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In: Kultur und Außenpolitik, 2
The idea for this text stemmed from the fruitful experience gathered during the training course of 9 Nigerian university students organized in Naples from 3 to 18 September 2008 by the team of Fondazione IDIS-Città della Scienza under the project Science Centre Owerri. The training course turned out to be not only an educational opportunity to acquire knowledge and skills for these students, but also a real and practical tool that later led to the realization of the first Science Festival of Owerri in Nigeria in May 2009. This in turn sparked the idea of creating a highly practical handbook for those who want to face the challenge of developing new projects for the dissemination and socialization of science in developing countries. In these countries, the role of scientific education and training in schools is not sufficient to arouse scientific curiosity among young people and make the population aware of the importance of scientific knowledge in everyday life. Moreover science and technology are indispensable tools for people's empowerment and should be supported with actions that encourage curiosity about science and the intelligent use of technology to bridge the divide with developed countries. It is therefore necessary to set up activities that are carefully targeted to promote and communicate science. The text has been designed as a practical guide to be used in a variety of contexts: scientific events or more structured science festivals, training, the creation of scientific cultural associations, and the development of new science centres. Besides being an excellent tool for training and supporting the design and planning phases, the manual can also be used as a reference work for institutions and local cultural services which have to select projects of this type.
"The answers to scientific questions depend on who's asking, because the questions asked and the answers sought reflect the cultural values and orientations of the questioner. These values and orientations are most often those of Western science. In Who's Asking?, Douglas Medin and Megan Bang argue that despite the widely held view that science is objective, value-neutral, and acultural, scientists do not shed their cultures at the laboratory or classroom door; their practices reflect their values, belief systems, and worldviews. Medin and Bang argue further that scientist diversity -- the participation of researchers and educators with different cultural orientations -- provides new perspectives and leads to more effective science and better science education. Medin and Bang compare Native American and European American orientations toward the natural world and apply these findings to science education. The European American model, they find, sees humans as separated from nature; the Native American model sees humans as part of a natural ecosystem. Medin and Bang then report on the development of ecologically oriented and community-based science education programs on the Menominee reservation in Wisconsin and at the American Indian Center of Chicago. Medin and Bang's novel argument for scientist diversity also has important implications for questions of minority underrepresentation in science."
This trenchant study analyzes the rise and decline in the quality and format of science in America since World War II. During the Cold War, the U.S. government amply funded basic research in science and medicine. Starting in the 1980s, however, this support began to decline and for-profit corporations became the largest funders of research. Philip Mirowski argues that a powerful neoliberal ideology promoted a radically different view of knowledge and discovery: the fruits of scientific investigation are not a public good that should be freely available to all, but are commodities that could be monetized. Consequently, patent and intellectual property laws were greatly strengthened, universities demanded patents on the discoveries of their faculty, information sharing among researchers was impeded, and the line between universities and corporations began to blur. At the same time, corporations shed their in-house research laboratories, contracting with independent firms both in the States and abroad to supply new products. Among such firms were AT & T and IBM, whose outstanding research laboratories during much of the twentieth century produced Nobel Prize-winning work in chemistry and physics, ranging from the transistor to superconductivity. Science-Mart offers a provocative, learned, and timely critique, of interest to anyone concerned that American science--once the envy of the world--must be more than just another way to make money
In: Springer eBook Collection
Editorial – The Science of Citizen Science Evolves -- Chapter 1: What Is Citizen Science? The Challenges of Definition -- Chapter 2: Citizen Science in Europe -- Part I: Citizen Science as Science -- Chapter 3: Science as a Commons: Improving the Governance of Knowledge through Citizen Science -- Chapter 4: Citizen Science in the Natural Sciences -- Chapter 5: Citizen Humanities -- Chapter 6: Citizen Social Science: New and Established Approaches to Participation in Social Research -- Chapter 7: Data Quality in Citizen Science -- Chapter 8: A Conceptual Model for Participants and Activities in Citizen Science Projects -- Chapter 9: Machine Learning in Citizen Science: Promises and Implications -- Chapter 10: Participation and Co-creation in Citizen Science -- Chapter 11: Citizen Science, Health, and Environmental Justice -- Part II: Citizen Science in Society -- Chapter 12: Participants in Citizen Science -- Chapter 13: Inclusiveness and Diversity in Citizen Science -- Chapter 14: Learning in Citizen Science Chapter -- Chapter 15: Citizen Science Case Studies and Their Impacts on Social Innovation -- Chapter 16: Science as a Lever: The Roles and Power of Civil Society Organisations in Citizen Science -- Chapter 17: Citizen Science and Policy -- Chapter 18: Creating Positive Environmental Impact through Citizen Science -- Chapter 19: Ethical Challenges and Dynamic Informed Consent -- Part III: Citizen Science in Practice -- Chapter 20: Finding What You Need: A Guide to Citizen Science Guidelines -- Chapter 21: Citizen Science Platforms -- Chapter 22: Citizen Science in the Digital World of Apps -- Chapter 23: Communication and Dissemination in Citizen Science -- Chapter 24: Evaluation in Citizen Science: The Art of Tracing a Moving Target Part IV: Conclusions / Lessons Learnt -- Chapter 25: The Recent Past and Possible Futures of Citizen Science: Final Remarks. .
This open access book discusses how the involvement of citizens into scientific endeavors is expected to contribute to solve the big challenges of our time, such as climate change and the loss of biodiversity, growing inequalities within and between societies, and the sustainability turn. The field of citizen science has been growing in recent decades. Many different stakeholders from scientists to citizens and from policy makers to environmental organisations have been involved in its practice. In addition, many scientists also study citizen science as a research approach and as a way for science and society to interact and collaborate. This book provides a representation of the practices as well as scientific and societal outcomes in different disciplines. It reflects the contribution of citizen science to societal development, education, or innovation and provides and overview of the field of actors as well as on tools and guidelines. It serves as an introduction for anyone who wants to get involved in and learn more about the science of citizen science.
In: The behavioral and social sciences survey
In: Mathematical sciences panel
Applied Social Sciences: Education Sciences is a collection of essays specific to the field of education. The volume contains both essays on general issues in education (education in antiquity, discipline in early childhood, quality of the educational process, formative assessment, pedagogical approaches to literature, teacher training, gender stereotypes in education, and education and media) and essays on education in elementary school (curriculum design options, and science achievement in
If at one time we thought that the movement to science would yield unification of the discipline, it is now apparent that there are many roads to science. Still it is important for us to consider yet again what the appropriate goals are for our scientific enterprise. What works in theory building; induction and deduction; prediction and control; the search for useful principles to guide us - examining these questions, we can build a better science. Political science has come so far as a discipline that different schools and scholars have different interpretations of science in the study of pol
In: Art of living series
1. The gospel according to Dr Strangelove -- 2. Can science live with its past? -- 3. Styles of living scientifically : a tale of three nations -- 4. We are all scientists now : the rise of Protscience -- 5. The scientific ethic and the spirit of literalism -- 6. What has atheism : old or new : ever done for science? -- 7. Science as an instrument of divine justice -- 8. Scientific progress as secular providence -- 9. Science poised between changing the future and undoing the past -- 10. Further reading.