In this project, education researchers, environmental scientists, and educators will develop a computer tool to let STEM educators and curriculum developers build local environmental science models. The system will use data about land use to automatically construct map-based simulations of any area in the United States. Users will be able to choose from a range of environmental and economic issues to include in these models. The system will create simulations that ask students to change to patterns of land use -- for example, increasing land zoned for housing, or open land, or industrial development -- to try to meet environmental and social goals. As a result, students will be able to learn about the interaction of environmental and economic issues relevant to their own city, town, neighborhood, or region. These map-based simulations will be incorporated into an existing science, technology, engineering, and mathematics (STEM) education tool, Land Science, in which learners work in a fictional planning office to study how zoning affects economic and environmental issues in a community. Research has shown that Land Science is mode effective when learners are exploring issues in an area near their home, and the current study will investigate how and why local simulations improve environmental science learning. This project is funded by the Advancing Informal STEM Learning (AISL) program which supports work to enhance learning in informal environments by funding innovative research, approaches, and resources for use in a variety of settings.
In this project, the research team will build, test, and deploy a toolkit that will allow informal STEM educators and developers of informal STEM programming to easily adapt an existing environmental science learning environment, which consists of a place-based virtual internship in urban planning and ecology, to their local contexts, learning objectives, and learner populations. Land Science is a virtual internship in which young people explore the environmental and socio-economic impacts of land-use decisions. To do so, they play the role of interns at an urban planning firm developing a new land-use proposal for the city of Lowell, Massachusetts: they read reports, virtually visit sites, determine stakeholder priorities, and use a geographic information system (GIS) model to evaluate the socio-economic and environmental impacts of land-use choices. No one plan can satisfy all stakeholders, so learners must compromise to create an effective plan and justify their decisions. Land Science has been shown to improve civic engagement, interest in eco-social issues, and understanding of scientific models, but it is most effective when the location of the virtual internship is in or near the learners' home town. To improve the accessibility and impact of this effective learning intervention, the interdisciplinary research team, which includes learning scientists, land-use experts, and informal STEM educators, will develop a Local Environmental Modeling toolkit, which will allow educators to change the location of the simulation and the stakeholder groups, zoning codes, and environmental and socio-economic indicators included in the land-use model. The system will ensure that the model produced is functional, realistic, and appropriately complex. The localized versions of Land Science produced by informal STEM educators will be used in a range of contexts and locations, allowing the research team to study the effects of an online, place-based learning intervention on environmental science learning, STEM interest and motivation, and civic engagement.
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TEAM MEMBERS:
David ShafferKristen ScopinichHolly GibbsJeffrey Linderoth
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. This study will capitalize on the increased availability and affordability of immersive interactive technologies, such as Augmented Reality devices and virtual characters, to investigate their potential for benefitting STEM learning in informal museum contexts. This project will combine these technologies to create an Augmented Reality experience that will allow middle-school youth and their families to meet and assist a virtual crew on a historic ship at the Independence Seaport Museum in Philadelphia. The players in this game-like experience will encounter technologies from the turn of the 20th century, including steam power, electricity, and wireless communication. Crew members and technologies will be brought to life aboard the USS Olympia, the largest and fastest ship in the US Navy launched in 1892. The historic context will be positioned in relation to current day technologies in ways that will enable a change in interest towards technology and engineering in middle school-age youth. This will result in a testbed for the feasibility of facilitating short-term science, technology, engineering and mathematics (STEM) identity change with interactive immersive technologies. A successful feasibility demonstration, as well as the insights into design, could open up novel ways of fostering STEM interest and identity in informal learning contexts and of demonstrating the impact of this approach. The potential benefit to society will rest in the expected results on the basic science regarding immersive interactive technologies in informal learning contexts as well as in demonstrating the feasibility of the integrated approach to assessment.
This project will use a living lab methodology to evaluate interactive immersive technologies in terms of their support for STEM identity change in middle-school age youth. The two-year design-based research will iteratively develop and improve the measurement instrument for the argument that identity change is a fundamental to learning. A combination of Augmented Reality and intelligent virtual agents will be used to create an interactive experience--a virtual living lab--in an informal museum learning exhibit that enables change interests towards technology and engineering and provides short-term assessment tools. In collaboration with the Independence Seaport Museum in Philadelphia, the testbed for the approach will be an experience that brings to life the technologies of the early 20th century aboard a historic ship. Through the application of Participatory Action Research techniques, intelligent virtual agents interacting with youth and families will customize STEM information relating to the ship's mission and performance. Topics explored will make connections with current day technologies and scientific understanding. Mixed-methods will be used to analyze interactions, interview and survey data, will form the basis for assessing the impact on youth's STEM interests. The elicitation method specifically includes assessment metrics that are relevant to the concept of learning as identity change. This assessment, through immersive interactive technologies, will target the priority areas of engagement in STEM as well as the measurement of outcomes.
