This project focuses on environmental health literacy and will explore the extent to which diverse rural and urban youth in an out-of-school STEM enrichment program exhibit gains in environmental health literacy while engaged in learning and teaching others about community resilience in the face of changing climates. Science centers and museums provide unique opportunities for youth to learn about resilience, because they bring community members together to examine the ways that current science influences local decisions. In this project, teams of participating youth will progress through four learning modules that explore the impacts of changing climates on local communities, the local vulnerabilities and risks associated with those changes, possible mitigation and adaptation strategies, and building capacities for communities to become climate resilient. After completion of these modules, participating youth will conduct a resilience-focused action project. Participants will be encouraged to engage peers, families, friends, and other community stakeholders in the design and implementation of their projects, and they will gain experience in accessing local climate and weather data, and in sharing their findings through relevant web portals. Participants will also use various sensors and web-based tools to collect their own data.
This study is guided by three research questions: 1) To what extent do youth develop knowledge, skills, and self- efficacy for developing community resilience (taken together, environmental health literacy in the context of resilience) through participation in museum-led, resilience-focused programming? 2) What program features and settings foster these science learning outcomes? And 3) How does environmental health literacy differ among rural and urban youth, and what do any differences imply for project replication? Over a two- year period, the project will proceed in six stages: a) Materials Development during the first year, b) Recruitment and selection of youth participants, c) Summer institute (six days), d) Workshops and field experiences during the school year following the summer institute, e) Locally relevant action projects, and f) End- of-program summit (one day). In pursuing answers to the research questions, a variety of data sources will be used, including transcripts from youth focus groups and educator interviews, brief researcher reflections of each focus group and interview, and a survey of resilience- related knowledge. Quantitative data sources will include a demographic survey and responses to a self-efficacy instrument for adolescents. The project will directly engage 32 youth, together with one parent or guardian per youth. The study will explore the experiences of rural and urban youth of high school age engaged in interactive, parallel programming to enable the project team to compare and contrast changes in environmental health literacy between rural and urban participants. It is anticipated that this research will advance knowledge of how engagement of diverse youth in informal learning environments influences understanding of resilience and development of environmental health literacy, and it will provide insights into the role of partnerships between research universities and informal science centers in focusing on community resilience.
This research examined the role of format in learning from the GS film, Amazon Adventure. Funded by the National Science Foundation (NSF), Amazon Adventure is an Innovations in Development project directed by Pacific Science Center in partnership with SK Films; Rutgers, The State University of New Jersey; Embodied Games; and the Howard Hughes Medical Institute’s Tangled Bank Studios. The project deliverables produced during the grant period included a giant screen film, live stage presentation for use at informal science education (ISE) institutions, and educational resources.
As part of
This Smart and Connected Community (SCC) project will partner with two rural communities to develop STEMports, an innovative Science, Technology, Engineering and Mathematics (STEM) learning game for workforce development. The game's activities will take players on localized Augmented Reality (AR) missions to both engage in STEM learning challenges and discover emerging STEM careers in their community, specifically highlighting innovations in the fields of sustainable agriculture and aquaculture, forest products, and renewable energy. Community Advisory Teams (CATs) and co-design teams, including youth, representatives from the targeted emerging STEM economies, and decision-makers will partner with project staff to co-design STEMports that reflect the interests, cultural contexts, and envisioned STEM industries of the future for each community.
The project will: (a) design and pilot an AR game for community STEM workforce development; (b) develop and adapt a community engagement process that optimizes community networking for co-designing the gaming application and online community; and (c) advance a scalable process for wider applications of STEMports. This project is a collaboration between the Maine Mathematics and Science Alliance and the Field Day Lab at the University of Wisconsin-Madison to both build and research the co-designing of a SCC based within an AR environment. The project will contribute knowledge to the informal STEM learning, community development, and education technology fields in four major ways:
Deepening the understanding of how innovative technological tools support rural community STEM knowledge building as well as STEM identity and workforce interest.
Identifying design principles for co-designing the STEMports community related to the technological design process.
Developing social network approaches and analytics to better understand the social dimensions and community connections fostered by the STEMport community.
Understanding how participants' online and offline interactions with individuals and experiences builds networks and knowledge within a SCC.
With the scaling of use by an ever-growing community of players, STEMports will provide a new AR-based genre of public participation in STEM and collective decision making. The research findings will add to the emerging literature on community-wide education, innovative education technologies, informal STEM learning (especially place-based learning and STEM ecosystems), and participatory design research.
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.
The Museum of Science, Boston (MOS or the Museum), in partnership with EdTogether and in collaboration with researchers and engineers across a range of affective science and technology disciplines, implemented a two-year exploratory research and development initiative titled Empowering Learners through Effective Emotional Engagement (ELEEE), with funding from the Argosy Foundation. Through the ELEEE project we sought to develop a framework for leveraging emotion in design where visitors are empowered to have meaningful, self- or socially-directed, and intrinsically motivated learning
This zine summarizes the book "Equity, Exclusion and Everyday Science Learning." It provides an accessible graphic introduction to how inequalities in everyday science learning happen, so that we can get to a place where everyday science learning practices could disrupt and transform social inequities rather than reproducing them.
In this poster, the Center for Research on Lifelong STEM Learning shared lessons learned from a study that used audio and video data from GoPros to investigate the entry characteristics of zoo and aquarium visitors and how those characteristics played out in terms of decision-making behaviors and meaning-making talk during a visit.
