Currently, many museums present histories of science and technology, but very few are integrating scientific activity--observation, measurement, experimentation-with the time- and place-specific narratives that characterize history-learning experiences. For the Prairie Science project, Conner Prairie is combining proven science center-style activities, developed by the Science Museum of Minnesota, with family-engagement strategies developed through extensive research and testing with audiences in historical settings. The goal of this integration is to create guest experiences that are rich in both STEM and historical content and encourage family learning. One key deliverable of this project is the Create.Connect gallery, which is currently installed at Conner Prairie. Create.Connect allows the project team to evaluate and research hands-on activities, facilitation strategies and historic settings to understand how these elements combine to encourage family conversations and learning around historical narratives and STEM content. For example, in one exhibit area families can experiment with creating their own efficient wind turbine designs while learning about the innovations of the Flint & Walling windmill manufacturing company from Indiana. The activity is facilitated by a historic interpreter portraying a windmill salesman from 1900. The interpreter not only guides the family though the process of scientific inquiry, but shares his historic perspective on wind power as well. Two other exhibit areas invite hands-on exploration of electrical circuits and forces in motion as they connect to stories from Indiana history. Evaluation and research findings from the Create.Connect exhibit will be used to develop a model that can guide other history institutions that want to incorporate STEM content and thinking into their exhibits and interpretation. By partnering with the Science Museum of Minnesota, we will combine the experience of science center professionals and history museum professionals to find the best practices for incorporating science activities into historic settings. To ensure that this dissemination model is informed from many perspectives, Conner Prairie has invited the participation of four history museums: The Museum of America and the Sea, Mystic, Connecticut; the California State Railroad Museum, Sacramento, California; the Wabash County Historical Society, Wabash, Indiana; and the Oliver H. Kelley Farm, Elk River, Minnesota. Each of the four participants will install history-STEM exhibit components which will be connected to location-specific historic narratives. Drawing on the staff experience and talents of participant museums, this project will develop realistic solutions to an array of anticipated barriers. These issues and the resulting approaches will become part of a stronger, more adaptable dissemination model that will support history museums in creating STEM-based guest experiences.
This full scale research and development collaborative project between Smith College and Springfield Technical Community College improves technical literacy for children in the area of engineering education through the Through My Window learning environment. The instructional design of the learning environment results from the application of innovative educational approaches based on research in the learning sciences—Egan's Imaginative Education (IE) and Knowledge Building (KB). The project provides idea-centered engineering curriculum that facilitates deep learning of engineering concepts through the use of developmentally appropriate narrative and interactive multimedia via interactive forums and blogs, young adult novels (audio and text with English and Spanish versions), eight extensive tie-in activities, an offline teachers’ curriculum guide, and social network connections and electronic portfolios. Targeting traditionally underrepresented groups in engineering—especially girls—the overarching goals of the project are improving attitudes toward engineering; providing a deeper understanding of what engineering is about; supporting the development of specific engineering skills; and increasing interest in engineering careers. The project will address the following research questions: What is the quality of the knowledge building discourse? Does it get better over time? Will students, given the opportunity, extend the discourse to new areas? What scaffolding does the learning environment need to support novice participants in this discourse? Does the use of narrative influence participation in knowledge building? Are certain types of narratives more effective in influencing participation in knowledge building? Evaluative feedback for usability, value effectiveness, and ease of implementation from informal educators and leaders from the Connecticut After School Network CTASN) will be included. The evaluation will include documentation on the impact of narrative and multimedia tools in the area of engineering education. Currently, there is very little research regarding children and young teen engagement in engineering education activities using narrative as a structure to facilitate learning engineering concepts and principles. The research and activities developed from this proposed project contributes to the field of Informal Science and Engineering Education. The results from this project could impact upper elementary and middle-school aged children and members from underrepresented communities and girls in a positive way.
