Cathedral, Forge, and Waterwheel: Technology and Invention in the Middle Ages

Cathedral, Forge, and Waterwheel: Technology and Invention in the Middle Ages

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by Frances Gies, Joseph Gies

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An illuminating look at the monumental inventions of the Middle Ages, by the authors of Life in a Medieval Castle.  See more details below


An illuminating look at the monumental inventions of the Middle Ages, by the authors of Life in a Medieval Castle.

Editorial Reviews

The authors shatter the popular myth that nothing of significance happened between 400 AD and 900 AD. Transportation was improved by the invention of harnesses, horse shoes, stirrups, the mariner's compass, round bottom ships, and systems of multiple masts. Water clocks and systems of weights and measures made their way to Europe from the Far East. Spinning wheels and printing presses were invented and became part of popular culture. The inventions, their inventors, and the impact on daily life are discussed. Illustrated with black and white photos. Annotation c. Book News, Inc., Portland, OR (
Bryce Christensen
The flame of human ingenuity burned with surprising intensity during the medieval centuries. Already well known for their extensive research into medieval history and social life, the Gieses here explode the myth of the Dark Ages, showing that the Fall of Rome did not plunge Europe into stagnation and lethargy. Rather, the archaeological and historical record reveals that medieval Europeans borrowed discoveries from other lands (such as the compass, Hindu-Arabic numbers, gunpowder, and paper) and developed their own indigenous technologies (such as those in wind and water mills), so making continual progress in the use of natural resources. In the fields, peasants used a new harness (from China) to put the horse to work in place of the ox; in the forge, the blacksmith developed case-hardened tools for the carpenter; on the open seas, the sailor manipulated the new lanteen sail to guide ships constructed with radical new hull designs. While most of the technological development was anonymous and practical, medieval advances in fields such as astronomy and navigation led directly toward the feats of Copernicus and Columbus. Contemporary readers--prone to take computers and smart bombs for granted--will learn much from this chronicle of monks writing on lime-treated parchments and of knights fighting with newly devised stirrups.

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Chapter One

Nimrod's Tower,Noah's Ark

In the centuries following the middle ages, thinkers of the European Enlightenment looked back on the previous period as a time "quiet as the dark of the night,"when the world slumbered and man's history came to "a full stop."A spirit of otherworldliness and a preoccupation with theology were perceived as underlying a vast medieval inertia. The most influential spokesman for this point of view was historian Edward Gibbon, who in his Decline and Fall of the Roman Empire described medieval society as "the triumph of barbarism and religion."

Images of lethargy and stagnation were persistently applied to the Middle Ages well into the twentieth century. Even today the popular impression remains to a great extent that of a millennium of darkness, a thousand years when "nothing happened." To the average educated person, the most surprising news about medieval technology may be the fact that there was any.

Yet not all intellectuals of the past shared the negative view of the Middle Ages. In 1550 Italian physician and mathematician Jerome Cardan wrote that the magnetic compass, printing, and gunpowder were three inventions to which "the whole of antiquity has nothing equal to show." A generation later, the Dutch scholar Johannes Stradanus (Jan van der Straet, 1528-1605) in his book Nova reperta listed nine great discoveries, all products of the Middle Ages.

Gibbon's eighteenth-century contemporary Anne-Robert-Jacques Turgot, finance minister to Louis XVI, looked back on the Middle Ages as a time when "kings were without authority, nobles without constraint, peoples enslaved . . . commerce andcommunication cut off," when the barbarian invasions had "put out the fire of reason," but he saw it also as a time when a number of inventions unknown to the Greeks and Romans had been somehow produced. Turgot credited the medieval achievement to a "succession of physical experiments" undertaken by unknown individual geniuses who worked in isolation, surrounded by a sea of darkness.

