Nicolaus Copernicus: Difference between revisions

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Revision as of 07:49, 5 October 2010 view sourceNihil novi (talk \| contribs)Autopatrolled, Extended confirmed users56,652 edits It is not certain that Copernicus was a priest, and he may not have been celibate.← Previous edit		Revision as of 00:45, 6 October 2010 view source 72.89.194.37 (talk) →Life Tag: blankingNext edit →
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	Among the great ]s of the ], Copernicus was a ], ], ], ] ], ], ], ],<ref>A ] helped confirm the identity of his ] when it was discovered at ] in 2008. ]'s ] has a 17th-century copy of Copernicus' 16th-century self-portrait. "Copernicus," '']'', 15th ed., 2005, vol. 16, p. 760.</ref> ], ], ], ], ] and ]. Among his many responsibilities, astronomy figured as little more than an ] – yet it was in that field that he made his mark upon the world.		Among the great ]s of the ], Copernicus was a ], ], ], ] ], ], ], ],<ref>A ] helped confirm the identity of his ] when it was discovered at ] in 2008. ]'s ] has a 17th-century copy of Copernicus' 16th-century self-portrait. "Copernicus," '']'', 15th ed., 2005, vol. 16, p. 760.</ref> ], ], ], ], ] and ]. Among his many responsibilities, astronomy figured as little more than an ] – yet it was in that field that he made his mark upon the world.

			this all fake i hate is site
	==Life==
	] birthplace (ul. Kopernika 15, ''left''). Together with the house at no. 17 (''right''), it forms the ''Muzeum Mikołaja Kopernika''.]]
	Nicolaus Copernicus was born on 19 February 1473, in the city of ] (Toruń) in ], part of the ].

	His father was a merchant from ] and his mother was the daughter of a wealthy Toruń merchant. Nicolaus was the youngest of four children. His brother Andreas (Andrew) became an ] ] at ] (Frauenburg). His sister Barbara, named after her mother, became a ] ] and in her final years (she died after 1517) ] of a ] in ] (Culm, Kulm). His younger 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>Jerzy Dobrzycki and Leszek Hajdukiewicz, "Kopernik,
	Mikołaj", '']'', vol. XIV, 1969, p. 4.</ref>

	Copernicus never married or had children.

	===Father's family===
	The father’s family can be traced to a village in ] near ] (Neiße). The village's name has been variously spelled Kopernik,<ref>"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." ], ''Nicolaus Copernicus, 1543-1943'', Kessinger Publishing, 1943, p. 36. ()</ref> Köppernig, Köppernick, and today ]. In the 14th century, members of the family began moving to various other Silesian cities, to the Polish capital, Kraków (Cracow, 1367), and to Toruń (1400). The father, likely the son of Jan, came from the Kraków line.<ref>Jerzy Dobrzycki and Leszek Hajdukiewicz, "Kopernik, Mikołaj", '']'', vol. XIV, 1969, p. 3.</ref>

	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>Barbara Bieńkowska, ''The Scientific World of Copernicus'', Springer, 1973 </ref><ref>Eugeniusz Rybka for ''Polska Akademia Nauk'' (the ]), ''The Review of the Polish Academy of Sciences: Nicolaus Copernicus' Relationship with Cracow'', Ossolineum, 1973, p. 23. </ref> He moved from Kraków to Toruń around 1458.<ref>Josh Sakolsky, ''Copernicus and Modern Astronomy'', Rosen Publishing Group, 2005, p. 8. </ref> Toruń, situated on the ], was at that time embroiled in the ], in which the Kingdom of Poland and the ], an alliance of ] cities, gentry and clergy, fought the ] over control of the region. In this war predominantly German-culture and German speaking ] cities like Danzig (Gdańsk) and Thorn (Toruń), the hometown of Nicolaus Copernicus, chose to support the Polish king, who promised to respect the cities' traditional vast independence, which the Teutonic Order had challenged. The father of Nicolaus was actively engaged in the politics of the day, and supported Poland and the cities against the Teutonic Order.<ref>Marian Biskup, ''Regesta Copernicana (calendar of Copernicus' papers)'', Ossolineum, 1973, p. 16. </ref> In 1454 he mediated negotiations between Poland’s ] and the Prussian cities for repayment of war loans. In the ], the Teutonic Order formally relinquished all claims to its western provinces, which as ] remained a region of Poland for the next 300 years.

	The father married Barbara Watzenrode, the astronomer's mother, between 1461 and 1464. He died sometime between 1483 and 1485. Upon the father’s death, young Nicolaus’ maternal uncle, ] (1447–1512), took the boy under his protection and saw to his education and career.

	===Mother's family===
	]]]

	Nicolaus’ mother, Barbara Watzenrode, was the daughter of ] and his wife Katherine (née Modlibóg).<ref>"The mother of Barbara and Lucas was a Modlibog." Alexandre Koyre, ''Astronomical Revolution: Copernicus – Kepler – Borelli'', Cornell University Press, 1973, ISBN 0-486-27095-5, p. 78. ()</ref><ref name="books.google.com">"Adrian Krzyzanowski and John Sniadecki: Copernicus and His Native Land," ''The Foreign and Colonial Quarterly Review'', Smith, Elder & Co., 1844, p. 367. ()</ref><ref name="Stephen Mizwa 1943, p. 38">Stephen Mizwa: ''Nicolaus Copernicus, 1543-1943''. Kessinger Publishing, 1943, p. 38.</ref> Not much is known about her life, but she is believed to have died when Nicolaus was a small boy. The Watzenrodes, who were Roman Catholic, had come from the ] (Schweidnitz) region of Silesia and had settled in Toruń after 1360, becoming prominent members of the city’s ] class.<ref>Czesław Miłosz, ''The History of Polish Literature'', University of California Press, 1983, p. 38. </ref> Through the Watzenrodes' extensive family relationships by marriage, they were related to wealthy families of Toruń, Danzig and ] (''Elbing''), and to the prominent ], ], ] and ] noble families.<ref>Dobrzycki and Hajdukiewicz, '']'', vol. XIV, 1969, p. 4.</ref> The Modlibógs (literally, in Polish, "Pray to God") were a prominent Roman Catholic Polish family who had been well known in Poland's history since 1271.<ref name="Stephen Mizwa 1943, p. 38"/> Lucas and Katherine had three children: Lucas Watzenrode the Younger, who would become Copernicus' patron; Barbara, the astronomer's mother; and Christina, who in 1459 married the merchant and mayor of Toruń, Tiedeman von Allen.

