This document contains the following Appendices that provide information for the I/CaLL Community Science Learning study.
Appendix A: StreamLines Events
Appendix B: StreamLines Events Survey Instrument
Appendix C: Art + Science Brainstorm Coding Themes
Appendix D: Art + Science Brainstorm Flyer
I/CaLL is a four-year project that explores art as conduits for informal science learning on a citywide scale. The project attempts to transform the city of Indianapolis into an informal science-learning museum through the use of sculpture, dance, music, and poetry as educational tools in creating awareness and understanding of the city’s waterways. Specifically, I/CaLL addresses five sites located near and around waterways in impoverished or underserved communities, where art interventions created by artists in collaboration with scientists address topics around water sustainability
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TEAM MEMBERS:
John FraserNezam ArdalanChristina Shane-Simpson
A mixed-methods series of surveys were used to explore public literacy related to environmental science and sustainability in Indianapolis. Surveys also explored predictive variables including environmental identity, nature affinity, use of nature places as learning opportunities, and motivations for visiting nature spaces. An online, citywide consumer survey was distributed alongside a parallel identical survey of employees at a major science-based corporation to assess variation in knowledge, attitudes, and learning behaviors. This science-based corporation provides substantial support to
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TEAM MEMBERS:
John FraserSu-Jen RobertsNezam Ardalan
As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program funds innovative research, approaches and resources for use in a variety of settings. The uses of technologies in emergency management and public safety are emerging rapidly, but it could take years for school STEM curricula to catch up with the technologies that are already being deployed in the field. Informal learning environments, such as Teen Science Cafés, provide a compelling venue for youth learning about rapidly-developing STEM fields such as technology. The floods and devastation caused by Hurricane Harvey provide a timely learning opportunity for them. This project, in addition to developing new materials for learning about technologies, will provide much-needed baseline research on teens' understanding of technology, technology careers, and emergency preparedness. Leveraging the robust platform of the NSF-funded Teen Science Café, the Maine Mathematics and Science Alliance will build upon its existing partnership with Science Education Solutions to develop and implement a package of educational activities, tools, and resources for a Teen Science Café that is focused on community flood events and response, using Hurricane Harvey as a model and case study. The materials will focus on advances in sensor technology, data visualization, social media, and other mobile communication apps used to detect, monitor and respond to flooding and natural disasters. The package of materials will be embraced by 20 sites in Maine. The goal is to engage at least 600 youth in themed Cafés focusing on how technology was used to respond to Harvey and is being used to manage and respond to flooding more generally. An important related goal is to conduct baseline research on what teens currently know about the flood-related technologies, as well as what they learn about it from this experience derived from recent floods in Texas, Florida, and the Caribbean islands.
A research goal of our work was to collect baseline information on teens’ level of knowledge about the role of technology in responding to a variety of natural disasters. To our knowledge, the field has not developed measures of knowledge of this increasingly important domain. We developed a quick and easy-to-administer 10-item multiple-choice measure, which we presented as a “trivia game” to be done sometime during the 90-minute Café. We did not track pre- to post-café changes in knowledge, because the Cafés emphasized very different pieces of technology as well as different types of natural disasters. Rather, we wished to establish a starting point, so that other researchers who are engaged in ERT efforts with teens have both an instrument and baseline data to use in their work.
A sample of 170 youth completed the questionnaire. The average correct response rate was 4.2 out of 10, only slightly higher than the chance of guessing correctly (3 out of 10). This suggests teens have limited baseline knowledge of Emergency Response Technology and our Cafés therefore served an important purpose given this lack of knowledge. Indeed, for half of the questions at least one incorrect answer was selected more often than the correct answer! Note that there were no statistically significant correlations between age and gender and rates of correct answers.
Three things are clear from our work: 1) Youth need and want to know about the vital roles they can play by learning to use technology in the face of natural disasters; 2) Teens currently know little about the uses of technology in mitigating or responding to disasters; and 3) Teen Science Cafés provide a timely and relatively simple way of sparking interest in this topic. The project showed that it is possible to empower youth to become involved, shape their futures, and care for their communities in the face of disasters. We plan to continue to expand the theme of Emergency Response Technology within the Teen Science Café Network. Reaching teens with proactive messages about their own agency in natural disasters is imperative and attainable through Teen Science Cafés.
