would not "creep any further to the prejudice of Catholic truth." The corrections consisted largely of removing or altering wording that spoke of heliocentrism as a fact, rather than a hypothesis. The corrections were made based largely on work by Ingoli.
Galileo
On the orders of Pope Paul V, Cardinal Robert Bellarmine gave Galileo prior notice that the decree was about to be issued, and warned him that he could not "hold or defend" the Copernican doctrine. The corrections to De revolutionibus, which omitted or altered nine sentences, were issued four years later, in 1620.
In 1633, Galileo Galilei was convicted of grave suspicion of heresy for "following the position of Copernicus, which is contrary to the true sense and authority of Holy Scripture", and was placed under house arrest for the rest of his life.
At the instance of Roger Boscovich, the Catholic Church's 1758 Index of Prohibited Books omitted the general prohibition of works defending heliocentrism, but retained the specific prohibitions of the original uncensored versions of De revolutionibus and Galileo's Dialogue Concerning the Two Chief World Systems. Those prohibitions were finally dropped from the 1835 Index.
Languages, name, nationality
Languages
Copernicus is postulated to have spoken Latin, German, and Polish with equal fluency; he also spoke Greek and Italian. The vast majority of Copernicus's extant writings are in Latin, the language of European academia in his lifetime.
Arguments for German being Copernicus's native tongue are that he was born into a predominantly German-speaking urban patrician class using German, next to Latin, as language of trade and commerce in written documents, and that, while studying canon law at the University of Bologna in 1496, he signed into the German natio (Natio Germanorum)—a student organization which, according to its 1497 by-laws, was open to students of all kingdoms and states whose mother-tongue was German. However, according to French philosopher Alexandre Koyré, Copernicus's registration with the Natio Germanorum does not in itself imply that Copernicus considered himself German, since students from Prussia and Silesia were routinely so categorized, which carried certain privileges that made it a natural choice for German-speaking students, regardless of their ethnicity or self-identification.
Name
The surname Kopernik, Copernik, Koppernigk, in various spellings, is recorded in Kraków from c. 1350, apparently given to people from the village of Koperniki (prior to 1845 rendered Kopernik, Copernik, Copirnik, and Koppirnik) in the Duchy of Nysa, 10 km south of Nysa, and now 10 km north of the Polish-Czech border. Nicolaus Copernicus's great-grandfather is recorded as having received citizenship in Kraków in 1386. The toponym Kopernik (modern Koperniki) has been variously tied to the Polish word for "dill" (koper) and the German word for "copper" (Kupfer). The suffix -nik (or plural, -niki) denotes a Slavic and Polish agent noun.
As was common in the period, the spellings of both the toponym and the surname vary greatly. Copernicus "was rather indifferent about orthography". During his childhood, about 1480, the name of his father (and thus of the future astronomer) was recorded in Thorn as Niclas Koppernigk. At Kraków he signed himself, in Latin, Nicolaus Nicolai de Torunia (Nicolaus, son of Nicolaus, of Toruń). At Bologna, in 1496, he registered in the Matricula Nobilissimi Germanorum Collegii, resp. Annales Clarissimae Nacionis Germanorum, of the Natio Germanica Bononiae, as Dominus Nicolaus Kopperlingk de Thorn – IX grosseti. At Padua he signed himself "Nicolaus Copernik", later "Coppernicus". The astronomer thus Latinized his name to Coppernicus, generally with two "p"s (in 23 of 31 documents studied), but later in life he used a single "p". On the title page of De revolutionibus, Rheticus published the name (in the genitive, or possessive, case) as "Nicolai Copernici".
Nationality
There has been discussion of Copernicus's nationality and of whether it is meaningful to ascribe to him a nationality in the modern sense.