The University of Alaska Fairbanks will partner with the National Optical and Astronomy Observatory, the University of Alaska Museum of the North, and the University of Washington-Bothell to bring biomaterials, optics, photonics, and nanotechnology content, art infused experiences, and career awareness to art-interested girls. This full scale development project, Project STEAM, will explore the intersections between biology, physics, and art using advanced technologies at the nano to macro scale levels. Middle school girls from predominately underrepresented Alaskan Native, Native American (Tohono O'odham, Pascula Yaqui) and Hispanic groups, their families, teachers, and Girl Scout Troop Leaders in two site locations- Anchorage, Alaska and Tucson, Arizona will participate in the project. Centered on the theme "Colors of Nature," Project STEAM will engage girls in science activities designed to enhance STEM learning and visual-spatial skills. Using advanced technologies, approximately 240 girls enrolled in the Summer Academy over the project duration will work with women scientist mentors, teachers, and Girl Scout Troop Leaders to create artistic representations of natural objects observed at the nano and macro scale levels. Forty girls will participate in the Summer Academy in year one (20 girls per site- Alaska and Arizona). In consequent years, approximately180 girls will participate in the Academy (30 girls per site). Another 1,500 girls are expected to be reached through their Girl Scout Troop Leaders (n=15) who will be trained to deliver a modified version of the program using specialized curriculum kits. In addition, over 6,000 girls and their families are expected to attend Project STEAM Science Cafe events held at local informal science education institutions at each site during the academic year. In conjunction with the programmatic activities, a research investigation will be conducted to study the impact of the program on girls' science identity. Participant discourse, pre and post assessments, and observed engagement with the scientific and artistic ideas and tools presented will be examined and analyzed. A mixed methods approach will also be employed for the formative and summative evaluations, which will be conducted by The Goldstream Group. Ultimately, the project endeavors to increase STEM learning and interest through art, build capacity through professional development, advance the research base on girls' science identity and inspire and interest girls in STEM careers.
Water for Life (WfL) is a full scale development youth and community based program; centered on freshwater literacy, water conservation and rainwater harvesting led by the Pacific Resources for Education Learning (PREL) in Hawaii. The goals of the project are to: (a) promote an understanding of water conservation and stewardship in areas lacking adequate quality water supplies and (b) build local capacity among rural communities to develop and employ site specific freshwater harvesting strategies proven to improve water quality. Rural communities within four Pacific Island entities in the U.S. affiliated Freely Associated States (FAS) will participate in WfL activities. PREL is collaborating with a host of organizations (such as the Federated States of Micronesia National Department of Education, Marshall Islands Conservation Society, and the Micronesian Conservation Trust, etc.) to develop and implement all phases of the initiative. This work is already improving the quality of life for hundreds of people in the FAS through water conversation education and improved water quality in local areas. Working closely with site-embedded PREL staff, Core Teams at each site - consisting of 4-6 local leaders from environmental agencies, water/sanitation systems, and education institutions - participated in a 5-day professional learning immersion in May, 2013, to buld capacities to develop and facilitate water conservation and catchment activities at the four target sites in the FAS. The Core Team members at each site now are recruiting and collaborating with local community members to implement site-specific projects that both educate and provide enhanced access to high quality drinking water. Both adults and youth are now engaging in a spectrum of proejcts that address loca needs and priorities through site-specific service learning activities. The site-specific focus in each locale, determined by the local Core Team, is distinct. In Palau, the Core Team has built broader community awareness of water conservation issues, raised the issue of water security in national conversations, engaged remote communities in improving natural rainwater drainage collection systems, and produced youth-oriented educational materials focused on local sites. In Yap, the Core Team members have collaborated with public utilities to install first-flush diverters into community rainwater catchment systems on Yap proper, and now are installing these devices in rainwater catchment systems on Yap's neighbor islands. In Chuuk, groundwater springs in remote communities are being upgraded for improved storage capacity, protection against contamination, and better public access. In Majuro (RMI), public school rainwater catchment systems are being repaired, repainted, cleaned, and upgraded so that schools can and will provide adequate drinking water to students (and to broader segments of the community during droughts). Broad segments of communities, including school classes and clubs, church and civic groups, etc. are becoming increasingly involved in building better water security and resilience for their communities, in preparation for a predicted drought, predicted to hit in the winter of 2014-2015, brought on by an El Nino event now edevelopig in the eastern Pacific. Water for Life has produced a range of locally relevant educational materials, including books, pamphlets, flyers, etc., some in English and others in local languages. Posters and billboards are being produced to enhance and maintain public awareness. Infrastructure projects are enabling better collection of more, higher quality water for drinking. A full-scale water handbook is under development, and this will serve as a basis for a self-contained water 'course' that will be offered through local community colleges. The experiences of project participants are being captured, analyzed, and reported in front-end, formative, and sumative evaluations conducted by David Heil & Associates. Thousands of individuals, comprising large segments of the participating countries' populations, will be directly impacted by the project. The results will be applicable to other remote and rural communities outside of the Pacific distressed by poor water quality and ineffective freshwater harvesting systems.
