A recent article published in Science Communication addresses the training issue in issue in our discipline. Henk Mulder and his colleagues discuss the shared features that university curricula should or could have to favour the full admission of science communication into the academic circle. Having analysed analogies and differences in the curricula that a number of schools provide all over the world, the authors reached the conclusion that much remains to be done. Science communication seems far from having found shared fundamental references, lessons that cannot be missed in the practical
Science must be open and accessible, and diffusion of knowledge should not be limited by patents and copyrights. After the Open Science Summit held in Berkeley, some notes about sharing scientific data and updating the social contract for science. Against the determinist view on technological and legal solutions, we need an explicit reflection on the relation between science and society. Both academic and industrial science seem unable to fulfill open science needs: new societal configurations are emerging and we should keep asking questions about appropriation, power, privatisation and
While several scientific communities have discussed the emergence of Open Access publishing in depth, in the science communication community this debate has never been central. Scholars in most scientific disciplines have at their disposal Open Access options such as journals, repositories, preprint archives and the like. Ironically enough, a community devoted to the study of science’s communication structures is witnessing this transformation without being directly involved. Both structural and cultural obstacles hamper the growth of an Open Access sector in science communication publishing
This issue of the Journal of Science Communication raises a number of questions about the ways that new scientific research emerges from research institutions and in particular the role played by scientists, press officers and journalists in this process. This is not to suggest that the public don't play an equally important role, and several articles in this issue raise questions about public engagement, but to explore the dynamics at play in one specific arena: that of news production. In this editorial I explore the increasing reliance of science journalists on public relations sources and
‘Who’s Asking: Native Science, Western Science, and Science Education’ explores two key questions for science education, communication and engagement; first, what is science and second, what do different ways of understanding science mean for science and for science engagement practices? Medin and Bang have combined perspectives from the social studies of science, philosophy of science and science education to argue that science could be more inclusive if reframed as a diverse endeavour. Medin and Bang provide a useful, extensive and wide-ranging discussion of how science works, the nature of
The ever-changing nature of academic science communication discourse can make it challenging for those not intimately associated with the field ― scientists and science-communication practitioners or new-comers to the field such as graduate students ― to keep up with the research. This collection of articles provides a comprehensive overview of the subject and serves as a thorough reference book for students and practitioners of science communication.
In January this year, the US saw the publication of the preview of an impressive review work on the practices and the studies concerning learning science outside schools and universities, i.e. what is referred to as informal education. The document, promoted by the National Science Council of scientific academies (National Academy of Science, National Academy of Engineering and Institute of Medicine), is the result of the work by a committee comprising 14 specialists who collected, discussed and then organized hundreds of documents on pedagogical premises, places, practices and pursuits
Exploring public attitudes towards science helps investigate the images of science and what the social representations of science are. In this regard, science communication plays a crucial role in its different ways of addressing different publics.
STEM learning ecosystems harness contributions of educators, policymakers, families, businesses, informal science institutions, after-school and summer providers, higher education, and many others towards a comprehensive vision of STEM learning for all children. This paper offers evidence of the impact of cross-sector partnerships on young people, and a logic model template for communities so they may further develop the attributes, strategies, and measures of progress that enable them to advance opportunities for all young people to succeed. Further research will help us expand the promise
As part of its continuing effort to maximize efficiency by assessing the effectiveness of its efforts, NASA’s Office of Education contracted with Abt Associates in July 2009 to evaluate the Informal Education Program. The goals of the evaluation are twofold: (1) to gain insight into its investment in informal education; and (2) to clarify existing distinctions between its informal education and outreach efforts. The evaluation findings provide descriptive information about all the projects in the NASA’s education portfolio affiliated with Outcome 3 (Informal Education) and selected Outcome 2
A short outline of the evolution of communications at CERN since 1993 and the parallel growth of the need both for professional communications and, at the same time, the need for training in more and more complex competencies for the new profession.
Project TRUE seeks to increase the interest of high school students in pursuing science, technology, engineering and mathematics majors by increasing participants’ exposure to urban ecology research conducted with college mentors. The Lifelong Learning Group is conducting research that explores the program’s longer-term influence on academic and career choices. More specifically, the research addresses the question: How do the four key elements of youth development in Project TRUE contribute to pursuit of advanced STEM study and career path in the short- and medium-term? This report presents