The poster presents information about a research study where we used video-based data collection to investigate how framing of interpretive signage influences visitors’ talk and behaviors at exhibits. The poster shared details of our methods as well as lessons learned from using cameras for capturing video of visiting groups.
In this paper we share an emerging analytical approach to designing and studying STEAM programs that focuses on how programs integrate the respective epistemic practices—the ways in which knowledge is constructed—of science and art. We share the rationale for moving beyond surface features of STEAM programs (e.g., putting textiles and electronics on the same table) to the disciplinary-specific ways in which participants are engaged in creative inquiry and production. We share a brief example from a public STEAM event to demonstrate the ways in which this approach can foster reflection and
This report summarizes the evaluation outcomes of the Collaborative Project Management (CoPM) Institute project, a two-day convening centered on bringing proven project management skills and approaches in the for-profit world to the informal science education (ISE) community to support effective collaborations and successful outcomes. The CoPM Institute was conceptualized as a pilot effort to test the effectiveness of porting of tools and frameworks for collaborative project management from the business/for-profit environment to advance the following project goals:
Build the capacity of
Research on how museum staff are trained continues to emerge. Training varies considerably across institutions and typically includes observations, shadowing, and trial and error. While museum educators put high value on increasing visitor-centered participatory experiences, engagement based on acquisition-based theories of learning is still common among floor staff, even after training. Facilitating learning about science, technology, engineering, and mathematics (STEM) topics in ways that support visitors in constructing their own understanding is difficult, especially since floor staff/facilitators may be working simultaneously with children and adults of a range of ages, backgrounds, and goals. This project will advance understanding of how to facilitate open-ended learning experiences in ways that engage visitors in practices that align with the STEM disciplines. The project will result in an evidence-based facilitation framework and training modules for training informal science educators. The work is grounded in constructivist theories of learning and identity work and focuses on visitors constructing understanding of STEM topics through active engagement in the practices of STEM. This model also results in learning experiences in informal settings that are mutually reinforcing with the goals of schools. This research is being conducted through an established researcher-practitioner partnership between MOXI, the Wolf Museum of Exploration + Innovation and the University of California at Santa Barbara (UCSB).
The two primary goals of the work are to (1) enable visitors to better engage in STEM practices (practice-based learning) and (2) investigate the role of training in helping facilitators develop the practice-based facilitation strategies needed to support visitors' learning. STEM content in this study is physical science. Prior work resulted in two tools that constitute part of a facilitation framework (a practices-by-engagement matrix and three facilitation pathways) which help educators identify appropriate goals based on how the visitor is engaging with exhibits. The development of the final tool in the framework, facilitation strategies, and the refinement of the first two tools will be done using a design-based implementation research (DBIR) approach. Data collection and analysis will be directed and completed by research-practitioner teams of UCSB graduate students (researchers) and MOXI educators (practitioners); MOXI educators will be both participants and researchers. Data collection activities include: video data using point-of-view cameras worn by visitors and educators; interviews of educators and visitors; observations of the training program; and educator reflections. In the final year, a small field test will be done at six sites, representing different types of museums. Interviews and reflections comprise the data collection at the field sites.
This project is funded by the National Science Foundation's (NSF's) Advancing Informal STEM Learning (AISL) program, which supports innovative research, approaches, and resources for use in a variety of learning settings.
Increasingly, scientists and their institutions are engaging with lay audiences via media. The emergence of social media has allowed scientists to engage with publics in novel ways. Social networking sites have fundamentally changed the modern media environment and, subsequently, media consumption habits. When asked where they primarily go to learn more about scientific issues, more than half of Americans point to the Internet. These online spaces offer many opportunities for scientists to play active roles in communicating and engaging directly with various publics. Additionally, the proposed research activities were inspired by a recent report by the National Academies of Sciences, Engineering, and Medicine that included a challenge to science communication researchers to determine better approaches for communicating science through social media platforms. Humor has been recommended as a method that scientists could use in communicating with publics; however, there is little empirical evidence that its use is effective. The researchers will explore the effectiveness of using humor for communicating about artificial intelligence, climate science and microbiomes.
The research questions are: How do lay audiences respond to messages about scientific issues on social media that use humor? What are scientists' views toward using humor in constructing social media messages? Can collaborations between science communication scholars and practitioners facilitate more effective practices? The research is grounded in the theory of planned behavior and framing as a theory of media effects. A public survey will collect and analyze data on Twitter messages with and without humor, the number of likes and re-tweets of each message, and their scientific content. Survey participants will be randomly assigned to one of twenty-four experimental conditions. The survey sample, matching recent U.S. Census Bureau data, will be obtained from opt-in panels provided by Qualtrics, an online market research company. The second component of the research will quantify the attitudes of scientists toward using humor to communicate with publics on social media. Data will be collected from a random sample of scientists and graduate students at R1 universities nationwide. Data will be analyzed using descriptive statistics and regression modeling.
The broader impacts of this project are twofold: findings from the research will be shared with science communication scholars and trainers advancing knowledge and practice; and an infographic (visual representation of findings) will be distributed to practitioners who participate in research-practice partnerships. It will provide a set of easily-referenced, evidence-based guidelines about the types of humor to which audiences respond positively on social media.
This project is funded by the National Science Foundation's (NSF's) Advancing Informal STEM Learning (AISL) program, which supports innovative research, approaches, and resources for use in a variety of learning settings.
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TEAM MEMBERS:
Sara YeoLeona Yi-Fan SuMichael Cacciatore