	] was well-regarded in Toruń as a devout man and honest merchant, and he was active politically. He was a decided opponent of the Teutonic Knights and an ally of Polish ] ].<ref>The Head Office of State Archives, Poland, "Copernicus' Biography", accessed 5/22/09, </ref> In 1453 he was the delegate from Toruń at the ] (Graudenz) conference that planned to ally the cities of the ] with Casimir IV in their subsequent war against the Teutonic Knights.<ref>Jerzy Dobrzycki and Leszek Hajdukiewicz, "Kopernik, Mikołaj", '']'', vol. XIV, 1969, p. 4.</ref> During the ] that ensued the following year, he actively supported the war effort with substantial monetary subsidies, with political activity in Toruń and Danzig, and by personally fighting in battles at ] (Lessen) and ] (Malbork).<ref>Jeremi Wasiutyński, ''The Solar Mystery: An Inquiry Into the Temporal and the Eternal Background of the Rise of Modern Civilization'', Solum Forlag, 2003, p. 29. </ref> He died in 1462.

	], the astronomer's maternal uncle and patron, was educated at the University of Krakow (now ]) and at the universities of ] and ]. He was a bitter opponent of the Teutonic Order<ref>"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." Alan Hirshfeld: ''Parallax: The race to Measure the Cosmos''. W.H. Freemand and Company, 2001, ISBN 0-7167-3711-6, p. 38. ()</ref><ref>"The Watzelrodes—or Watzenrodes—in spite of their rather Germanic name seemed to have been good Poles (enemies of the Teutonic Order)." ], ''Astronomical Revolution, Copernicus - Kepler - Borelli'', New York, Cornell University Press, 1973, ISBN 0-486-27095-5, p. 38. ()</ref> and its Grand Master, who once referred to Watzenrode as “the devil incarnate.”<ref>" 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." ]: ''The Great Astronomical Revolution: 1534-1687 and the Space Age Epilogue''. Albion Publishing, 1994, ISBN 1-898563-18-7, 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. As a result, Watzenrode quarreled with the king until Casimir IV’s death three years later.<ref>{{BBKL\|w/watzenrode\|autor=Wojciech Iwanczak\|artikel=WATZENRODE, Lucas\|band=13\|spalte=389-393}}</ref> 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>"Lucas was on more friendly terms with his successors, Johann Albert (Jan Olbracht) (from 1492 to 1501), and later Alexander (Aleksander) (from 1501 to 1506), and Sigismund (Zygmunt) I (from 1506)." Pierre Gassendi & Olivier Thill: ''The Life of Copernicus (1473-1543): The Man Who Did Not Change the World''. Xulon Press, 2002, ISBN 1-59160-193-2, p. 22. ()</ref><ref>" 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." ]: ''The Great Astronomical Revolution: 1534-1687 and the Space Age Epilogue''. Albion Publishing, 1994, ISBN 1-898563-18-7, pp. 52, 62. ()</ref> Watzenrode came to be considered the most powerful man in Warmia, and his wealth, connections and influence allowed him to secure Copernicus’ education and career as a canon at ] (Frauenberg) Cathedral.

	===Languages===
	] to ], giving medical advice for ] (1541)]]

	Copernicus is postulated to have spoken ], ], and ] with equal fluency. He also spoke ] and ].<ref>"He spoke German, Polish and Latin with equal fluency as well as Italian." Daniel Stone: ''The Polish-Lithuanian State, 1386-1795''. University of Washington Press, 2001, ISBN 0-295-98093-1, p. 101. ()</ref><ref>"He spoke Polish, Latin and Greek." Barbara Somerville: ''Nicolaus Copernicus: Father of Modern Astronomy''. Compass Point Books, 2005, ISBN 0-7565-0812-6, p. 10. ().</ref><ref>"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." Angus Armitage: ''Copernicus and Modern Astronomy''. Dover Publications, 2004 (originally 1957), ISBN 0-486-43907-0, p. 62.</ref><ref>He used ] and ], knew enough ] to translate the 7th-century ] poet ]'s verses into Latin prose (Armitage, ''The World of Copernicus'', pp. 75–77), and "there is ample evidence that he knew the ]" (], '']'', vol. II, p. 26). During his several years' studies in ], Copernicus presumably would also have learned some ]. Professor Stefan Melkowski of ] likewise asserts that Copernicus spoke both Polish and German. ( ''"O historii i o współczesności"'' ("About History and Contemporaneity"), May 2003.])</ref> The vast majority of Copernicus’ surviving works are in ], which in his lifetime was the language of ] in Europe. Latin was also the official language of the Roman Catholic Church and of Poland's royal court, and thus all of Copernicus’ correspondence with the Church and with Polish leaders was in Latin.

	There survives a German-language correspondence between Copernicus and ]. Some scholars hold that German should be considered Copernicus’ native language<ref>"Deutsch war für Kopernikus Muttersprache und Alltagssprache, wenn auch der schriftliche Umgang fast ausschließlich auf Lateinisch erfolgte." Martin Carrier: ''Nikolaus Kopernikus''. Beck'sche Reihe, C. H. Beck, 2001, ISBN 3-406-47577-9, 9783406475771, p. 192. ()</ref> because Thorn/Toruń was then predominantly German-speaking,<ref name="Rudnicki 2006"/> because a German-language correspondence survives to illustrate Copernicus' proficiency in that language, and because, while studying law at ] in 1496, he signed into the German '']'' (''Natio Germanorum'')—a student organization which, according to its 1497 by-laws, was open to German-speaking students of all kingdoms and states.<ref>"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." Alexandre Koyre: ''Astronomical Revolution, Copernicus - Kepler - Borelli''. Cornell University Press, 1973, ISBN 0-486-27095-5, p. 21. ()</ref><ref>"It is important to recognize, however, that the medievel 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." Lonnie Johnson: ''Central Europe: Enemies, Neighbors, Friends''. Oxford University Press, 1996, ISBN 0-19-510071-9, p. 23. ()</ref><ref>], , 1968, p. 129.</ref><ref>], Oliver Thill, , 2002, p. 37.</ref><ref>Nicolaus Copernicus et al., , 1996, p. 39.</ref><ref>] (1995, ).</ref>

	On the other hand, ] Poles wrote variously in Latin, in Polish or in both languages.<ref>"Many writers, for example, ], ], and Copernicus, wrote only in Latin. Some poets, most notably ], ], and ], used both Latin and Polish throughout their lives. But the majority of literary works of the period was written and published in , for example, by ], ], ], ], ], and ]... Their masterly use of various genres of poetry and prose led to the emergence of modern Polish literature and contributed to the consolidation of a national language." ], ''Polish Literature from the Middle Ages to the End of the Eighteenth Century: a Bilingual Anthology'', Warsaw, Constans, 1999, p. 185.</ref>

	===Name===
	In Copernicus’ day, people were often called after the places where they lived. Like the ]n village that inspired it, Copernicus’ ] has been spelled variously. Today the English-speaking world knows the astronomer principally by the ]ized name, "Nicolaus Copernicus."

