Informal learning environments offer a range of educational observations. Lately, many venues have adopted livestreaming and digital archiving, both as additional access for a wider offsite audience and as alternative ways to engage the onsite audience. Students can observe animals and plants from a different continent through a live camera feed, or they can watch an online recording of a science experiment even if they missed the live demonstration. However, livestreamed or archived observations remain a mostly passive experience, offering limited interactions beyond watching the videos. One way to create more active learning opportunities from these observations is to use sensors such as thermal cameras as additional streaming devices, which transmit real-time images and data that not only reveal more about what is being observed, but also allow the audience to ask deeper questions, find answers by interacting with the data, apply science knowledge in a relevant context, and become an active participant in scientific inquiry.
This project has created Telelab, a cloud platform for livestreaming and archiving interactive observations to promote citizen science. Powered by the Internet of things (IoT), Telelab allows informal science educators to present exhibits, living organisms or ecosystems through the use of sensors and actuators. Audiences both onsite and offsite can visualize biological processes in situ, such as thermoregulation, thermogenesis, metabolism, etc., or they can investigate physics and chemistry experiments by analyzing experimental data in combination with the video stream.
This work is funded by The Advancing Informal STEM Learning (AISL) program, which seeks to advance new approaches to and evidence-based understanding of the design and development of STEM learning opportunities for the public in informal environments; provide multiple pathways for broadening access to and engagement in STEM learning experiences; advance innovative research on and assessment of STEM learning in informal environments; and engage the public of all ages in learning STEM in informal environments.
Imprecise definition of key terms in the "public participation" domain have hindered the conduct of good research and militated against the development and implementation of effective participation practices. In this article, we define key concepts in the domain: public communication, public consultation, and public participation. These concepts are differentiated according to the nature and flow of information between exercise sponsors and participants. According to such an information flow perspective, an exercise's effectiveness may be ascertained by the efficiency with which full, relevant
Face-to-face conversations between scientists and public audiences in an informal learning environment provide a valuable opportunity to support public engagement with scientific research. These types of experiences have significant benefits for members of the public and for scientists. For public audiences, interacting face-to-face with a scientist can expand awareness of the range of careers in science, spark new questions about scientific topics, and increase interest in learning more about the scientist’s topic (Tisdal, 2011; Ong, 2014). Scientists, too, are positively impacted by this
Fiction is often credited with shaping public attitudes to science, but little science communication research has studied fans' deep engagement with a science-themed fiction text. This study used a survey to investigate the impacts of television series ‘Doctor Who’ (1963–89; 2005–present) on its viewers' attitudes to science, including their education and career choices and ideas about science ethics and the science-society relationship. The program's reported impacts ranged from causing participants to fact-check ‘Doctor Who’'s science to inspiring them to pursue a science career, or, more
Live science events engage publics with science in a social context. This article articulates the aims and ethos of this growing sector within a research context. Semi-structured interviews (N=13) and focus groups (N=77) were conducted with event practitioners (both professional and volunteers) in the U.S.A. and U.K.. Inductive thematic analysis indicated that event producers aim to raise awareness of and professionalism in the sector. In particular, they seek to develop research into long-term impacts of events for both audiences and practitioners.
Science and technology have become tools to legitimize messages that affect the world in terms of society, politics and economy. This paper presents part of the results of a study that analyzed the symbolic construction of the future in the scientific-technological discourse at EPCOT theme park in Orlando, Florida. The sociohistorical conditions and narrative strategies are analyzed based on the theoretical and methodological approach by John B. Thompson. The results highlighted that the construction of the notion of progress is strongly influenced by the commercial and political interests of
There is an increasing recognition globally of the role to be played by community science –scientific research and monitoring driven and controlled by local communities, and characterized by place-based knowledge, social learning, collective action and empowerment. In particular, community science can support social-ecological system transformation, and help in achieving better ‘fit’ between ecological systems and governance, at local and higher levels of decision making. This paper draws on three examples of communities as central actors in the process of knowledge co-production to present a
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Anthony CharlesLaura LoucksFikret BerkesDerek Armitage
The study contributes to mediatization research. Mediatization is understood as a process during which individual and collective actors adapt towards the demands of publicity and public attention. The manuscript introduces a differentiation of mediatization strategies, ranging from defensive to offensive strategies. This conceptual differentiation is applied empirically regarding relevant stakeholders within the German science-policy constellation from politics, science, and science funding. Results are based on 35 in-depth interviews with decision makers. The results section deals with
Background
Mentorship has been well-established in the literature as fostering scientific identity and career pathways for underrepresented minority students in science, technology, engineering, and mathematics (STEM) fields. Mentorship is prioritized by programs that aim to increase diversity and support future leadership in STEM fields, but in-depth understanding of mentorship in these contexts remains limited. Drawing on qualitative interview data, we sought to understand the relationship between mentoring and scientific identity among a diverse sample of 24 students in one such program
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Kaitlyn AtkinsBryan DouganMichelle Dromgold-SermenHannah PotterViji SathyA.T. Panter
Most adults in the U.S. and worldwide claim a religious affiliation. As an element of identity and worldview, faith informs many individuals' views of science, technology, and society at large. Engagement with faith communities and religious leaders about science can improve public perceptions and trust of scientists, advance evidence-based policy, and improve diversity, equity and inclusion in science fields. This commentary outlines examples and suggests guiding principles for science engagement with faith communities.
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Robert O'MalleyJohn SlatteryCurtis BaxterKaty Hinman
‘Escape rooms’ are a recent cultural phenomena, whereby a group of ‘players’, often friends or colleagues, are ‘locked’ in a room and must solve a series of clues, puzzles, or mysteries in order to ‘escape’. Escape rooms are increasingly appearing in a range of settings, including science centres and museums, libraries and university programmes, but what role can an escape room play in science communication? In this commentary, we explore the emerging literature on escape rooms as well as thoughts from a small number of escape room creators in the U.S. and U.K.
This commentary aims to shed light on the neglected space of queer people in science communication. In this piece, we introduce queer theory to science communication literature to examine issues from the past, present, and future. We argue that to queer our field may entail a radical interrogation of some of science communication's deeply rooted cultural traits and working towards a rainbow-tinted future.