This early-stage design and development, integrated media and research project will contribute important new understandings to the informal science learning literature by exploring science engagement on social media when integrated with broadcast television. It will help answer questions including: What does such engagement look like? Who participates? How and why does it happen? and What is the degree or depth of engagement? The project builds on the previous successful work by WGBH nationally distributing the television series NOVA scienceNOW and the research expertise of EDC. WGBH's NOVA scienceNOW program will collaborate with EDC to develop new metrics to understand how and why learners engage with science on social media. Deliverables will include six one-hour episodes of NOVA scienceNOW, short online videos, moderated online discussion events, and an online film festival. A new social Media Initiative will develop six live broadcast microblogging events, six post-broadcast online discussion events, daily social media updates, and an online film festival that will feature user generated videos. A range of STEM content in the videos and online posts will be framed around big science and engineering questions such as animal communication and survival systems, the biology of sleep, climate change, new technologies, energy, genetics, and natural disasters. The continued innovations and expansion of social media channels provides significant new opportunities for providing learner's access to high quality science content, researchers, and opportunities to participate in science. In the first phase of this work to deepen the evidence based understanding of how social media supports informal science engagement, NOVA and EDC will collaborate to develop new measurement instruments: (1) a Network Profile to quantitatively represent the size and activity of NOVA's social media network; (2) an Informal Science Engagement (ISE) index to measure the degree of engagement by coding and analyzing conversations and posts; (3) a Follower Profile to assess the degree of activity and the nature of the engagement; and (4) a Science Social Media Engagement survey instrument. They will then use these measures and data collection protocols to explore whether and how the initiative might influence science engagement. External expert reviewers with content and methodological expertise will review all aspects of the project at critical junctures. This project will contribute important new knowledge and research instruments and methods to better understand how the learning opportunities of social media channels can be realized most effectively. This has significant potential for broad and lasting benefits to society as well as advancing the informal science learning field.
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.
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. Nationally, the US has a shortage of computer scientists; a big part of this problem is that girls are discouraged from learning computer science at a very young age. This project tries to address this problem by creating a videogame specifically oriented towards getting middle school girls interested in learning computer science concepts outside traditional programming classes. Based on evidence that stories provide a compelling way to present complicated technical subjects and that girls in particular respond to technology careers as a way to help others, the project is building a videogame called "Gram's House" in which social workers intend to move a fictional grandmother to a retirement home unless the player can outfit her home with sufficient technology for her to remain independent. Solving puzzles in the game requires learning core computer science concepts. Research studies will be conducted to determine whether the videogame is effective at getting girls interested in computer science, at teaching computer science concepts, and whether using stories makes videogames more effective for learning. This project based on an earlier successful prototype uses an iterative research-based design process including paper prototyping, playtesting, and focus groups (N=20) to create age appropriate activities, based on the CS Unplugged series, that support learning concepts from the Data, Internet, Algorithms, and Abstraction sections of the high-school level CS Principles curriculum. A quantitative, quasi-experimental design will be used to determine the overall effectiveness of teaching CS concepts under three types of game conditions: (a) games alone, (b) games with fictional settings, and (c) games with stories. A novel assessment instrument will be developed to assess content learning and qualitative observation using a standard observation protocol will be used to gauge interest and engagement. 70-80 middle school girls will be recruited for afterschool participation in the study in two states. As part of the dissemination efforts, a facilitator's guide, rule book, and materials such as maps and storyboards will be created and shared with the game. In addition, a workshop for computer science and other teachers who are interested in using games to teach CS concepts will be conducted.