Nicolaus Copernicus was born and raised in Royal Prussia, a semiautonomous and multilingual region of the Kingdom of Poland. He was the child of German-speaking parents and grew up with German as his mother tongue. His first alma mater was the University of Kraków in Poland. When he later studied in Italy, at the University of Bologna, he joined the German Nation, a student organization for German-speakers of all allegiances (Germany would not become a nation-state until 1871). His family stood against the Teutonic Order and actively supported the city of Toruń during the Thirteen Years' War. Copernicus's father lent money to Poland's King Casimir IV Jagiellon to finance the war against the Teutonic Knights, but the inhabitants of Royal Prussia also resisted the Polish crown's efforts for greater control over the region.
Encyclopedia Americana, The Concise Columbia Encyclopedia, The Oxford World Encyclopedia, and World Book Encyclopedia refer to Copernicus as a "Polish astronomer". Sheila Rabin, writing in the Stanford Encyclopedia of Philosophy, describes Copernicus as a "child of a German family was a subject of the Polish crown", while Manfred Weissenbacher writes that Copernicus's father was a Germanized Pole. Andrzej Wojtkowski [pl] noted that most of the 19th and 20th century encyclopedias, particularly the English-language sources, described Copernicus as a "German scientist". Kasparek and Kasparek stated that it is incorrect to ascribe him German or Polish nationality, as "a 16th century figure cannot be described with the use of 19th and 20th century concepts".
No Polish texts by Copernicus survive due to the rarity of Polish language in literature before the writings of the Polish Renaissance poets Mikołaj Rej and Jan Kochanowski (educated Poles had generally written in Latin); but it is known that Copernicus knew Polish on a par with German and Latin.
Historian Michael Burleigh describes the nationality debate as a "totally insignificant battle" between German and Polish scholars during the interwar period. Polish astronomer Konrad Rudnicki calls the discussion a "fierce scholarly quarrel in ... times of nationalism" and describes Copernicus as an inhabitant of a German-speaking territory that belonged to Poland, himself being of mixed Polish-German extraction.
Czesław Miłosz describes the debate as an "absurd" projection of a modern understanding of nationality onto Renaissance people, who identified with their home territories rather than with a nation. Similarly, historian Norman Davies writes that Copernicus, as was common in his era, was "largely indifferent" to nationality, being a local patriot who considered himself "Prussian". Miłosz and Davies both write that Copernicus had a German-language cultural background, while his working language was Latin in accord with the usage of the time. Additionally, according to Davies, "there is ample evidence that he knew the Polish language". Davies concludes that, "Taking everything into consideration, there is good reason to regard him both as a German and as a Pole: and yet, in the sense that modern nationalists understand it, he was neither."
Commemoration
Orbiting Astronomical Observatory 3
The third in NASA's Orbiting Astronomical Observatory series of missions, launched on 21 August 1972, was named Copernicus after its successful launch. The satellite carried an X-ray detector and an ultraviolet telescope, and operated until February 1981.
Copernicia
Replica of Warsaw's Copernicus Monument, in Montreal, CanadaBust by Schadow, 1807, in the Walhalla memorialCopernicia, a genus of palm trees native to South America and the Greater Antilles, was named after Copernicus in 1837. In some of the species, the leaves are coated with a thin layer of wax, known as carnauba wax.
Copernicium
Main article: CoperniciumOn 14 July 2009, the discoverers, from the Gesellschaft für Schwerionenforschung in Darmstadt, Germany, of chemical element 112 (temporarily named ununbium) proposed to the International Union of Pure and Applied Chemistry (IUPAC) that its permanent name be "copernicium" (symbol Cn). "After we had named elements after our city and our state, we wanted to make a statement with a name that was known to everyone," said Hofmann. "We didn't want to select someone who was a German. We were looking world-wide." On the 537th anniversary of his birthday the name became official.
55 Cancri A
In July 2014 the International Astronomical Union launched NameExoWorlds, a process for giving proper names to certain exoplanets and their host stars. The process involved public nomination and voting for the new names. In December 2015, the IAU announced the winning name for 55 Cancri A was Copernicus.
