As a result of the large number of media used and a variety of objectives pursued by the various Public Communication of Science (PCS) activities, their evaluation turns into a daunting task. Therefore, a general taxonomy for all the approaches used by PCS could be helpful in order to differentiate their effects and to measure their results. A general format is proposed for a fast and easy evaluation of PCS efforts and to share a common language with all science communicators, who need to easily compare the results of this growing activity.
The urgent state of our global environment calls for collective action, which depends in large part on effective science communication for better understanding and awareness. Activities and institutions that provide opportunities to learn about nature all ultimately rely on scientific findings about nature. Although science produces the knowledge and information about nature, for the content to be accessible and meaningful to the general public, it needs to be processed by what I call science content design. This process is similar to the concepts of interpretation in tourism, or aesthetic
Science communication is an increasingly important field of activity, research and policy. It should not be assumed however, that science communication practices provide equitable and empowering opportunities for everyone. Social exclusion, inclusion and equity are key challenges for practitioners, researchers, policy makers and funders involved with science communication. In this commentary I reflect on the limitations of the ‘barriers approach to understanding social inclusion and exclusion from science communication and argue instead that a more complex perspective is needed. I conclude
Social inclusion is an emerging preoccupation in the science communication field. The political value of science communication (e.g. in terms of empowerment) and the necessity to address all audiences has always been considered, but in recent times the participation agenda has enriched the rationale and methodologies of the communication of science: social inclusion is not only an issue of access to knowledge, but also of governance and co-production.
An evaluation toolkit developed as part of the EU-funded PLACES project was applied in 26 case studies across Europe. Results show, among other things, the contribution of science communication initiatives to public curiosity, professional networking and perception of cities where these initiatives are stronger.
Children’s issues have become a greater priority on political agendas since the UN General Assembly adopted the Convention on the Rights of the Child (UNCRC). Each government has agreed to ensure that all those working with and for children understand their duties in relation to upholding children’s rights including the obligation to involve children in decisions that affect them (Article 12). Respecting children’s views is not just a model of good pedagogical practice, but a legally binding obligation. However, there is a limited awareness of Article 12, and how to actualise it. While many
In the editorial of this issue of JCOM, we underline how children are on one hand one of the main target group for science communication, and on the other hand a largely excluded group in the shift from a linear diffusion model to a dialogic model of science communication. In this series of comments, stimulated by the EU - FP7-Science in society project `SiS-Catalyst - 2013 children as change agents for science in society' (a four year programme aimed at crossing the science in society and the social inclusion agendas), we would like to explore methods and approaches that can ensure that, in
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Matteo MerzagoraTricia Alegra Jenkins
The science & art research played an important role in the topics covered by JCOM because actually the convergence of languages and themes of art and science increasingly continue to act synergistically in the most diverse knowledge fields.
This paper investigated the potential of the Public Internet Terminal (PIT) system to promote basic health education for two rural communities in the North West Province of South Africa. A case study approach was used. Participants were selected from a population group of teachers, nurses, business people and students in the two communities. Observation, group interviews and questionnaire were used to gather evidence from the participants regarding their operational difficulties, social/economic difficulties and perceived usefulness of using the PIT system for basic health education. The
Different stakeholders in research-practice partnerships often come from various institutions with distinct vocabulary, communication structures, and professional practices. To ensure that partnerships are mutually beneficial and equitable for educators and researchers alike, partners Jean Ryoo, Michelle Choi, and Emily McLeod from the California Tinkering Afterschool Network co-developed this resource for building equitable research-practice partnerships. This resource describes what equitable collaborations look like and offers guiding questions for group members to ask themselves in order
Science communication processes are complex and uncertain. Designing and managing these processes using a step-by-step approach, allows those with science communication responsibility to manoeuvre between moral or normative issues, practical experiences, empirical data and theoretical foundations. The tool described in this study is an evidence-based questionnaire, tested in practice for feasibility. The key element of this decision aid is a challenge to the science communication practitioners to reflect on their attitudes, knowledge, reasoning and decision-making in a step-by-step manner to
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Maarten C.A. van der SandenFrans J. Meijman
While some public works are monumental civil engineering structures like the Eiffel Tower or the Sydney Harbour Bridge, most are commonplace, even invisible, and they are taken for granted. The reason for existence of public works is to provide basic services, but both large and small infrastructure facilities also present opportunities to engage the public in understanding fundamental concepts of Science, Technology, Engineering, and Mathematics (STEM). We review here lessons learned in the National Science Foundation-funded Golden Gate Bridge Outdoor Exhibition project. Using the title of