Many communities across the country are developing "maker spaces," environments that combine physical fabrication equipment, social communities of people working together, and educational activities for learning how to design and create objects. Increasingly, maker spaces and maker technologies are being designed to provide extended learning opportunities for school-aged young people. Unfortunately, few youth from under-represented populations have had the opportunity to participate in these maker spaces, and many communities do not have the resources to establish facilities dedicated to making activities. This project, a collaboration of faculty at California State University, San Marcos and San Diego County Office of Education, the Vista Unified School District, and the San Diego Fab Lab, is a feasibility study that will work to address these needs by implementing and evaluating a pilot Mobile Making program in an underserved youth population. It will bring Making to four after-school programs in underserved communities in San Diego by using a van to take both equipment and undergraduate student mentors to program sites. At these sites, between 50% and 90% of the students are Hispanic or Latino and between 40% and 90% are eligible for free or reduced price lunch. The project employs a research-based approach to the design and implementation of the Mobile Making program, coupled with an evidenced-based plan for developing a model for future dissemination. Project objectives are: increasing the participants' interest, self-efficacy, and perception of the relevance of Making/STEM in everyday life; identifying and overcoming challenges associated with a Mobile Making program; developing a model for implementing and assessing Mobile Making in underserved communities; and disseminating materials and guides for practitioners. Development will be guided by five research-based principles for design of out-of-school time programs in underserved communities: access to resources; ethnically diverse near-peer leaders; authentic activities; legitimacy within the community; and ongoing input from participants. To inform program development and implementation, including continuous monitoring and adjustment throughout the two-year initiative, the evaluation component will use a mixed methods approach to study outcomes with respect to the students, their parents and the undergraduate mentors. Future work will apply the lessons learned in the project to guide implementations and study the model's applicability in other informal education settings. The dissemination plan will include publication of project findings, activities, practitioner's guides, and the model for implementing making programs in underserved communities.
The mission of the New Mexico Informal Science Education Network (NM ISE Net) is to provide opportunities and resources for informal educators to work together to impact science teaching, science learning, and science awareness throughout the state of New Mexico. The NM Museum of Natural History and Science leads NM ISE Net with support from NM EPSCoR.
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TEAM MEMBERS:
New Mexico Museum of Natural HistorySelena ConnealyCharlie Walter
NNOCCI is a collaborative effort led by the New England Aquarium with the Association for Zoos and Aquariums, the FrameWorks Institute, the Woods Hole Oceanographic Institution, the National Aquarium in Baltimore, Monterey Bay Aquarium, the New Knowledge Organization in partnership with Penn State University and the Ohio's Center for Science and Industry. With support from the National Science Foundation Climate Change Education Partnership program, NNOCCI's goal is to establish a national network of professionals who are skilled in communicating climate science to the American public.
This Pathways project, led by Hubbard Brook Research Foundation (HBRF), develops and pilots a model to foster engagement and learning among diverse stakeholders related to timely ecosystem, social, economic, and policy issues in rural regions of New England's Northern Forest. As such, this project seeks to serve as a model for how other rural areas across the US that have pressing concerns that relate to science, technology, mathematics, and engineering (STEM) may partner with scientists, community members, and local organizations to better understand and become involved in regional issues. Research carried out for more than 50 years at the 7,800-acre Hubbard Brook Experimental Forest?among the longest-running ecosystem studies in the world?has significant implications for decision making at local as well as national levels on topics including climate change, environmental stresses on tree physiology, biomass energy, and invasive pests and pathogens. By employing a Pubic Engagement with Science approach, the project goals focus on learning and equitable participation by both public audiences (local communities and organizations) and professional audiences (scientists who want to engage in informal science learning). In this case, "equitable" means valuing the experiences and knowledge that diverse people have. "Learning" is designed to occur for all participants, such that everyone has a deeper, broader, and more nuanced understanding of STEM, the regional issues, and opportunities for the future. HBRF has designed a three-part model that includes multi-stakeholder dialogue events, workshops and dialogues with scientists working in the region, and regional capacity building for supporting outcomes of the dialogues and workshops. The project evaluation aligns closely with the Public Engagement with Science approach and project goals. As such, over the course of project activities, the evaluation measures both the public's learning and capacity to engage with other stakeholder around regional issues as well as those of the scientists. In addition, the evaluation will document the strategies and capacities of the HBRF model to broaden and sustain productive interactions among diverse regional stakeholders. Dissemination of this pilot project's findings include a case study reflecting on the process, lessons learned, and potential best practices related to the PES model as well as presentations by project leadership at community, scientific, and educational meetings. The pilot would then provide a foundation for an on-going, expanded effort for HBRF in the Northern Forest and/or an expanded effort in the region around a set off issues. In either case, the full-scale project would build from the refined model as well as the capacity built through the pilot.