Poland
Copernicus is commemorated by the Nicolaus Copernicus Monument in Warsaw, designed by Bertel Thorvaldsen (1822), completed in 1830; and by Jan Matejko's 1873 painting, Astronomer Copernicus, or Conversations with God.
Named for Copernicus are Nicolaus Copernicus University in Toruń; Warsaw's Copernicus Science Centre, the Centrum Astronomiczne im. Mikołaja Kopernika (a principal Polish research institution in astrophysics) and Copernicus Hospital in Poland's fourth largest city, Łódź.
A Copernicus Award was established jointly by the Foundation for Polish Science and the German Research Foundation, to promote Polish-German scientific cooperation.
In arts and literature
Contemporary literary and artistic works inspired by Copernicus include:
- Mover of the Earth, Stopper of the Sun, overture for symphony orchestra, by composer Svitlana Azarova, commissioned by ONDIF.
- Doctor Copernicus, 1975 novel by John Banville, sketching the life of Copernicus and the 16th-century world in which he lived.
- Orb: On the Movements of the Earth, a Japanese manga series from 2020, later adapted into anime
See also
- Copernican principle
- Copernicus Science Centre
- History of philosophy in Poland
- List of multiple discoveries
- List of Roman Catholic scientist-clerics
- Nicolaus Copernicus Astronomical Center of the Polish Academy of Sciences
Notes
- The oldest known portrait of Copernicus is that on the Strasbourg astronomical clock, made by Tobias Stimmer c. 1571–74. According to the inscription next to that portrait, it was made from a self-portrait by Copernicus himself. This has led to speculation that the Toruń portrait, whose provenance is unknown, may be a copy based on the same self-portrait.
- /koʊˈpɜːrnɪkəs, kəˈ-/ koh-PUR-nik-əs, kə-; Polish: Mikołaj Kopernik [miˈkɔwaj kɔˈpɛrɲik] ; Middle Low German: Niklas Koppernigk; German: Nikolaus Kopernikus.
- ^ The Greek mathematician and astronomer Aristarchus of Samos proposed such a system during the third century BCE (Dreyer 1953, pp. 135–48). In an early unpublished manuscript of De Revolutionibus (which still survives in the Jagiellonian Library in Kraków), Copernicus wrote that "It is credible that ... Philolaus believed in the mobility of the Earth and some even say that Aristarchus was of that opinion", a passage that was removed from the published edition, a decision described by Owen Gingerich as "eminently sensible" "from an editorial viewpoint". Philolaus was not a heliocentrist as he thought that both the Earth and the Sun moved around a central fire. Gingerich says that there is no evidence that Copernicus was aware of the few clear references to Aristarchus's heliocentrism in ancient texts (as distinct from one other unclear and confusing one), especially Archimedes's The Sand-Reckoner (which was not in print until the year after Copernicus died), and that it would have been in his interest to mention them had he known of them, before concluding that he developed his idea and its justification independently of Aristarchus.
- Dava Sobel (2011) writes: "Copernicus had no idea that Aristarchus of Samos had proposed much the same thing in the third century B.C. The only work by Aristarchus known to Copernicus—a treatise called On the Sizes and Distances of the Sun and Moon—made no mention of a heliocentric plan." Sobel (2011) pp. 18–19. Sobel further writes that in Copernicus's dedication of On the Revolutions to Pope Paul III—which Copernicus hoped would dampen criticism of his heliocentric theory by "babblers ... completely ignorant of "—the book's author wrote that, in rereading all of philosophy, in the pages of Cicero and Plutarch he had found references to those few thinkers who dared to move the Earth "against the traditional opinion of astronomers and almost against common sense." Sobel comments: "He still knew nothing of the Earth-moving plan of Aristarchus, which had not yet been reported to Latin audiences" (pp. 179–82).
- ^ George Kish (1978) argues that Copernicus knew about Aristarchus's heliocentric theory, saying: "Copernicus himself admitted that the theory was attributed to Aristarchus, though this does not seem to be generally known. ... it is a curious fact that Copernicus did mention the theory of Aristarchus in a passage which he later suppressed."
