COPERNICUS and the HELIOCENTRIC SYSTEM

COPERNICUS and the HELIOCENTRIC SYSTEM

1 COPERNICUS and the HELIOCENTRIC SYSTEM We have seen the great importance attached by late mediaeval philosophers, and by the Church, to the cosmology of Aristotle. It is mainly for this reason that the work of Copernicus and Kepler had such a large impact- it directly challenged the prevailing orthodoxy, and thereby opened the way for the far more radical challenges to the mediaeval worldview which came later on. In what follows we look at both the life and achievements of Copernicus. (1) LIFE of COPERNICUS (1473-1543) Mikolaj Kopernik, or Nicolaus Koppernigk, was born on the 19th Feb 1473 in Torun, Poland; nowadays his latinized name Nicolaus Copernicus is used. His father, also called Nicolaus Koppernigk, had lived in Krakow before moving to Torun, where he set up a business trading in copper. Nicolaus Koppernigk Sr. married Barbara Waczenrode, who came from a well off family from Torun, around 1463. They had four children, two sons and two daughters, of whom Copernicus was the youngest. Copernicus's father died when he was 10 yrs old, and his uncle Lucas Waczenrode, a canon at Frauenburg Cathedral, became guardian to the four children. In 1488 Nicolaus was sent to the cathedral school of Wloclawek, where he received a standard Catholic education; 3 years later he began studies at the University of Krakow. He studied Latin, mathematics, astronomy, geography and philosophy, learning his astronomy from the "Tractatus de Sphaera", by Johannes de Sacrobosco (written in 1220). In these courses Copernicus learnt the conventional Aristotelian and Ptolemaic theories of the universe, and also much about what today we call astrology, ie., the calculation of horoscopes. Copernicus also pursued his own studies- signed copies of 3 of his private purchases still exist (these being a Latin translation of Euclid's Elements, published in Venice in 1482;, a copy of the second edition of the Alfonsine Tables, giving planetary theory and eclipses, printed in Venice in 1492; and Regiomontanus's Tables of Directions describing spherical astronomy, published in Augsburg in 1490. Copernicus returned to Torun after four years of study at Krakow. By this time his uncle was Bishop of Ermland, and wanted Copernicus to pursue a career in the Church. Copernicus accordingly left for Italy, entering the University of Bologna on 19 October 1496, to start three years of study in canon law. While in Bologna Copernicus studied Greek, mathematics and astronomy, in addition to his official course of canon law. He also rented rooms at the house of the astronomy professor Domenico Maria de Novara, and began to undertake research with him, assisting him in making observations. On 9 March 1497 he observed the Moon eclipse the star Aldebaran. While he was in Bologna, his uncle put his name forward for the position of canon at Frauenburg Cathedral. On 20 October 1497, Copernicus received official notification of his appointment as a canon and of the comfortable income he would receive, even before returning. He was officially installed as a canon of the Ermland Chapter on 27 July 1501; however, because had not completed his degree in canon law at Bologna, he asked to be allowed to return to Italy both to finish his law degree and to study medicine. Copernicus was granted leave on 27 July 1501 to complete his studies in Padua. Padua was famous for its medical school and while he was there Copernicus studied both medicine and astronomy. In the spring of 1503 he decided formally to obtain his doctorate in Canon Law, but he did not return to Bologna but rather took the degree at the University of Ferrara. After receiving his doctorate, Copernicus stayed in Ferrara for a few months before returning to Padua to continue his studies of medicine. When he finally returned to Poland in 1503, Copernicus was again granted leave from his official duties as a canon in the Ermland Chapter at Frauenburg, so as to be physician to his uncle, and for the next 5 years he acted essentially as his uncle's secretary and physician. During this period he lived at Heilsberg Castle, a few miles from Frauenburg, the official residence of the Bishop of Ermland. In 1512 his uncle died, and Copernicus thereupon resumed his duties as canon in Frauenburg. He was mainly occupied here with administrative and political affairs, and with providing medical assistance to local citizens. However he now also had considerable time to devote to his study of astronomy, and he had at his disposal an observatory situated in one of the towers in the town's fortifications. By this time his reputation as an astronomer was well established, for when in 1514 the Fifth Lateran Council decided to improve the calendar in 1514, one of these experts chosen by the Pope to give advice was Copernicus (to which Copernicus responded by letter). In 1516 Copernicus was given the task