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TEAM MEMBERS:
Stefan RankAyana AllenGlen MuschioAroutis FosterKapil Dandekar
The Ebola virus disease outbreak in West Africa (2013–2016) claimed over 10 000 lives in less than 18 months. Low levels of familiarity with the disease, ease of transmission, scale of infection, gruesomeness of symptoms, lack of cure and high fatality rate created a global panic. From the perspective of the social psychology of communication and content analysis, this study examines media coverage of the crisis in Africa with a view to unpacking the scientific and non-scientific information that may have framed public understanding of the disease. Findings show that accepting scientific
In prior research and development (in part supported by a 2014 ED/IES SBIR award), the project team developed Mission U.S., a series of web- and app-based games for topics in U.S. history. With this Phase I funding, the team will extend Mission U.S. by developing and testing a prototype of a virtual reality (VR) platform to immerse students in transformational moments in U.S history and to guide document-based investigations. The prototype of Mission U.S.: Time Snap will consist of VR goggles that present history content, and a website to host mission briefs to prepare student inquiry, worksheets to facilitate reflection, and an embedded assessment. At the end of Phase I in a pilot study with 30 students in one classroom, the researchers will examine whether the VR platform and the website function as planned, if students are engaged with the system, and whether student content knowledge of a historical event improves from pre- to post-test.
This letter reflects on how the role of science in society evolved in 2016. While there were plenty of groundbreaking scientific discoveries, the shifting political landscape cultivated a tempestuous relationship between science and society. We discuss these developments and the potential role of the science communication community in political activism.
This paper provides an analysis of the implementation and the outcomes of Scienza Attiva, an Italian national project for secondary school students, that makes use of deliberative democracy tools to address socio-scientific issues of great impact. The analysis has required a mixed method including surveys of students' pre- and post-project opinions, focus groups and interviews with students and teachers. The results from this evaluation study provide evidence that the project improves students' understanding of socio-scientific issues, strengthens their awareness of the importance of
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Federica CornaliGianfranco PomattoSelena Agnella
The “Impressions from a Lost World” website and related public programs will tell the story of the 19th century discovery of dinosaur tracks along the Connecticut River Valley in Massachusetts and Connecticut. The significance of these fossils extended far beyond the emerging scientific community, as they exerted a profound effect upon American arts, religion, and culture that reverberates down to the present day. The website will use stories of real people to engage visitors to think about relationships between science and religion, amateur vs. professional scientific pursuits and the role of specialization, participation of women in science, and the impact of new scientific ideas on American culture. Website visitors will draw connections of these important humanities themes to current issues. Accompanying public programs will attract diverse audiences and build interest in the website.
For over two decades NSF has been investing in the development and evaluation of giant screen films for viewing by audiences in science centers and museums. These have been highly successful in terms of audiences reached and project evaluations that indicate their impact on learning. Less well understood is how the unique attributes of giant screen films (e.g., "immersion" and "presence") affect learners in ways that differ from other film formats. This integrated research and media project will contribute to that knowledge base. Project deliverables will include a giant screen film that tells the story of the discovery of biological mimicry (the critical proof for natural selection and in turn, evolution) through the life story of Henry Bates and his travels through the Amazon rainforest more than 150 years ago; 2D dome, and 2D flat format versions; live interactive science demonstrations and educational resources; and workshops for ISE professionals. The film and the related outreach via science centers, social media, and the web are expected to reach large public audiences; workshops and web resources will reach ISE professionals nationally. A strategy for reaching underrepresented audiences through science museums and partnerships with educational societies is a part of the broadening participation effort. Building on results of an NSF-funded workshop in which researchers, evaluators, and filmmakers began to develop a research agenda to provide evidence about giant screen attributes and their impacts on learning, the research component of this project will focus on the differences in learner knowledge among the various film formats, their unique attributes, and whether format plays a role in science interest and science identity. A baseline study will be conducted to begin gathering evidence on how each of these formats affects learning. Data on audience knowledge gains, interest, and science identity will be collected using a novel tablet-based game-like assessment pre-film viewing, immediately post viewing, and in a later follow-up. These baseline data will inform follow-on research that, over time, can better explain the unique impacts on learning of the giant screen format. Project partners include the Pacific Science Center, SK Films, Howard Hughes Medical Institute, Rutgers University, and Arizona State University.