A Victorian Scientist and Engineer


Book Description

This title was first published in 2000: In a life of only 52 years, Fleeming Jenkin established his reputation as a pioneer in the new world of electrical engineering, known for his work on undersea telegraphs and later on the electrical transportation system known as telpherage. Equally at ease in the realms of theory and practice, from 1850 until his death in 1885 Jenkin engaged in every field of Victorian engineering. As a young adult he worked on intercontinental submarine telegraphy, the cutting edge technology of its day which was inextricably bound to the new science of electricity. Jenkin was both a scientist and an engineer, a prototype of the modern experimental research engineer. He was also a distinguished academic, professor of engineering in the University of Edinburgh, admired as an inspired and innovative teacher, and for his interest in the philosophical tenets underpinning his subject. Yet in spite of his influence as an early electrical engineer and his other intellectual achievements, despite the celebrity of his associates - Robert Louis Stevenson, Mrs Gaskell and leading engineers of the day were among his close friends - and the way that submarine telegraphs seized the Victorian popular imagination, Jenkin himself has remained an obscure figure. He deserves to be better known. The story of Jenkin is of a life lived to the full. It illuminates many aspects of Victorian intellectual society, and of the organisation of science and engineering in his time. The central purpose of this biography is to show Jenkin’s achievements in engineering and in other fields, and to judge his significance in these diverse activities.




The Science of Energy


Book Description

Although we take it for granted today, the concept of "energy" transformed nineteenth-century physics. In The Science of Energy, Crosbie Smith shows how a North British group of scientists and engineers, including James Joule, James Clerk Maxwell, William and James Thomson, Fleeming Jenkin, and P. G. Tait, developed energy physics to solve practical problems encountered by Scottish shipbuilders and marine engineers; to counter biblical revivalism and evolutionary materialism; and to rapidly enhance their own scientific credibility. Replacing the language and concepts of classical mechanics with terms such as "actual" and "potential" energy, the North British group conducted their revolution in physics so astutely and vigorously that the concept of "energy"—a valuable commodity in the early days of industrialization—became their intellectual property. Smith skillfully places this revolution in its scientific and cultural context, exploring the actual creation of scientific knowledge during one of the most significant episodes in the history of physics.




The Essential Engineer


Book Description

From the acclaimed author of The Pencil and To Engineer Is Human, The Essential Engineer is an eye-opening exploration of the ways in which science and engineering must work together to address our world’s most pressing issues, from dealing with climate change and the prevention of natural disasters to the development of efficient automobiles and the search for renewable energy sources. While the scientist may identify problems, it falls to the engineer to solve them. It is the inherent practicality of engineering, which takes into account structural, economic, environmental, and other factors that science often does not consider, that makes engineering vital to answering our most urgent concerns. Henry Petroski takes us inside the research, development, and debates surrounding the most critical challenges of our time, exploring the feasibility of biofuels, the progress of battery-operated cars, and the question of nuclear power. He gives us an in-depth investigation of the various options for renewable energy—among them solar, wind, tidal, and ethanol—explaining the benefits and risks of each. Will windmills soon populate our landscape the way they did in previous centuries? Will synthetic trees, said to be more efficient at absorbing harmful carbon dioxide than real trees, soon dot our prairies? Will we construct a “sunshade” in outer space to protect ourselves from dangerous rays? In many cases, the technology already exists. What’s needed is not so much invention as engineering. Just as the great achievements of centuries past—the steamship, the airplane, the moon landing—once seemed beyond reach, the solutions to the twenty-first century’s problems await only a similar coordination of science and engineering. Eloquently reasoned and written, The Essential Engineer identifies and illuminates these problems—and, above all, sets out a course for putting ideas into action.




Victorian Engineering


Book Description

Describing the course of British engineering throughout the 19th century, this survey gives accounts of such major developments as the building of the railways, the growth of ship-building and the introduction of gas and electricity. It examines the individual achievements of Brunel, Joseph Paxton and Robert Stephenson among others, and explains how industrialization changed the face of the environment. The book concludes by considering why the Victorians' mood of optimism turned to one of disillusionment. It argues that the Victorians failed to come to terms with the consequences of industrialization, and that many of the innovations of British engineers found their best expression in other countries.




