{"id":84110,"date":"2016-11-01T00:00:00","date_gmt":"2016-11-01T00:00:00","guid":{"rendered":"https:\/\/newcriterion.com\/article\/science-the-revolution\/"},"modified":"2024-03-26T14:19:02","modified_gmt":"2024-03-26T18:19:02","slug":"science-the-revolution","status":"publish","type":"article","link":"https:\/\/newcriterion.com\/article\/science-the-revolution\/","title":{"rendered":"Science: the revolution"},"content":{"rendered":"

The<\/span> Scientific Revolution in seventeenth-century Europe was Western civilization\u2019s adolescent growth spurt. Methods were found to expose the workings of Nature and set rolling four centuries of technological, medical, and intellectual progress. No other civilization did that of its own accord, though some have been eager enough to imitate the results. Understanding what exactly happened, and how and why it happened (and how and why it didn\u2019t happen anywhere else) is important. It is also, as contemporary jargon has it, \u201ccontested.\u201d<\/p>\n

Some of those doing the contesting are the usual suspects, writers of postmodernist bent who object to the whole notion that science progresses and often works its way towards the truth. Wootton writes, \u201cThe anxiety which now troubles historians when they read the words \u2018scientific,\u2019 \u2018revolution,\u2019 \u2018modern\u2019 and (worst of all) \u2018progress\u2019 in studies of seventeenth-century natural science is not just a fear of anachronistic language; it is a symptom of a much larger intellectual crisis which has expressed itself in a general retreat from grand narratives of every sort.\u201d Quite so.<\/p>\n

Wootton is no relativist and tells a firmly \u201cWhig\u201d history, in the sense of a story of progress from ignorance to success. It is not a survey of the Scientific Revolution\u2019s discoveries, or a popular history of seventeenth-century science. It is more a description of intellectual tools with examples\u2014tools like geometry and the model of the universe as a clock, the concepts of hypothesis, evidence and facts, the idea of how to confront theory with experiments. The account is clear, readable, and adorned with excellent and detailed examples that point up how the \u201cnatural philosophers,\u201d as they called themselves, found the way to break through into nature\u2019s secrets and developed a method for apparently endless progress in science and in its applications to technology.<\/p>\n

\n

Newcomen was a talented man of the people with mechanical skills similar to a medieval millwright.<\/p>\n<\/blockquote>\n

One notably interesting section is the full account of the first useful steam engines around 1700, both the workable but really toy ones invented by the scientists Papin and Savery, and the large, commercially successful ones designed and built by the provincial ironmonger and lay preacher Thomas Newcomen. The latter were large, slow-moving, fixed engines very useful for pumping out mines. Wootton explains carefully and with diagrams how these worked and what the engineering obstacles were to usable steam power. A peculiarity of Newcomen\u2019s design is that it will work properly only if it is large\u2014ideally about two or three times the height of a person\u2014so it is hard to invent because the concept cannot be properly tested in a scale model. Newcomen raises a problem for the story that technology is applied science, as promised by the promoters of the new science in the early Royal Society. It appears that he was a talented man of the people with mechanical skills similar to a medieval millwright, untroubled by the doings of scientific intellectuals. Wootton argues that he could have and must have read some of Papin\u2019s writings, but possibly, rather than his work on steam, his New Digester of Bones<\/span>, an account of a kind of pressure cooker for rendering down surplus animal parts.<\/p>\n

Despite his correctness on the main issue, Wootton has some failures of emphasis, something wrong with the big picture. Two essential ingredients of the Scientific Revolution in particular are explained inadequately, the medieval background and mathematics.<\/p>\n

Wootton accepts the self-image of the propagandists of the early Royal Society. According to them (essentially, to Sprat\u2019s 1667 History<\/span> of the Royal Society<\/span>), the Scientific Revolution is entirely new, English, experimental, inductive, and Baconian (in the sense of building up theories from masses of carefully collected facts). Gentlemen write in to the Society with their observations, savants \u201ctorture nature\u201d with their experimental apparatuses, then the results are summarized in ever more general laws. (The phrase \u201claws of nature\u201d is largely a concoction of the early Royal Society, intended to suggest that natural regularities are the commands of God.) The medieval obfuscations of Aristotelian philosophers are confounded. Knowledge of those laws effects miraculous transformations in useful technology.<\/p>\n

