The Badges for College Credit project designs and researches: (1) a digital badge system that leads to college credit as the context for investigating how to integrate badges with learning programs; (2) how to assess learning associated with badges; and (3) how badges facilitate learning pathways and contribute to science identity formation. The project is one of the first efforts to develop a system to associate informal science learning with college credit. The project will partner with three regional informal science institutions, the Pacific Science Center, the Future of Flight, and the Seattle of Aquarium, that will facilitate activities for participants that are linked to informal science learning and earning badges. The project uses the iRemix platform, a social learning platform, as a delivery system to direct participants to materials, resources, and activities that support the learning goals of the project. Badges earned within the system can be exported to the Mozilla Open Badges platform. Participants can earn three types of badges, automatic (based on participation), community (based on contributions to building the online community), and skill (based on mastery of science and communication) badges. Using a learning ecologies framework, the project will investigate multiple influences on how and why youth participate in science learning and making decisions. Project research uses a qualitative and quantitative approach, including observations, interviews, case studies, surveys, and learning analytics data, and data analytics. Project evaluation will focus on the nature and function of the collaboration, and on the scale-up aspects of the innovation and expansion, by: (1) analyzing and documenting effective procedures,and optimal contexts for the dissemination of the model and (2) by analyzing the collaboration between informal science organizations and higher education.
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TEAM MEMBERS:
Carrie TzouKaren LennonAmanda GoertzGray Kochlar-Lindgren
The Global Soundscapes! Big Data, Big Screens, Open Ears Project uses the new science of soundscape ecology to design a variety of informal science learning experiences that engage participants through acoustic discovery Soundscape ecology is an interdisciplinary science that studies how humans relate to place through sound and how humans influence the environment through the alteration of natural sound composition. The project includes: (1) an interface to the NSF-funded Global Sustainable Soundscapes Network, which includes 12 universities around the world; (2) sound-based learning experiences targeting middle-school students (grades 5-8), visually impaired and urban students, and the general public; and (3) professional development for informal science educators. Project educational components include: the first interactive, sound-based digital theater experience; hands-on Your Ecosystem Listening Labs (YELLS), a 1-2 day program for school classes and out-of school groups; a soundscape database that will assist researchers in developing a soundscape Big Database; and iListen, a virtual online portal for learning and discovery about soundscape. The project team includes Purdue-based researchers involved in soundscape and other ecological research; Foxfire Interactive, an award-winning educational media company; science museum partners with digital theaters; the National Audubon Society and its national network of field stations; the Perkins School for the Blind; and Multimedia Research (as the external evaluator).
The project is designed to engage Hispanic students in grades K-5 in STEM in afterschool programs within community-based organizations (CBOs). The project builds on the foundation of an NSF-supported afterschool science program--APEX (Afterschool Program Exploring Science). In collaboration with National Council of La Raza (NCLR), and ASPIRA, the project adapts APEX into a bilingual English/Spanish format and, using a train the trainer model, disseminates it nationally, using a train the trainer model. Each of the ten local project sites will build on a partnership between a science museum and a CBO affiliate of NCLR or ASPIRA. The project is designed to: (1) Build the organizational capacity of partner science museums to work with CBOs and the Hispanic community. (2) Strengthen links between science museums and Hispanic serving CBOs in their communities. (3) Engage the expertise, involvement, and collaboration of national Hispanic-serving organizations, NCLR and ASPIRA, in STEM education. (4) Increase the engagement of Hispanic children and families in STEM. The project evaluation will investigate how effectively the project builds the organizational capacity of partner museums and CBOs in engaging Hispanic children and families in STEM; the types and strength of science museum/CBO partnerships; the effectiveness of the project in increasing Hispanic student and family engagement in STEM, and the types of contributions the project makes to the field of informal STEM learning. The evaluation will use qualitative and quantitative methods, including surveys, interviews, case studies, social network and collaboration analysis, observations, activity tracking, embedded assessment, photo elicitation, and focus groups.
