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The textbooks written by Adolphe Ganot (1804-1887) played a major role in shaping the way physics was taught in the nineteenth century. Ganot's books were translated from their original French into more than ten languages, including English, allowing their adoption as standard works in Britain and spreading their influence as far as North America, Australia, India and Japan. Simon's Franco-British case study looks at the role of Ganot's two textbooks: Traite elementaire de physique experimentale et appliquee (1851) and Cours de physique purement experimentale (1859), and their translations into English by Edmund Atkinson. The study is novel for its international comparison of nineteenth-century physics, its acknowledgement of the role of book production on the impact of the titles, and for its emphasis on the role of communication in the making of science.
Science and technology are embedded in virtually every aspect of modern life. As a result, people face an increasing need to integrate information from science with their personal values and other considerations as they make important life decisions about medical care, the safety of foods, what to do about climate change, and many other issues. Communicating science effectively, however, is a complex task and an acquired skill. Moreover, the approaches to communicating science that will be most effective for specific audiences and circumstances are not obvious. Fortunately, there is an expanding science base from diverse disciplines that can support science communicators in making these determinations. Communicating Science Effectively offers a research agenda for science communicators and researchers seeking to apply this research and fill gaps in knowledge about how to communicate effectively about science, focusing in particular on issues that are contentious in the public sphere. To inform this research agenda, this publication identifies important influences â€" psychological, economic, political, social, cultural, and media-related â€" on how science related to such issues is understood, perceived, and used.
The volume gives a multi-perspective overview of scholarly and science communication, exploring its diverse functions, modalities, interactional structures, and dynamics in a rapidly changing world. In addition, it provides a guide to current research approaches and traditions on communication in many disciplines, including the humanities, technology, social and natural sciences, and on forms of communication with a wide range of audiences.
Science communication is a rapidly expanding area and meaningful engagement between scientists and the public requires effective communication. Designed to help the novice scientist get started with science communication, this unique guide begins with a short history of science communication before discussing the design and delivery of an effective engagement event. Along with numerous case studies written by highly regarded international contributors, the book discusses how to approach face-to-face science communication and engagement activities with the public while providing tips to avoid potential pitfalls. This book has been written for scientists at all stages of their career, including undergraduates and postgraduates wishing to engage with effective science communication for the first time, or looking to develop their science communication portfolio.
Ideal for students and practitioners in science, engineering and medicine, this book gives an insight into science's place in society.
Being a scientist in the 21st century can be extremely demanding. In addition to conducting exceptional research we are expected to communicate it effectively to a variety of audiences, from scientists and students to policymakers and press officers. This book provides a roadmap for how to disseminate your research findings in an engaging manner via a range of channels, such as scientific publications, press releases, social media and outreach. Furthermore, by providing advice and worked examples on how to fund and publish your research, develop additional skills and support inclusive practices, this book provides a comprehensive handbook for how to be a successful scientist. This second edition brings the text up to date and includes additional material, while retaining the combination of clear insight and practical advice that made the first edition essential.
On topics from genetic engineering and mad cow disease to vaccination and climate change, this Handbook draws on the insights of 57 leading science of science communication scholars who explore what social scientists know about how citizens come to understand and act on what is known by science.
This book is invaluable for teachers and students in high school and junior college who struggle to understand the principles of modern physics and incorporate scientific methods in their lessons. It provides interactive and multidisciplinary approaches that will help prepare present and future generations to face the technological and social challenges they will face. Rather than using a unidirectional didactic approach, the authors - scientists, philosophers, communication experts, science historians and science education innovators - divide the book into two parts; the first part, “Communicating Contemporary Physics”, examines how new physics developments affect modern culture, while the second part, “Digital Challenges for Physics Learning”, covers physics education research using ICT, plus the experiences of classroom teachers and a range of ideas and projects to innovate physics and STEM teaching.