	The surname likely had something to do with the local Silesian ] industry,<ref>{{cite web
	\|url=http://glos.uni.torun.pl/2003/05/historia/\|title=''O historii i o współczesności'' (On History and the Present Day)\|accessdate=2007-04-22
	\|language=Polish
	\|author=Melkowski, Stefan
	\|month=May
	\|year=2003}}</ref>
	though some scholars assert that it may have been inspired by the ] plant (in Polish, "''koperek''" or "''kopernik''") that grows wild in Silesia.<ref>"Kopernik, Koperek, Kopr and Koprnik in Polish—also similarly in other Slavonic languages—means simply dill such as is used in dill pickling. Be it as it may, although the present writer is more inclined towards the occupational interpretation, it is interesting to note ..." ], ''Nicolaus Copernicus, 1543–1943'', Kessinger Publishing, 1943, .</ref>

	As was to be the case with ] a century later,<ref>Armitage, p. 51.</ref> numerous spelling variants of the name are documented for the astronomer and his relatives. The name first appeared as a ] in Silesia in the 13th century, where it was spelled variously in Latin documents. Copernicus "was rather indifferent about ]."<ref name="Gingerich p143">Gingerich (2004), p. 143.</ref> During his childhood, the name of his father (and thus of the future astronomer) was recorded in Toruń as ''Niclas Koppernigk'' around 1480.<ref>'']: Urkunden, Akten und Nachrichten: Texte und Übersetzungen'', . ISBN 3-05-003009-7.</ref><ref>Marian Biskup, ''Regesta Copernicana'' (''Calendar of Copernicus' Papers''), ], 1973, .</ref> At Kraków he signed his name "Nicolaus Nicolai de Torunia." <ref name="books.google.com"/> 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>Biskup (1973), .</ref><ref>Carlo Malagola, ''Della vita e delle opere di Antonio Urceo detto Codro: studi e ricerche'', 1878, .</ref> At Padua, Copernicus signed his name "Nicolaus Copernik", later as "Coppernicus."<ref name="Gingerich p143"/> He signed a self-portrait, a copy of which is now at Jagiellonian University, "N Copernic."<ref>{{cite encyclopedia\|encyclopedia=Encyclopædia Britannica Online\|title=Copernicus, Nicolaus\|url=http://www.britannica.com/EBchecked/topic/136591/Nicolaus-Copernicus\|accessdate=2009-11-21\|edition= \|date= \|year=2009\|publisher=Encyclopædia Britannica}}</ref> The astronomer Latinized his name to ''Coppernicus'', generally with two "p"s (in 23 of 31 documents studied),<ref>Maximilian Curtze, ''Ueber die Orthographie des Namens Coppernicus'', 1879, .</ref> but later in life he used a single "p". On the title page of ''De revolutionibus'', Rheticus published the name as (in the ], or ], case) "Nicolai Copernici".

	===Education===
	]'', ]]]
	]]]

	Copernicus' uncle Watzenrode maintained contacts with the leading intellectual figures in Poland and was a friend of the influential Italian-born ] and ] ], ].<ref name="Polish Literature p. 38">], ''The History of Polish Literature'', p. 38.</ref> Watzenrode seems first to have sent young Copernicus to the St. John's School at Toruń where he himself had been a master. Later, according to Armitage (some scholars differ), the boy attended the Cathedral School at ], up the ] from Toruń, which prepared pupils for entrance to the ], Watzenrode's alma mater in ]'s capital.<ref>Angus Armitage, ''The World of Copernicus'', p. 55.</ref>

	In the winter semester of 1491–92 Copernicus, as "Nicolaus Nicolai de Thuronia," matriculated together with his brother Andrew at the University of Krakow (now ]). 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. 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 Brożek's widely read commentary to ]'s ''Theoricæ novæ planetarum'' and almost certainly attended the lectures of Bernard of ] and Wojciech Krypa of ] and probably other astronomical lectures by ], Michael of ], Wojciech of ] and Marcin Bylica of ].<ref>Jerzy Dobrzycki and Leszek Hajdukiewicz, "Kopernik, Mikołaj", '']'', pp. 4-5.</ref>

	Copernicus' Kraków studies gave him a thorough grounding in the mathematical-astronomical knowledge taught at the university (arithmetic, geometry, geometric optics, cosmography, theoretical and computational astronomy), a good knowledge of the philosophical and natural-science writings of ] ('']'', '']'') and ] (which later would play an important role in shaping his theory), stimulated his interest in learning, and made him conversant with ] 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 (], ], the '']'', ]' ''Tabulae directionum''); to this period, probably, also date his earliest scientific notes, now preserved partly at ].<ref name="Leszek Hajdukiewicz p. 5">Jerzy Dobrzycki and Leszek Hajdukiewicz, "Kopernik, Mikołaj", '']'', p. 5.</ref> At Kraków Copernicus began collecting a large library on astronomy; it would later be carried off as war booty by the Swedes during the ] and is now at the ].