of administering the districts of Allenstein (also known as Olsztyn) and Mehlsack. He lived for 4 years in Allenstein Castle while carrying out these duties; and during this time, in 1517, he developed a plan for reform of the currency. When war broke out between Poland and the Teutonic Knights towards the end of 1519, he returned to Frauenburg. During the war, Copernicus was sent to peace talks in Braunsberg as one of a 2-man delegation representing the Bishop of Ermland. These talks failed and Frauenburg was besieged. Later, in 1520, Allenstein castle was also besieged, and Copernicus was involved in organising the defenses. Finally, in 1521, an uneasy peace was achieved. As a reward for his defence of Allenstein, Copernicus was appointed Commissar of Ermland and given the task of rebuilding the district after the war. His friend Tiedemann Giese, another canon in 2 the Chapter (and later Bishop of Chelmno), assisted him in this. As part of his reconstruction plan, Copernicus put forward his earlier scheme for currency reform, presenting this to the Diet of Graudenz in 1522 (which in the end were not adopted by the Diet). Copernicus thereupon returned to Frauenburg to a rather quiet life. For the next 2 decades his life was devoted to administrative duties and to his astronomical work. During most of this time his situation was very stable, although problems were caused by his refusal to become a priest- in 1531 his bishop even threatened to take away his income if he did not enter the priesthood, although this threat apparently never materialised. The great insights for which Copernicus became famous were already clear to him long before he ever made them fully know to the world. Around 1514 he distributed a little book, in several hand written copies, to a few friends. This work was anonymous- no author is named on the title page. The book, entitled "Commentariolus" (usually translated as the "Little Commentary") already it set out Copernicus's theory of a heliocentric universe, based on 7 'axioms'. These axioms place the sun near the centre of a universe in which the planets, including the earth, revolve around it, with the stars much further away. The movement of the sun and stars in the sky is correctly explained, as is the retrograde motion in the sky of the planets- all this is discussed in more detail below. Even when he wrote his Commentariolus Copernicus was planning to write a major work, and it is likely that he began writing his major work, the "De Revolutionibus", in the following year. However even once this was finished (a demanding task, since it involved him in rather painstaking study of the actual motion of the planets), Copernicus was very reluctant to publish. The reason for this is well known- in spite of encouragement form his friends, some of whom were quite influential (eg., Tiedemann Giese, or Cardinal Shoenberg of Capua), he feared the reaction of the young Catholic zealots of the district, to whom he was already suspicious because of his lack of fervent opposition to the new Lutheran doctrines. Note that Copernicus's fears did not extend to the whole Catholic church - in fact he was throughout his life a committed Catholic, and he had already published a brief popular account of his ideas in 1530, which had been circulated widely, and eventually had even been the subject of a lecture given in Rome. Pope Clement II had at that time approved of the ideas expressed, and even transmitted a request via the Polish Cardinal that the ideas be published in full. Thus Copernicus's reluctance to publish was clearly more connected with his own local situation, far from Rome. However in May 1539 a young visitor arrived in Frauenberg to study with Copernicus. This was Georg Joachim Rheaticus, a young professor of mathematics and astronomy at the University of Wittenberg. Rheaticus spent about two years with Copernicus, taking some risk - for he himself was a Protestant visiting a Catholic canon, in what was then (and now) a Catholic stronghold. However history can be grateful to Rheaticus for doing so, since without his visit, it is possible that Copernicus's work might never have been published. In September 1539 Rheticus visited the mayor of Danzig, and acquired from him funds to help publish the "Narratio Prima" or "First Communication" (this was an abbreviation of the full title "First Communication to Johann Schner on the Books of the Revolutions of the learned gentleman and distinguished mathematician, the Reverend Doctor Nicolaus Copernicus of Torun, Canon of Warmia, by a certain youth devoted to mathematics"). In this short work Rheaticus enthusiastically reviewed the theory of Copernicus, in a very readable way. The publication of the Narratio Prima encouraged Copernicus to publish the full mathematical details of his theory, which he had promised 27 years earlier in his Commentariolus.

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