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12 expert nautical archaeologists, present the latest information from excavations and explore the conceptual basis for shipbuilding traditions.
This title is a comprehensive survey of maritime archaeology as seen through the eyes of nearly fifty scholars at a time when maritime archaeology has established itself as a mature branch of archaeology.
J. Richard “Dick” Steffy stood inside the limestone hall of the Crusader castle in Cyprus and looked at the wood fragments arrayed before him. They were old beyond belief. For more than two millennia they had remained on the sea floor, eaten by worms and soaking up seawater until they had the consistency of wet cardboard. There were some 6,000 pieces in all, and Steffy’s job was to put them all back together in their original shape like some massive, ancient jigsaw puzzle. He had volunteered for the job even though he had no qualifications for it. For twenty-five years he’d been an electrician in a small, land-locked town in Pennsylvania. He held no advanced degrees—his understanding of ships was entirely self-taught. Yet he would find himself half a world away from his home town, planning to reassemble a ship that last sailed during the reign of Alexander the Great, and he planned to do it using mathematical formulas and modeling techniques that he’d developed in his basement as a hobby. The first person ever to reconstruct an ancient ship from its sunken fragments, Steffy said ships spoke to him. Steffy joined a team, including friend and fellow scholar George Bass, that laid a foundation for the field of nautical archaeology. Eventually moving to Texas A&M University, his lack of the usual academic credentials caused him to be initially viewed with skepticism by the university’s administration. However, his impressive record of publications and his skilled teaching eventually led to his being named a full professor. During the next thirty years of study, reconstruction, and modeling of submerged wrecks, Steffy would win a prestigious MacArthur Foundation “genius” grant and would train most of the preeminent scholars in the emerging field of nautical archaeology. Richard Steffy’s son Loren, an accomplished journalist, has mined family memories, archives at Texas A&M and elsewhere, his father’s papers, and interviews with former colleagues to craft not only a professional biography and adventure story of the highest caliber, but also the first history of a field that continues to harvest important new discoveries from the depths of the world’s oceans.
First published in 1919, this reprint helps you relive the glory days of sailing.
In the past three centuries the ship has developed from the relatively unsophisticated sail-driven vessel which would have been familiar to the sailors of the Tudor navy, to the huge motor-driven container ships, nuclear submarines and vast cruise liners that ply our seas today. Who were the innovators and builders who, during that span of time, prompted and instigated the most significant advances?In the past three centuries the ship has developed from the relatively unsophisticated sail-driven vessel which would have been familiar to the sailors of the Tudor navy, to the huge motor-driven container ships, nuclear submarines and vast cruise liners that ply our seas today. Who were the innovators and builders who, during that span of time, prompted and instigated the most significant advances?In this new book the author describes the lives and deeds of more the 120 great engineers, scientists, philosophers, businessmen, shipwrights, naval architects and inventors who shaped ship design and shipbuilding world wide. Covering the story chronologically, and going back briefly even to Archimedes, such well-known names as Anthony Deane, Peter the Great, James Watt, Robert Fulton and Isambard Kingdom Brunel share space with lesser known characters like the luckless Frederic Sauvage, a pioneer of screw propulsion who, unable to interest the French navy in his tests in the early 1830s, was bankrupted and landed in debtors prison. With the inclusion of such names as Ben Lexcen, the Australian yacht designer who developed the controversial winged keel for the 1983 Americas Cup, the story is brought right up to date.Concise linking chapters place all these innovators in context so that a clear and fascinating history of the development of ships and shipbuilding emerges from the pages. An original and important new reference book.
The first book to portray the birth of naval architecture as an integral part of the Scientific Revolution, examining its development and application across the major shipbuilding nations of Europe. "Naval architecture was born in the mountains of Peru, in the mind of a French astronomer named Pierre Bouguer who never built a ship in his life." So writes Larrie Ferreiro at the beginning of this pioneering work on the science of naval architecture. Bouguer's monumental book Traité du navire (Treatise of the Ship) founded a discipline that defined not the rules for building a ship but the theories and tools to predict a ship's characteristics and performance before it was built. In Ships and Science, Ferreiro argues that the birth of naval architecture formed an integral part of the Scientific Revolution. Using Bouguer's work as a cornerstone, Ferreiro traces the intriguing and often unexpected development of this new discipline and describes its practical application to ship design in the seventeenth and eighteenth centuries. Drawing on previously untapped primary-source and archival information, he places the development of naval architecture in the contexts of science, navy, and society, across the major shipbuilding nations of Britain, France, Spain, the Netherlands, Sweden, Denmark, and Italy. Ferreiro describes the formulation of the three major elements of ship theory (the science of explaining the physical behavior of a ship): maneuvering and sail theory, ship resistance and hydrodynamics, and stability theory. He considers the era's influential books on naval architecture and describes the professionalization of ship constructors that is the true legacy of this period. Finally, looking from the viewpoints of both the constructor and the naval administrator, he explains why the development of ship theory was encouraged, financed, and used in naval shipbuilding. A generous selection of rarely seen archival images accompanies the text.
In this book, the four authors show us the condensed experience how to design ship hull structures from a practical viewpoint. In three parts, the book presents the fundamentals, the theory and the application of structural design of hulls. The topics are treated comprehensively with an emphasis on how to achieve reliable and efficient ship structures. The authors have in particular introduced their experiences with the rapid increase of ship sizes as well as the introduction of ship types with a high degree of specialization. The associated early failures of these "new" structures have been analyzed to provide the readers with illustrations why structural design needs to be carried out on several levels in order to ensure that correct loading is applied and that local structural behaviour in properly understood.
In this book that interweaves history, anthropology, epistemology, and aesthetics, the author traces the human relationship with surfaces from human evolution up to the contemporary world.