	Copernicus' four years at Kraków played an important role in the development of his critical faculties and initiated his analysis of the logical contradictions in the two "official" systems of astronomy—Aristotle's theory of homocentric spheres, and ]'s mechanism of ]s and ]s--the surmounting and discarding of which constituted the first step toward the creation of Copernicus' own doctrine of the structure of the universe.<ref name="Leszek Hajdukiewicz p. 5"/>

	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 (after November 1495) sought to place his nephew in a Warmia ] vacated by the 26 August 1495 death of its previous tenant. For unclear reasons—probably due to opposition from part of the chapter, who appealed to ]--Copernicus' installation was delayed, inclining Watzenrode to send both his nephews to study 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="Leszek Hajdukiewicz p. 5"/>

	Leaving Warmia in mid-1496—possibly with the retinue of the chapter's chancellor, Jerzy Pranghe, who was going to Italy—in the fall (October?) of that year 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 also included Polish youths from ], ] and ] as well as students of other nationalities.<ref name="Leszek Hajdukiewicz p. 5"/>

	It was only on 20 October 1497 that 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 Collegiate Church of the Holy Cross in ] (Breslau), ], ]. Despite having received 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 uncertain whether he was ordained a priest; he may only have taken ], which sufficed for assuming a chapter canonry.<ref name="Leszek Hajdukiewicz p. 5"/>

	], site of house of ]. ] on ] commemorates Copernicus.]]
	], professor of the ancient ] of ], 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 ] of birth by the ], the ], the Academy of Sciences of the Institute of Bologna, the ]. 1473 1973."]]

	During his three-year stay at Bologna, between fall 1496 and spring 1501, Copernicus seems to have devoted himself less keenly to studying ] (he received his doctorate in law only after seven years, following a second return to Italy in 1503) than to studying the ]--probably attending lectures by Filippo Beroaldo, Antonio Urceo, called Codro, Giovanni Garzoni and ]--and to studying astronomy. He met the famous astronomer ] and became his disciple and assistant. 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 brightest star in the ] constellation, whose results reinforced his doubts as to the geocentric system. 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>Jerzy Dobrzycki and Leszek Hajdukiewicz, "Kopernik, Mikołaj", '']'', pp. 5-6.</ref>

	Copernicus spent the ] 1500 in ], 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="Leszek Hajdukiewicz p. 6">Jerzy Dobrzycki and Leszek Hajdukiewicz, "Kopernik, Mikołaj", '']'', p. 6.</ref>

	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 ] (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 B. 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="Leszek Hajdukiewicz p. 6"/>

	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 Michele Savonarola, which would form the embryo of his later medical library.<ref name="ReferenceA">Jerzy Dobrzycki and Leszek Hajdukiewicz, "Kopernik,
	Mikołaj", '']'', p. 6.</ref>

	One of the subjects that Copernicus must have studied was
	], since it was considered an important part of a medical
	education.<ref>Rabin
	].</ref> However, unlike most
	other prominent Renaissance astronomers, he appears never to have
	practiced or expressed any interest in astrology.<ref>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>

	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 J.B. Chrestonius' dictionary (1499), expanding his studies of antiquity, begun at Bologna, to the writings of ], J. Valla and others. There also seems to be evidence that it was during his Padua stay that there finally crystallized the idea of basing a new system of the world on the movement of the Earth.<ref name="Leszek Hajdukiewicz p. 6"/>

	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. No doubt it was soon after (at latest, in fall 1503) that he left Italy for good to return to ].<ref name="ReferenceA"/>

	===Work===
	]. In background: ].]]
	Having completed all his studies in Italy, 30-year-old Copernicus returned to Warmia, where — apart from brief journeys to ] and to nearby Prussian cities (], ], ], ], ], ]) — he would live out the remaining 40 years of his life.<ref name="ReferenceA"/>

	The ] enjoyed substantial ], with its own ] (parliament), army, monetary unit (the same as in the other parts of ]) and treasury.<ref>Sedlar (1994).</ref>

	From 1503 to 1510, or perhaps till his uncle's death (29 March 1512), Copernicus was his personal secretary and physician and resided in the Bishop's castle at ] (Heilsberg). It is there that 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 ] and ] and, write Dobrzycki and Hajdukiewicz, "participated... in all the more important events in the complex diplomatic game that 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 Crown."<ref name="ReferenceA"/>
	]'s ''Epistles''. Cover shows ] of ''(clockwise from top)'' ], ] and ].]]
	In 1504–12 Copernicus made numerous journeys as part of his uncle's retinue—in 1504, to Toruń and Gdańsk (Danzig), 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 ] (1512); and he may have attended a Poznań 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="ReferenceA"/>

	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 ]s 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 now 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 ]s in the struggle over the question whether Greek literature should be revived.<ref>Angus Armitage, ''The World of Copernicus'', pp. 75–77.</ref> Copernicus' first poetic work was a Greek ], composed probably during a visit to Kraków, for ]' ] for ]'s 1512 wedding to ] ].<ref name="Leszek Hajdukiewicz p. 7"/>

	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 1515–30 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="Leszek Hajdukiewicz p. 7">Jerzy Dobrzycki and Leszek Hajdukiewicz, "Kopernik, Mikołaj", '']'', p. 7.</ref>
	], where he lived and worked; rebuilt recently]]
	] mount and fortifications. In foreground: statue of Copernicus]]
	In 1510 or 1512 Copernicus moved to ], 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 Frombork carried out by the Teutonic Order in January 1520, during which Copernicus' astronomical instruments were probably destroyed. Copernicus conducted astronomical observations in 1513–16 presumably from his external curia; and in 1522–43, 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="Leszek Hajdukiewicz p. 7"/>

	Having settled permanently at Frombork, where he would reside to the end of his life, with interruptions in 1516-19 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 ]; Albrecht'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="Leszek Hajdukiewicz p. 7"/>

	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="Leszek Hajdukiewicz p. 7"/>

	His administrative and economic dutes did not distract Copernicus, in 1512-15, 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 discovery of the variability of ]'s ] and of the movement of the solar ] in relation to the fixed stars, which in 1515-19 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' 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>Jerzy Dobrzycki and Leszek Hajdukiewicz, "Kopernik, Mikołaj", '']'', pp. 7-8.</ref>

	]]]

	During 1516–21, Copernicus resided at Olsztyn 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>Repcheck (2007), p. 66.</ref>

	Copernicus worked for years with the Royal Prussian ], and with ] (against whom Copernicus had defended Warmia in the Polish-Teutonic War), and advised King Sigismund, on ]. He participated in discussions in the East Prussian diet about coinage reform in the Prussian countries; a question that concerned the diet was who had the right to ] ]. Political developments in Prussia culminated in the 1525 establishment of the ] as a ] state in vassalage to Poland.