Engagement is the cornerstone of learning in informal science education. During free-choice learning in museums and science centers, visitor engagement shapes how learners interact with exhibits, navigate through exhibit spaces, and form attitudes, interests, and understanding of science. Recent advances in multimodal learning analytics are creating novel opportunities for expanding the range and richness of measures of visitor engagement in free-choice settings. In particular, multimodal learning analytics offer significant potential for integrating multiple data sources to devise a composite picture of visitors' cognitive, affective, and behavioral engagement. The project will center on providing a rich empirical account of meaningful visitor engagement with interactive tabletop science exhibits among individual visitors and small groups, as well as uncovering broader tidal patterns in visitor engagement that unfold across exhibit spaces. A key objective of the project is creating models and practitioner-focused learning analytic tools that will inform the best practices of exhibit designers and museum educators. This project is funded by the Advancing Informal STEM Learning (AISL) program. As part of its overall strategy to enhance learning in informal environments, AISL funds research and innovative approaches and resources for use in a variety of settings. The research team will conduct data-rich investigations of visitors' learning experiences with multimodal learning analytics that fuse the rich multichannel data streams produced by fully-instrumented exhibit spaces with the data-driven modeling functionalities afforded by recent advances in machine learning and educational data mining. The research team will conduct a series of visitor studies of naturalistic engagement in solo, dyad, and group interactions as visitors explore interactive tabletop science exhibits. The studies will utilize eye trackers to capture visitors' moment-to-moment attention, facial expression analysis and quantitative field observations to track visitors' emotional states, trace logs generated by exhibit software, as well as motion-tracking sensors and coded video recordings to capture visitors' behavioral interactions. The studies will also use conversation recordings and pre-post assessment measures to capture visitors' science understanding and inquiry processes. With these multimodal data streams as training data, the research team will use probabilistic and neural machine learning techniques to devise learning analytic models of visitor engagement. The project will be conducted by a partnership between North Carolina State University and the North Carolina Museum of Natural Sciences. The research team will 1) design a data-rich multimodal visitor study methodology, 2) create the Visitor Informatics Platform, a suite of open source software tools for multimodal visitor analytics, and 3) launch the Multimodal Visitor Data Warehouse, a curated visitor experience data archive. Together, the multimodal visitor study methodology, the Visitor Informatics Platform, and the Multimodal Visitor Data Warehouse will enable researchers and practitioners in the informal science education community to utilize multimodal learning analytics in their own informal learning environments. It is anticipated that the project will advance the field of informal STEM learning by extending and enriching measures of meaningful visitor engagement, expanding the evidence base for visitor experience design principles, and providing learning analytic tools to support museum educators. By enhancing understanding of the cognitive, affective, and behavioral dynamics underlying visitor experiences in science museums, informal science educators will be well-positioned to design learning experiences that are more effective and engaging. This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
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TEAM MEMBERS:
James LesterJames MinogueJonathan RoweNorth Carolina Museum of Natural Sciences
Scientists are increasingly being called upon to play a more prominent role in the interface of science and society by contributing to science literacy in ways that support two-way exchanges with the public. However, many remain reluctant to participate in public engagement activities in part because they feel they lack relevant skills and experience. We surveyed scientists trained on engagement through a nationwide program called Portal to the Public and examined how participation in the program may have influenced their self-efficacy, commitment and attitudes about outreach, and perceived
Leading science educators from 9 South and Southeastern Asian countries and the U.S. met for three days in Kuala Lumpur, Malaysia (October 4-6, 2017) in an effort to rethink and re-envision science education in the 21st Century. The attendees of this U.S. National Science Foundation-funded international conference reaffirmed the G8-Science Academies Joint Statement (2011) that education in science must be targeted not only to future scientists, engineers and other specialists in government and industry, but also to the general public, including school-aged children and adults. The attendees at
A significant body of innovative and potentially useful research about inclusion and diversity is surfacing in museum studies graduate programs across the country. This research often reflects the changing demographics of American society and our growing awareness of the complex dimensions of identity. However, the work is rarely available in venues or formats that are useful to museum practitioners, researchers, and decision-makers. To fill this gap in information sharing, we will conduct a qualitative meta-analysis of Master’s and Doctoral theses that address issues of personal and group identity and representation in museums, followed by interviews with a sample of the authors. This work will describe the ways museums represent and respond to issues of personal and group identity, with a particular focus on looking for evidence of impact and successful and emerging practices. A second goal is to understand how the engagement in the process of research influences the subsequent practice of current professionals.
This research brief highlights findings from the proof of concept pilot year of the Child Trends News Service project. It explores what we have learned regarding best practices for communicating with and engaging Latino parents through short messages on research-informed parenting practices. The findings are grounded in research that substantiates the need to amplify access to child development research, particularly among low-income Latino families; and in communication science research that demonstrates the value of the news media as an information source for child development research.
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TEAM MEMBERS:
Alicia TorresSelma CaalLuz GuerraAngela Rojas
European Researchers’ Night is an annual pan-European initiative of the European Commission held on the last Friday in September. In 2015, 1.1 million European citizens and 18,000 researchers took part in events organised in more than 300 cities within Europe and neighbouring countries. The objective of European Researchers’ Night is to encourage the wider public to visit research institutes, engage with researchers, and learn more about European research and potential career opportunities. In this paper, European Researchers’ Night in Ireland is considered through the lens of informal
Why do scientists volunteer to be involved in public engagement in science? What are the barriers that can prevent them participating in dialogue with society? What can be done to facilitate their participation? We report the outcomes of a series of focus groups conducted with the young scientists who volunteered in SISSA for schools (S4S), the Children's University program of the International School for Advanced Studies (SISSA) in Trieste, Italy.
S4S is based on the contribution of PhD students as volunteers, has a participatory character, and is attentive to social and gender inclusion
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Simona CerratoValentina DaelliHelena PertotOlga Puccioni
This report, from the "Tinkering EU: Building Science Capital for All" project, provides a theoretical rationale for understanding the relationship between Tinkering as a pedagogical approach, students’ individual science capital, and inclusive STEM teaching approaches. By exploring the relationship between these three areas, it invites professionals to reflect on the ways in which Tinkering can be used a teaching tool for building science capital.