Today, on the contrary, the innovative technology of the Middle Ages appears as the silent contribution of many hands and minds working together. The most momentous changes are now understood not as single, explicit inventions but as gradual, imperceptible revolutions--in agriculture, in water and wind power, in building construction, in textile manufacture, in communications, in metallurgy, in weaponry--taking place through incremental improvements, large or small, in tools, techniques, and the organization of work. This new view is part of a broader change in historical theory that has come to perceive technological innovation in all ages as primarily a social process rather than a disconnected series of individual initiatives.

In the course of recent decades, the very expression "Dark Ages" has fallen into disrepute among historians. The 1934 Webster's asserted that "the term Dark Ages is applied to the whole, or more often to the earlier part of the [medieval] period, because of its intellectual stagnation." The 1966 Random House dictionary agreed, defining "Dark Ages" as "1. The period in European history from about a.d. 476 to about 1000; 2. The whole of the Middle Ages, from about a.d. 476 to the Renaissance," a description repeated verbatim in its 1987 edition. The HarperCollins dictionary of 1991, however, recognized the term's decline in scholarly favor, defining "Dark Ages" as "1. The period from about the late 5th century a.d. to about 1000 a.d., once considered an unenlightened period; 2. (occasionally) the whole medieval period."

Recently, historians have suggested the possibility of a narrower use of the old term. In a presidential address to the Medieval Academy of America in 1984, Fred C. Robinson recommended keeping "Dark Age," in the singular, and restricting its meaning to our dim perception of the period (owing to the scarcity of documentary evidence) rather than to its alleged "intellectual stagnation."

The problem of definition also involves the dating of the Middle Ages. The once sovereign date of a.d. 476 as starting point has been judged essentially meaningless, since it marks only the formal abdication of the last Western Roman emperor. In fact, the now general employment of the round a.d. 500 is an admission by historians that there is really no valid starting point, that the beginning of the Middle Ages overlaps and intermingles with the decline and fall of the Western Roman Empire. At the other end, the precise but even less meaningful 1453 (the fall of Constantinople and the end of the Hundred Years War) has been widely replaced by the round 1500, suggestive principally of the opening of the Age of Exploration and the historic impingement of Europe upon America and Asia.

From the third decade of the present century, a recognition of medieval technological and scientific progress has been affirmed by scholars such as Marc Bloch, Lynn White, Robert S. Lopez, Bertrand Gille, Georges Duby, and Jacques Le Goff. Most modern textbooks include in their history of invention the medieval discovery or adoption of the heavy plow, animal harness, open-field agriculture, the castle, water-powered machinery, the putting-out system, Gothic architecture, Hindu-Arabic numerals, double-entry bookkeeping, the blast furnace, the compass, eyeglasses, the lateen sail, clockwork, firearms, and movable type.

But while the pioneering work in medieval technology by Marc Bloch and Lynn White was undertaken in an era (roughly 1925 to 1960) that affirmed human progress and regarded advances in technology as self-evidently positive, the climate of the last part of the twentieth century has become less favorable to technology in general and even to the idea of progress. Suddenly, instead of being credited with no technology, the Middle Ages is found by some to have had too much. Activities once universally regarded as beneficent (such as the land-clearance campaigns of the great monasteries) have been condemned: "The deforestation of Europe during the twelfth century--especially during the 1170s and 1180s--may be seen as the first great ecological disaster," wrote George Ovitt, Jr., in 1987.

Such present-minded thinking permeated Jean Gimpel's The Medieval Machine (1976). Drawing a parallel with twentieth-century industrial society, which he envisioned in Spenglerian decline, Gimpel pictured an overindustrialized late medieval Europe suffering from overpopulation, pollution, economic instability, dwindling energy sources, and general malaise.

But despite the many medieval contributions to technology, to speak as Gimpel does of an "industrial revolution" of the Middle Ages is hyperbole. By the same token, pollution was slight, energy sources were largely untapped, the financial crisis of the fourteenth century was temporary and local, and population was excessive only in respect to the limitations of existing agricultural technology. Advanced though it was over the classical age, medieval technology was still in what Lewis Mumford called the "eotechnic" phase--the age of wood, stone, wind, and water--to be followed, in Mumford's terminology, by a "paleotechnic" phase in which coal and iron dominated, and finally by our present "neotechnic" phase of electricity, electronics, nuclear energy, alloys, plastics, and synthetics.