- "Copernicus seems to have drawn up some notes while he was at Olsztyn in 1519. He made them the basis of a report on the matter, written in German, which he presented to the Prussian Diet held in 1522 at Grudziądz ... He later drew up a revised and enlarged version of his little treatise, this time in Latin, and setting forth a general theory of money, for presentation to the Diet of 1528."
- "The name of the village, not unlike that of the astronomer's family, has been variously spelled. A large German atlas of Silesia, published by Wieland in Nuremberg in 1731, spells it Kopernik."
- "In 1512, Bishop Watzenrode died suddenly after attending King Sigismund's wedding feast in Kraków. Rumors abounded that the bishop had been poisoned by agents of his long-time foe, the Teutonic Knights."
- " was also firm, and the Teutonic Knights, who remained a constant menace, did not like him at all; the Grand Master of the order once described him as 'the devil incarnate'. was the trusted friend and advisor of three kings in succession: John Albert, Alexander (not to be confused with the poisoning pope), and Sigismund; and his influence greatly strengthened the ties between Warmia and Poland proper."
- "To obtain for his nephews the necessary support , the bishop procured their election as canons by the chapter of Frauenburg (1497–1498)."
- Dobrzycki and Hajdukiewicz (1969) describe Copernicus having attended school at Włocławek as unlikely.
- Translated to English, it reads: "Here, where stood the house of Domenico Maria Novara, professor of the ancient Studium of Bologna, NICOLAUS COPERNICUS, the Polish mathematician and astronomer who would revolutionize concepts of the universe, conducted brilliant celestial observations with his teacher in 1497–1500. Placed on the 5th centenary of birth by the City, the University, the Academy of Sciences of the Institute of Bologna, the Polish Academy of Sciences. 1473 1973."
- Copernicus's brother Andreas would, before the end of 1512, develop leprosy and be forced to leave Warmia for Italy. In November 1518 Copernicus would learn that his brother had died.
- It was based on a sketch by Tobias Stimmer (c. 1570), allegedly based on a self-portrait by Copernicus. It inspired most later Copernicus depictions.
- A reference to the "Commentariolus" is contained in a library catalogue, dated 1 May 1514, of a 16th-century historian, Matthew of Miechów, so it must have begun circulating before that date (Koyré, 1973, p. 85; Gingerich, 2004, p. 32). Thoren (1990 p. 99) gives the length of the manuscript as 40 pages.
- Koyré (1973, pp. 27, 90) and Rosen (1995, pp. 64, 184) take the view that Copernicus was indeed concerned about possible objections from theologians, while Lindberg and Numbers (1986) argue against it. Koestler (1963) also denies it. Indirect evidence that Copernicus was concerned about objections from theologians comes from a letter written to him by Andreas Osiander in 1541, in which Osiander advises Copernicus to adopt a proposal by which he says "you will be able to appease the Peripatetics and theologians whose opposition you fear". (Koyré, 1973, pp. 35, 90)
- According to Bell 1992, p. 111, "... Copernicus, on his deathbed, received the printer's proofs of his epoch-breaking Dē revolutionibus orbium coelestium."
- Koestler 1963, page 189, says the following about a letter from Canon Tiedemann Giese to Georg Joachim Rheticus: " the end came only after several months, on 24 May. In a letter to Rheticus, written a few weeks later, Giese recorded the event in a single, tragic sentence: 'For many days he had been deprived of his memory and mental vigour; he only saw his completed book at the last moment, on the day he died.'" Koestler attributes this quotation to Leopold Prowe, Nicolaus Copernicus, Berlin 1883–1884, volume 1, part 2, p. 554.
- Rosen (1995, pp. 187–92), originally published in 1967 in Saggi su Galileo Galilei . Rosen is particularly scathing about this and other statements in The Sleepwalkers, which he criticizes as inaccurate.
