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| title | chunk | source | category | tags | date_saved | instance |
|---|---|---|---|---|---|---|
| Christianity and science | 6/11 | https://en.wikipedia.org/wiki/Christianity_and_science | reference | science, encyclopedia | 2026-05-05T06:23:03.062134+00:00 | kb-cron |
The Catholic Cistercian order used its own numbering system, which could express numbers from 0 to 9999 in a single sign. According to one modern Cistercian, "enterprise and entrepreneurial spirit" have always been a part of the order's identity, and the Cistercians "were catalysts for development of a market economy" in twelfth-century Europe. Until the Industrial Revolution, most of the technological advances in Europe were made in the monasteries. According to the medievalist Jean Gimpel, their high level of industrial technology facilitated the diffusion of new techniques: "Every monastery had a model factory, often as large as the church and only several feet away, and waterpower drove the machinery of the various industries located on its floor." Waterpower was used for crushing wheat, sieving flour, fulling cloth and tanning – a "level of technological achievement [that] could have been observed in practically all" of the Cistercian monasteries. The English science historian James Burke examines the impact of Cistercian waterpower, derived from Roman watermill technology such as that of Barbegal aqueduct and mill near Arles in the fourth of his ten-part Connections TV series, called "Faith in Numbers". The Cistercians made major contributions to culture and technology in medieval Europe: Cistercian architecture is considered one of the most beautiful styles of medieval architecture; and the Cistercians were the main force of technological diffusion in fields such as agriculture and hydraulic engineering.
==== Jesuits in science ====
Between the sixteenth and eighteenth centuries, the teaching of science in Jesuit schools, as laid down in the Ratio atque Institutio Studiorum Societatis Iesu ("The Official Plan of studies for the Society of Jesus") of 1599, was almost entirely based on the works of Aristotle. The Jesuits, nevertheless, have made numerous significant contributions to the development of science. For example, the Jesuits have dedicated significant study to earthquakes, and seismology has been described as "the Jesuit science". The Jesuits have been described as "the single most important contributor to experimental physics in the seventeenth century". According to Jonathan Wright in his book God's Soldiers, by the eighteenth century the Jesuits had "contributed to the development of pendulum clocks, pantographs, barometers, reflecting telescopes and microscopes, to scientific fields as various as magnetism, optics and electricity. They observed, in some cases before anyone else, the colored bands on Jupiter's surface, the Andromeda nebula and Saturn's rings. They theorized about the circulation of the blood (independently of Harvey), the theoretical possibility of flight, the way the moon affected the tides, and the wave-like nature of light." The Jesuit China missions of the sixteenth and seventeenth centuries introduced Western science and astronomy, then undergoing its own revolution, to China. One modern historian writes that in late Ming courts, the Jesuits were "regarded as impressive especially for their knowledge of astronomy, calendar-making, mathematics, hydraulics, and geography". The Society of Jesus introduced, according to Thomas Woods, "a substantial body of scientific knowledge and a vast array of mental tools for understanding the physical universe, including the Euclidean geometry that made planetary motion comprehensible". Another expert quoted by Woods said the Scientific Revolution brought by the Jesuits coincided with a time when science was at a very low level in China. The missionary efforts and other work of the Society of Jesus, or Jesuits, between the 16th and 17th century played a significant role in continuing the transmission of knowledge, science, and culture between China and the West, and influenced Christian culture in Chinese society today.
=== Protestant influence ===
Protestantism has promoted economic growth and entrepreneurship, especially in the period after the Scientific and the Industrial Revolution. Scholars have identified a positive correlation between the rise of Protestantism and human capital formation, work ethic, economic development, and the development of the state system. Protestantism had an important influence on science, according to the Merton thesis there was a positive correlation between the rise of Puritanism and Protestant Pietism on the one hand and early experimental science on the other. The Merton thesis has two separate parts: Firstly, it presents a theory that science changes due to an accumulation of observations and improvement in experimental techniques and methodology; secondly, it puts forward the argument that the popularity of science in seventeenth-century England and the religious demography of the Royal Society (English scientists of that time were predominantly Puritans or other Protestants) can be explained by a correlation between Protestantism and the scientific values. In his theory, Robert K. Merton focused on English Puritanism and German Pietism as having been responsible for the development of the Scientific Revolution of the seventeenth and eighteenth centuries. Merton explained that the connection between religious affiliation and interest in science was the result of a significant synergy between the ascetic Protestant values and those of modern science. Protestant values encouraged scientific research by allowing science to study God's influence on the world and thus providing a religious justification for scientific research. According of Scientific Elite: Nobel Laureates in the United States by Harriet Zuckerman, a review of American Nobel Prize winners awarded between 1901 and 1972, 72% of American Nobel Prize laureates, have identified from Protestant background. Overall, Americans of Protestant background have won a total of 84.2% of all awarded Nobel Prizes in Chemistry, 60% in Medicine, 58.6% in Physics, between 1901 and 1972. Some of the first colleges and universities in America, including Harvard, Yale, Princeton, Columbia, Dartmouth, Pennsylvania, Duke, Boston, Williams, Bowdoin, Middlebury, and Amherst, all were founded by mainline Protestant denominations.
==== Quakers in science ====