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A research institute , research centre , or research organization is an establishment founded for doing research . Research institutes may specialize in basic research or may be oriented to applied research . Although the term often implies natural science research, there are also many research institutes in the social science as well, especially for sociological and historical research purposes.

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69-575: The Burnet Institute is an Australian medical institute that combines medical research in the laboratory and the field, with public health action to address major health issues affecting disadvantaged communities in Australia, and internationally. As of 2011, the institute was home to more than 450 medical researchers, working across six main themes: infectious diseases; maternal and child health; sexual and reproductive health; alcohol and other drugs harm reduction; immunity, vaccines and immunisation; and

138-479: A direct tie between "particular aspects of traditional Christianity" and the rise of science. The " Aristotelian tradition " was still an important intellectual framework in the 17th century, although by that time natural philosophers had moved away from much of it. Key scientific ideas dating back to classical antiquity had changed drastically over the years and in many cases had been discredited. The ideas that remained, which were transformed fundamentally during

207-405: A distance is permitted, particles or corpuscles of matter are fundamentally inert. Motion is caused by direct physical collision. Where natural substances had previously been understood organically, the mechanical philosophers viewed them as machines. As a result, Newton's theory seemed like some kind of throwback to "spooky action at a distance ". According to Thomas Kuhn, Newton and Descartes held

276-464: A few years from its first promulgation." In the 19th century, William Whewell described the revolution in science itself – the scientific method – that had taken place in the 15th–16th century. "Among the most conspicuous of the revolutions which opinions on this subject have undergone, is the transition from an implicit trust in the internal powers of man's mind to a professed dependence upon external observation; and from an unbounded reverence for

345-412: A fundamental transformation in scientific ideas across mathematics, physics, astronomy, and biology in institutions supporting scientific investigation and in the more widely held picture of the universe. The Scientific Revolution led to the establishment of several modern sciences. In 1984, Joseph Ben-David wrote: Rapid accumulation of knowledge, which has characterized the development of science since

414-417: A great advancement in science and a progeny of inventions that would relieve mankind's miseries and needs. His Novum Organum was published in 1620, in which he argues man is "the minister and interpreter of nature," "knowledge and human power are synonymous," "effects are produced by the means of instruments and helps," "man while operating can only apply or withdraw natural bodies; nature internally performs

483-461: A mechanical, mathematical world to be known through experimental research. Though it is certainly not true that Newtonian science was like modern science in all respects, it conceptually resembled ours in many ways. Many of the hallmarks of modern science, especially with regard to its institutionalization and professionalization, did not become standard until the mid-19th century. The Aristotelian scientific tradition's primary mode of interacting with

552-475: A projectile's trajectory from a parabola would be only very slight. Scientific knowledge, according to the Aristotelians, was concerned with establishing true and necessary causes of things. To the extent that medieval natural philosophers used mathematical problems, they limited social studies to theoretical analyses of local speed and other aspects of life. The actual measurement of a physical quantity, and

621-438: A reliable foundation on which to confirm mathematical laws using inductive reasoning. Galileo showed an appreciation for the relationship between mathematics, theoretical physics, and experimental physics. He understood the parabola , both in terms of conic sections and in terms of the ordinate (y) varying as the square of the abscissa (x). Galilei further asserted that the parabola was the theoretically ideal trajectory of

690-602: A scientific methodology in which empiricism played a large role. By the start of the Scientific Revolution, empiricism had already become an important component of science and natural philosophy. Prior thinkers , including the early-14th-century nominalist philosopher William of Ockham , had begun the intellectual movement toward empiricism. The term British empiricism came into use to describe philosophical differences perceived between two of its founders Francis Bacon , described as empiricist, and René Descartes , who

759-550: A scientific revolution emerge in the 18th-century work of Jean Sylvain Bailly , who described a two-stage process of sweeping away the old and establishing the new. There continues to be scholarly engagement regarding the boundaries of the Scientific Revolution and its chronology. Great advances in science have been termed "revolutions" since the 18th century. For example, in 1747, the French mathematician Alexis Clairaut wrote that " Newton

