The Wittenberg Interpretation refers to the work of astronomers and mathematicians at the

University of Wittenberg Martin Luther University of Halle-Wittenberg (german: Martin-Luther-Universität Halle-Wittenberg), also referred to as MLU, is a public, research-oriented university in the cities of Halle and Wittenberg and the largest and oldest university i ...

in response to the

heliocentric model Heliocentrism (also known as the Heliocentric model) is the astronomical model in which the Earth and planets revolve around the Sun at the center of the universe. Historically, heliocentrism was opposed to geocentrism, which placed the Earth at ...

of the

Solar System The Solar SystemCapitalization of the name varies. The International Astronomical Union, the authoritative body regarding astronomical nomenclature, specifies capitalizing the names of all individual astronomical objects but uses mixed "Solar S ...

proposed by

Nicholas Copernicus Nicolaus Copernicus (; pl, Mikołaj Kopernik; gml, Niklas Koppernigk, german: Nikolaus Kopernikus; 19 February 1473 – 24 May 1543) was a Renaissance polymath, active as a mathematician, astronomer, and Catholic canon, who formulated ...

, in his 1543 book ''

De revolutionibus orbium coelestium ''De revolutionibus orbium coelestium'' (English translation: ''On the Revolutions of the Heavenly Spheres'') is the seminal work on the heliocentric theory of the astronomer Nicolaus Copernicus (1473–1543) of the Polish Renaissance. The book, ...

''. The Wittenberg Interpretation fostered an acceptance of the heliocentric model and had a part in beginning the

Scientific Revolution The Scientific Revolution was a series of events that marked the emergence of modern science during the early modern period, when developments in mathematics, physics, astronomy, biology (including human anatomy) and chemistry transfo ...

. In 1543,

changed the scientific world by publishing ''

''. This was the first time that a heliocentric model had seriously been considered, and publicised, and a resulted in a slew of opinions on how the universe may worked. One such place that these debates existed was the

which was home to many astronomers, astrologists and mathematicians, such as

Erasmus Reinhold Erasmus Reinhold (22 October 1511 – 19 February 1553) was a German astronomer and mathematician, considered to be the most influential astronomical pedagogue of his generation. He was born and died in Saalfeld, Saxony. He was educated, und ...

Philip Melanchthon Philip Melanchthon. (born Philipp Schwartzerdt; 16 February 1497 – 19 April 1560) was a German Lutheran reformer, collaborator with Martin Luther, the first systematic theologian of the Protestant Reformation, intellectual leader of the Lu ...

Caspar Peucer Caspar Peucer ( , ; June 1, 1525 – September 25, 1602) was a German reformer, physician, and scholar of Sorbian origin. Personal life Early life Caspar Peucer was born on June 1, 1525, in Bautzen, (Sachsen, Germany) and died on Septembe ...

, Georg Rheticus, and Albrecht Hohenzollern. The work of such figures became known as the Wittenberg Interpretation, which historians recognise as important in fostering acceptance for the heliocentric explanation of the universe, and the wider shift of public views over time; and the beginning of the

Philipp Melanchthon

Philipp Melanchthon Philip Melanchthon. (born Philipp Schwartzerdt; 16 February 1497 – 19 April 1560) was a German Lutheran reformer, collaborator with Martin Luther, the first systematic theologian of the Protestant Reformation, intellectual leader of the Lu ...

entered Wittenberg studying theology, becoming a leading figure in the Lutheran reformation of the school. During this reformation, Melanchthon introduced many courses in mathematics to Wittenberg, in addition to several other universities. His teachings included

Ptolemy Claudius Ptolemy (; grc-gre, Πτολεμαῖος, ; la, Claudius Ptolemaeus; AD) was a mathematician, astronomer, astrologer, geographer, and music theorist, who wrote about a dozen scientific treatises, three of which were of importanc ...

's ''Librorum de judiciis astrologicis,'' and emphasized a connection between astronomical events and God. In 1536, Melanchthon appointed

Georg Joachim Rheticus Georg Joachim de Porris, also known as Rheticus ( /ˈrɛtɪkəs/; 16 February 1514 – 5 December 1576), was a mathematician, astronomer, cartographer, navigational-instrument maker, medical practitioner, and teacher. He is perhaps best known for ...

and

, two of his previous students, to chairs of Lower and Higher Mathematics. Many scholars studied under and worked alongside Melanchthon however, Rheticus and Reinhold, in addition to

, were considered the most vital members of the

Melanchthon circle The Melanchthon Circle was a 16th-century Lutheran intellectual network centred on the University of Wittenberg in Germany and its leading theologian Philip Melanchthon. It was identified as significant for its interests in natural philosophy by Ly ...

