- History of science in the Renaissance
During the
Renaissance , the rediscovery of ancient scientific texts was accelerated after theFall of Constantinople in1453 , and the invention ofprinting which would democratize learning and allow a faster propagation of new ideas. But, at least in its initial period, the Renaissance is usually seen as one of scientific backwardness. Historians likeGeorge Sarton andLynn Thorndike have criticized how the Renaissance affectedscience , arguing that progress was slowed. Humanists favored human-centered subjects like politics and history over study ofnatural philosophy orapplied mathematics . Others have focused on the positive influence of the Renaissance, pointing to factors like the rediscovery of lost or obscure texts and the increased emphasis on the study of language and the correct reading of texts.Marie Boas Hall coined the term Scientific Renaissance to designate the early phase of theScientific Revolution . More recently, Peter Dear has argued for a two-phase model ofearly modern science: a "Scientific Renaissance" of the 15th and 16th centuries, focused on the restoration of the natural knowledge of the ancients; and a "Scientific Revolution" of the 17th century, when scientists shifted from recovery to innovation.Context
During and after the
Renaissance of the 12th century , Europe experienced an intellectual revitalization, especially with regard to the investigation of the natural world. In the14th century , however, a series of events that would come to be known as theCrisis of the Late Middle Ages was underway. When theBlack Death came, it brought a sudden end to the previous period of massive scientific change. The plague killed 25–50% of the people in Europe, especially in the crowded conditions of the towns, where the heart of innovations lay. Recurrences of the plague and other disasters caused a continuing decline of population for a century.The Renaissance
The
14th century saw the beginning of the cultural movement of theRenaissance . The rediscovery of ancient texts was accelerated after theFall of Constantinople , in1453 , when many Byzantine scholars had to seek refuge in the West, particularlyItaly . Also, the invention ofprinting was to have great effect on European society: the facilitated dissemination of the printed word democratized learning and allowed a faster propagation of new ideas.But this initial period is usually seen as one of scientific backwardness. There were no new developments in physics or astronomy, and the reverence for classical sources further enshrined the Aristotelian and Ptolemaic views of the universe. Philosophy lost much of its rigour as the rules of
logic and deduction were seen as secondary to intuition and emotion. At the same time,Humanism stressed that nature came to be viewed as an animate spiritual creation that was not governed by laws or mathematics. Science would only be revived later, with such figures asCopernicus ,Francis Bacon , andDescartes .Important developments
Alchemy
Alchemy is the study of the transmutation of materials through obscure processes. It is sometimes described as an early form ofchemistry . One of the main aims of alchemists was to find a method of transmuting lead to gold. A common belief of alchemists was that there is an essential substance from which all other substances formed, and that if you could reduce a substance to this original material, you could then construct it into another substance, like lead to gold. Medieval alchemists worked with two elements, sulphur and mercury.Paracelsus was an alchemist and physician of the Renaissance. The Paracelsians added a third element, salt, to make a trinity of alchemical elements.Astronomy
The astronomy of the late Middle Ages was based on the
geocentric model described byClaudius Ptolemy in Antiquity. Probably very few practicing astronomers or astrologers actually read Ptolemy's "Almagest ", which had been translated into Latin byGerard of Cremona in the 12th century. Instead they relied on introductions to thePtolemaic system such as the "De sphaera mundi " ofJohannes de Sacrobosco and the genre of textbooks known as "Theorica planetarum". For the task of predicting planetary motions they turned to theAlfonsine Tables , a set of astronomical tables based on the "Almagest" models but incorporating some later modifications, mainly thetrepidation model attributed toThabit ibn Qurra . Contrary to popular belief, astronomers of the Middle Ages and Renaissance did not resort to "epicycles on epicycles" in order to correct the original Ptolemaic models—until one comes to Copernicus himself.Sometime around 1450, mathematician
Georg Purbach (1423–1461) began a series of lectures on astronomy at theUniversity of Vienna .Regiomontanus (1436–1476), who was then one of his students, collected his notes on the lecture and later published them as "Theoricae novae planetarum" in the 1470s. This "New "Theorica" replaced the older "theorica" as the textbook of advanced astronomy. Peurbach also began to prepare a summary and commentary on the "Almagest". He died after completing only six books, however, and Regiomontanus continued the task, consulting a Greek manuscript brought from Constantinople byCardinal Bessarion . When it was published in 1496, the "Epitome of the Almagest" made the highest levels of Ptolemaic astronomy widely accessible to many European astronomers for the first time.The last major event in Renaissance astronomy is the work of
Nicolaus Copernicus (1473–1543). He was among the first generation of astronomers to be trained with the "Theoricae novae" and the "Epitome". Shortly before 1514 he began to explore a shocking new idea that the Earth revolves around the Sun. He spent the rest of his life attempting a mathematical proof ofheliocentrism . When "De revolutionibus orbium coelestium " was finally published in 1543, Copernicus was on his deathbed. A comparison of his work with the "Almagest" shows that Copernicus was in many ways a Renaissance scientist rather than a revolutionary, because he followed Ptolemy's methods and even his order of presentation. In astronomy, the Renaissance of science can be said to have ended with the truly novel works ofJohannes Kepler (1571–1630) andGalileo Galilei (1564–1642).Geography and the New World
In the
history of geography , the key classical text was the "Geographia" of ClaudiusPtolemy (2nd century). It was translated into Latin in the 15th century by Jacopo d'Angelo. It was widely read in manuscript and went through many print editions after it was first printed in 1475. Regiomontanus worked on preparing an edition for print prior to his death; his manuscripts were consulted by later mathematicians inNuremberg .The information provided by Ptolemy, as well as
Pliny the Elder and other classical sources, was soon seen to be in contradiction to the lands explored in theAge of Discovery . The new discoveries revealed shortcomings in classical knowledge; they also opened European imagination to new possibilities.Thomas More 's "Utopia" was inspired partly by the discovery of theNew World .ee also
*
Renaissance magic
*Continuity thesis
*Scientific revolution References
* Dear, Peter. "Revolutionizing the Sciences: European Knowledge and Its Ambitions, 1500–1700". Princeton: Princeton University Press, 2001.
* Debus, Allen G. "Man and Nature in the Renaissance". Cambridge: Cambridge University Press, 1978.
* Grafton, Anthony, et al. "New Worlds, Ancient Texts: The Power of Tradition and the Shock of Discovery". Cambridge: Belknap Press of Harvard University Press, 1992.
* Hall, Marie Boas. "The Scientific Renaissance, 1450–1630". New York: Dover Publications, 1962, 1994.External links
* [http://www.britannica.com/eb/article-58331 Britannica.com—Renaissance science and technology]
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