Families and school-aged constituents at 30 urban, inner-city neighborhood community-based organizations and teachers and students in earth science classes in 40 middle schools. Intent: This project will prepare neighborhood and community leaders in Philadelphia to use simple but effective observation tools and NASA’s educational web content to help their inner-city Philadelphia neighbors learn about space science and technology – and about their city and themselves – by knowledgably exploring the sky. Project Goals: 1. Create multiple opportunities for inner-city children, adults and families to observe and learn about the solar system through neighborhood and city-wide events. 2. Equip CBO’s with the knowledge, skills and materials they need to make space science-related events and activities a sustained part of programming for their constituents. 3. Stimulate interest and engagement in NASA’s missions and resources among residents of traditionally underserved, inner-city neighborhoods through astronomy experiences and NASA’s websites. 4. Create and strengthen collaborative ties between The Franklin Institute, CBO’s, city residents, and local amateur astronomers. Programs/Products produced: 1. Repeatable ‘Galileoscope’ workshops and activities in 30 CBO’s 2. Solar observing activities for 30 CBO’s and 40 middle schools. 3. School assembly-type audience interactive program about observational astronomy for use in schools and community organizations. 4. Recurring neighborhood star parties facilitated through on-going partnerships with local amateur astronomy clubs. 5. Participation in city-wide star party as part of the annual Philadelphia Science Festival.
The goal of this project is to advance STEM education in Hawaii by creating a series of educational products, based on NASA Earth Systems Science, for students (grades 3-5) and general public. Bishop Museum (Honolulu HI) is the lead institution. NASA Goddard Space Flight Center is the primary NASA center involved in the project. Partners include Hawaii Department of Education and a volunteer advisory board. The evaluation team includes Doris Ash Associates (UC Santa Cruz) and Wendy Meluch of Visitor Studies Inc. Key to this project: the NASA STEM Cohort, a team of six current classroom teachers whom the Museum will hire. The cohort will not only develop curricula on NASA earth science systems but also provide guidance to Bishop Museum on creating museum educational programming that best meets the needs of teachers and students. The overall goal of Celestial Islands is to advance STEM education in Hawaii through the use of NASA Earth Science Systems content. Products include: 1) combined digital planetarium/Science on a Sphere® program; 2) traveling version of that program, using a digital planetarium and Magic Planet; 3) curricula; 4) new exhibit at Bishop Museum on NASA ESS; 5) 24 teacher workshops to distribute curricula; 6) 12 community science events. The project's target audience is teachers and students in grades 3-5. Secondary audiences include families and other members of the general public. A total of 545,000 people will be served, including at least 44,000 students.