When Gibbon indicted the Middle Ages as "the triumph of barbarism and religion," he coupled the two great bugbears of the intellectual elite of his day, both widely regarded as hostile to scientific and technical progress. The Catholic Church long stood condemned as the enemy of enlightenment, with the alleged suppressions of Copernicus and Galileo as Exhibit A. More recent historians, however, have pointed to evidence of Church attitudes and policies of a quite different coloration. Lynn White asserted that Christian theology actually gave the Middle Ages a fiat for technology: "Man shares in great measure God's transcendence of nature. Christianity, in absolute contrast to ancient paganism and Asia's religions . . . not only established a dualism of man and nature but also insisted that it is God's will that man exploit nature for his proper ends."

Even earlier, Max Weber (1864-1920) drew attention to the prominent role given by the Benedictine Rule to monastic labor ("Idleness is the enemy of the soul. Therefore the brothers should have a specified period for manual labor as well as for prayerful reading.") and to the well-organized physical self-sufficiency of the monastic community. In the same vein, Ernest Benz pointed to medieval iconography showing God as a master mason, measuring out the universe with compasses and T square, and noted that such images, drawing a parallel between God's labors and those of men, offer an indication of the status of technology in medieval Christendom.

More recently, George Ovitt, studying the attitudes of medieval theologians, has found that they advocated stewardship of nature at the same time that ecological evidence shows "an ethic of appropriation" and a "social commitment to the primacy of human habitation" over competing interests. Their varying and contradictory attitudes, he has concluded, represent a rationalization "in response to changes in the 'structures of everyday life' that were created by others,"that is, in response to what was actually going on in the real world.

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Cathedral, Forge, and Waterwheel: Technology and Invention in the Middle Ages 4 out of 5 based on 0 ratings. 2 reviews.
HomeSchoolBookReview More than 1 year ago
Our older son Mark, when he was a sophomore in high school, wanted to study medieval European history. When I mentioned this fact to Home School Legal Defense Association lawyer Scott Woodruff when picking him up at the airport for the Greater St. Louis Area Home Educator's Expo, he recommended Cathedral, Forge, and Waterwheel. Quite often the "Dark Ages" and the "Middle Ages" are thought of somewhat synonymously, although technical distinctions are maintained by many scholars, and this period of time is considered to be one of backwardness, superstition, and total lack of innovation. Kirkus Reviews notes, "In their latest medieval study, the Gieses explode the myth that the Middle Ages were unconcerned with the empirical and demonstrate that the Renaissance itself was the outcome of gradual progress made over the previous thousand years." The book discusses Asian technology brought to Europe, the Commercial Revolution, development of the High Middle Ages, and the advancements that made possible the work of Leonardo da Vinci and Christopher Columbus. It is truly a fascinating study of the historical background of Europe's rise to leadership in technology during the Middle Ages. The Gieses have devoted some thirty years to synthesizing the work of medieval scholars into a series of books on major areas of medieval history including their Daily Life in Medieval Times, which is actually a collection of three separate books, Life in a Medieval Castle, Life in a Medieval Village, and Life in a Medieval City. Mr. Gies is a former technology editor for the Encyclopaedia Britannica. We purchased Cathedral, Forge, and Waterwheel through Barnes and Noble's website.
Guest More than 1 year ago
A superb book! The author traces the evolution of technology through the middle ages that eventually leads to the Industrial Revolution. As a World Civilizations teacher, this book has become a vital source of information. Not only does it describe, in detail, the evolution of technology in Western Europe, but it also shows the general progression and patterns of thought that are evident throughout the world at different times with regard to inventions.