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Much of what humans know we cannot say. And much of what we do we cannot describe. For example, how do we know how to ride a bike when we can’t explain how we do it? Abilities like this were called “tacit knowledge” by physical chemist and philosopher Michael Polanyi, but here Harry Collins analyzes the term, and the behavior, in much greater detail, often departing from Polanyi’s treatment. In Tacit and Explicit Knowledge, Collins develops a common conceptual language to bridge the concept’s disparate domains by explaining explicit knowledge and classifying tacit knowledge. Collins then teases apart the three very different meanings, which, until now, all fell under the umbrella o...
According to the theory of relativity, we are constantly bathed in gravitational radiation. When stars explode or collide, a portion of their mass becomes energy that disturbs the very fabric of the space-time continuum like ripples in a pond. But proving the existence of these waves has been difficult; the cosmic shudders are so weak that only the most sensitive instruments can be expected to observe them directly. Fifteen times during the last thirty years scientists have claimed to have detected gravitational waves, but so far none of those claims have survived the scrutiny of the scientific community. Gravity's Shadow chronicles the forty-year effort to detect gravitational waves, while ...
What is the golem? In Jewish mythology the Golem is an effigy or image brought to life. While not evil, it is a strong, clumsy and incomplete servant. Through a series of case studies, ranging from relativity and cold fusion to memory in worms and the sex lives of lizards, Harry Collins and Trevor Pinch debunk the traditional view that science is the straightforward result of competent theorization, observation and experimentation. Scientific certainty is the interpretation of ambiguous results. The very well received first edition generated much debate, reflected in a substantial new Afterword in this new edition, which seeks to place the book in what have become known as 'the science wars'.
To ordinary people, science used to seem infallible. Scientists were heroes, selflessly pursuing knowledge for the common good. More recently, a series of scientific scandals, frauds and failures have led us to question science’s pre-eminence. Revelations such as Climategate, or debates about the safety of the MMR vaccine, have dented our confidence in science. In this provocative new book Harry Collins seeks to redeem scientific expertise, and reasserts science’s special status. Despite the messy realities of day-to-day scientific endeavor, he emphasizes the superior moral qualities of science, dismissing the dubious “default” expertise displayed by many of those outside the scientific community. Science, he argues, should serve as an example to ordinary citizens of how to think and act, and not the other way round.
A creature of Jewish mythology, a golem is an animated being made by man from clay and water who knows neither his own strength nor the extent of his ignorance. Like science and technology, the subjects of Harry Collins and Trevor Pinch's previous volumes, medicine is also a golem, and this Dr. Golem should not be blamed for its mistakes - they ...
A fascinating account, written in real time, of the unfolding of a scientific discovery: the first detection of gravitational waves.
What does it mean to be an expert? In Rethinking Expertise, Harry Collins and Robert Evans offer a radical new perspective on the role of expertise in the practice of science and the public evaluation of technology. Collins and Evans present a Periodic Table of Expertises based on the idea of tacit knowledge—knowledge that we have but cannot explain. They then look at how some expertises are used to judge others, how laypeople judge between experts, and how credentials are used to evaluate them. Throughout, Collins and Evans ask an important question: how can the public make use of science and technology before there is consensus in the scientific community? This book has wide implications for public policy and for those who seek to understand science and benefit from it. “Starts to lay the groundwork for solving a critical problem—how to restore the force of technical scientific information in public controversies, without importing disguised political agendas.”—Nature “A rich and detailed ‘periodic table’ of expertise . . . full of case studies, anecdotes and intriguing experiments.”—Times Higher Education Supplement (UK)
This fascinating study in the sociology of science explores the way scientists conduct, and draw conclusions from, their experiments. The book is organized around three case studies: replication of the TEA-laser, detecting gravitational rotation, and some experiments in the paranormal. "In his superb book, Collins shows why the quest for certainty is disappointed. He shows that standards of replication are, of course, social, and that there is consequently no outside standard, no Archimedean point beyond society from which we can lever the intellects of our fellows."—Donald M. McCloskey, Journal of Economic Psychology "Collins is one of the genuine innovators of the sociology of scientific knowledge. . . . Changing Order is a rich and entertaining book."—Isis "The book gives a vivid sense of the contingent nature of research and is generally a good read."—Augustine Brannigan, Nature "This provocative book is a review of [Collins's] work, and an attempt to explain how scientists fit experimental results into pictures of the world. . . . A promising start for new explorations of our image of science, too often presented as infallibly authoritative."—Jon Turney, New Scientist
An in-depth look at the ordinary and extraordinary things computers can do.
The authors demonstrate that the imperfections in technology are related to the uncertainties in science described in the first volume.