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Richard Hills has worked from original records, checking printed versions where necessary and has shed new light on thus far obscure areas of Watt's life and personality. The book is fully referenced, and will be a valuable source-book for future Watt scholars, being not only a biography of Watt but also providing detailed accounts of the projects, machines and inventions with which he was concerned. Vol. 2 includes: the development of the mine pumping engine and its introduction to Cornwall; Problems encountered in Cornwall and the Cornish Metal Company; Watt's letter copying machine; Financial problems of Boulton and Watt; Development of the rotative steam engine - the crank and parallel motion; Watt's family and his advice as a technical consultant to the Pneumatic Institution in Bristol; Patent trails; Reconciliation with J.Watt junior and founding the Soho Steam Engine Manufactory in retirement
Richard Hills has worked from original records, checking printed versions where necessary and has shed new light on thus far obscure areas of Watt's life and personality. The book is fully referenced, and will be a valuable source-book for future Watt scholars, being not only a biography of Watt but also providing detailed accounts of the projects, machines and inventions with which he was concerned. Vol. 2 includes: the development of the mine pumping engine and its introduction to Cornwall; Problems encountered in Cornwall and the Cornish Metal Company; Watt's letter copying machine; Financial problems of Boulton and Watt; Development of the rotative steam engine - the crank and parallel motion; Watt's family and his advice as a technical consultant to the Pneumatic Institution in Bristol; Patent trails; Reconciliation with J.Watt junior and founding the Soho Steam Engine Manufactory in retirement
The Life and Legend of James Wattoffers a deeper understanding of the work and character of the great eighteenth-century engineer. Stripping away layers of legend built over generations, David Philip Miller finds behind the heroic engineer a conflicted man often diffident about his achievements but also ruthless in protecting his inventions and ideas, and determined in pursuit of money and fame. A skilled and creative engineer, Watt was also a compulsive experimentalist drawn to natural philosophical inquiry, and a chemistry of heat underlay much of his work, including his steam engineering. But Watt pursued the business of natural philosophy in a way characteristic of his roots in the Scottish “improving” tradition that was in tension with Enlightenment sensibilities. As Miller demonstrates, Watt’s accomplishments relied heavily on collaborations, not always acknowledged, with business partners, employees, philosophical friends, and, not least, his wives, children, and wider family. The legend created in his later years and “afterlife” claimed too much of nineteenth-century technology for Watt, but that legend was, and remains, a powerful cultural force.
Miller examines Watt's illustrious engineering career in light of his parallel interest in chemistry, arguing that Watt's conception of steam engineering relied upon chemical understandings.
Scottish inventor and mechanical engineer James Watt (1736–1819) is best known for his pioneering work on the steam engine that became fundamental to the incredible changes and developments wrought by the Industrial Revolution. But in this new biography, Ben Russell tells a much bigger, richer story, peering over Watt’s shoulder to more fully explore the processes he used and how his ephemeral ideas were transformed into tangible artifacts. Over the course of the book, Russell reveals as much about the life of James Watt as he does a history of Britain’s early industrial transformation and the birth of professional engineering. To record this fascinating narrative, Russell draws on a wide range of resources—from archival material to three-dimensional objects to scholarship in a diversity of fields from ceramics to antique machine-making. He explores Watt’s early years and interest in chemistry and examines Watt’s partnership with Matthew Boulton, with whom he would become a successful and wealthy man. In addition to discussing Watt’s work and incredible contributions that changed societies around the world, Russell looks at Britain’s early industrial transformation. Published in association with the Science Museum London, and with seventy illustrations, James Watt is not only an intriguing exploration of the engineer’s life, but also an illuminating journey into the broader practices of invention in the eighteenth and early nineteenth centuries. Published in association with the Science Museum, London
James Watt is celebrated as the inventor of the energy efficient pumping and rotative steam engines. Studies of Watt have focused on his inventiveness, influence and reputation. This book explores new aspects of his work and places him in family, social and intellectual contexts during the Enlightenment and Industrial Revolution.