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828-449: A uniformly accelerated projectile in the absence of friction and other disturbances. He conceded that there are limits to the validity of this theory, noting on theoretical grounds that a projectile trajectory of a size comparable to that of the Earth could not possibly be a parabola, but he nevertheless maintained that for distances up to the range of the artillery of his day, the deviation of

897-459: Is called accident, if sought for, experiment. The true method of experience first lights the candle [hypothesis], and then by means of the candle shows the way [arranges and delimits the experiment]; commencing as it does with experience duly ordered and digested, not bungling or erratic, and from it deducing axioms [theories], and from established axioms again new experiments. Gilbert was an early advocate of this method. He passionately rejected both

966-531: Is not the same as a retrogression) to a scholastic standard. Innate attractions and repulsions joined size, shape, position and motion as physically irreducible primary properties of matter. Newton had also specifically attributed the inherent power of inertia to matter, against the mechanist thesis that matter has no inherent powers. But whereas Newton vehemently denied gravity was an inherent power of matter, his collaborator Roger Cotes made gravity also an inherent power of matter, as set out in his famous preface to

1035-554: Is quite put out; The Sun is lost, and th'earth, and no man's wit Can well direct him where to look for it. Butterfield was less disconcerted but nevertheless saw the change as fundamental: Since that revolution turned the authority in English not only of the Middle Ages but of the ancient world—since it started not only in the eclipse of scholastic philosophy but in the destruction of Aristotelian physics—it outshines everything since

1104-421: Is the "final cause". The final cause was the aim, goal, or purpose of some natural process or man-made thing. Until the Scientific Revolution, it was very natural to see such aims, such as a child's growth, for example, leading to a mature adult. Intelligence was assumed only in the purpose of man-made artifacts; it was not attributed to other animals or to nature. In " mechanical philosophy " no field or action at

1173-554: Is traditionally assumed to start with the Copernican Revolution (initiated in 1543) and to be complete in the "grand synthesis" of Isaac Newton's 1687 Principia . Much of the change of attitude came from Francis Bacon whose "confident and emphatic announcement" in the modern progress of science inspired the creation of scientific societies such as the Royal Society , and Galileo who championed Copernicus and developed

1242-545: The Baconian method , or simply the scientific method. His demand for a planned procedure of investigating all things natural marked a new turn in the rhetorical and theoretical framework for science, much of which still surrounds conceptions of proper methodology today. Bacon proposed a great reformation of all process of knowledge for the advancement of learning divine and human, which he called Instauratio Magna (The Great Instauration). For Bacon, this reformation would lead to

1311-585: The Neolithic Revolution . The era of the Scientific Renaissance focused to some degree on recovering the knowledge of the ancients and is considered to have culminated in Isaac Newton 's 1687 publication Principia which formulated the laws of motion and universal gravitation , thereby completing the synthesis of a new cosmology . The subsequent Age of Enlightenment saw the concept of

1380-521: The Novum Organum of Bacon, in which the inductive method of philosophizing was first explained." Galileo Galilei has been called the "father of modern observational astronomy ," the "father of modern physics," the "father of science," and "the Father of Modern Science." His original contributions to the science of motion were made through an innovative combination of experiment and mathematics. Galileo

1449-476: The Principia's 1713 second edition which he edited, and contradicted Newton. And it was Cotes's interpretation of gravity rather than Newton's that came to be accepted. The first moves towards the institutionalization of scientific investigation and dissemination took the form of the establishment of societies, where new discoveries were aired, discussed, and published. The first scientific society to be established

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1518-685: The Rockefeller Institute , Carnegie Institution of Washington and the Institute for Advanced Study . Research was advanced in both theory and application. This was aided by substantial private donation. As of 2006, there were over 14,000 research centres in the United States. The expansion of universities into the faculty of research fed into these developments as mass education produced mass scientific communities . A growing public consciousness of scientific research brought public perception to

1587-459: The heliocentric system . In the Axioms Scholium of his Principia, Newton said its axiomatic three laws of motion were already accepted by mathematicians such as Christiaan Huygens , Wallace, Wren and others. While preparing a revised edition of his Principia , Newton attributed his law of gravity and his first law of motion to a range of historical figures. Despite these qualifications,

