Taught by civil engineer Stephen Ressler, Professor Emeritus from the United States Military Academy at West Point, this course uses hands-on demonstrations and 3D computer models to analyze medieval breakthroughs in technology. Artisans of the period were ceaselessly inventive—in agriculture, architecture, industry, warfare, transportation, and information dissemination—paving the way for the modern world.
Understanding the Marvels of Medieval Technology
A civil engineer tackles the medieval innovations that paved the way for our modern world.
Overview
About
Stephen Ressler is a Professor Emeritus from the United States Military Academy at West Point, where he taught for 21 years. He holds an MS and PhD in Civil Engineering from Lehigh University and is a registered professional engineer in Virginia. He served in a variety of military engineering assignments in the United States, Europe, Africa, and Central Asia. He has focused his scholarly and professional work on engineering education and has won numerous national awards for his teaching, leadership, and service.
Trailer
01: Technological Development in the Middle Ages
Visit Trim Castle, a 12th-century fortress in Ireland that has an ingenious fortified gateway called a barbican—a feature emblematic of the surprising sophistication of medieval technology. Starting with this intriguing structure, Professor Ressler introduces the wide range of technologies covered in this course. As background, he gives a virtual tour of the Middle Ages.
36 min
02: Advances in Agricultural Technology
Explore four, celebrated agricultural innovations of the Middle Ages: the heavy plow, the open-field system, three-field crop rotation, and the horse collar. Did they, in fact, lead to a surge in food production, as often argued, resulting in population growth, increased commerce, and general prosperity? Professor Ressler explains these technologies and critically examines their effectiveness.
34 min
03: Textile Technology: From Twill to Tapestry
Textile manufacturing helped drive the commercial revolution of the High Middle Ages from 1000 to 1300. Delve into the technologies that made this thriving industry possible. Most medieval techniques for spinning, weaving, and finishing were inherited from the ancient world and Asia, but incremental improvements increased their efficiency and produced high-quality fabrics on an unprecedented scale for rich and poor alike.
36 min
04: Metallurgy and Ironmaking
The production of inexpensive, high-quality iron was essential to nearly every form of medieval technology. Discover how medieval artisans produced the three basic forms of iron: wrought iron, cast iron, and steel. Weigh the advantages and drawbacks of each and chart the evolution of processes for smelting iron ore at ever higher temperatures, culminating in the development of rudimentary blast furnaces.
33 min
05: Waterpower Systems
Arguably, the chief glory of the Middle Ages was waterpower, harnessed via waterwheels to grind grain, saw wood, hammer iron, pump water, and replace human labor in countless other ways. Study the physics of flowing water and its conversion to mechanical energy. Then examine three, key waterwheel designs—horizontal, undershot, and overshot—each with distinctive strengths and limitations.
32 min
06: Boat Mills, Tidal Mills, and Windmills
Learn how medieval engineers harnessed waterpower in challenging environments with boat mills and tidal mills. Then explore the windmill, a true medieval invention that masterfully merged nautical technology with milling machinery. Focus on two types of windmills: the post mill, called the medieval era’s most original contribution to power-production technology, and the sturdier tower mill.
31 min
07: Mounted Shock Combat: The Knight’s Panoply
Turn to medieval warfare, epitomized by the armored knight—a marvel of technological ingenuity. His horse, armor, weapons, and equipment formed a cohesive and highly effective system. Discover the craftsmanship behind chain mail and sword forging, and examine the pivotal roles of the saddle, stirrups, and lance in shaping the knight’s most formidable tactic: mounted shock combat.
35 min
08: The Medieval Arms Race
Trace the medieval arms race that spurred innovations in protective armor and the parallel development of offensive weapons—like swords, pikes, and crossbows—designed to overcome it. Analyze the physics behind longbows and crossbows and consider how tactics and technology often outweighed numerical superiority in determining the outcome of battles, as at Bannockburn and Crecy.
34 min
09: The Castle: A Story Written in Stone
Delve into the engineering marvel of medieval castles, each uniquely shaped by its historical context and topographic constraints. Focus on Carrickfergus Castle in Northern Ireland, which evolved from a simple stone enclosure into a formidable, multilayered defensive system, complete with thick crenellated walls, towers, a gatehouse, and other characteristic features of medieval military architecture.
32 min
10: Siegecraft Technologies
Due to the strategic value of castles, medieval warfare was dominated by sieges rather than open battles. Sieges were inherently technological, with outcomes often decided by the sophistication of weapons like catapults, battering rams, and siege towers, as well as the effectiveness of countermeasures. Explore the main types of siege machines, which could determine the fate of embattled citadels.
32 min
11: The Gunpowder Revolution
Medieval stone castles met their match with the introduction of gunpowder artillery in the 14th century. As these weapons improved, engineers were forced to rethink fortification design. Likewise, handheld firearms rendered armor-clad knights obsolete. Professor Ressler explains how the mixing of three natural materials to produce gunpowder led to a military and social revolution in Europe.