This initiative is a collaboration of the University of Massachusetts Amherst, the EcoTarium science museum in Worcester, MA, other scientists and teachers at Clark University in Massachusetts and at Loyola Marymount University in Los Angeles, along with six other museums in New England and California. The project seeks to develop and study a model that would integrate the science research on urban systems into science museum exhibits and programs, starting in this phase in a new "City Science" exhibit space at the EcoTarium. The goal is to learn how to assist citizens in decision-making and shaping a sustainable future for their communities. The work builds on the NSF/SBS-funded Urban Long-term Research Area Exploratory (ULTRA-Ex) network, one of a set of awards by NSF/SBS and NSF/BIO in the area of urban ecology. The exhibit (with four sections: neighborhood design; land use and land cover; urban biodiversity; urban heat island effect) will include activities related to "alternative futures" of cities, will be designed to be updated as new results from this research are produced and also to allow for visitors to respond to survey questions about their city environment that will be used by the researchers. Deliverables will also include an integration of the prototype exhibits with an NSF-funded K-12 urban ecology curriculum (co-PI from Loyola Marymount University), which has already been done with nature centers and would now expand into science museums. The significance of this work includes the growing importance of new research on human/ecology interaction in cities coupled with applications of this research to Public Participation in Science Research (PPSR) and local decisions and choices. It is driven by the future vision of the cities in which the target audience(s) is located. The work in Worcester will focus on reaching underserved audiences, which characterizes much of the city of Worcester, and will include partnerships with local schools and community groups.
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TEAM MEMBERS:
Robert RyanEric StraussColin PolskyAlexander GoldowskyPaige WarrenBetsy Loring
resourceprojectProfessional Development, Conferences, and Networks
The Albert Einstein Distinguished Educator Fellowship Program provides a unique professional development opportunity for K-12 educators to inform national STEM policy and improve communication between the STEM education community and national leaders. Albert Einstein Fellows spend eleven months working at the National Science Foundation, bringing extensive knowledge and classroom experience to STEM education programs. In addition, fellows are provided with an extensive program of professional development training during their cohort year. The Albert Einstein Fellows program is run by the non-profit Triangle Coalition for Science and Technology Education on behalf of the Department of Energy Office of Science. Other federal participants in the fellowship program include NASA, NOAA, and the U.S. Congress. In 2013-14, NSF will host seventeen Albert Einstein Fellows. The Albert Einstein Fellows program is designed to provide substantial STEM work experience beyond the confines of the classroom, as well as extensive training in the individual fields of science, technology, and engineering, STEM education policy, and STEM program outcomes. During the eleven-month fellowship, the Triangle Coalition provides programming that supports professional development in three broad goal areas: 1) development of leadership skills; 2) development as a STEM educator; and, 3) addressing grand challenges in STEM education. The Triangle Coalition engages a third-party evaluator to measure the efficacy of the professional development programming and the overall impact of the program. The evaluators will collect and analyze data that addresses the cumulative impact of the Albert Einstein Fellows program upon the participants and STEM programs with which they engage. The analysis will provide insight into fellows' diversity of experiences post-fellowship that can inform program analyses and research into STEM issues such as resource allocation, teacher preparedness, student interest, and minority participation in STEM. The Albert Einstein Distinguished Educator Fellows Program advances knowledge of STEM disciplines and the critical role educators play in advancing STEM learning and career development. The program increases STEM knowledge and pedagogical skills, provides an opportunity for building leadership capabilities as STEM experts, and assists educators with understanding the policy process. The fellowship equips educators to be STEM capacity-builders and problem-solvers for social, economic, and political challenges created or exacerbated by lack of STEM comprehension. The program also encourages broader diversity in STEM by recruiting in demographic sectors (race, ethnicity, location, etc.) that are historically underrepresented.
This full scale/collaborative research project targets underserved youth who will collaborate with STEM professionals to co-create community-relevant technology and media content creating a potentially scalable model. App Lab DIY is a collaboration between Youth Radio, the MIT Media Lab's Center for Mobile Learning, and the Mozilla Foundation. There are multiple and well integrated project strategies. Youth working with professionals will design, create, and disseminate original apps that engage users around community issues (e.g. urban wildlife mapping; Community DNA). They will work directly with the MIT Media Lab/Mobile Learning Center to improve App Inventor, an open-source tool. Youth participants will create media content for national on-air and online outlets including NPR. They will design digital badges to validate and document what they've learned creating media and apps. Curricular resources and tools for educators will be created and disseminated to advance STEM learning among underserved youth. Deliverables include: 1) creation of three apps (media-rich, STEM-relevant, community valued) that engage communities; 2) improvements in App Inventor, MIT's open-source tool that democratizes app develop for and by all; 3) radio stories that are integrated with the apps; 4) a multimedia toolkit for informal and formal educators to adapt in their programs; 5) a pilot badging system to mark mastery of skills associated with youth-driven media production and technological innovation; and 6) a research study focusing on the use of app development to drive STEM learning and engagement among underserved youth. Original research will be conducted by an embedded Scholar-in-Residence to inform and advance the field about driving STEM engagement via media/tech innovation. The Scholar-in-Residence will use Participant-Action-Research to inform and improve practice and study the big general questions about how the program works and why. The evaluation will leverage the instruments and methods established in Youth Radio's past NSF grants to study the impact on the youth's skills, knowledge and attitudes. They will also study impacts on two additional audiences: educators using the multimedia toolkit and users of the mobile apps. Approximate 1000 Youth Radio students will participate in the project over the three years through contributions to app development, radio production, and digital badges creation. The multimedia toolkit will be nationally disseminated to STEM educators with a large potential reach.