1656-401: The teleological principle that God conserved the amount of motion in the universe: Gravity, interpreted as an innate attraction between every pair of particles of matter, was an occult quality in the same sense as the scholastics' "tendency to fall" had been.... By the mid eighteenth century that interpretation had been almost universally accepted, and the result was a genuine reversion (which

1725-560: The 14th and 16th centuries and the original discoveries of the school seems to have ended with Narayana Bhattathiri (1559–1632). In attempting to solve astronomical problems, the Kerala school independently discovered a number of important mathematical concepts. The earliest research institute in Europe was Tycho Brahe 's Uraniborg complex on the island of Hven , a 16th-century astronomical laboratory set up to make highly accurate measurements of

1794-522: The 17th century, had never occurred before that time. The new kind of scientific activity emerged only in a few countries of Western Europe, and it was restricted to that small area for about two hundred years. (Since the 19th century, scientific knowledge has been assimilated by the rest of the world). Many contemporary writers and modern historians claim that there was a revolutionary change in world view. In 1611 English poet John Donne wrote: [The] new Philosophy calls all in doubt, The Element of fire

1863-483: The 20th century, Alexandre Koyré introduced the term "scientific revolution", centering his analysis on Galileo. The term was popularized by Herbert Butterfield in his Origins of Modern Science . Thomas Kuhn 's 1962 work The Structure of Scientific Revolutions emphasizes that different theoretical frameworks—such as Einstein 's theory of relativity and Newton's theory of gravity , which it replaced—cannot be directly compared without meaning loss. The period saw

1932-513: The Fall together with man's original purity. In this way, he believed, would mankind be raised above conditions of helplessness, poverty and misery, while coming into a condition of peace, prosperity and security. For this purpose of obtaining knowledge of and power over nature, Bacon outlined in this work a new system of logic he believed to be superior to the old ways of syllogism , developing his scientific method, consisting of procedures for isolating

2001-489: The International Centre for Theoretical Physics and the research complex Elettra Sincrotrone Trieste, the biology project EMBL, and the fusion project ITER which in addition to technical developments has a strong research focus. Research institutes came to emerge at the beginning of the twentieth century. In 1900, at least in Europe and the United States, the scientific profession had only evolved so far as to include

2070-400: The Scientific Revolution, include: Ancient precedent existed for alternative theories and developments which prefigured later discoveries in the area of physics and mechanics; but in light of the limited number of works to survive translation in a period when many books were lost to warfare, such developments remained obscure for centuries and are traditionally held to have had little effect on

2139-514: The comparison of that measurement to a value computed on the basis of theory, was largely limited to the mathematical disciplines of astronomy and optics in Europe. In the 16th and 17th centuries, European scientists began increasingly applying quantitative measurements to the measurement of physical phenomena on the Earth. Galileo maintained strongly that mathematics provided a kind of necessary certainty that could be compared to God's: "...with regard to those few [mathematical propositions ] which

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2208-441: The earlier, Aristotelian approach of deduction , by which analysis of known facts produced further understanding. In practice, many scientists and philosophers believed that a healthy mix of both was needed—the willingness to question assumptions, yet also to interpret observations assumed to have some degree of validity. By the end of the Scientific Revolution the qualitative world of book-reading philosophers had been changed into

2277-660: The early medieval period, several astronomical observatories were built in the Islamic world. The first of these was the 9th-century Baghdad observatory built during the time of the Abbasid caliph al-Ma'mun , though the most famous were the 13th-century Maragheh observatory , and the 15th-century Ulugh Beg Observatory . The Kerala School of Astronomy and Mathematics was a school of mathematics and astronomy founded by Madhava of Sangamagrama in Kerala , India . The school flourished between

2346-402: The eventual separation of science from both philosophy and religion; a major development in human thought. He was often willing to change his views in accordance with observation. In order to perform his experiments, Galileo had to set up standards of length and time, so that measurements made on different days and in different laboratories could be compared in a reproducible fashion. This provided

2415-432: The far-reaching and world-changing character of inventions, such as the printing press , gunpowder and the compass . Despite his influence on scientific methodology, he rejected correct novel theories such as William Gilbert 's magnetism , Copernicus's heliocentrism, and Kepler's laws of planetary motion . Bacon first described the experimental method . There remains simple experience; which, if taken as it comes,