, also referred to as the Wittenberg circle. The men in this circle were astronomers who, under Melanchthon’s leadership, formed analysis of Copernican theory based on theory published in ''

De revolutionibus ''De revolutionibus orbium coelestium'' (English translation: ''On the Revolutions of the Heavenly Spheres'') is the seminal work on the heliocentric theory of the astronomer Nicolaus Copernicus (1473–1543) of the Polish Renaissance. The book, ...

.''

Philipp Melanchthon and Copernican Theory

Prior to the Copernican theory, Melanchthon strongly agreed with the work of Aristotle and Ptolemy. Melanchthon first became familiar with Copernican theory through Rheticus’ ''

Narratio prima ''De libris revolutionum Copernici narratio prima'', usually referred to as ''Narratio Prima'' ( la, First Account), is an abstract of Nicolaus Copernicus' heliocentric theory, written by Georg Joachim Rheticus in 1540. It is an introduction to ...

'' in 1540. He first took the stance that Copernican’s theory was absurd. Melanchthon’s lectures tended to reject Copernican theory as it seemed to conflict with scripture, and advised students to avoid it. Later lectures show that Melanchthon’s views may have changed slightly, as he applauds Copernicus’ lunar theory and suggests it is worth looking at. However, Melanchthon continues to recommend that his students remain concerned with Ptolemaic lunar theory, as he had been teaching up to this point. Melanchthon agrees that the Earth could possibly move and rotate like Copernicus suggests even though it does not agree with the scripture. Throughout his time studying and lecturing on Copernican theory, Melanchthon never ignores the fact that Copernicus defies scripture, an idea which Melanchthon openly disapproves of. However, Melanchthon seems to agree that this new theory has value to the subject of astronomy and there must be something worth learning from Copernican's theory and therefore doesn’t reject it entirely. Like the members of the Melanchthon circle, Melanchthon himself does not fully accept or fully reject Copernican theory, but is instead more moderate. His moderate stance allowed others to view Copernican’s theory from an open point of view.

Caspar Peucer

(1525–1602) entered the University of Wittenburg in 1540. There, he studied astronomy, mathematics, and medicine under the teachings of

and

. Shortly thereafter, he became a professor at the university and the son-in-law of

Melanchthon Philip Melanchthon. (born Philipp Schwartzerdt; 16 February 1497 – 19 April 1560) was a German Lutheran reformer, collaborator with Martin Luther, the first systematic theologian of the Protestant Reformation, intellectual leader of the Lu ...

when he married his daughter Magdalena. Considered one of the most important disciples to carry on the teachings of

, he eventually held a high position within the university and was able to convey the

Melanchthon Circle The Melanchthon Circle was a 16th-century Lutheran intellectual network centred on the University of Wittenberg in Germany and its leading theologian Philip Melanchthon. It was identified as significant for its interests in natural philosophy by Ly ...

’s interpretations of the Copernican theory. Peucer is accredited with being able to effectively consolidate and institutionalize the Wittenburg Interpretation at German universities. He was able to do this by choosing to place

Philippists The Philippists formed a party in early Lutheranism. Their opponents were called Gnesio-Lutherans. Before Luther's death ''Philippists'' was the designation usually applied in the latter half of the sixteenth century to the followers of Phili ...

(partisans of

) in influential positions instead of orthodox Lutherans. This strategic placement eventually lead to a power struggle which resulted in Peucer being charged with being a

crypto-Calvinist Crypto-Calvinism is a pejorative term describing a segment of those members of the Lutheran Church in Germany who were accused of secretly subscribing to Calvinist doctrine of the Eucharist in the decades immediately after the death of Martin Lut ...

and incarcerated in 1576. After his incarceration, his work in astronomy ceased and he focused on practicing medicine.

Caspar Peucer and Copernican Theory

While teaching the curriculum to entry-level natural science students the importance of teaching arithmetic, physics, and astrological teachings of

Aristotle Aristotle (; grc-gre, Ἀριστοτέλης ''Aristotélēs'', ; 384–322 BC) was a Greek philosopher and polymath during the Classical period in Ancient Greece. Taught by Plato, he was the founder of the Peripatetic school of phil ...