According to that story, the chief enemy of the new science was the old Aristotelianism. Hidebound scholastic reactionaries occupying the university posts opposed the new thinkers in science and philosophy, who turned to the things themselves and threw open the windows on the dusty cobwebs of medieval tradition. That is something like saying that Anglophone democracy was created suddenly in 1776 in reaction to the evils of British absolute monarchy. Just as the parliamentary democracy established in England from 1688 supplied the assumptions and tradition within which the American \u201crevolutionaries\u201d could make certain new moves, so the pro-scientific Aristotelian tradition at independent universities formed the matrix within which the new men of the seventeenth century could kick over one or two traces. If we take a moment to compare the scientific culture of the seventeenth century with alternatives, such as the Islamic, Chinese, or Indian cultures of those times (much less more distant Aztec, Hebrew, or Scythian ones), it is immediately clear that late medieval Aristotelianism and the Scientific Revolution are closely related. Their relationship is that of childhood to adolescence. The former caused the latter much more than it impeded it. Wootton is aware of books like Hannam\u2019s God\u2019s Philosophers <\/span>which demonstrate how that happened, but works to minimize their significance and to argue that the middle ages came up with mere preconditions for science.<\/p>\n

Wootton lacks a solid grasp of the middle ages. He has collected many facts about that era, but solely for the purpose of showing the differences between then and later times. There were indeed many differences, and some of the highlights of the book involve the strangeness of what it was like not to know some of the basic facts of modern science. Particularly fascinating is the detailed account of pre-modern theories about the sphere of the earth. We all know, and we take for granted as the only possibility, that the earth is a near-sphere of solid rock (on the outside at least), and the sea fills in the hollows. In 1500, they didn\u2019t know that. Of several theories, the leading one was that there were two spheres, a smaller earth one and a bigger water one, with different centers. The earth sphere floated in the water sphere, poking out at the top so as to form the known land mass of Eurasia-Africa. The implication was that most of the surface of the globe must have been sea, so heading west in search of India was probably not a productive enterprise. Anyone spruiking a harebrained project like that would need to talk very fast and to find patrons as gullible as they were rich. If he were to promise to lead the expedition himself, that would be evidence of his sincerity, but not necessarily of his sanity.<\/p>\n

The<\/span> trouble, though, with looking just for differences between medieval and later thought is that it obscures how like us the medievals were and how much of the tools and results of science they actually discovered. Wootton labors to show that the very notion of discovery was absent before 1492 and that the word \u201cdiscovery\u201d only came into use as a result of the voyages to the East and West Indies. The medievals were not stupid and knew a discovery when they saw one. A sermon by a Fra Giordano in the church of Santa Maria Novella in Florence in 1306 says that it is not twenty years since the art of making eyeglasses was \u201cfound,\u201d and it was still possible to speak to the man who did it. That was not a one-off novelty either. The era in question included the excitement over Marco Polo\u2019s account of the marvels of Cathay, Dante, Giotto\u2019s advances in representing space, and the competitive cathedral building spree that gave us the massive Duomo of Florence. A visitor to Santa Maria Novella today can see the oldest surviving perspective painting constructed according to proper geometrical principles, Masaccio\u2019s Holy Trinity<\/span>. It dates from about 1425, a century and a half before Wootton dates the very beginning of science.<\/p>\n

The same lesson arises from thinking about the self-refuting nature of the early Royal Society\u2019s writing learned books on their own \u201cdiscovery\u201d of experimentation. The existence of the printed book depends on Gutenberg\u2019s intense program of experimentation with papers, inks, presses, and the casting of metal type, a full two centuries earlier.<\/p>\n

\n

Seventeenth-century mathematical science, from Galileo to Newton, was something wholly different.<\/p>\n<\/blockquote>\n

The other thing wrong with swallowing the early Royal Society\u2019s myth-making is that it takes too seriously their picture of science as a bottom-up process of inducing general results from particular observations and experiments.<\/p>\n