2484-399: The first symbolic notation of parameters in algebra . Newton's development of infinitesimal calculus opened up new applications of the methods of mathematics to science. Newton taught that scientific theory should be coupled with rigorous experimentation, which became the keystone of modern science. Aristotle recognized four kinds of causes, and where applicable, the most important of them

2553-545: The fore in driving specific research developments. After the Second World War and the atom bomb specific research threads were followed: environmental pollution and national defence . 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 transformed

2622-477: The formal cause of a phenomenon (heat, for example) through eliminative induction. For him, the philosopher should proceed through inductive reasoning from fact to axiom to physical law . Before beginning this induction, though, the enquirer must free his or her mind from certain false notions or tendencies which distort the truth. In particular, he found that philosophy was too preoccupied with words, particularly discourse and debate, rather than actually observing

2691-523: The health of young people. With a head office located in Commercial Road, Prahran , Victoria , the institute delivers public health programs across four continents including Africa , Oceania , and Asia and is led by its director and chief executive officer, Professor Brendan Crabb AC , an immunologist. Burnet Institute has particular expertise in infectious diseases (especially HIV, hepatitis viruses, influenza and malaria) and in understanding

2760-465: The human intellect does understand, I believe its knowledge equals the Divine in objective certainty..." Galileo anticipates the concept of a systematic mathematical interpretation of the world in his book Il Saggiatore : Philosophy [i.e., physics] is written in this grand book—I mean the universe—which stands continually open to our gaze, but it cannot be understood unless one first learns to comprehend

2829-478: The human mind was that which was based on experience. He wrote that the human mind was created as a tabula rasa , a "blank tablet," upon which sensory impressions were recorded and built up knowledge through a process of reflection. The philosophical underpinnings of the Scientific Revolution were laid out by Francis Bacon, who has been called the father of empiricism. His works established and popularised inductive methodologies for scientific inquiry, often called

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2898-506: The immune responses to these infections. Their work also focuses on sexual health, drug and alcohol use, both in risky behaviours associated with infectious diseases and as major health problems in their own right. Translating new knowledge into tangible and practical health outcomes is also a major focus of the institute. The Institute grew out of the Virus Laboratory at Queen's Memorial Infectious Disease Hospital, Fairfield Hospital and

2967-400: The language and interpret the characters in which it is written. It is written in the language of mathematics , and its characters are triangles, circles, and other geometrical figures, without which it is humanly impossible to understand a single word of it; without these, one is wandering around in a dark labyrinth. In 1591 François Viète published In Artem Analyticem Isagoge , which gave

3036-461: The leading figures in the scientific revolution imagined themselves to be champions of a science that was more compatible with Christianity than the medieval ideas about the natural world that they replaced. The Scientific Revolution was built upon the foundation of ancient Greek learning and science in the Middle Ages, as it had been elaborated and further developed by Roman/Byzantine science and medieval Islamic science . Some scholars have noted

3105-555: The material world: "For while men believe their reason governs words, in fact, words turn back and reflect their power upon the understanding, and so render philosophy and science sophistical and inactive." Bacon considered that it is of greatest importance to science not to keep doing intellectual discussions or seeking merely contemplative aims, but that it should work for the bettering of mankind's life by bringing forth new inventions, even stating "inventions are also, as it were, new creations and imitations of divine works". He explored

3174-445: The prevailing Aristotelian philosophy and the scholastic method of university teaching. His book De Magnete was written in 1600, and he is regarded by some as the father of electricity and magnetism. In this work, he describes many of his experiments with his model Earth called the terrella . From these experiments, he concluded that the Earth was itself magnetic and that this was the reason compasses point north. De Magnete

3243-678: The principles of mass production and large-scale teamwork to the process of invention in the late 1800s, and because of that, he is often credited with the creation of the first industrial research laboratory. From the throes of the Scientific Revolution came the 17th century scientific academy. In London, the Royal Society was founded in 1660, and in France Louis XIV founded the Académie royale des sciences in 1666 which came after private academic assemblies had been created earlier in