Pliny Pliny may refer to: People * Pliny the Elder (23–79 CE), ancient Roman nobleman, scientist, historian, and author of ''Naturalis Historia'' (''Pliny's Natural History'') * Pliny the Younger (died 113), ancient Roman statesman, orator, w ...

Sacrobosco Johannes de Sacrobosco, also written Ioannes de Sacro Bosco, later called John of Holywood or John of Holybush ( 1195 – 1256), was a scholar, monk, and astronomer who taught at the University of Paris. He wrote a short introduction to the Hi ...

, and

was emphasized. An introduction to the Copernican theory was also included within the curriculum, although limited. Peucer mainly cited Copernican quantitative material in order to help explain celestial motions, even though it was different from scripture, and to discuss absolute distances of the sun, moon and earth. He also utilized Copernican data to discuss eclipses and the length of the day. In Peucer’s teachings, the findings of Copernicus could not be utilized in extensive arguments because he was considered to be aligned with the theory of Aristarchus. Peucer thought that Copernicanism was offensive and should not be taught in education; osen, Edward. “A Reply to Dr. Ratner.” ''Journal of the History of Ideas'', vol. 22, no. 3, University of Pennsylvania Press, 1961, pp. 386–88, ./ref> however, although Peucer’s views did not align with Copernican theory, he still had to teach and advised his students to consider Copernican theory because it was a scientific theory. Peucer's views on Copernican theory mirrored the views of his mentors

and

Reinhold Reinhold is a German male given name. This German name is originally from "Reinold", composed of two elements. The first is from ''ragin'', meaning "the (Germanic) Gods" and ''wald'' meaning "powerful". This name was popularised by the ancient Ge ...

. Between the members of the

, each instructor made up a different pedagogic element in the Wittenberg Interpretation. An element of the interpretation that all of the members could agree in teaching was that only a dedicated scholar is capable of understanding astrology and the celestial elements that drive it.

was particularly determined to examine the properties of celestial "''qualitates occultae''". Notably, the members of the circle admired the teachings of Italian scholars, with Rheticus supporting the views of

Girolamo Cardano Gerolamo Cardano (; also Girolamo or Geronimo; french: link=no, Jérôme Cardan; la, Hieronymus Cardanus; 24 September 1501– 21 September 1576) was an Italian polymath, whose interests and proficiencies ranged through those of mathematician, ...

, and Peucer being well read in the works of

Pietro Pomponazzi Pietro Pomponazzi (16 September 1462 – 18 May 1525) was an Italian philosopher. He is sometimes known by his Latin name, ''Petrus Pomponatius''. Biography Pietro Pomponazzi was born in Mantua and began his education there. He completed h ...

. Peucer in particular supported Martin Luther's opposition of

Aristotle's Aristotle (; grc-gre, Ἀριστοτέλης ''Aristotélēs'', ; 384–322 BC) was a Greek philosopher and polymath during the Classical period in Ancient Greece. Taught by Plato, he was the founder of the Peripatetic school of phil ...

view on natural philosophy. He strongly believed that unusual events that did not follow the natural laws was due to divine intervention either by God or the devil. Copernicus's heliocentric theory was inspired by the research of

and firmly followed the laws of natural science without consideration for divine intervention. That being said, at the introductory level Copernican theory was not entertained extensively because Peucer and other members of the circle believed the mechanisms to be too advanced for an introduction to planetary movements. At the Masters level, Copernican theory was covered more in depth, as well as treated with the same serious consideration

Ptolemaic Ptolemaic is the adjective formed from the name Ptolemy, and may refer to: Pertaining to the Ptolemaic dynasty * Ptolemaic dynasty, the Macedonian Greek dynasty that ruled Egypt founded in 305 BC by Ptolemy I Soter * Ptolemaic Kingdom Pertaining ...

theory received. This higher, in depth level of Copernicans theory was likely taught by pupils of Peucer. Peucer thought that the Copernican theory, heliocentric model could be interpreted in a geocentric way without changing the original hypotheses. Peucer's work '' Hypotyposes orbium coelestium'' states that the Copernican model could be utilized if two more spheres were added. While

acknowledges that the models and theories of

are geometrically accurate, the absence of cosmological choice and incorporation of scriptural arguments made the theories lacking. The issues Peucer had with the work of