Northeastern University will design, test, and study GrACE, a procedurally generated puzzle game for teaching computer science to middle school students, in partnership with the Northeastern Center for STEM Education and the South End Technology Center. The Principal Investigators will study the effect of computer generated games on students' development of algorithmic and computational thinking skills and their change of perception about computer science through the game's gender-inclusive, minds-on, and collaborative learning environment. The teaching method has potential to significantly advance the state of the art in both game-based learning design and yield insights for gender-inclusive teaching and learning that could have broad impact on advancing the field of computer science education. Development and evaluation of GrACE will consist of two, year-long research phases, each with its own research question. The first, design and development, phase will focus on how to design a gender-inclusive, educational puzzle game that fosters algorithmic thinking and positive attitude change towards computer science. The content generator will be created using Answer Set Programming, a powerful approach that involves the declarative specification of the design space of the puzzles. The second phase will be an evaluation that studies, by means of a mixed-methods experimental design, the effectiveness of incorporating procedural content generation into an educational game, and specifically whether such a game strategy stimulates and improves minds-on, collaborative learning. Additionally, the project will explore two core issues in developing multiplayer, collaborative educational games targeted at middle school students: what typical face-to-face interactions foster collaborative learning, and what gender differences exist in how students play and learn from the game. The project will reach approximately 100 students in the Boston area, with long-term goals of reaching students worldwide, once the game has been tested with a local audience. Results of the project will yield a new educational puzzle game that can teach algorithmic thinking and effect attitude change regarding computer science. Through the process of creating a gender-inclusive game to teach computer science, it will provide guidelines for future educational game projects. Beyond these individual project deliverables, it will improve our understanding of the potential for procedural content generation to transform education, through its development of a new technique for generating game content based on supplying educational objectives.
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TEAM MEMBERS:
Northeastern UniversityGillian SmithCasper Harteveld
The National Science Teachers Association (NSTA), the Association of Science-Technology Centers (ASTC) and their research/evaluation partner, David Heil and Associates (DHA), will conduct front-end research to develop, pilot, and evaluate (formatively and summatively) a peer-reviewed journal and associated multi-media resources designed to catalyze innovative advances and learning across formal and informal science, technology, engineering, and mathematics (STEM) education communities. The goal is to identify content that is useful and appeals to the intersection of three target audiences: informal educators, formal educators and researchers conducting research at the intersection of in-school and out-of-school learning. This informal science education (ISE) "journal" would be a multi-media resource, available in both print and electronic forms, that could include videos or digital interactives and provide the potential for audience/reader feedback mechanisms, including input via social media. The publication proposed in this project has the potential to satisfy in part a key need identified in a Wellcome Trust study, Analysing the UK Science Education Community: The contribution of informal providers. The study report identifies the need to build an international depository of what has been and is being learned in ISE experiences at the boundary of in-school and out-of-school STEM learning - including syntheses of research, program evaluations, policy reports and illustrative cases studies. The proposed journal will also provide a vehicle to encourage and develop incentives for practitioners to publish results of their work. The project will use surveys, phone interviews and focus groups to conduct: 1) a landscape assessment, identifying what resources are already available to target audiences, how they are used, and what is missing; 2) front-end research with target audiences prior to publication of pilot issues, assessing interests, needs, and expectations and testing early topics, delivery formats, and discussion vehicles; and (3) formative and summative evaluation, assessing how well the (two-issue) pilot and associated social media vehicles foster synergy and satisfy the needs of the identified target audiences.