Painting with Fire shows how experiments with chemicals known to change visibly over the course of time transformed British pictorial arts of the long eighteenth century—and how they can alter our conceptions of photography today. As early as the 1670s, experimental philosophers at the Royal Society of London had studied the visual effects of dynamic combustibles. By the 1770s, chemical volatility became central to the ambitious paintings of Sir Joshua Reynolds, premier portraitist and first president of Britain’s Royal Academy of Arts. Valued by some critics for changing in time (and thus, for prompting intellectual reflection on the nature of time), Reynolds’s unstable chemistry also prompted new techniques of chemical replication among Matthew Boulton, James Watt, and other leading industrialists. In turn, those replicas of chemically decaying academic paintings were rediscovered in the mid-nineteenth century and claimed as origin points in the history of photography. Tracing the long arc of chemically produced and reproduced art from the 1670s through the 1860s, the book reconsiders early photography by situating it in relationship to Reynolds’s replicated paintings and the literal engines of British industry. By following the chemicals, Painting with Fire remaps familiar stories about academic painting and pictorial experiment amid the industrialization of chemical knowledge.
This lucid and captivating book takes the reader back to the early history of all the sciences, starting from antiquity and ending roughly at the time of Newton — covering the period which can legitimately be called the “dawn” of the sciences. Each of the 24 chapters focuses on a particular and significant development in the evolution of science, and is connected in a coherent way to the others to yield a smooth, continuous narrative. The at-a-glance diagrams showing the “When” and “Where” give a brief summary of what was happening at the time, thereby providing the broader context of the scientific events highlighted in that chapter. Embellished with colourful photographs and illustrations, and “boxed” highlights scattered throughout the text, this book is a must-read for everyone interested in the history of science, and how it shaped our world today.
The Romance of Science pays tribute to the wide-ranging and highly influential work of Trevor Levere, historian of science and author of Poetry Realised in Nature, Transforming Matter, Science and the Canadian Arctic, Affinity and Matter and other significant inquiries in the history of modern science. Expanding on Levere’s many themes and interests, The Romance of Science assembles historians of science -- all influenced by Levere's work -- to explore such matters as the place and space of instruments in science, the role and meaning of science museums, poetry in nature, chemical warfare and warfare in nature, science in Canada and the Arctic, Romanticism, aesthetics and morals in natural philosophy, and the “dismal science” of economics. The Romance of Science explores the interactions between science's romantic, material, institutional and economic engagements with Nature.
At a time when U.S. high school students are producing low scores in mathematics and science on international examinations, a thorough grounding in physical chemistry should not be considered optional for science undergraduates. Based on the author’s thirty years of teaching, Essentials of Physical Chemistry merges coverage of calculus with chemistry and molecular physics in a friendly yet thorough manner. Reflecting the latest ACS guidelines, the book can be used as a one or two semester course, and includes special topics suitable for senior projects. The book begins with a math and physics review to ensure all students start on the same level, and then discusses the basics of thermodynamics and kinetics with mathematics tuned to a level that stretches students’ abilities. It then provides material for an optional second semester course that shows students how to apply their enhanced mathematical skills in a brief historical development of the quantum mechanics of molecules. Emphasizing spectroscopy, the text is built on a foundation of quantum chemistry and more mathematical detail and examples. It contains sample classroom-tested exams to gauge how well students know how to use relevant formulas and to display successful understanding of key concepts. Coupling the development of mathematical skills with chemistry concepts encourages students to learn mathematical derivations Mini-biographies of famous scientists make the presentation more interesting from a "people" point of view Stating the basic concepts of quantum chemistry in terms of analogies provides a pedagogically useful technique Covering key topics such as the critical point of a van der Waals gas, the Michaelis–Menten equation, and the entropy of mixing, this classroom-tested text highlights applications across the range of chemistry, forensic science, pre-medical science and chemical engineering. In a presentation of fundamental topics held together by clearly established mathematical models, the book supplies a quantitative discussion of the merged science of physical chemistry.