3312-583: The re-discovery of such phenomena; whereas the invention of the printing press made the wide dissemination of such incremental advances of knowledge commonplace. Meanwhile, however, significant progress in geometry, mathematics, and astronomy was made in medieval times. It is also true that many of the important figures of the Scientific Revolution shared in the general Renaissance respect for ancient learning and cited ancient pedigrees for their innovations. Copernicus, Galileo, Johannes Kepler and Newton all traced different ancient and medieval ancestries for

3381-413: The rest," and "nature can only be commanded by obeying her". Here is an abstract of the philosophy of this work, that by the knowledge of nature and the using of instruments, man can govern or direct the natural work of nature to produce definite results. Therefore, that man, by seeking knowledge of nature, can reach power over it—and thus reestablish the "Empire of Man over creation," which had been lost by

3450-495: The rise of Christianity and reduces the Renaissance and Reformation to the rank of mere episodes, mere internal displacements within the system of medieval Christendom.... [It] looms so large as the real origin both of the modern world and of the modern mentality that our customary periodization of European history has become an anachronism and an encumbrance. Historian Peter Harrison attributes Christianity to having contributed to

3519-552: The rise of the Scientific Revolution: historians of science have long known that religious factors played a significantly positive role in the emergence and persistence of modern science in the West. Not only were many of the key figures in the rise of science individuals with sincere religious commitments, but the new approaches to nature that they pioneered were underpinned in various ways by religious assumptions. ... Yet, many of

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3588-609: The salient point is that Newton's theory differed from ancient understandings in key ways, such as an external force being a requirement for violent motion in Aristotle's theory. Under the scientific method as conceived in the 17th century, natural and artificial circumstances were set aside as a research tradition of systematic experimentation was slowly accepted by the scientific community. The philosophy of using an inductive approach to obtain knowledge—to abandon assumption and to attempt to observe with an open mind—was in contrast with

3657-759: The science of motion. The Scientific Revolution was enabled by advances in book production. Before the advent of the printing press , introduced in Europe in the 1440s by Johannes Gutenberg , there was no mass market on the continent for scientific treatises, as there had been for religious books. Printing decisively changed the way scientific knowledge was created, as well as how it was disseminated. It enabled accurate diagrams, maps, anatomical drawings, and representations of flora and fauna to be reproduced, and printing made scholarly books more widely accessible, allowing researchers to consult ancient texts freely and to compare their own observations with those of fellow scholars. Although printers' blunders still often resulted in

3726-512: The seventeenth century to foster research. In the early 18th century, Peter the Great established an educational-research institute to be built in his newly created imperial capital, St Petersburg . His plan combined provisions for linguistic, philosophical and scientific instruction with a separate academy in which graduates could pursue further scientific research. It was the first institution of its kind in Europe to conduct scientific research within

3795-664: The spread of false data (for instance, in Galileo's Sidereus Nuncius (The Starry Messenger), published in Venice in 1610, his telescopic images of the lunar surface mistakenly appeared back to front), the development of engraved metal plates allowed accurate visual information to be made permanent, a change from previously, when woodcut illustrations deteriorated through repetitive use. The ability to access previous scientific research meant that researchers did not have to always start from scratch in making sense of their own observational data. In

3864-432: The standard theory of the history of the Scientific Revolution claims that the 17th century was a period of revolutionary scientific changes. Not only were there revolutionary theoretical and experimental developments, but that even more importantly, the way in which scientists worked was radically changed. For instance, although intimations of the concept of inertia are suggested sporadically in ancient discussion of motion,

3933-458: The stars. In the United States there are numerous notable research institutes including Bell Labs , Xerox Parc , The Scripps Research Institute , Beckman Institute , RTI International , and SRI International . Hughes Aircraft used a research institute structure for its organizational model. Thomas Edison , dubbed "The Wizard of Menlo Park", was one of the first inventors to apply

4002-789: The structure of a university. The St Petersburg Academy was established by decree on 28 January 1724. At the European level, there are now several government-funded institutions such as the European Space Agency (ESA), the nuclear research centre CERN , the European Southern Observatory (ESO) (Grenoble), the European Synchrotron Radiation Facility (ESRF) (Grenoble), EUMETSAT , the Italian-European Sistema Trieste with, among others,