Who We Are: A network of informal educators, climate scientists, learning scientists and local partners across four cities, dedicated to improving local understanding of and engagement with climate change science. Mission: CUSP aims to foster a network of climate-focused organizations to implement targeted, coordinated, and concentrated educational strategies that explore local climate impacts and community-level responses. What We Do: Unite local organizations committed to addressing the impacts of climate change into collaborative network Use latest climate science and learning science research to inform program development Connect urban residents’ personal interests to larger city systems impacted by climate change, and provide residents opportunities to explore city-wide responses Deliver programs that are targeted (aimed at specific audiences), coordinated (presenting consistent and clear information about the science of climate change), and concentrated (delivered many times, through many programs) Test the hypothesis that when people encounter the same science content in multiple settings, from multiple points of view, they are more likely to understand and remember important concepts What We Offer: A Community of Practice for local organizations, including training on best practices of climate communication and education Provide local organizations with current climate science impacting their city, and latest learning science research Opportunities for city residents to explore local impacts of climate change in every day settings, at neighborhood centers, at schools, online, and at city festivals. Opportunities for city residents to engage with local organizations in community-level responses to climate change
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TEAM MEMBERS:
The Franklin InstituteRaluca EllisFrederic BertleySteven SnyderRadley HortonKevin Crowley
Morehead Planetarium and Science Center has just started working on WILD BLUE: Using Fulldome Technology to Illustrate Aeronautics Principles, targeting school audiences from grades 3-8 as part NASA's CP4SMP+ program. Morehead will partner with NASA Langley Research Center as content advisors and Sky-Skan, Inc as content distributors. WILD BLUE's primary goal is to strengthen STEM education in the United States. WILD BLUE plans national distribution of a NASA-inspired media portfolio that supports formal and informal STEM education. The media portfolio targets grades 3-8, addresses National Science Education Standards, and includes two key deliverables: (1) a fulldome planetarium show that showcases aeronautics history and concepts, NASA's role in aeronautics research and related STEM careers (2) web-based curriculum materials that integrate current NASA curriculum materials, including Museum in a Box and Summer of Innovation activities. All WILD BLUE deliverables include NASA content -- the history, primary research and future plans of NASA's Aeronautics Research Mission Directorate (ARMD); imagery illustrating aeronautics concepts; information about STEM careers with NASA; and commentary from ARMD personnel. This four-year project ensures scientific accuracy, educational value and engaging presentation through an advisory board and an external evaluation process. WILD BLUE expects outcomes that include advancing NASA Strategic Goal 6 (participation, innovation, contribution) and NASA Education Goals, facilitating knowledge of NASA's role in aeronautics research, and expanding participation by underserved students in formal and informal science education.
Virtual Missions and Exoplanets (vMAX) will develop and test a three-dimensional, virtual world environment that will engage middle school students and educators from high-poverty schools in NASA-related exoplanet mission simulations. The Patricia and Phillip Frost Museum of Science will serve as the lead institution, in partnership with the following institutions: U.S. Space and Rocket Center, New York Hall of Science, Chabot Space & Science Center, and Sci-Port: Louisiana¹s Science Center; Aimee Weber Studios will be responsible for virtual exhibit fabrication, and WestEd will serve as the project¹s formative and summative evaluator. The overall goal of the project is to create a NASA resource on exoplanet astronomy that will engage students, educators, and the general public in NASA¹s search for worlds beyond our own. The project aims to increase underserved students¹ engagement in STEM, knowledge of exoplanet missions, and awareness of NASA-related careers; and advance the growing body of knowledge on the use of virtual world technologies to provide opportunities for students to participate in NASA Mission-related science teaching and learning. The project will result in the development of vMAX world, a virtual world with simulations related to exoplanet astronomy designed for use as the core content of a 30-hour out-of-school learning experience for middle school students. An Educator Implementation Guide will be developed and made available online for download by secondary school teachers and science museum educators. In addition, an interactive, multiuser exhibit kiosk, utilizing the simulations created for vMAX world, will be developed and made available to interested Visitor Centers, museums and planetariums.