Copernicus Nicolaus Copernicus (; pl, Mikołaj Kopernik; gml, Niklas Koppernigk, german: Nikolaus Kopernikus; 19 February 1473 – 24 May 1543) was a Renaissance polymath, active as a mathematician, astronomer, and Catholic canon, who formulated ...

are similar to the Church's trouble with the work of

Galileo Galilei Galileo di Vincenzo Bonaiuti de' Galilei (15 February 1564 – 8 January 1642) was an Italian astronomer, physicist and engineer, sometimes described as a polymath. Commonly referred to as Galileo, his name was pronounced (, ). He was ...

that landed him in trouble. Ironically, the ideas that got Peucer in jail were his views on Holy Communion.

Erasmus Reinhold

Erasmus Reinhold was born in Saalfeld, Saxony in 1511. In 1536,

appointed Reinhold to professor of higher mathematics, a subject which included astronomy, at the University of Wittenberg where Reinhold had previously studied. Reinhold initially became acquainted with Copernican theory through the writings of

, an astronomer and colleague who also worked closely with Melanchthon at the University. Before ''De Revolutionibus orbium coelestium'' was published, Reinhold gained information regarding Copernican theory, specifically regarding the movement of the moon, from ''Narratio prima.'' This book was written by Rheticus, and provided his analysis of Copernican theory. Reinhold believed in uniform circular motion and that two equal and regular circular motions will create a motion in a straight line, an infinite opposite motion, and an unequal motion where it is slower towards the outside than it is in the center. Based on his knowledge of Copernicus’s lunar theory, gained from Rheticus's ''Narratio prima'', Reinhold praised Copernican theory. This is seen in Reinhold’s annotations within Peurbach’s ''New Theorics of the Planets'', published in 1542. In these notes, Reinhold mentions his dissatisfaction with the lack of understanding in modern astronomy, yet also mentions how Copernicus’s lunar theory restores his hope. In additional annotations, Reinhold continually mentions how new Copernican theory simplifies astronomical motion by erasing the need for an

equant Equant (or punctum aequans) is a mathematical concept developed by Claudius Ptolemy in the 2nd century AD to account for the observed motion of the planets. The equant is used to explain the observed speed change in different stages of the plane ...

, an idea previously introduced by the

geocentric model In astronomy, the geocentric model (also known as geocentrism, often exemplified specifically by the Ptolemaic system) is a superseded description of the Universe with Earth at the center. Under most geocentric models, the Sun, Moon, stars, an ...

of the Ptolemaic system. Reinhold was very impressed by Copernicans ability to remove the equant in his theory of the cosmos. This new idea, the rejection of the equant, is the source of Reinhold’s praise of Copernicus and Copernican theory, as it simplifies planetary motion and in his opinion, allows for the future of astronomy to move forward in a smoother, less confusing or cluttered manner. He believed God had allowed Copernicus to discover the movement celestial beings and remove the equant even though it was different from the scripture of the time. After the publication of ''De revolutionibus orbium coelestium'' in 1543'','' Reinhold remained relatively neutral on the issue of a

heliocentric Heliocentrism (also known as the Heliocentric model) is the astronomical model in which the Earth and planets revolve around the Sun at the center of the universe. Historically, heliocentrism was opposed to geocentrism, which placed the Earth at ...

versus a geocentric cosmos. However, he wanted to recalculate and provide clean and simple-to-read tables based on the new ideas of motion presented in ''De revolutioninus''. Reinhold did exactly this as he wrote and published the ''

Prutenic Tables The ''Prutenic Tables'' ( la, Tabulae prutenicae from ''Prutenia'' meaning "Prussia", german: Prutenische oder Preußische Tafeln), were an ephemeris (astronomical tables) by the astronomer Erasmus Reinhold published in 1551 (reprinted in 1562, 1 ...

''. He utilized Copernicans observational data, even though he did not agree with Copernicans heliocentric cosmos, and created the tables based upon Copernicans planetary mechanisms. Melanchthon thoroughly supported this new compilation of tables of motion, and even helped secure funding from Albrecht, the Duke of Prussia, for the publishing the ''Prutenic Tables.''

