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Many young Christians interested in the sciences have felt torn between two options: remaining faithful to Christ or studying science. In this concise introduction, Josh Reeves and Steve Donaldson provide both advice and encouragement for Christians in the sciences to bridge the gap between science and Christian belief and practice.
For many in the nineteenth century, the spoken word had a vivacity and power that exceeded other modes of communication. This conviction helped to sustain a diverse and dynamic lecture culture that provided a crucial vehicle for shaping and contesting cultural norms and beliefs. As science increasingly became part of public culture and debate, its spokespersons recognized the need to harness the presumed power of public speech to recommend the moral relevance of scientific ideas and attitudes. With this wider context in mind, The Voice of Science explores the efforts of five celebrity British scientists—John Tyndall, Thomas Henry Huxley, Richard Proctor, Alfred Russel Wallace, and Henry Drummond—to articulate and embody a moral vision of the scientific life on American lecture platforms. These evangelists for science negotiated the fraught but intimate relationship between platform and newsprint culture and faced the demands of audiences searching for meaningful and memorable lecture performances. As Diarmid Finnegan reveals, all five attracted unrivaled attention, provoking responses in the press, from church pulpits, and on other platforms. Their lectures became potent cultural catalysts, provoking far-reaching debate on the consequences and relevance of scientific thought for reconstructing cultural meaning and moral purpose.
For the first time, this book compiles original documents from Science for the People, the most important radical science movement in U.S. history. Between 1969 and 1989, Science for the People mobilized American scientists, teachers, and students to practice a socially and economically just science, rather than one that served militarism and corporate profits. Through research, writing, protest, and organizing, members sought to demystify scientific knowledge and embolden "the people" to take science and technology into their own hands. The movement's numerous publications were crucial to the formation of science and technology studies, challenging mainstream understandings of science as "neutral" and instead showing it as inherently political. Its members, some at prominent universities, became models for politically engaged science and scholarship by using their knowledge to challenge, rather than uphold, the social, political, and economic status quo. Highlighting Science for the People's activism and intellectual interventions in a range of areas -- including militarism, race, gender, medicine, agriculture, energy, and global affairs -- this volume offers vital contributions to today's debates on science, justice, democracy, sustainability, and political power.
From weaker to stronger rhetoric : literature - Laboratories - From weak points to strongholds : machines - Insiders out - From short to longer networks : tribunals of reason - Centres of calculation.
It's a tough time to be a scientist: universities are shuttering science departments, federal funding agencies are facing flat budgets, and many newspapers have dropped their science sections altogether. But according to Marc Kuchner, this antiscience climate doesn't have to equal a career death knell-it just means scientists have to be savvier about promoting their work and themselves. In Marketing for Scientists, he provides clear, detailed advice about how to land a good job, win funding, and shape the public debate. As an astrophysicist at NASA, Kuchner knows that "marketing" can seem like a superficial distraction, whether your daily work is searching for new planets or seeking a cure for cancer. In fact, he argues, it's a critical component of the modern scientific endeavor, not only advancing personal careers but also society's knowledge. Kuchner approaches marketing as a science in itself. He translates theories about human interaction and sense of self into methods for building relationships-one of the most critical skills in any profession. And he explains how to brand yourself effectively-how to get articles published, give compelling presentations, use social media like Facebook and Twitter, and impress potential employers and funders. Like any good scientist, Kuchner bases his conclusions on years of study and experimentation. In Marketing for Scientists, he distills the strategies needed to keep pace in a Web 2.0 world.
What clutter-busting need was behind the invention of the World Wide Web? Which stain-fighting chemical got its start when a lab assistant dropped a beaker on a lab floor? In S is for Scientists: A Discovery Alphabet, the origins behind some of the most important scientific discoveries are explored. Budding young scientists will learn what Galileo witnessed in a church that led to his theory of measurement; how biologist Rachel Carson's book, Silent Spring, helped to spur the first call to action in the environmental movement; and why Ivan Pavlov's study of a drooling dog laid the foundations for a new branch of psychology. From discoveries that fundamentally changed scientific methods to everyday inventions that are now taken for granted, S is for Scientists sheds light on the events and people who have shaped our lives today. A former teacher, Larry Verstraete now spends his time writing, visiting schools and libraries, and presenting at conferences and festivals. S is for Scientists: A Discovery Alphabet is his second picture book with Sleeping Bear Press. He lives in Winnipeg. David Geister's fascination with American history is celebrated in his work, and his paintings have been featured in The Saturday Evening Post. Dave's books for Sleeping Bear Press include B is for Battle Cry: A Civil War Alphabet and Riding to Washington. He lives in Minneapolis, Minnesota.
