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
ECSITE is the European network of science centres and museums (www.ecsite.net). The ECSITE Annual Conference, attended every year by several hundreds of professionals in science museums and science centres (870 at the last edition), and the ECSITE director forum, where full members of the association discuss on focused topics, are excellent observation points. Looking at what goes on in these meetings allows to track what is high on the agenda of the science-centre community, how the focus of interest moves, what are the main concerns of museum professionals.
During the last annual conference of ECSITE (European Collaborative for Science and Technology Exhibitions; Helsinki, June 2005), for the first time two discussion sessions were devoted to explainers, the innumerable people – young students mainly – who welcome visitors at exhibitions, museums and festivals, who animate laboratories and science shows, who guide, explain and lately also stimulate and manage discussions and participatory procedures. Thanks to the involvement of the speakers, who agreed to submit a broadened version of their papers, JCOM is glad to host the proceedings of these
In this paper I use the concepts “understanding of science” and “appreciation of science” to analyze selected case studies of current science communication in Denmark. The Danish science communication system has many similarities with science communication in other countries: the increasing political and scientific interest in science communication, the co-existence of many different kinds of science communication, and the multiple uses of the concepts of understanding vs. appreciation of science. I stress the international aspects of science communication, the national politico-scientific
Science and technology: these are the mainstays China wants to concentrate on in order to stabilise its future as an emerging world power. Beijing plans to have the whole, enormous Chinese population literate in the scientific field within a few years. Scientific popularization is the key to what now, due to political influences and deep social disparities, seems remote.
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TEAM MEMBERS:
Nico Pitrelli
resourceresearchProfessional Development, Conferences, and Networks
In a beautiful Barcelona, bathed in sun, the 8th PCST Congress was celebrated at the beginning of June. Besides the magnificent location of this year, there are several other reasons to commemorate the event. The first reason is that the community of professionals and scholars interested in Public Communication of Science and Technology (science journalists and writers, scientists, sociologists, teachers, historians, science museum curators, etc.) is growing quickly.
Research on mathematical reasoning and learning has long been a central part of the classroom and formal education literature (e.g., National Research Council, 2001, 2005). However, much less attention has been paid to how children and adults engage with and learn about math outside of school, including everyday settings and designed informal learning environments, such as interactive math exhibits in science centers. With the growing recognition of the importance of informal STEM education (National Research Council, 2009, 2015), researchers, educators, and policymakers are paying more
Making, tinkering, and other informal design and engineering experiences offer rich opportunities to engage
children and adults in mathematics and build mathematical skills, knowledge, and interests. But how can educators
successfully integrate mathematics into these experiences? One approach to answering this question is to better understand how children and adults engage with and think about mathematics outside of school, in every day and informal learning environments. As part of the NSF-funded Math in
the Making project, Pattison, Rubin, and Wright (2016) synthesized the research on
Although there is a growing body of research on mathematics in informal learning environments (Pattison, Rubin, & Wright, 2016; Rubin, Garibay, & Pattison, 2016), less has been done to understand how math can be integrated into other informal STEM education settings or topics, and how this integration might engage those who do not already have positive attitudes about math. Over the last decade there has been a proliferation of out-of-school environments that foster building, making, tinkering, and design activities (Bevan, Gutwill, Petrich, & Wilkinson, 2015; Vossoughi, Escudé, Kong, & Hooper
This is a handout from the session "Knowing your Community: To Be More Interesting, Be More Interested" at the 2014 ASTC Conference held in Raleigh, NC. It provides a set of three questions for museum professionals to ask members of their community.
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TEAM MEMBERS:
Bill Booth
resourceresearchProfessional Development, Conferences, and Networks
This presentation was part of the session "A Scientist Walks into a Bar: Humor in STEM Education" at the 2014 ASTC Conference in Raleigh, NC. The session explored strategies to leverage laughter for learning based on the latest brain research coupled with with personal experiences.
As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program funds innovative resources for use in a variety of settings. This project, "STEM Learning in Libraries: A National Conference on Needs, Opportunities, and Future Directions," brings together libraries, informal educators and STEM education and research organizations to discuss the role of libraries in STEM out-of-school time (OST) education, share existing programs, define library needs, and develop a research and evaluation agenda. To date, there has not been systematic exploration of the ways that STEM programming occurs in libraries nor of their effectiveness when they do happen. This will be the first conference of its kind and stands to have a high degree of visibility and the potential for broad impact. Principal Investigator Paul Dusenbery, Director of the National Center for Interactive Learning (NCIL) and Executive Director of Space Science Institute, will lead an experienced project team that includes Co-PI Keliann LaConte, Lunar Planetary Institute; Susan Brandehoff, Public Programs Office, American Library Association; and Anne Holland, NCIL. The conference sessions will be organized around four strands: (1) showcasing successful STEM programs and reviewing research and evaluation results on informal STEM learning in public libraries; (2) examining the current needs, barriers, and opportunities of public libraries; (3) elucidating the possible future roles of public libraries in the 21st Century; and (4) identifying promising practices and strategies. Beginning with core members comprised of the project team and organizing committees, the project will create a Leadership Forum for library directors, library science educators, and policy makers, as well as STEM professionals and educators. Conference results will be disseminated through a wide variety of organizational websites: NCIL, ALA, LPI, the conference website, the STAR_Net online community, and CAISE. In 2010, there were nearly 1.6 billion visits to 17,000 public libraries. Library audiences are true reflections of the nation's population - they serve all races, ages, economic backgrounds, and regions of the country. The STEM Learning in Libraries conference will give public libraries, STEM organizations, informal educators, and funders an opportunity to begin a dialogue with implications for profoundly impacting the attitudes of millions of Americans toward STEM topics.