Georg Joachim Rheticus

, most commonly known as Rheticus, was well known for his trigonometric tables and considered a pupil of Copernicus. He was born on February 16, 1514, in

Feldkirch Feldkirch may refer to: Places * Feldkirch, Vorarlberg, a medieval city and capital of an administrative district in Austria ** Feldkirch (district), an administrative division of Vorarlberg, Austria * Feldkirch (Hartheim), a village in the munici ...

, in present day as

Austria Austria, , bar, Östareich officially the Republic of Austria, is a country in the southern part of Central Europe, lying in the Eastern Alps. It is a federation of nine states, one of which is the capital, Vienna, the most populous ...

. After his father’s execution, Rheticus went on to study at the Latin school in Feldkirch, then went to Zurich where he attended the Frauenmuensterschule from 1528 to 1531. In 1533, he began his studies at the University of Wittenberg. Then in 1536,

, an influential educator in Germany, appointed Rheticus appointed Rheticus as the chair of Lower Mathematics to teach astronomy and mathematics at Wittenberg. Two years after being appointed, Rheticus was given a two year leave of Wittenberg to study alongside other well-known astronomers at that time. His colleagues at Wittenberg described Rheticus’s personality as abnormal and enthusiastic, with homosexual tendencies. They perceived Rheticus as a man who would get caught up by the fame and knowledge of older men, and would fantasize about them. This led them to believe that was the sole purpose of Rheticus asking Melanchthon for the leave of absence from Wittenberg was for Rheticus to become closer to

. Rheticus’s fantasy to work with Copernicus may have been true. However, several factors suggest that Rheticus first learned of Copernicus during his travel across

Germany Germany,, officially the Federal Republic of Germany, is a country in Central Europe. It is the second most populous country in Europe after Russia, and the most populous member state of the European Union. Germany is situated betwe ...

in late 1538. After these two met, their relationship grew strong through sharing revolutionary ideas. Rheticus ended up staying with Copernicus for two and a half years. Rheticus had acquired a father figure in Copernicus and Copernicus acquired the only real student he would ever have.

Rheticus and Copernican theory

Unlike the other students of Melanchthon,

and Peucer, who doubted Copernicus’s theory, Rheticus praised Copernicus for asserting an ‘absolute system’ of the planets. In 1540, Rheticus wrote the ''De libris revolutionum Copernici narratio prima'', commonly known as ''

'', an introduction to the theories of Copernicus. Along with the publication, he visited a publisher and printer in Nuremberg in order to push Copernicus to publish his work ''

De Revolutionibus orbium coelestium ''De revolutionibus orbium coelestium'' (English translation: ''On the Revolutions of the Heavenly Spheres'') is the seminal work on the heliocentric theory of the astronomer Nicolaus Copernicus (1473–1543) of the Polish Renaissance. The book, ...

''. Copernicus developed his heliocentric theory after realizing that the retrograde motion of the planets could be explained much better without epicycles, with the

Earth Earth is the third planet from the Sun and the only astronomical object known to harbor life. While large volumes of water can be found throughout the Solar System, only Earth sustains liquid surface water. About 71% of Earth's surfa ...

orbiting the Sun rather than the other way around. Rheticus believed that the

heliocentric universe Heliocentrism (also known as the Heliocentric model) is the astronomical model in which the Earth and planets revolve around the Sun at the center of the universe. Historically, heliocentrism was opposed to Geocentric model, geocentrism, which p ...

should be adopted because it could explain the phenomena of the precession of the

equinox A solar equinox is a moment in time when the Sun crosses the Earth's equator, which is to say, appears directly above the equator, rather than north or south of the equator. On the day of the equinox, the Sun appears to rise "due east" and se ...

es and the change in the obliquity of the ecliptic. If the Sun was the center of the

deferents In the Hipparchus, Hipparchian, Ptolemaic system#Ptolemaic model, Ptolemaic, and Copernican heliocentrism, Copernican systems of astronomy, the epicycle (, meaning "circle moving on another circle") was a geometric model used to explain the var ...

of the planets, it allowed the circles in the universe to revolve uniformly and regularly, it united all the spheres into one system, and it was a simpler model with fewer explanations necessary. Rheticus also accepted Copernicans' idea of the moon moving on and epicycle rather than its movement on an equant (1). Rheticus's time visiting Copernicus allowed for his theory to become known since he was able to push Copernicus into publishing his work to be read by others. Wittenberg textbooks emphasized the problems of the Copernican theory and how it related to the calendar, lunar motion, and the rejection of the