This textbook offers an introduction to the philosophy of science. It helps undergraduate students from the natural, the human and social sciences to gain an understanding of what science is, how it has developed, what its core traits are, how to distinguish between science and pseudo-science and to discover what a scientific attitude is. It argues against the common assumption that there is fundamental difference between natural and human science, with natural science being concerned with testing hypotheses and discovering natural laws, and the aim of human and some social sciences being to understand the meanings of individual and social group actions. Instead examines the similarities between the sciences and shows how the testing of hypotheses and doing interpretation/hermeneutics are similar activities. The book makes clear that lessons from natural scientists are relevant to students and scholars within the social and human sciences, and vice versa. It teaches its readers how to effectively demarcate between science and pseudo-science and sets criteria for true scientific thinking. Divided into three parts, the book first examines the question What is Science? It describes the evolution of science, defines knowledge, and explains the use of and need for hypotheses and hypothesis testing. The second half of part I deals with scientific data and observation, qualitative data and methods, and ends with a discussion of theories on the development of science. Part II offers philosophical reflections on four of the most important con cepts in science: causes, explanations, laws and models. Part III presents discussions on philosophy of mind, the relation between mind and body, value-free and value-related science, and reflections on actual trends in science.
That the longstanding antagonism between science and religion is irreconcilable has been taken for granted. And in the wake of recent controversies over teaching intelligent design and the ethics of stem-cell research, the divide seems as unbridgeable as ever.In Science vs. Religion, Elaine Howard Ecklund investigates this unexamined assumption in the first systematic study of what scientists actually think and feel about religion. In the course of her research, Ecklund surveyed nearly 1,700 scientists and interviewed 275 of them. She finds that most of what we believe about the faith lives of elite scientists is wrong. Nearly 50 percent of them are religious. Many others are what she calls "spiritual entrepreneurs," seeking creative ways to work with the tensions between science and faith outside the constraints of traditional religion. The book centers around vivid portraits of 10 representative men and women working in the natural and social sciences at top American research universities. Ecklund's respondents run the gamut from Margaret, a chemist who teaches a Sunday-school class, to Arik, a physicist who chose not to believe in God well before he decided to become a scientist. Only a small minority are actively hostile to religion. Ecklund reveals how scientists-believers and skeptics alike-are struggling to engage the increasing number of religious students in their classrooms and argues that many scientists are searching for "boundary pioneers" to cross the picket lines separating science and religion.With broad implications for education, science funding, and the thorny ethical questions surrounding stem-cell research, cloning, and other cutting-edge scientific endeavors, Science vs. Religion brings a welcome dose of reality to the science and religion debates.
How do scientific conjectures become laws? Why does proof mean different things in different sciences? Do numbers exist, or were they invented? Why do some laws turn out to be wrong? In this wide-ranging book, Brian Davies discusses the basis for scientists' claims to knowledge about the world. He looks at science historically, emphasizing not only the achievements of scientists from Galileo onwards, but also their mistakes. He rejects the claim that all scientific knowledge is provisional, by citing examples from chemistry, biology and geology. A major feature of the book is its defence of the view that mathematics was invented rather than discovered. While experience has shown that disentangling knowledge from opinion and aspiration is a hard task, this book provides a clear guide to the difficulties. Full of illuminating examples and quotations, and with a scope ranging from psychology and evolution to quantum theory and mathematics, this book brings alive issues at the heart of all science.
The public is generally enthusiastic about the latest science and technology, but sometimes research threatens the physical safety or ethical norms of society. When this happens, scientists and engineers can find themselves unprepared in the midst of an intense science policy debate. In the absence of convincing evidence, technological optimists and skeptics struggle to find common values on which to build consensus. The best way to avoid these situations is to sidestep the instigating controversy by using a broad risk-benefit assessment as a risk exploration tool to help scientists and engineers design experiments and technologies that accomplish intended goals while avoiding physical or moral dangers. Dangerous Science explores the intersection of science policy and risk analysis to detail failures in current science policy practices and what can be done to help minimize the negative impacts of science and technology on society.