36 min
12: Hagia Sophia: Byzantine Architectural Marvel
In the first of seven lectures on the great structures of the medieval world, visit Hagia Sophia in present-day Istanbul. Built in the sixth century, it stood as the world’s largest church for over a thousand years. Examine the simple yet ingenious structural elements that create its elegant and awe-inspiring interior, especially the mammoth dome—a miracle of structural engineering.
34 min
13: From Romanesque to Gothic
Explore the trends that paved the way for Gothic architecture. Trace the roots of Gothic to the Romanesque style, characterized by semi-circular arches and thick stone walls, which were needed to support heavy vaulted ceilings. Discover the structural characteristics of Romanesque churches and uncover the origins of the pointed arch and ribbed vault that later defined the Gothic style.
37 min
14: The Gothic Stone Skeleton
Built in the mid-13th century, Amiens Cathedral exemplifies the ethereal beauty and startling innovation of Gothic architecture. Professor Ressler guides you through the cathedral’s construction, phase by phase, showing how medieval master builders and craftsmen achieved wonders through meticulous planning and a deep qualitative understanding of geometry, structural mechanics, and the properties of stone and timber.
35 min
15: Structural Marvels in Wood
Much of the medieval world was built of wood. Study the elegant wooden roof of Notre-Dame Cathedral in Paris, largely destroyed by fire in 2019 and then restored to its original design. Then look at Byloke Hospital in Ghent, one of the most important early examples of the medieval timber-roofed hall. Finally, marvel at the Borgund Stave Church in Norway, built entirely of pine.
32 min
16: Roads and Bridges
Ground transportation advanced significantly during the Commercial Revolution of the High Middle Ages, spurring the construction of improved roads and, most notably, a proliferation of bridges made of both wood and stone. Explore key examples of medieval bridges to appreciate their construction techniques and the essential role they played in connecting communities and fostering trade.
31 min
17: Monasteries: Tech Hubs of the Medieval World
Medieval monastic communities helped drive technological innovation, because labor-saving machines and well-planned facilities helped the monks fulfill their spiritual responsibilities more effectively. Study the influential “Plan of St. Gall,” a 9th-century architectural drawing that depicts the layout of an idealized monastery. See how these principles lived on three centuries later when Rievaulx Abbey was established in Yorkshire, England.
32 min
18: Brunelleschi’s Dome
How would you design a monumental dome for a building whose original architect left no plans—and with no way to rely on traditional construction methods? That was Filippo Brunelleschi’s dilemma in the early 15th century for the unfinished Cathedral of Santa Maria del Fiore in Florence. Professor Ressler reveals Brunelleschi’s ingenious solutions to a bewildering series of challenges.
35 min
19: Marvelous Medieval Machinery
Drawing on their experience with waterwheels, which were originally used for milling grain, medieval engineers adapted mechanical devices like the camshaft and crank to use waterpower for a wider range of tasks, from fulling cloth to forging iron. Also, look at construction cranes, pile drivers, and other labor-saving devices that helped mechanize the medieval world, setting the stage for the Industrial Revolution.
35 min
20: The Verge-and-Foliot Clock
Before the arrival of the mechanical clock in the late 13th century, time was measured using inconvenient devices like water clocks and sundials. The breakthrough came with the verge-and-foliot escapement, which made weight-driven mechanical clocks possible. This innovation, combined with intricate gearsets that translated the escapement’s steady tick-tocks into a readable display, transformed daily life.
33 min
21: Gutenberg and the Printing Press
Considered one of the most influential people who ever lived, Johannes Gutenberg didn’t just invent the printing press; he created a groundbreaking system combining paper, ink, movable type, and a mechanical press that eventually led to unprecedented dissemination of information and learning. Trace the steps that led him to this revolutionary technology—but didn’t save his firm from bankruptcy.
35 min
22: Early Mediterranean Shipbuilding: The Dromon
In the first of two lectures on medieval shipbuilding, discover how the world-circling sailing ships of the Late Middle Ages evolved, in part, from Byzantine galleys built for Mediterranean waters. Learn how the swift dromon, with its streamlined form, advanced hull structure, and innovative armament transformed ancient naval tactics and paved the way for future maritime innovations.
35 min
23: Longship, Cog, and Carrack
Continue your study of medieval nautical technology, focusing on the sleek, robust design of the Viking longship; the commercial advantages of the cargo-carrying cog, the workhorse of the Hanseatic League; and the versatility and seaworthiness of the full-rigged carrack. Chart the influence of hull design, propulsion systems, and steering technology on the evolution of medieval shipbuilding.
32 min
24: The Modern Legacy of Medieval Technology
Finish the course by considering how our modern world has been influenced by medieval technology, from eyeglasses to printed books, power generation, and the modern conceptual approach to design. Professor Ressler provides a medieval bucket list of must-see technological attractions in Europe and weighs the plusses and minuses of the Europeanization of the world, which commenced in the Middle Ages.
38 min
