The Science of Science
In: Science and public policy: journal of the Science Policy Foundation
ISSN: 1471-5430
In: Science and public policy: journal of the Science Policy Foundation
ISSN: 1471-5430
In: Science and public policy: journal of the Science Policy Foundation
ISSN: 1471-5430
In: Race & class: a journal for black and third world liberation, Band 34, Heft 4, S. 35-46
ISSN: 1741-3125
'Come, then, my friends; it would be better to decide at once to come about and change our ways. We must shake off the heavy darkness in which we were plunged, and leave it behind... 'Come, then, my friends; the European game has definitely ended; we must find something different. We today can do everything, so long as we do not ape Europe, so long as we are not obsessed by the desire to catch up with Europe... . 'Two centuries ago, a former European colony set its mind on catching up with Europe. It succeeded so well at it that the United States of America became a monster, in which the taints, the sicknesses, and the inhumanity of Europe have grown to appalling dimensions... 'Today we witness the stasis of Europe. Comrades, let us flee from this motionless movement where gradually, dialectics has been changed into the logic of equilibrium. Let us reconsider the question of mankind... 'The Third World today faces Europe like a colossal mass whose aim must be to try to resolve the problems to which Europe has not been able to bring a solution... 'But if we want humanity to advance a notch higher, if we want to bring it up to a different level than that which Europe displayed, then we must invent and we must discover new ways.
In: Bulletin of the atomic scientists, Band 21, Heft 8, S. 2-8
ISSN: 1938-3282
In: PS: political science & politics, Band 35, Heft 4, S. 660
ISSN: 1537-5935
In: Journal of Science Communication, 14(3), 1-10 (2015)
SSRN
In: European studies in philosophy of science volume 9
In: SpringerLink
In: Bücher
In: Springer eBook Collection
In: Religion and Philosophy
This broad and insightful book presents current scholarship in important subfields of philosophy of science and addresses an interdisciplinary and multidisciplinary readership. It groups carefully selected contributions into the four fields of I) philosophy of physics, II) philosophy of life sciences, III) philosophy of social sciences and values in science, and IV) philosophy of mathematics and formal modeling. Readers will discover research papers by Paul Hoyningen-Huene, Keizo Matsubara, Kian Salimkhani, Andrea Reichenberger, Anne Sophie Meincke, Javier Suárez, Roger Deulofeu, Ludger Jansen, Peter Hucklenbroich, Martin Carrier, Elizaveta Kostrova, Lara Huber, Jens Harbecke, Antonio Piccolomini d'Aragona and Axel Gelfert. This collection fosters dialogue between philosophers of science working in different subfields, and brings readers the finest and latest work across the breadth of the field,illustrating that contemporary philosophy of science has successfully broadened its scope of reflection. It will interest and inspire a wide audience of philosophers as well as scholars of the natural sciences, social sciences and the humanities. The volume shares selected contributions from the prestigious second triennial conference of the German Society for Philosophy of Science/ Gesellschaft für Wissenschaftsphilosophie (GWP.2016, March 8, 2016 - March 11, 2016)
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: 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. .
In: Science and public policy: journal of the Science Policy Foundation
ISSN: 1471-5430
In: Science and public policy: journal of the Science Policy Foundation, Band 38, Heft 8, S. 662-664
ISSN: 1471-5430
In: Policy sciences: integrating knowledge and practice to advance human dignity, Band 15, Heft 2, S. 115-135
ISSN: 1573-0891
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.
Invited Key-note speaker Conference ; International audience ; We call values that which founds a judgment (good or bad, important or not, right or wrong, true or false, beautiful or ugly, expensive or cheap, .). After giving some definitions, this paper analyzes the values that are identifiable inside science, and then inside science education. The value of science comes from its economical and political importance, but science seeks the truth by observing important values: a scientist must be honest, modest, always critical, rejecting any dogmatism and any fraud, but also creative, imaginative and able to work collectively. Nevertheless, a scientist is a human being with emotions and ideologies often interfering with his/her work and results. Some examples are discussed. Science must be separated from religion but the values of science and those of ethics overlap (bio-ethics, citizen values). UNESCO promotes Education for All, even if there are still important inequalities among countries. The values of science education are analyzed, and developed furtheron the example of ESD (Education for a Sustainable Development). They are then analyzed in some images of science textbooks, showing implicit ideologies linked to the scientific messages. They are also identified through different pedagogical styles. The analysis of teachers' conceptions, through an international survey covering more than 8 000 teachers, reveals deep differences among countries, as well as opposite systems of values, in interaction with social practices and actual or out-dated scientific knowledge, illustrating the KVP model as is also the case throughout this paper.
BASE