	In 1526 Copernicus wrote a study on the value of ], '']''. In it he formulated an early iteration of the theory, now called ], that "bad" (]) ]age drives "good" (un-debased) coinage out of circulation—70 years before ]. He also formulated a version of ]. Copernicus' recommendations on monetary reform were widely read by leaders of both Prussia and Poland in their attempts to stabilize currency.<ref>Copernicus, Nicolaus, ''Minor Works'' (Edward Rosen, translator), Baltimore: Johns Hopkins University Press, 1992, pp. 176–215.</ref><ref>Oliver Volckart, "Early Beginnings of the Quantity Theory of Money and Their Context in Polish and Prussian Monetary Policies, c. 1520–1550", ''The Economic History Review'', New Series '''50''' (August 1997) 3, pp. 430–49.</ref>
	]'s ]]]

	In 1533, Johann Widmanstetter, secretary to ], explained Copernicus' heliocentric system to the Pope and two cardinals. The Pope was so pleased that he gave Widmanstetter a valuable gift.<ref name ="Repcheck">{{cite book
	\| last = Repcheck
	\| first = Jack
	\| title = Copernicus' Secret
	\| publisher = Simon & Schuster
	\| year = 2007
	\| location = New York, NY
	\| pages = 79, 78, 184, 186
	\| isbn = 978-0-7432-8951-1}}</ref>

	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 first and only mention of a Copernicus almanac in the historical records. The "almanac" was likely Copernicus' tables of planetary positions. Wapowski's letter mentions Copernicus' theory about the motions of the earth. Nothing came of Wapowski's request, because he died a couple of weeks later.<ref name ="Repcheck"/>

	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.<ref name="Leszek Hajdukiewicz 1969, p. 11">Jerzy Dobrzycki and Leszek Hajdukiewicz, "Kopernik, Mikołaj", '']'', vol. XIV, 1969, p. 11.</ref>

	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' housekeeper, Anna Schilling, whom Dantiscus removed from Frombork in 1539.<ref name="Leszek Hajdukiewicz 1969, p. 11"/>
	] plant]]
	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>Angus Armitage, ''The World of Copernicus'', pp. 97–98.</ref>

	In the spring of 1541, Duke Albert 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>Angus Armitage, ''The World of Copernicus'', p. 98.</ref>

	Throughout this period of his life, Copernicus continued making astronomical observations and calculations, but only as his other responsibilities permitted and never in a professional capacity.

	Some of Copernicus' close friends turned ], 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 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' theory. ] wrote:

	{{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"/>}}

	Nevertheless, in 1551, eight years after Copernicus' death, astronomer ] published, under the sponsorship of Copernicus' former military adversary, the Protestant Duke Albert, the '']'', a set of astronomical tables based on Copernicus' work. Astronomers and astrologers quickly adopted it in place of its predecessors.<ref>].</ref>

	===Heliocentrism===
	]. Jan Świeczyński, ''Katalog skradzionych i zaginionych dóbr kultury'' (Catalog of Stolen and Missing Cultural Property), ], Ośrodek Informacyjno-Koordynacyjny Ochrony Obiektów Muzealnych (Center of Information and Coordination for the Safeguarding of Museum Objects), 1988.</ref>]]
	Some time before 1514 Copernicus made available to friends his "]" ("Little Commentary"), a forty-page ] describing his ideas about the heliocentric hypothesis.<ref>A reference to the "Commentariolus" is contained in a library catalogue, dated May 1st, 1514, of a 16th-century historian, Matthew of Miechow, so it must have begun circulating before that date (Koyré, ]; Gingerich, ]). ] (1990, ) gives the length of the manuscript as 40 pages.</ref> It contained seven basic assumptions. Thereafter he continued gathering data for a more detailed work.

	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="Leszek Hajdukiewicz 1969, p. 11"/>

	In 1533, ] delivered a series of lectures in ] outlining Copernicus' theory. ] and several ] heard the lectures and were interested in the theory. On 1 November 1536, Cardinal ], ], wrote to Copernicus from Rome:

	{{quote\|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>.</ref>}}

	By then Copernicus' 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' concern was limited to possible astronomical and philosophical objections, or whether he was also concerned about religious objections.<ref name=fear>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." ]</ref>

	===The book===
	]'', 1543. '''Click on image to read book.''']]

	Copernicus was still working on '']'' (even if not convinced that he wanted to publish it) when in 1539 ], a ] ], arrived in Frombork. ], a close theological ally of ], had arranged for Rheticus to visit several astronomers and study with them.

	Rheticus became Copernicus' pupil, staying with him for two years and writing a book, '']'' (First Account), outlining the essence of Copernicus' theory. In 1542 Rheticus published a treatise on ] by Copernicus (later included in the second book 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, ], bishop of ] (''Kulm''), to be delivered to Rheticus for printing by the ] printer ] at ] (''Nürnberg''), ]. 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>] .</ref>

	Osiander added an unauthorised and unsigned preface, defending the work against those who might be offended by the novel hypotheses. He explained that astronomers may find different causes for observed motions, and choose whatever is easier to grasp. As long as a hypothesis allows reliable computation, it does not have to match what a philosopher might seek as the truth.

	===Death===
	] ] in ]. An earlier 1580 epitaph had been destroyed during wars.]]
	], March 2010]]
	]]]
	]
	Copernicus died in ] on 24 May 1543. Legend has it that the first printed copy of ''De revolutionibus'' was placed in his hands 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 ]-induced ], looked at his book, and then died peacefully.

	Copernicus was reportedly buried in ], where archaeologists for over two centuries searched in vain for his remains. Efforts to locate the remains in 1802, 1909, 1939 and 2004 had come to nought. In August 2005, however, a team led by Jerzy Gąssowski, head of an ] and ] institute in ], after scanning beneath the cathedral floor, discovered what they believed to be Copernicus' remains.<ref name="Polish tests">{{cite web
	\|author=Easton, Adam
	\|url=http://news.bbc.co.uk/1/hi/world/europe/7740908.stm
	\|title=Polish tests 'confirm Copernicus'
	\|accessdate=18 January 2010
	\|work= ]
	\|date= 21 November 2008}}</ref>

	The find came after a year of searching, and the discovery was announced only after further research, on November 3, 2008. Gąssowski said he was "almost 100 percent sure it is Copernicus."{{Citation needed\|date=January 2010}} ] 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.{{Citation needed\|date=January 2010}} The expert also determined that the skull belonged to a man who had died around age 70—Copernicus' age at the time of his death.<ref name="Polish tests" />