Engineering Empires


Book Description

Engineers are empire-builders. Watt, Brunel, and others worked to build and expand personal and business empires of material technology and in so doing these engineers also became active agents of political and economic empire. This book provides a fascinating exploration of the cultural construction of the large-scale technologies of empire.







Pamphlet


Book Description




Encyclopedia of Software Engineering Three-Volume Set (Print)


Book Description

Software engineering requires specialized knowledge of a broad spectrum of topics, including the construction of software and the platforms, applications, and environments in which the software operates as well as an understanding of the people who build and use the software. Offering an authoritative perspective, the two volumes of the Encyclopedia of Software Engineering cover the entire multidisciplinary scope of this important field. More than 200 expert contributors and reviewers from industry and academia across 21 countries provide easy-to-read entries that cover software requirements, design, construction, testing, maintenance, configuration management, quality control, and software engineering management tools and methods. Editor Phillip A. Laplante uses the most universally recognized definition of the areas of relevance to software engineering, the Software Engineering Body of Knowledge (SWEBOK®), as a template for organizing the material. Also available in an electronic format, this encyclopedia supplies software engineering students, IT professionals, researchers, managers, and scholars with unrivaled coverage of the topics that encompass this ever-changing field. Also Available Online This Taylor & Francis encyclopedia is also available through online subscription, offering a variety of extra benefits for researchers, students, and librarians, including: Citation tracking and alerts Active reference linking Saved searches and marked lists HTML and PDF format options Contact Taylor and Francis for more information or to inquire about subscription options and print/online combination packages. US: (Tel) 1.888.318.2367; (E-mail) [email protected] International: (Tel) +44 (0) 20 7017 6062; (E-mail) [email protected]




The Information Systems Academic Discipline in Australia


Book Description

This book represents the second phase of a multi-method, multi-study of the 'Information Systems Academic Discipline in Australia'. Drawing on Whitley's Theory of Scientific Change, the study analysed the degree of 'professionalisation' of the Information Systems Discipline, the overarching research question being 'To what extent is Information Systems a distinct and mature discipline in Australia?' The book chapters are structured around three main sections: a) the context of the study; b) the state case studies; and c) Australia-wide evidence and analysis. The book is crafted to be accessible to IS and non-IS types both within and outside of Australia. It represents a 'check point'; a snapshot at a point in time. As the first in a hoped for series of such snap-shots, it includes a brief history of IS in Australia, bringing us up to the time of this report. The editorial team comprises Guy Gable, architect and leader; Bob Smyth, project manager; Shirley Gregor, sponsor, host and co-theoretician; Roger Clarke, discipline memory; and Gail Ridley, theoretician. In phase two, the editors undertook to examine each component study, with a view to arriving at an Australia-wide perspective.




From Science to Business


Book Description

Scientists, engineers, and medical professionals play a vital role in building the 21st- century science and technology enterprises that will create solutions and jobs critical to solving the large, complex, and interdisciplinary problems faced by society: problems in energy, sustainability, the environment, water, food, disease, and healthcare. As a growing percentage of the scientific and technological workforce, women need to participate fully not just in finding solutions to technical problems, but also in building the organizations responsible for the job creation that will bring these solutions to market and to bear on pressing issues. To accomplish this, it is important that more women in science and engineering become entrepreneurs in order to start new companies; create business units inside established organizations, mature companies, and the government; and/or function as social entrepreneurs focused on societal issues. Entrepreneurship represents a vital source of change in all facets of society, empowering individuals to seek opportunity where others see insurmountable problems. From Science to Business: Preparing Female Scientists and Engineers for Successful Transitions into Entrepreneurship is the summary of an August 2009 workshop that assesses the current status of women undertaking entrepreneurial activity in technical fields, to better understand the nature of the barriers they encounter, and to identify what it takes for women scientists and engineers to succeed as entrepreneurs. This report focuses on women's career transitions from academic science and engineering to entrepreneurship, with a goal of identifying knowledge gaps in women's skills as well as experiences crucial to future success in business and critical for achieving leadership positions in entrepreneurial organizations. From Science to Business makes the case that in addition to educating women scientists and engineers in rigorous problem solving, it is equally important to provide exposure and training to impart the skills that will enable more women to move from the role of expert to that of leader in dynamic new business enterprises. This book will be of interest to professionals in both academia and industry, graduate and post-graduate students, and organizations that advocate for a stronger economy.