4071-421: The theoretical implications of science and not its application. Research scientists had yet to establish a leadership in expertise. Outside scientific circles it was generally assumed that a person in an occupation related to the sciences carried out work which was necessarily "scientific" and that the skill of the scientist did not hold any more merit than the skill of a labourer. A philosophical position on science

4140-568: The views of society about nature. The Scientific Revolution took place in Europe in the second half of the Renaissance period, with the 1543 Nicolaus Copernicus publication De revolutionibus orbium coelestium ( On the Revolutions of the Heavenly Spheres ) often cited as its beginning. The Scientific Revolution has been called "the most important transformation in human history" since

4209-470: The wisdom of the past, to a fervid expectation of change and improvement." This gave rise to the common view of the Scientific Revolution today: A new view of nature emerged, replacing the Greek view that had dominated science for almost 2,000 years. Science became an autonomous discipline, distinct from both philosophy and technology, and came to be regarded as having utilitarian goals. The Scientific Revolution

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4278-439: The world was through observation and searching for "natural" circumstances through reasoning. Coupled with this approach was the belief that rare events which seemed to contradict theoretical models were aberrations, telling nothing about nature as it "naturally" was. During the Scientific Revolution, changing perceptions about the role of the scientist in respect to nature, the value of evidence, experimental or observed, led towards

4347-402: Was described as a rationalist. Thomas Hobbes , George Berkeley , and David Hume were the philosophy's primary exponents who developed a sophisticated empirical tradition as the basis of human knowledge. An influential formulation of empiricism was John Locke 's An Essay Concerning Human Understanding (1689), in which he maintained that the only true knowledge that could be accessible to

4416-709: Was founded in 1986, named in honour of Sir Frank Macfarlane Burnet as the Macfarlane Burnet Centre for Medical Research, Burnet was a Laureate of the 1960 Nobel Prize for Medicine . The institute's official name is the Macfarlane Burnet Institute for Medical Research and Public Health , more commonly known as the Burnet Institute. In 2002, the Austin Research Institute merged with the Burnet Institute. Research institute In

4485-426: Was influential because of the inherent interest of its subject matter as well as for the rigorous way in which Gilbert describes his experiments and his rejection of ancient theories of magnetism. According to Thomas Thomson , "Gilbert['s]... book on magnetism published in 1600, is one of the finest examples of inductive philosophy that has ever been presented to the world. It is the more remarkable, because it preceded

4554-597: Was not thought by all researchers to be intellectually superior to applied methods. However any research on scientific application was limited by comparison. A loose definition attributed all naturally occurring phenomena to "science". The growth of scientific study stimulated a desire to reinvigorate the scientific discipline by robust research in order to extract "pure" science from such broad categorisation. This began with research conducted autonomously away from public utility and governmental supervision. Enclaves for industrial investigations became established. These included

4623-563: Was one of the first modern thinkers to clearly state that the laws of nature are mathematical. In The Assayer he wrote "Philosophy is written in this grand book, the universe ... It is written in the language of mathematics, and its characters are triangles, circles, and other geometric figures;...." His mathematical analyses are a further development of a tradition employed by late scholastic natural philosophers, which Galileo learned when he studied philosophy. He ignored Aristotelianism. In broader terms, his work marked another step towards

4692-415: Was said in his own life to have created a revolution". The word was also used in the preface to Antoine Lavoisier 's 1789 work announcing the discovery of oxygen. "Few revolutions in science have immediately excited so much general notice as the introduction of the theory of oxygen ... Lavoisier saw his theory accepted by all the most eminent men of his time, and established over a great part of Europe within

4761-583: Was the Royal Society of London. This grew out of an earlier group, centered around Gresham College in the 1640s and 1650s. According to a history of the college: The scientific network which centered on Gresham College played a crucial part in the meetings which led to the formation of the Royal Society. These physicians and natural philosophers were influenced by the "new science", as promoted by Bacon in his New Atlantis , from approximately 1645 onwards. A group known as The Philosophical Society of Oxford

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