	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>Bowcott, Owen (21 November 2008). "" ''The Guardian''. Retrieved 18 January 2010.</ref> 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 ].<ref>{{Cite journal\|last=Bogdanowicz \|first=W. \|last4=''et al.'' \|year=2009 \|title=Genetic identification of putative remains of the famous astronomer Nicolaus Copernicus \|journal=]\|pmid=19584252 \|volume=106 \|issue= 30\|pmc=2718376\|pages=12279–12282 \|doi=10.1073/pnas.0901848106\|last2=Allen\|first2=M.\|last3=Branicki\|first3=W.\|first4=M.\|last5=Gajewska\|first5=M.\|last6=Kupiec\|first6=T. }}.</ref><ref>{{Cite journal \|last=Gingerich \|first=O. \|year=2009 \|title=The Copernicus grave mystery \|journal=PNAS \|volume=106 \|issue= 30\|pages=12215–12216 \|doi=10.1073/pnas.0907491106 \|pmid=19622737 \|pmc=2718392 }}.</ref>

	On 22 May 2010 Copernicus was given a second funeral in a ] led by ], the former ] to Poland and newly named ]. Copernicus' remains were reburied in the same spot in ] where part of his skull and other bones had been found. A black granite tombstone now identifies him as the founder of the ] and also a church ]. The tombstone bears a representation of Copernicus' model of the solar system—a golden sun encircled by six of the planets.<ref></ref>

	==Copernican system==		==Copernican system==

Revision as of 00:45, 6 October 2010

"Copernicus" redirects here. For other uses, see Copernicus (disambiguation).

Nicolaus Copernicus
Portrait, 1580, Toruń Old Town City Hall
Born	(1473-02-19)19 February 1473, Toruń (Thorn), Royal Prussia, Kingdom of Poland
Died	24 May 1543(1543-05-24) (aged 70), Frombork (Frauenburg), Prince-Bishopric of Warmia, Kingdom of Poland
Alma mater	Kraków University, Bologna University, University of Padua, University of Ferrara
Known for	Heliocentrism
Scientific career
Fields	Mathematics, astronomy, canon law, medicine, economics

Signature

Nicolaus Copernicus (Template:Lang-pl; Template:Lang-de; in his youth, Niclas Koppernigk; Template:Lang-it; 19 February 1473 – 24 May 1543) was a Renaissance astronomer and the first person to formulate a comprehensive heliocentric cosmology, which displaced the Earth from the center of the universe.

Copernicus' epochal book, De revolutionibus orbium coelestium (On the Revolutions of the Celestial Spheres), published just before his death in 1543, is often regarded as the starting point of modern astronomy and the defining epiphany that began the scientific revolution. His heliocentric model, with the Sun at the center of the universe, demonstrated that the observed motions of celestial objects can be explained without putting Earth at rest in the center of the universe. His work stimulated further scientific investigations, becoming a landmark in the history of science that is often referred to as the Copernican Revolution.

Among the great polymaths of the Renaissance, Copernicus was a mathematician, astronomer, physician, quadrilingual polyglot, classical scholar, translator, artist, Catholic cleric, jurist, governor, military leader, diplomat and economist. Among his many responsibilities, astronomy figured as little more than an avocation – yet it was in that field that he made his mark upon the world.

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Copernican system

Main article: Copernican heliocentrism

Predecessors

Philolaus (c. 480–385 BCE), a Greek philosopher of the Pythagorean school, described an astronomical system in which the Earth, Moon, Sun, planets, and stars all revolved about a central fire. Heraclides Ponticus (387–312 BCE) proposed that the Earth rotates on its axis. According to Archimedes, Aristarchus of Samos (310–230 BCE) wrote of heliocentric hypotheses in a book that does not survive. Plutarch wrote that Aristarchus was accused of impiety for "putting the Earth in motion".

In a manuscript of De revolutionibus, Copernicus wrote, "It is likely that ... Philolaus perceived the mobility of the earth, which also some say was the opinion of Aristarchus of Samos", but later struck out the passage and omitted it from the published book.

Ptolemy

Main article: Almagest

The prevailing theory in Europe during Copernicus' lifetime was the one that Ptolemy published in his Almagest circa 150 CE. Ptolemy's system drew on previous Greek theories in which the Earth was the stationary center of the universe. Stars were embedded in a large outer sphere which 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. Ptolemy's model was refined by the 10th-century astronomer Muhammad al Battani, working at Ar-Raqqah in modern-day Syria. Although al Battani accepted the validity of the Ptolemaic model, Copernicus made much use of his astronomical observations in demonstrating the heliocentric theory, and gave acknowledgement to his predecessor in De revolutionibus.

Copernicus

Copernicus' major theory was published in De revolutionibus orbium coelestium (On the Revolutions of the Celestial Spheres), in the year of his death, 1543, though he had formulated the theory several decades earlier.

Copernicus' "Commentariolus" summarized his heliocentric theory. It listed the "assumptions" upon which the theory was based as follows:

1. There is no one center of all the celestial circles or spheres.
2. The center of the earth is not the center of the universe, but only of gravity and of the lunar sphere.
3. All the spheres revolve about the sun as their mid-point, and therefore the sun is the center of the universe.
4. 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.
5. 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.
6. 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.

7. 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 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
Concrete exposition of the new system
Concrete exposition of the new system

Successors

Georg Joachim Rheticus could have been Copernicus' 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, followed by his erstwhile co-worker, Johannes Kepler.

Copernicanism

See also: Catholic Church and science

At original publication, Copernicus' epoch-making book caused only mild controversy, and provoked no fierce sermons about contradicting Holy Scripture. It was only three years later, in 1546, that a Dominican, Giovanni Maria Tolosani, denounced the theory in an appendix to a work defending the absolute truth of Scripture. He also noted that the Master of the Sacred Palace (i.e., the Catholic Church's chief censor), Bartolomeo Spina, a friend and fellow Dominican, had planned to condemn De revolutionibus but had been prevented from doing so by his illness and death.

Arthur Koestler, in his popular book The Sleepwalkers, asserted that Copernicus' 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 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.

It has been much debated why it was not until six decades after Spina and Tolosani's attacks on Copernicus's work that the Catholic Church took any official action against it. Proposed reasons have included the personality of Galileo Galilei and the availability of evidence such as telescope observations.

