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On Engines,dated 1433, is an early and previously unknown treatise on engineering which was prepared for King Sigismund's arrival in Siena as he traveled to Rome for rites of coronation. Mariano Taccola has been described as a designer of military devices, but the drawings and texts of De ingeneisshow his interest in the field of technology to encompass far more than the machines of attack and defense. He deals actively, at times creatively, with bridges and their foundations, with harbors, harbor equipment for the loading of freight, aqueducts both above and below ground, equipment for operating the wells at the end of an aqueduct, mill houses, and the machines and power plants associated with them. The numerous figures and landscapes that accompany his texts also reveal Taccola to be an interesting and original Sienese artist. He portrays human figures in situations that seldom appear in the major arts, and the nature studies among the vignettes beside his texts are distinctive to his art. As in a previous study of Brunelleschi's technology and inventions (MIT Press 1970), the authors represent different viewpoints in their analysis—Frank Prager, the history of technology, and Gustina Scaglia, the history of art. Together they have transcribed and translated the Latin texts and indicated the original form of De ingeneisfrom manuscripts in two libraries. They have summarized as much as is known about Taccola, whose work earned him the name of "the Sienese Archimedes," and have evaluated his achievements as writer, graphic artist, and engineer. The drawings and descriptions of the four books of De ingeneisare presented clearly and concisely, to inform and to teach. For it was about Taccola's time, and with his help, that the long stagnation of many technical practices of the Middle Ages came to an end, and De ingeneisbecame the starting point for a long line of copybooks. Taccola, unlike his predecessors, was particularly interested in describing or suggesting classes of machines, their common parts and basic functions or general rules. He was moved to experiment with different forms of cross-reference between chapters and to develop various means of illustration, using at times a distinct and original method of balancing drawings, texts, and the marginal vignettes used to identify each illustration. Although Mariano Taccola's work was soon surpassed, his manuscripts were copied throughout the fifteenth century as textbooks, and their rediscovery provides invaluable source material for studying the early, transitional history of mechanical technology and adds a new dimension to the history of Quattrocento art.
English description: With the rediscovery of Mariano Taccola's technical manuscripts, a primary source has been found for drawings and texts in treatises and sketchbooks of Francesco di Giorgio Martini. Taccola first conceived a new subject in Renaissance literature: rational descriptions and illustrations of utilitarian structures built by master masons, carpenters, millwrights, and artisans in the service of military lords. Taccola's complex and fascinating manuscript is being published fully in facsimile. It was a gift to Johann Albrecht Widmannstetter who studied law (1533-1542) in Siena, probably at the Studio or University where Taccola had been secretary while writing in the building arts. The volume that Taccola entitled "Liber primus leonis" and "Liber secundis draconis" was modified into a "Notebook" when he, in 1435-1438, added many small sketches around each main drawing existing on a folio, and added quires of paper after Book II for additional and later drawings. This edition includes, in the editors' introduction, a short biography of Mariano Taccola, a history of his "Notebook", a description of its sections, an account of Taccola's contribution to the history of thechnology, and a study of his influencce. Each of Taccola's several hundred drawings is identified, his Latin texts and notes are all transcribed an then translated into English. In one Appendix, the editors illustrate and interpret eight drawings identified as copies of Taccola's originals lost from his "Notebook", and a second Appendix concerns the desings of mills, pile-drivers, and water-supply devices of a Machine Complex that other engineers developed from prototypes in Taccola's "Notebook". German description: Mit der Wiederentdeckung der technischen Handschriften Mariano Taccolas wurde auch die Quelle fur die Zeichnungen und Texte in den Abhandlungen und Skizzenbuchern Francesco di Giorgio Martinis entdeckt. Taccola behandelte als erster ein neues Thema in der Renaissanceliteratur: die rationale Beschreibung und Illustration von Zweckbauten. Das Werk, das Taccola ursprunglich als "Liber primus leonis" und "Liber secundus draconis" angelegt hatte, bekam nach und nach den Charakter eines Notizbuchs, als den Hauptzeichnungen mehrere kleinere Skizzen hinzugefugt und mehrere lose Blatter mit technischen Zeichnungen beigelegt wurden. Die Handschrift war ein Geschenk an Johann Albrecht Widmannstetter, der sich einige Jahre in Siena aufhielt. Aus der Sammlung dieses Humanisten gelangte sie anschliessend nach Munchen. Die vorliegende Faksimileausgabe enthalt neben einer kurzen Biographie Mariano Taccolas die Geschichte dieses Notizbuchs, eine Beschreibung der einzelnen Abschnitte sowie Taccolas Bedeutung fur Wissenschaft und Technik der Renaissance. Jede der mehreren hundert Zeichnungen wird erlautert, Taccolas lateinische Beschreibungen der Maschinen werden in Transkription wiedergegeben und ins Englische ubersetzt. Ein Anhang enthalt die Zeichnungen zu Muhlen, Pfahlrammen und Entwurfen zu Wasserleitungssystemen, die spater nach Taccolas Modellen aus dem "Notebook" entwickelt wurden.