. The

also contained ideas that were not found in ''De revolutionibus'' or in any of Copernicus’s other writings. The book emphasized the demonstration of a system in the necessary interconnexity of the relative distance and periods of the planets, a problem in the Copernican theory that the textbooks did not mention. Rheticus claimed that a common measure was established to explain how the planets were geometrically aligned and arranged so that no immense interval was left between one and the other. His claim made three assumptions about the planetary models: that each planet is carried by a uniformly revolving sphere, that the principle of plenitude states, there are no gaps between the spheres, and that the relative planetary positions are to be measured with respect to a common unit. He wanted to eliminate the earth’s projected motion which appeared as the epicycles in earth-centered planetary models, allowing for the planets to be placed continuously based on their mean periodic motions. Copernicus and Rheticus both knew that there would be backlash. One theologian,

Andreas Osiander Andreas Osiander (; 19 December 1498 – 17 October 1552) was a German Lutheran theologian and Protestant reformer. Career Born at Gunzenhausen, Ansbach, in the region of Franconia, Osiander studied at the University of Ingolstadt before b ...

, in order to forestall censorship of Copernicus's work, wrote an anonymous preface that described the work as a pure hypothesis. Rheticus became furious and crossed out the preface in those copies of ''De revolutionibus'' that he came across. The Church also emphasized that Copernicus’s theory was against scripture and believed that the world revolved around the Earth and were persistent with the Earth being in the center. Some science was frowned upon by the church because it was uncertain in the

Bible The Bible (from Koine Greek , , 'the books') is a collection of religious texts or scriptures that are held to be sacred in Christianity, Judaism, Samaritanism, and many other religions. The Bible is an anthologya compilation of texts of a ...

, and certain knowledge of physics is not necessary to human salvation. However, knowledge of astronomy is demanded of great men by God. The Copernican theory indicates that the earth is a planet, that all planets have defects, and all are subject only to circular motions. Rheticus argues that these characteristics are not a physical problem but a mathematical one. With this claim, he aimed to shift the perspective of the Church so that the theory could be explained mathematically, which would be more acceptable since it represented direct testimony of God’s Providence and God gave clues to it in Scripture.

Albrecht Hohenzollern

Albrecht (Albert), Duke of Prussia was not only the first Duke of Prussia, but also a Lutheran, who believed strongly in the importance of students learning mathematics, astronomy, and other scientific topics. Religion was a very important part of Albrecht’s life: his rule of

Prussia Prussia, , Old Prussian: ''Prūsa'' or ''Prūsija'' was a German state on the southeast coast of the Baltic Sea. It formed the German Empire under Prussian rule when it united the German states in 1871. It was ''de facto'' dissolved by an em ...

was crucial to the spread of

Lutheranism Lutheranism is one of the largest branches of Protestantism, identifying primarily with the theology of Martin Luther, the 16th-century German monk and Protestant Reformers, reformer whose efforts to reform the theology and practice of the Cathol ...

, as he was the first leader in Europe to rule his people under it. It is somewhat surprising that Albrecht remained so interested and invested in the sciences, as there were many debates at the time as to whether or not the new astronomical considerations went against the views of the world in the Bible. Despite these conflicts, Albrecht was a fairly well-liked ruler. His religious beliefs led to him acting as a “protector” of sorts, and at various times he supported both Rheticus and Reinhold. The ''Prutenic Tables'' are named in his honor.

Albrecht's Influence at Wittenberg

One reason Albrecht was able to balance his religious and scientific beliefs was his close personal relationship with Philip Melanchthon, which helped to further shape his belief in these scientific systems, causing him to even go so far as to appointment a court astrologer,

Johann Carion Johann Carion (22 March 1499 – 2 February 1537) was a German astrologer, known also for historical writings. Life He was court astrologer to Elector Joachim I Nestor of Brandenburg. A prognostication he published in 1521 gained him a later re ...