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 that the supposedly Pythagorean doctrine that the Earth moves and the Sun does not was "false and altogether opposed to Holy Scripture." The same decree also prohibited any work that defended the mobility of the Earth or the immobility of the Sun, or that attempted to reconcile these assertions with Scripture.

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.

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.

Nationality

File:Kopernik.PNG

Former Polish coins with image of Copernicus, by Gosławski

The question of Copernicus' nationality, and indeed whether it is meaningful to ascribe to him a nationality in the modern sense, has been the subject of some discussion.

Historian Michael Burleigh describes the nationality debate as a "totally insignificant battle" between German and Polish scholars during the interwar period.

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 belonging to Poland, himself of mixed Polish-German extraction.

According to Czesław Miłosz, the debate is an "absurd" projection of a modern understanding of nationality on Renaissance people, who identified with their home territories rather than with a nation.

Similarly, historian Norman Davies states that Copernicus, as was common for his era, was "largely indifferent" to nationality, being a local patriot who considered himself "Prussian".

Miłosz and Davies both say that despite Copernicus' German-speaking background, his working language was Latin, though according to Davies there is evidence that Copernicus also knew Polish. Davies concludes: "Taking everything into consideration, there is good reason to regard him both as a German and as a Pole, yet in the sense that modern nationalists understand it, he was neither."

The Stanford Encyclopedia of Philosophy describes Copernicus as "the child of a German family was a subject of the Polish crown." Encyclopædia Britannica, Encyclopedia Americana, The Columbia Encyclopedia, The Oxford World Encyclopedia, and the Microsoft Encarta Online Encyclopedia identify Copernicus as Polish.

Copernicium

On July 14, 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 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 official naming was released to the public.

Veneration

Copernicus is honored, together with Johannes Kepler, in the liturgical calendar of the Episcopal Church (USA), with a feast day on May 23.

Notes

Nicolaus Copernicus Gesamtausgabe: Urkunden, Akten und Nachrichten: Texte und Übersetzungen, ISBN 3-05-003009-7, pp.23ff. (online); Marian Biskup: Regesta Copernicana (calendar of Copernicus' Papers), Ossolineum, 1973, p.32 (online). This spelling of the surname is rendered in many publications (Auflistung)
Copernicus was not, however, the first to propose some form of heliocentric system. A Greek mathematician and astronomer, Aristarchus of Samos, had already done so as early as the third century BCE. Nevertheless, there is little evidence that he ever developed his ideas beyond a very basic outline (Dreyer, 1953, pp. 135–48; Linton, 2004, p. 39).
A self-portrait helped confirm the identity of his cranium when it was discovered at Frombork Cathedral in 2008. Kraków's Jagiellonian University has a 17th-century copy of Copernicus' 16th-century self-portrait. "Copernicus," Encyclopaedia Britannica, 15th ed., 2005, vol. 16, p. 760.
Dreyer (1953, pp. 40–52); Linton (2004, p. 20).
Dreyer (1953, pp. 123–35); Linton (2004, p. 24).
Archimedes refers to Aristarchus's book in The Sand Reckoner. Heath's (1913, p.302) translation of the relevant passage reads: "You are aware that 'universe' is the name given by most astronomers to the sphere the center of which is the center of the Earth, while its radius is equal to the straight line between the center of the Sun and the center of the Earth. This is the common account 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 center 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 center of the sphere bears to its surface." The bracketed insertion is in Heath's translation.
Tassoul, Jean-Louis & Monique (2004). Concise History of Solar and Stellar Physics. Princeton University.
Dreyer (1953, pp. 314–15).
Hoskin, Michael A. (1999). The Cambridge Concise History of Astronomy. Cambridge, England: Cambridge University Press. p. 58. ISBN 0-521-57600-8.
Rosen (2004, pp. 58–59).
^ Cite error: The named reference Repcheck was invoked but never defined (see the help page).
Rosen (1995, pp.151–59)
Rosen (1995, p.158)
Koestler (1959, p.191)
Rosen (1995, pp.187–192), originally published in 1967 in Saggi su Galileo Galilei . Rosen is particularly scathing about this and other statements in The Sleepwalkers which he criticises as inaccurate.
Gingerich (2004), DeMarco (2004)
In fact, in the Pythagorean cosmological system the Sun was not motionless.
Decree of the General Congregation of the Index, March 5, 1616, translated from the Latin by Finocchiaro (1989, pp.148-149). An on-line copy of Finocchiaro's translation has been made available by Gagné (2005).
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, p.147-148) 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).
Catholic Encyclopedia.
From the Inquisition's sentence of June 22, 1633 (de Santillana, 1976, pp.306-10; Finocchiaro 1989, pp. 287-91)
Heilbron (2005, p. 307); Coyne (2005, p. 347).
McMullin (2005, p. 6); Coyne (2005, pp. 346-47).
Burleigh, Michael (1988). Germany turns eastwards. A study of Ostforschung in the Third Reich. CUP Archive. pp. 60, 133, 280. ISBN 0521351200.
Rudnicki, Konrad (2006). "The Genuine Copernican Cosmological Principle". Southern Cross Review: note 2. Retrieved 2010-01-21. {{cite journal}}: Unknown parameter |month= ignored (help)
^ Miłosz, Czesław (1983). The history of Polish literature (2 ed.). University of California Press. p. 37. ISBN 0520044770.
^ Davies, Norman (2005). God's playground. A History of Poland in Two Volumes. Vol. II. Oxford University Press. p. 20. ISBN 0199253404.
"Nicolaus Copernicus". Stanford Encyclopedia of Philosophy. Retrieved 2007-04-22.
"Copernicus, Nicolaus". Encyclopædia Britannica Online. Encyclopædia Britannica. 2007. Retrieved 2007-09-21.
"Copernicus, Nicolaus", Encyclopedia Americana, 1986, vol. 7, pp. 755–56.
"Nicholas Copernicus", The Columbia Encyclopedia, sixth edition, 2008. Encyclopedia.com. 18 July 2009.
"Copernicus, Nicolaus", The Oxford World Encyclopedia, Oxford University Press, 1998.
"Nicolaus Copernicus, Polish astronomer". Microsoft Encarta Online Encyclopedia. Microsoft. 2007. Archived from the original on 2009-11-01. Retrieved 2007-09-21. {{cite encyclopedia}}: Unknown parameter |deadurl= ignored (|url-status= suggested) (help)
July 14, 2009 - Element 112 shall be named “copernicium”, http://www.popsci.com/
Renner, Terrence (2010-02-20). "Element 112 is Named Copernicium". International Union of Pure and Applied Chemistry. Retrieved 2010-02-20.
Calendar of the Church Year according to the Episcopal Church