When did drawing become an integral part of architecture? Among several architects and artists who brought about this change during the Renaissance, Francesco di Giorgio Martini’s ideas on drawing recorded in his Trattati di architettura, ingegneria e arte militare (1475-1490) are significant. Francesco suggests that drawing is linked to the architect’s imagination and central in conveying images and ideas to others. Starting with the broader edges of Francesco’s written work and steadily penetrating into the fantastic world of his drawings, the book examines his singular formulation of the act of drawing and its significance in the context of the Renaissance. The book concludes with speculations on how Francesco’s work is relevant to us at the onset of another major shift in architecture caused by the proliferation of digital media.
The Renaissance was not just a rebirth of the mind. It was also a new dawn for the machine. When we celebrate the achievements of the Renaissance, we instinctively refer, above all, to its artistic and literary masterpieces. During the fifteenth and sixteenth centuries, however, the Italian peninsula was the stage of a no-less-impressive revival of technical knowledge and practice. In this rich and lavishly illustrated volume, Paolo Galluzzi guides readers through a singularly inventive period, capturing the fusion of artistry and engineering that spurred some of the Renaissance’s greatest technological breakthroughs. Galluzzi traces the emergence of a new and important historical figure: the artist-engineer. In the medieval world, innovators remained anonymous. By the height of the fifteenth century, artist-engineers like Leonardo da Vinci were sought after by powerful patrons, generously remunerated, and exhibited in royal and noble courts. In an age that witnessed continuous wars, the robust expansion of trade and industry, and intense urbanization, these practitioners—with their multiple skills refined in the laboratory that was the Renaissance workshop—became catalysts for change. Renaissance masters were not only astoundingly creative but also championed a new concept of learning, characterized by observation, technical know-how, growing mathematical competence, and prowess at the draftsman’s table. The Italian Renaissance of Machines enriches our appreciation for Taccola, Giovanni Fontana, and other masters of the quattrocento and reveals how da Vinci’s ambitious achievements paved the way for Galileo’s revolutionary mathematical science of mechanics.
In "Neither Letters nor Swimming": The Rebirth of Swimming and Free-diving, John McManamon documents the revival of interest in swimming during the European Renaissance and its conceptualization as an art. Renaissance scholars realized that the ancients considered one truly ignorant who knew “neither letters nor swimming.”
Since antiquity, philosophers and engineers have tried to take life’s measure by reproducing it. Aiming to reenact Creation, at least in part, these experimenters have hoped to understand the links between body and spirit, matter and mind, mechanism and consciousness. Genesis Redux examines moments from this centuries-long experimental tradition: efforts to simulate life in machinery, to synthesize life out of material parts, and to understand living beings by comparison with inanimate mechanisms. Jessica Riskin collects seventeen essays from distinguished scholars in several fields. These studies offer an unexpected and far-reaching result: attempts to create artificial life have rarely been driven by an impulse to reduce life and mind to machinery. On the contrary, designers of synthetic creatures have generally assumed a role for something nonmechanical. The history of artificial life is thus also a history of theories of soul and intellect. Taking a historical approach to a modern quandary, Genesis Redux is essential reading for historians and philosophers of science and technology, scientists and engineers working in artificial life and intelligence, and anyone engaged in evaluating these world-changing projects.
It is impossible to understand the cultures and achievements of the Greeks, Romans, Byzantines, and Arabs, without knowing something of their technology. Rome, for example, made advances in many areas which were subsequently lost and not regained for more than a millenium. This is a knowledgeable yet lucid account of the wonderful triumphs and the limitations of ancient and medieval engineering. This book systematically describes what is known about the evolution of irrigation works, dams, bridges, roads, building construction, water and wind power, automata, and clocks, with references to the social, geographical, and intellectual context.