- The original painting was looted, possibly destroyed, by the Germans in World War II during their occupation of Poland.
- Fantoli (2005, pp. 118–19); Finocchiaro (1989, pp. 148, 153). On-line copies of Finocchiaro's translations of the relevant documents, Inquisition Minutes of 25 February 1616 and Cardinal Bellarmine's certificate of 26 May 1616, have been made available by Gagné (2005). This notice of the decree would not have prevented Galileo from discussing heliocentrism solely as a mathematical hypothesis, but a stronger formal injunction (Finocchiaro, 1989, pp. 147–48) not to teach it "in any way whatever, either orally or in writing", allegedly issued to him by the Commissary of the Holy Office, Father Michelangelo Segizzi, would certainly have done so (Fantoli, 2005, pp. 119–20, 137). There has been much controversy over whether the copy of this injunction in the Vatican archives is authentic; if so, whether it was ever issued; and if so, whether it was legally valid (Fantoli, 2005, pp. 120–43).
- "He spoke German, Polish and Latin with equal fluency as well as Italian."
- "He spoke Polish, Latin, and Greek."
- "He was a linguist with a command of Polish, German and Latin, and he possessed also a knowledge of Greek rare at that period in northeastern Europe and probably had some acquaintance with Italian and Hebrew."
- He used Latin and German, knew enough Greek to translate the 7th-century Byzantine poet Theophylact Simocatta's verses into Latin prose, and "there is ample evidence that he knew the Polish language." Edward Rosen mentions that Copernicus recorded Polish farm tenants' names inconsistently, gainsaying that he was fluent in the Polish language. (But decades after Copernicus, each of William Shakespeare's extant autograph signatures showed a different spelling.) During his several years' studies in Italy, Copernicus presumably learned some Italian; Professor Stefan Melkowski of Nicolaus Copernicus University in Toruń asserts that Copernicus also spoke both German and Polish.
- "Although great importance has frequently been ascribed to this fact, it does not imply that Copernicus considered himself to be a German. The 'nationes' of a medieval university had nothing in common with nations in the modern sense of the word. Students who were natives of Prussia and Silesia were automatically described as belonging to the Natio Germanorum. Furthmore, at Bologna, this was the 'privileged' nation; consequently, Copernicus had very good reason for inscribing himself on its register."
- "It is important to recognize, however, that the medieval Latin concept of natio, or "nation", referred to the community of feudal lords both in Germany and elsewhere, not to 'the people' in the nineteenth-century democratic or nationalistic sense of the word."
- These interpretations date to the dispute about Copernicus's (Polish vs. German) ethnicity, which had been open since the 1870s, and the "copper" vs. "dill" interpretations go back to the 19th century (Magazin für die Literatur des Auslandes, 1875, 534 f), but the dispute became virulent again in the 1960s, culminating in a controversy between E. Mosko ("copper") and S. Rospond ("dill") in 1963–64, summarized by Zygmunt Brocki, "Wsrôd publikacji o etymologii nazwiska Mikotaja Kopernika , Komunikaty mazur.-warm., 1970.
- "In the documents still in existence we find the entry: Nicolaus Nicolai de Torunia."
References
- André Goddu, Copernicus and the Aristotelian Tradition (2010), p. 436 (note 125), citing Goddu, review of Jerzy Gassowski, "Poszukiwanie grobu Mikołaja Kopernika" ("Search for Grave of Nicolaus Copernicus"), in Journal for the History of Astronomy, 38.2 (May 2007), p. 255.
- Jones, Daniel (2003) , Roach, Peter; Hartmann, James; Setter, Jane (eds.), English Pronouncing Dictionary, Cambridge: Cambridge University Press, ISBN 978-3-12-539683-8
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- Edward Rosen, "Copernicus, Nicolaus", Encyclopedia Americana, International Edition, volume 7, Danbury, Connecticut, Grolier Incorporated, 1986, ISBN 0-7172-0117-1, pp. 755–56.