References

Armitage, Angus (1951). The World of Copernicus. New York, NY: Mentor Books. ISBN 0-8464-0979-8.
Barbara Bieńkowska (1973). The Scientific World of Copernicus: On the Occasion of the 500th Anniversary of His Birth, 1473–1973. Springer. ISBN 9027703531.
Coyne, George V., S.J. (2005). The Church's Most Recent Attempt to Dispel the Galileo Myth. In McMullin (2005, pp.340–59).{{cite book}}: CS1 maint: multiple names: authors list (link)
Davies, Norman, God's Playground: A History of Poland, 2 vols., New York, Columbia University Press, 1982, ISBN 0-231-04327-9.
DeMarco, Peter (2004-04-13). "Book quest took him around the globe". Boston Globe. Retrieved 2008-01-14.
Dobrzycki, Jerzy, and Leszek Hajdukiewicz, "Kopernik, Mikołaj," Polski słownik biograficzny (Polish Biographical Dictionary), vol. XIV, Wrocław, Polish Academy of Sciences, 1969, pp. 3–16.
Dreyer, John Louis Emil (1953) . A History of Astronomy from Thales to Kepler. New York, NY: Dover Publications.
Fantoli, Annibale (2005). The Disputed Injunction and its Role in Galileo's Trial. In McMullin (2005, pp.117–49).
Finocchiaro, Maurice A. (1989). The Galileo Affair: A Documentary History. Berkeley, CA: University of California Press. ISBN 0-520-06662-6.
Gagné, Marc (2005). "Texts from The Galileo Affair: A Documentary History edited and translated by Maurice A. Finocchiaro". West Chester University course ESS 362/562 in History of Astronomy. Retrieved 2008-01-15. (Extracts from Finocchiaro (1989))
Gingerich, Owen (2004). The Book Nobody Read. London: William Heinemann. ISBN 0-434-01315-3.
Goodman, David C. (1991). The Rise of Scientific Europe, 1500-1800. Hodder Arnold H&S. ISBN 0-340-55861-X. {{cite book}}: Unknown parameter |coauthor= ignored (|author= suggested) (help)
Heath, Sir Thomas (1913). 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. London: Oxford University Press.
Heilbron, John L. (2005). Censorship of Astronomy in Italy after Galileo. In McMullin (2005, pp.279–322).
Hoskin, Michael A., The Cambridge Concise History of Astronomy, Cambridge, England, Cambridge University Press, ISBN 0-521-57600-8.
Koestler, Arthur (1963) . The Sleepwalkers: A History of Man's Changing Vision of the Universe. New York, NY: Grosset & Dunlap. ISBN 0448001594. Original edition published by Hutchinson (1959, London)
Koeppen, Hans; et al. (1973). Nicolaus Copernicus zum 500. Geburtstag. Böhlau Verlag. ISBN 3-412-83573-2. {{cite book}}: Check |isbn= value: checksum (help); Explicit use of et al. in: |author= (help)
Koyré, Alexandre (1973). The Astronomical Revolution: Copernicus – Kepler – Borelli. Ithaca, NY: Cornell University Press. ISBN 0-8014-0504-1.
Kuhn, Thomas (1957). The Copernican Revolution: Planetary Astronomy in the Development of Western Thought. Cambridge, MA: Harvard University Press. OCLC 535467.
Lindberg, David C.; Numbers, Ronald L. (1986). "Beyond War and Peace: A Reappraisal of the Encounter between Christianity and Science". Church History. 55 (3). Cambridge University Press: 338–354. doi:10.2307/3166822.{{cite journal}}: CS1 maint: postscript (link)
Linton, Christopher M. (2004). From Eudoxus to Einstein—A History of Mathematical Astronomy. Cambridge: Cambridge University Press. ISBN 978-0-521-82750-8.
Manetho; Ptolemy (1964) . Manetho Ptolemy Tetrabiblos. Loeb Classical Library edition, translated by W.G.Waddell and F.E.Robbins Ph.D. London: William Heinemann.
McMullin, Ernan, ed. (2005). The Church and Galileo. Notre Dame, IN: University of Notre Dame Press. ISBN 0-268-03483-4. {{cite book}}: |author= has generic name (help)CS1 maint: multiple names: authors list (link)
Miłosz, Czesław, The History of Polish Literature, second edition, Berkeley, University of California Press, 1969, ISBN 0-520-04477-0.
Ptolemy, Claudius (1964) . Tetrabiblos. Loeb Classical Library edition, translated by F.E.Robbins Ph.D. London: William Heinemann.
Rabin, Sheila (2005). "Copernicus". The Stanford Encyclopedia of Philosophy (Summer 2005 Edition), Edward N. Zalta (ed.). Retrieved 2008-05-26.
Repcheck, Jack (2007). Copernicus' Secret: How the Scientific Revolution Began. New York: Simon & Schuster. ISBN 0-7432-8951-X.
Rosen, Edward (1995). Copernicus and his Successors. London: Hambledon Press. ISBN 1 85285 071 X.
Rosen, Edward (translator) (2004) . Three Copernican Treatises:The Commentariolus of Copernicus; The Letter against Werner; The Narratio Prima of Rheticus (Second Edition, revised ed.). New York, NY: Dover Publications. ISBN 0486436055. {{cite book}}: |author= has generic name (help)
Russell, Jeffrey Burton (1997) . Inventing the Flat Earth—Columbus and Modern Historians. New York, NY: Praeger. ISBN 0-275-95904-X.
de Santillana, Giorgio (1976—Midway reprint) . The Crime of Galileo. Chicago, Ill: Universtiy of Chicago Press. ISBN 0-226-73481-1. {{cite book}}: Check date values in: |year= (help)CS1 maint: year (link)
Sedlar, Jean W. (1994). East Central Europe in the Middle Ages 1000-1500. University of Washington Press. ISBN 0295972904.
Thoren, Victor E. (1990). The Lord of Uraniborg. Cambridge: Cambridge University Press. ISBN 0-521-35158-8. (A biography of Danish astronomer and alchemist Tycho Brahe.)