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Invaluable guidance on how scientists can communicate the societal benefits of their work to the public and funding agencies. This will help scientists submit proposals to the US National Science Foundation and other funding agencies with a 'Broader Impacts' section, as well as helping to develop successful wider outreach activities.
"In this concices and luminous book ... [Russell] examines the changes in modern life brought about by science. he suggests that its work in transforming society is only just beginning"--from inside upper cover.
The field of Information Science is intertwined with the complexity present in society. The study object in this field refers to data, information, and knowledge generated, mediated, and appropriated by different individuals in the most diverse human activities. Thus, discussing complex issues that are intertwined with information management, knowledge management, innovation management, organizational intelligence, information mediation, information appropriation, and information literacy is essential for understanding the future perspectives of digital humanity. Role of Information Science in a Complex Society presents discussions that can be applied to local, regional, and national policies aimed at economic and social development and supports innovative actions in economic segments that depend on innovation. Highlighting topics that include information literacy, ethics, knowledge management, and organizational learning, this book is an ideal reference source for academicians, professionals, researchers, and students, as well as entrepreneurs from different economic segments.
Science occupies an ambiguous space in contemporary society. Scientific research is championed in relation to tackling environmental issues and diseases such as cancer and dementia, and science has made important contributions to today’s knowledge economies and knowledge societies. And yet science is considered by many to be remote, and even dangerous. It seems that as we have more science, we have less understanding of what science actually is. The new edition of this popular text redresses this knowledge gap and provides a novel framework for making sense of science, particularly in relation to contemporary social issues such as climate change. Using real-world examples, Mark Erickson explores what science is and how it is carried out, what the relationship between science and society is, how science is represented in contemporary culture, and how scientific institutions are structured. Throughout, the book brings together sociology, science and technology studies, cultural studies and philosophy to provide a far-reaching understanding of science and technology in the twenty-first century. Fully updated and expanded in its second edition, Science, Culture and Society will continue to be key reading on courses across the social sciences and humanities that engage with science in its social and cultural context.
In the form of a sociological pilgrimage, this book approaches some topics essential to understanding the role of science in Latin America, juxtaposing several approaches and exploring three main lines: First, the production and use of knowledge in these countries, viewed from a historical and sociological point of view; second, the reciprocal construction of scientific and public problems, presented through significant cases such as Latin American Chagas Disease; and third, the past and present asymmetries affecting the relationships between centers and peripheries in scientific research. These topics show the paradox of being at the same time "modern" and "peripheral."
In its concern with science as an essentially human enterprise, Science, Faith and Society makes an original and challenging contribution to the philosophy of science. On its appearance in 1946 the book quickly became the focus of controversy. Polanyi aims to show that science must be understood as a community of inquirers held together by a common faith; science, he argues, is not the use of "scientific method" but rather consists in a discipline imposed by scientists on themselves in the interests of discovering an objective, impersonal truth. That such truth exists and can be found is part of the scientists' faith. Polanyi maintains that both authoritarianism and scepticism, attacking this faith, are attacking science itself.
We are in an ever-changing and fast-paced world that is entrenched in technological innovation. But how is technology and science impacting our society? How does it affect our interactions with these products and ultimately with each other? How is society shaping the types of technologies we are advancing? Critical Issues Impacting Science, Technology, Society (STS), and Our Future compiles theory and research from the confluence of a variety of disciplines to discuss how scientific research and technological innovation is shaping society, politics, and culture, and predicts what can be expected in the future. While highlighting topics including political engagement, artificial intelligence, and wearable technology, this book is ideally designed for policymakers, government officials, business managers, computer engineers, IT specialists, scientists, and professionals and researchers in the science, technology, and humanities fields.
The role of values in scientific research has become an important topic of discussion in both scholarly and popular debates. Pundits across the political spectrum worry that research on topics like climate change, evolutionary theory, vaccine safety, and genetically modified foods has become overly politicized. At the same time, it is clear that values play an important role in science by limiting unethical forms of research and by deciding what areas of research have the greatest relevance for society. Deciding how to distinguish legitimate and illegitimate influences of values in scientific research is a matter of vital importance. Recently, philosophers of science have written a great deal on this topic, but most of their work has been directed toward a scholarly audience. This book makes the contemporary philosophical literature on science and values accessible to a wide readership. It examines case studies from a variety of research areas, including climate science, anthropology, chemical risk assessment, ecology, neurobiology, biomedical research, and agriculture. These cases show that values have necessary roles to play in identifying research topics, choosing research questions, determining the aims of inquiry, responding to uncertainty, and deciding how to communicate information. Kevin Elliott focuses not just on describing roles for values but also on determining when their influences are actually appropriate. He emphasizes several conditions for incorporating values in a legitimate fashion, and highlights multiple strategies for fostering engagement between stakeholders so that value influences can be subjected to careful and critical scrutiny.
A “timely, informative, and fascinating” study of 8 inventions—and how they shaped our world—with “totally compelling” insights on little-known inventors throughout history (Elizabeth Kolbert, Pulitzer Prize–winning author of The Sixth Extinction) In The Alchemy of Us, scientist and science writer Ainissa Ramirez examines 8 inventions and reveals how they shaped the human experience: • Clocks • Steel rails • Copper communication cables • Photographic film • Light bulbs • Hard disks • Scientific labware • Silicon chips Ramirez tells the stories of the woman who sold time, the inventor who inspired Edison, and the hotheaded undertaker whose invention pointed the way to the computer. She describes how our pursuit of precision in timepieces changed how we sleep; how the railroad helped commercialize Christmas; how the necessary brevity of the telegram influenced Hemingway’s writing style; and how a young chemist exposed the use of Polaroid’s cameras to create passbooks to track black citizens in apartheid South Africa. These fascinating and inspiring stories offer new perspectives on our relationships with technologies. Ramirez shows not only how materials were shaped by inventors but also how those materials shaped culture, chronicling each invention and its consequences—intended and unintended. Filling in the gaps left by other books about technology, Ramirez showcases little-known inventors—particularly people of color and women—who had a significant impact but whose accomplishments have been hidden by mythmaking, bias, and convention. Doing so, she shows us the power of telling inclusive stories about technology. She also shows that innovation is universal—whether it's splicing beats with two turntables and a microphone or splicing genes with two test tubes and CRISPR.
Written for the undergraduate, majors and non-majors alike taking a foundational course in science, Science & Society: Thought and Education for the 21st Century helps students become better consumers of science by showing them how to think like a scientist. Scientific principles are infused with case studies, stories, paradoxes, poetry, medical dilemmas, and misconceptions, all through a lens of skepticism. Throughout the book, provocative science examples are provided that guide students to consider facts more critically. The author exposes readers to research methods, science philosophy, critical thinking strategies, mathematics, and history, and urges them to question data and think scientifically. End-of-chapter questions link to interesting content stimulates debate and discussion in the classroom and this engaging, interdisciplinary approach to learning science leads student to real truths behind many natural phenomena. -End-of-chapter review questions creatively stimulate discussion and span all levels of Bloom's taxonomy. -The text makes science accessible to a broad range of readers and covers all of the key areas needed for a full understanding of science. -Questions stimulate debate and discussion and cover science philosophy, history, mathematics, education, research methods, and critical thinking strategies. -Provides models of reasoning and guidelines and practice activities for thinking critically. -Presents major themes common to all scientific disciplines in a clear and readable manner for undergraduates