This research and development project explores the mechanisms that initiate and support innovation in early childhood education, especially in combining informal learning via public media and technology with teacher and family interactions to maximize children's math learning. Deliverables include 27 episodes of Peg+Cat, an animated math adventure series on PBS, 8 related online games and apps, summer math institutes and school-year training for preschool/Head Start teachers, and complementary activities and resources to support parent's knowledge and practice and student's engagement, interest, and learning of foundational math concepts. The research agenda will test several hypotheses regarding the strategies to extend teacher's math content knowledge and pedagogy and parent/ caregiver's understanding and valuing of math. A key question will focus on how coupled learning opportunities (professional development for teachers, transmedia, and support for families) enable and sustain children's engagement and learning in math. Formative evaluation of the media components will use focus groups of 3-5 year olds to assure develerables are engaging and accessible. The summative evaluation by Rockman et al will focus on how well the project met its overall goals including the project implementation, and impacts on Head Start teachers, parents/caregivers, and preschoolers. The project's transmedia deliverables will reach millions of preschoolers through daily PBS broadcasts and online games and apps. Fifty Head Start teachers will participate in the two-year professional development program and will be using new content knowledge and pedagogy to teach 550 Head Start children in southwest Pennsylvania and engage their parents/caregivers. The Head Start infrastructure will provide further dissemination of the project's findings and resources.
This research project led by the Exploratorium will use a combination of tracking and timing, cluster analysis, and focus groups to seek to answer the research question: To what extent and in what ways do female-responsive designs more effectively engage girls at STEM exhibits? This project addresses the need for more research in this area by pioneering the study of potential female-responsive design (FRD) principles for exhibits across a wide variety of STEM topics and exhibit types. This project includes four phases that will build from the work of the PI that developed an initial Female-Responsive Design (FRD) Framework regarding female engagement and learning in STEM -- based on extensive literature review and practitioner interviews. This project will expand on and validate this FRD Framework, with the ultimate goal of having a set of criteria for female-responsive designs (FRD) that effectively engage girls at STEM exhibits. The four phases of the research project are: Phase 1: Track 1000 boys and girls across three institutions using over 300 physics, engineering, and math exhibits to identify which exhibits engage boys and girls equally, and which are less engaging for girls. Phase 2: A panel of experts and girl advisors identify additional female-responsive design principles, expanding on those identified to date in literature and practice. Phase 3: Combining results from the first two phases, the third phase employs statistical analyses to reveal the most effective combinations of design principles for engaging girls across a variety of exhibits. Phase 4: This qualitative phase conducts focus groups with girls to explore how the final FRD Framework works to better engage them, and how their learning differs at exhibits that exemplify the principles in the Framework.
This award continues funding of a Center to conduct research and education on the interactions of nanomaterials with living systems and with the abiotic environment. The goals of this Center are to develop a predictive understanding of biological and ecological toxicology for nanomaterials, and of their transport and transformation in the environment. This Center engages a highly interdisciplinary, multi-institutional team in an integrated research program to determine how the physical and chemical properties of nanomaterials determine their environmental impacts from the cellular scale to that of entire ecosystems. The research approach promises to be transformative to the science of ecotoxicology by combining high throughput screening assays with computational and physiological modeling to predict impacts at higher levels of biological organization. The Center will unite the fields of engineering, chemistry, physics, materials science, cell biology, ecology, toxicology, computer modeling, and risk assessment to establish the foundations of a new scientific discipline: environmental nanotoxicology. Research on nanomaterials and development of nanotechnology is expanding rapidly and producing discoveries that promise to benefit the nation?s economy, and improve our ability to live sustainably on earth. There is now a critical need to reduce uncertainty about the possible negative consequences of nanomaterials in the environment, while at the same time providing guidelines for their safe design to prevent environmental and toxicological hazards. This Center addresses this societal need by developing a scientific framework of risk prediction that is paradigm-shifting in its potential to keep pace with the commercial expansion of nanotechnology. Another impact of the Center will be development of human resources for the academic community, industry and government by training the next generation of nano-scale scientists, engineers, and regulators to anticipate and mitigate potential future environmental hazards of nanotechnology. Partnerships with other centers will act as powerful portals for the dissemination and integration of research findings to the scientific, educational, and industrial communities, both nationally and internationally. This Center will contribute to a network of nanotechnology centers that serve the national needs and expand representation and access to this research and knowledge network through programs directed at California colleges serving underrepresented groups. Outreach activities, including a journalist-scientist communication program, will serve to inform both experts and the public at large about the safety issues surrounding nanotechnology and how to safely produce, use, and dispose of nanomaterials.