. Albrecht was also considered a very important “protector” of people like

and Rheticus. As he was a Protestant/Lutheran, these men knew that he had the power to protect them from being charged with the crime of spreading beliefs that went against the current interpretation of the Bible. In April of 1540, Albrecht’s associate, Giese, sent to Albrecht a copy of Rheticus's ''Narratio prima'', which included very high praise of Prussia, and a request by Rheticus to come study and continue his work in Prussia, specifically at Albrecht's court. However, he also hinted at the fact that he wanted to be protected, as he was a Lutheran and knew that Albrecht was as well. Despite the fact that Albrecht had never heard of this new mathematician before, he obliged: he sent back a “lisbonino”, which was a gold coin that was meant for showcasing, rather than being used as currency. This was a truly important move, as it allowed Rheticus to continue his studies and work in Prussia, and led to Rheticus's later appointment at Leipzig. Albrecht’s contribution to the Wittenberg interpretation was one that had profound implications. Allowing Rheticus to come to Prussia allowed him to further his own studies, which in turn solidified the

Conclusion

Most of the astronomers and mathematicians at Wittenberg (Melanchthon, Peucer, Reinhold) took a more moderate stance toward the Copernican theory and only accepted parts of it to be true. This was due to the fact that most of Copernican’s ideas went against the scripture at the time and having ideas that were different from the scripture were frowned upon and not easily accepted. However, Rheticus strongly supported Copernicus after visiting with him and his time studying in Prussia alongside Albrecht. Rheticus came to the conclusion that Copernican’s heliocentric model made more sense than the previous geocentric model suggested by Ptolemy. His open views on the Copernican theory allowed others to be able to view the theory with an open mind. While all the teachers at the University of Wittenberg had different ideas and acceptances of the cosmos they all taught their students about both Ptolemy’s cosmos and Copernican’s cosmos to give their students a well-rounded education. Overall, the Wittenberg Interpretation changed the way astronomers and mathematicians viewed the heliocentric and geocentric models of the cosmos and how it was taught throughout German universities.

References

Bibliography

* Barker, Peter, Tredwell, Katherine Anne. (2005). ''The exact sciences in Lutheran Germany and Tudor England''. . * Brosseder, Claudia (2005). "The Writing in the Wittenberg Sky: Astrology in Sixteenth-Century Germany". ''Journal of the History of Ideas''. 66(4): 557–576. . * Copernicus, Nicolaus (1952), ''On the Revolutions of the Heavenly Spheres'', Great Books of the Western World, 16, translated by Charles Glenn Wallis, Chicago: William Benton *Danielson, Dennis Richard (2006-10-31). The First Copernican: Georg Joachim Rheticus and the Rise of the Copernican Revolution. Bloomsbury Publishing USA. . * Evans, James (December 1984). "On the function and the probable origin of Ptolemy's equant". ''American Journal of Physics''. 52 (12): 1080–1089. . *Gingerich, Owen (1973). "From Copernicus to Kepler: Heliocentrism as Model and as Reality". ''Proceedings of the American Philosophical Society''. 117 (6): 513–522. . * Gingerich, Owen (1973). "The role of Erasmus Reinhold and the Prutenic Tables in the Dissemination of Copernican Theory", ''Studia Copernicana'', 6 *Grafton, Anthony (2017). "The Middleman:. American Scientist. 2017-02-06. *Kraai, Jessse (200). "Rheticus' Heliocentric Providence: a study concerning the astrology, astronomy of the sixteenth century". *Rabin, Sheila (2019), Zalta, Edward N. (ed.), "Nicolaus Copernicus", The Stanford Encyclopedia of Philosophy (Fall 2019), Metaphysics Research Lab, Stanford University. *Vermij, Rienk (2010). "A Science of Signs. Aristotelian Meteorology in Reformation Germany". ''Early Science and Medicine''. 15 (6): 648–674. . * Westman, Robert S. (1975). "The Melanchthon Circle, Rheticus, and the Wittenberg Interpretation of the Copernican Theory". ''Isis''. 66 (2): 165–193. . *Westman, Robert S. (2011). "The Copernican Question: Prognostication, Skepticism, and Celestial Order" {{ISBN, 9780520254817 *Ferry, Patrick T. (1993). "The Guiding Lights of the University of Wittenberg and the Emergence of Copernican Astronomy". ''Concordia Theological Quarterly.'' *Tupikova, Irina and Omodeo, Pietro (2013) "The Post-Copernican Reception of Ptolemy: Erasmus Reinhold's Commented Edition of the ''Almagest'', Book One (Wittenberg, 1549)". ''Journal for the History of Astronomy.'' Copernican Revolution Academic staff of the University of Wittenberg