Some science did proceed that way, especially in the less general sciences like chemistry and biology. Some of it even successfully so (and some not, such as the gruesome Royal Society experiments on transfusions of sheep\u2019s blood into humans). But the most spectacular successes of the Scientific Revolution were nothing like that. They were continental, top-down, and mathematical instead of inductive, and the product of the mind of individual geniuses penetrating the necessities behind the flux of appearances, much as Aristotle had claimed science should be. Galileo\u2019s mechanics, Pascal\u2019s laws of pressure and his foundational work on probability, Huygens\u2019s model of the propagation of light, Leibniz\u2019s calculus\u2014those were insights into the nature of things by top-quality individual minds, not accumulations of observations and experiments. Galileo, though an excellent experimenter himself, impudently says, \u201cWithout experiment, I am sure that the effect will happen as I tell you, because it must happen that way.\u201d Even more embarrassingly for the Sprat story, Newton\u2019s Mathematical Principles of Natural Philosophy<\/span> was the same. As Pope wrote, \u201cGod said, \u2018Let Newton be\u2019\/ And all was light.\u201d That is not follow-your-nose induction.<\/p>\n

Wootton\u2019s chapter on \u201cthe mathematization of nature\u201d misses that story entirely. It does deal well with earlier events such as perspective, astronomy, map-making, and anatomy. (Indeed, it shows usefully that a mathematical revolution of a kind was under way well before what we call the Scientific Revolution.) But seventeenth-century mathematical science, from Galileo to Newton, was something wholly different. It was much more than a mathematical description of nature, in the way perspective paintings or maps are. It was a continuation by other means of the Aristotelian project of pure intellectual insight into nature\u2014by means of quantities and formulas. Kepler\u2019s inferring of elliptical planetary orbits from data was indeed inductive, but the point of Newton\u2019s derivation of them from the inverse square law of gravity was to explain why they must <\/span>be elliptical. The mathematical reasoning demonstrates a necessary connection, in just the way that Aristotle explains eclipses geometrically.<\/p>\n

Newton is an embarrassment in another way for the anti-Aristotelian story. The new order made fun of the scholastics for their supposedly merely verbal explanations, like attributing the powers of a sleeping drug to an inherent \u201cdormitive virtue.\u201d Very funny, but then Newton\u2019s \u201cgravity\u201d was an occult quality in exactly the same sense. All there is to gravity is its being postulated to \u201cexplain\u201d the observed attraction of distant bodies. It works according to a mathematical formula, but it is not the sort of cause that the new science and its \u201cmechanical philosophy\u201d was hoping for, like corpuscles or internal geared wheels.<\/p>\n

Now that Western civilization has reached its vigorous middle age\u2014or declined into its dotage, as the case may be\u2014it is time to reflect on where it came from. Wootton\u2019s book is a lucid and reliable guide to important parts of what happened, just a little biased in what it (in postmodern language) \u201cconstructs as other.\u201d<\/a><\/p>\n","protected":false},"excerpt":{"rendered":"","protected":false},"author":1401,"featured_media":131464,"template":"","tags":[971,745,774,928],"department_id":[561],"issue":[2945],"section":[],"acf":{"participants":{"simple_value_formatted":"","value_formatted":null,"value":null,"field":{"ID":0,"key":"field_65fd9fbaa0408","label":"Authors","name":"participants","aria-label":"","prefix":"acf","type":"user","value":null,"menu_order":0,"instructions":"","required":0,"id":"","class":"","conditional_logic":0,"parent":"group_647e2b3c6941d","wrapper":{"width":"","class":"","id":""},"role":"","return_format":"array","multiple":1,"allow_null":0,"bidirectional":0,"bidirectional_target":[],"_name":"participants","_valid":1}},"page_number":{"simple_value_formatted":78,"value_formatted":78,"value":"78","field":{"ID":0,"key":"field_647e2bc0c860c","label":"Page Number","name":"page_number","aria-label":"","prefix":"acf","type":"number","value":null,"menu_order":1,"instructions":"","required":0,"id":"","class":"","conditional_logic":0,"parent":"group_647e2b3c6941d","wrapper":{"width":"","class":"","id":""},"default_value":"","min":"","max":"","placeholder":"","step":"","prepend":"","append":"","_name":"page_number","_valid":1}},"featured_image_credits":{"simple_value_formatted":"Cristiano Banti<\/i>, Galileo Facing the Roman Inquisition, 1857<\/i>, Oil on canvas, Private collection. 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