This paper brings some reflections on JCOM and, in general on a science communication journal, from the perspective of the developing world. It is highlighted the following top aspects of JCOM: open access; the language, that is, the fact that authors can write in their own languages and the article is translated into English; and the fact that JCOM welcomes contributions from every part of the world. The author considers JCOM a unique journal, which approaches science communication in a rich way and keeping a welcome intellectual diversity.
Improving STEM education in and out of schools depends on the collaborative efforts of educators, policy makers, education researchers, and community leaders. One promising strategy for structuring such collaborations is research-practice partnerships (RPPs) that bring researchers and educators together for sustained joint work around a key problem of practice of mutual concern. In June 2014, the Research + Practice (R+P) Collaboratory held two workshops focused on building capacity for research-practice partnerships in conjunction with the 11th International Conference of the Learning
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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TEAM MEMBERS:
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
Several publications have sought to define the field of science communication and review current issues and recent research. But the status of science communication is uncertain in disciplinary terms. This commentary considers two dimensions of the status of discipline as they apply to science communication – the clarity with which the field is defined and the level of development of theories to guide formal studies. It argues that further theoretical development is needed to support science communication’s full emergence as a discipline.
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TEAM MEMBERS:
Brian TenchMassimiano Bucchi
resourceresearchProfessional Development, Conferences, and Networks
Key challenges and opportunities are outlined in the ERA perspective and the role of evaluation as an instrument in the socialisation of science and technology is explored. Only an integrated and highly socialised science and technology, deeply embedded in society and involving all the relevant stakeholders, can address the complex problems Europe faces today and thus improve its research position and competitiveness worldwide.
Astronomy from the Ground Up (AFGU) was a five year project directed by the Astronomical Society of the Pacific (ASP) and funded by the NSF Informal Science Education (ISE) division (DRL- 0451933). The primary partner institutions were the National Optical AstronomyObservatory (NOAO) and the Association of Science-Technology Centers (ASTC). Between 2006 and 2008, the AFGU project hosted 6 onsite and 6 online workshops. The project provided professional development for informal science educators in the area of astronomy educational
programming. The project’s primary goal was to encourage more
NASA’s Science Mission Directorate (SMD) explores the Earth, the Sun, our solar system, the galaxy and beyond through four SMD divisions: Earth Science, Heliophysics, Planetary Science and Astrophysics. Alongside NASA scientists, teams of education and public outreach (EPO) specialists develop and implement programs and resources that are designed to inspire and educate students, teachers, and the public about NASA science.
Since 2011, the Community for Advancing Discovery Research in Education (CADRE), housed at Education Development Center, has been collaborating with the National Science Foundation on a series of national and regional STEM Smart meetings, which bring together educators, advocates, policy makers, and STEM thought leaders. Particularly useful resources resulting from these meetings are easy-to-read STEM Smart Briefs on a number of STEM education issues.
STEM Pathways is a collaboration between five Minnesota informal STEM (science, technology, engineering, and mathematics) education organizations—The Bakken Museum, Bell Museum of Natural History, Minnesota Zoo, STARBASE Minnesota, and The Works Museum—working with Minneapolis Public Schools (MPS) and advised by the Minnesota Department of Education. STEM Pathways (logo shown in Figure 1) aims to provide a deliberate and connected series of meaningful in-school and out-of-school STEM learning experiences to strengthen outcomes for students, build the foundation for a local ecosystem of STEM
The science education community is buzzing about STEM learning ecosystems, ecologies of learning, and ecological perspectives on learning. You may not know it, but if your teaching involves building on young people’s prior knowledge or making connections between the science curriculum and science in the broader world, your work may already reflect aspects of ecological learning theories. At the heart of an ecological perspective on learning is the need to make connections across formal, informal, and everyday learning. So, what are STEM learning ecologies all about, and how can science