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- Nicolaus Copernicus Gesamtausgabe Bd. VI: Urkunden, Akten und NachrichtenDocumenta Copernicana – Urkunden, Akten und Nachrichten, alle erhaltenen Urkunden und Akten zur Familiengeschichte, zur Biographie und Tätigkeitsfeldern von Copernicus, 1996, ISBN 978-3-05-003009-8 , pp. 62–63.
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It results from the research of Dr. Jerzy Sikorski, an Olsztyn historian and an outstanding researcher of the life and work of Nicolaus Copernicus. According to Dr. Sikorski, the canon of the Frombork cathedral was buried in the immediate vicinity of this altar, which was entrusted to their care. This altar was the one who once wore the call of Saint Andrew, and now St. Cross, fourth in the right row.
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- Heath (1913), p. 302. The italics and parenthetical comments are as they appear in Heath's original.
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- "The Fall 2024 Anime Preview Guide - Orb: On the Movements of the Earth". Anime News Network. 14 October 2024. Retrieved 14 October 2024.
- "The Fall 2023 Manga Guide - Orb: On the Movements of the Earth". Anime News Network. 14 October 2024. Retrieved 14 October 2024.
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External links
Primary sources
- Works by Nicolaus Copernicus at Project Gutenberg
- Works by or about Nicolaus Copernicus at the Internet Archive
- Works by Nicolaus Copernicus at LibriVox (public domain audiobooks)
- De Revolutionibus, autograph manuscript – Full digital facsimile, Jagiellonian University
- (in Polish) Polish translations of letters written by Copernicus in Latin or German Archived 18 October 2015 at the Wayback Machine
- Online Galleries, History of Science Collections, University of Oklahoma Libraries Archived 21 July 2013 at the Wayback Machine High resolution images of works by and/or portraits of Nicolaus Copernicus in .jpg and .tiff format.
- Works by Nicolaus Copernicus in digital library Polona
General
- O'Connor, John J.; Robertson, Edmund F., "Nicolaus Copernicus", MacTutor History of Mathematics Archive, University of St Andrews
- Nicolaus Copernicus at the Mathematics Genealogy Project
- Copernicus in Torun
- Copernicus House, District Museum in Toruń
- Nicolaus Copernicus Thorunensis by the Copernican Academic Portal
- Nicolaus Copernicus Museum in Frombork
- Clerke, Agnes Mary (1911). "Copernicus, Nicolaus" . Encyclopædia Britannica. Vol. 7 (11th ed.). pp. 100–101.
- Portraits of Copernicus: Copernicus's face reconstructed; Portrait Archived 27 September 2007 at the Wayback Machine; Nicolaus Copernicus
- Copernicus and Astrology Archived 21 January 2009 at the Wayback Machine
- Stanford Encyclopedia of Philosophy entry
- 'Body of Copernicus' identified – BBC article including image of Copernicus using facial reconstruction based on located skull
- Nicolaus Copernicus on the 1000 Polish Zloty banknote.
- Copernicus's model for Mars
- Retrograde Motion
- Copernicus's explanation for retrograde motion
- Geometry of Maximum Elongation
- Copernican Model
- Portraits of Nicolaus Copernicus
About De Revolutionibus
- The Copernican Universe from the De Revolutionibus
- De Revolutionibus, 1543 first edition – Full digital facsimile, Lehigh University
- The text of the De Revolutionibus
- Digitized edition of De Revolutionibus Orbium Coelestium (1543) with annotations of Michael Maestlin on e-rara
Prizes
- Nicolaus Copernicus Prize, founded by the City of Kraków, awarded since 1995
German-Polish cooperation
- (in English, German, and Polish) German-Polish "Copernicus Prize" awarded to German and Polish scientists (DFG website)
- (in English, German, and Polish) Büro Kopernikus – An initiative of German Federal Cultural Foundation
- (in German and Polish) German-Polish school project on Copernicus
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