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TEAM MEMBERS:
Andre NelYoram CohenHilary GodwinArturo KellerPatricia Holden
SciGirls and Citizen Science: Real Data, Real Kids, Real Discoveries SciGirls is showcasing Citizen Science! From their own backyards to a NASA research center, the bright, relatable, real girls featured on the groundbreaking PBS series are seriously into science, technology, engineering and math, or STEM. And Season Three of SciGirls finds these STEM adventurers tracking toads, counting clouds and much more, all in the name of citizen science. The brand-new season of the Emmy-winning show, featuring six stand-out episodes, debuted April 2015 on PBS KIDS (check local listings) and online at http://pbskids.org/scigirls. Citizen science is the newest STEM frontier that engages the general public –and kids – in real science. Scientists worldwide invite ordinary people—like the SciGirls—to observe and record data about everything from birds to beaches, monarch butterflies to maple trees. The data is then shared with scientists, who use it to generate new scientific knowledge. In six exciting new episodes, middle school girls and their female STEM professional mentors hit the great outdoors, cataloging frog calls, tracking the changing seasons, verifying satellite imagery of clouds, monitoring fragile butterfly populations, improving urban bird habitats, and advocating for healthy oceans. In addition, animated characters Izzie and Jake are back and finding themselves in sticky situations that can only be solved by STEM—and the SciGirls. When the SciGirls share their data with professional scientists, they save the day for Izzie and Jake and help save the environment! The new mobile-friendly website at http://pbskids.org/scigirls lets kids play new games, watch episodes and videos, and connect with fellow STEM explorers anywhere, anytime. “Collaboration is the key to successful citizen science,” said SciGirls executive producer Richard Hudson. “Since SciGirls’ beginning, working together—making discoveries, mistakes and friends—is one of the important research-based methods we use to engage girls around STEM. This new season underscores the importance of collaboration within the scientific research community and workforce. SciGirls is fortunate to have powerful partners advising us about citizen science, including the Cornell Lab of Ornithology, NASA and SciStarter.” The SciGirls creative team is headed by Twin Cities Public Television’s Director of Science Content Richard Hudson, Executive Producer of the long-running PBS children’s science series Newton's Apple and creator of DragonflyTV and the SciGirls initiative. Animation is created by Soup2Nuts, producers of PBS’ WordGirl. Strategic partners for the new series are the Cornell Lab of Ornithology, Rick Bonney co-PI, and the National Girls Collaborative Project, co-PI Karen Peterson. SciGirls is made possible by a major grant from the National Science Foundation. Additional funding is provided by INFOR, Northrop Grumman Foundation, and PPG Industries Foundation.
The conference, Indigenous Worldviews in Informal Science Education, is designed to advance research on the integration of Native and Western science in relation to informal science learning. The goals of the conference are to integrate and synthesize research and theory, formulate a research agenda, and share the results with the STEM education community. The conference is organized around six strands: Collaboration, Policy, Holistic Education, Next Generation Youth, and Evaluation. A six-week preconference online discussion of conference issues leads into the two-day conference, held at Imiloa Astronomy Center in Hilo, Hawaii. The meeting brings together sixty participants including educators, research scientists, learning researchers, policymakers, and Native youth. The conference includes keynotes, workshops and synthesis discussion groups, which will be synthesized and presented at a policy outcome meeting held in Washington, DC that follows the conference. Conference results will be further disseminated at relevant conferences, in publications, and through online discussions. A full evaluation process will inform the detailed planning of the conference and will evaluate the effectiveness of the conference, based on responses from conference participants.
The Exploratorium, in partnership with Qualcomm, proposes to develop and test a highly accurate indoor positioning system (IPS) at full museum scale. Such a system would increase the feasibility and power of whole-visit research studies and open up opportunities for using IPS to support new and innovative informal STEM learning experiences. Within 3-5 years, museums will likely possess infrastructures capable of easily and effectively integrating IPS. The Exploratorium's project will generate early knowledge about using this technology for developing innovative programmatic strategies and for improving research and evaluation of STEM learning in museums. Program activities include developing processes for creating and updating indoor maps; testing IPS as a tool for program development and delivery; prototyping a research data management system; and the dissemination project findings.