Indianapolis / City as Living Laboratory (I/CaLL) is a city-wide civic collaboration engaging in cross-sector research that builds on prior research in informal science learning in public settings. It extends research in place-based and service learning traditions, and uses the city itself as an informal science learning (ISL) environment for Science and Engineering for Environmental Sustainability learning outcomes. This project is creating place-based science learning experiences as part of public spaces in Indianapolis and establishes the next generation of urban science museums that increase opportunities for learning. The project will develop a self-sustaining program for art/science collaborations as they inaugurate city-sanctioned changeable installations at I/CaLL sites. Data from the project will be used to inform ISL professionals at museums throughout the community and around the country. Thousands of volunteers and their families will help create I/CaLL spaces, engage with communities, and serve as research participants connecting with science learning through site development. The unprecedented scale of this project provides a full measure of informal science service learning at a city scale, offering data that can change how science learning is measured, how people from all walks of life develop science literacy as part of their social public experience, and embodying the concept of the city as a living science learning lab. Broader impacts include the development of the city as an informal science learning environment that will become a new standard for thinking about what cities as cultural units can become as we build a resilient Science and Engineering culture for Environmental Sustainability.
This three-year research project will study the impact of science center staff facilitation strategies in the area of mathematics learning in a museum exhibit environment. The three main deliverables are: (1) Iteratively developing and refining a theoretical model of how staff facilitation can deepen and extend family mathematical discourse at interactive exhibits; (2) Rigorously testing key components of this model, including the relationship between staff facilitation and the nature of family mathematical discourse; and (3) Providing evidence and research-based tools to support PD efforts for informal STEM educators. The project will leverage the success of the NSF-funded Access Algebra project (DRL-0714634) to advance the field's understanding of socially mediated, informal math learning and identify effective, evidence-based facilitation approaches. The project's research will build from theoretical notion of sociomathematical norms (Yackel & Cobb, 1996), which is currently based on classroom research. A key element of the project will be to determine whether and how, the norms can be applied to informal learning environments. The first phase of the project begins with a qualitative, design-based research (DBR) study to develop a theoretical model of staff-facilitated family math learning, including staff facilitation strategies that support family mathematical discourse and contextual factors that influence that discourse. In the second phase of the project, the team will use an experimental approach to rigorously test the staff facilitation model developed during Phase 1. This mixed-method design will allow the team to both study the complexities of informal math learning and rigorously test causal connections between staff facilitation and the level of family math discourse. Finally, the project staff will provide tools to support PD efforts for informal STEM educators across the country.
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.
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 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.
The Chicago Zoological Society (CZS) in collaboration with Eden Place Nature Center, the Fuller Park Community Corporation, and the University of Illinois at Chicago (UIC) will implement the SCIENCES Program, Supporting a Community's Informal Education Needs: Confidence and Empowerment in STEM. The primary goals of this Full Scale Development project are to broaden access to and participation in environmental science, strengthen partnerships between CZS, Eden Place, and UIC, and gain insights into the 'ecosystemic' learning model which promotes scientific literacy and agency in the community. The project targets a low-resource community with a minority audience while the secondary audience is informal science learning organizations and researchers who will advance research in informal learning. The theoretical framework for the project design draws on conservation psychology, informal science learning, civic ecology education, and urban science education to create an ecosystematic, geographically centered approach. The deliverables include research, curriculum, and engaging hands-on programs for youth, families, adults, and teachers, reaching both in-school and out-of-school audiences, in addition to the SCIENCES Implementation Network. Three potential curriculum themes to be explored are water conservation and protection, pollinators for healthy ecosystems, and community resilience to climate change. The SCIENCES project offers a comprehensive suite of engaging programs for community audiences. For example, the year-long Zoo Adventure Passport (ZAP) program for families includes hands-on experiments and field trips, while project-based learning experiences enable teens to create wetlands, design interpretive signage, and develop associated public programming. School-based programs include professional development for teachers on the Great Lakes ecosystem and invasive species. Existing programs that have been previously evaluated and demonstrated to show learning impacts will be adapted and modified to meet the goals of the ecosystemic learning model by providing multiple learning opportunities. New learning resources will also be created to support the content themes and provide continuity. The result will be a comprehensive approach that ensures deep community engagement by individuals, families, and organizations, with cohesiveness provided by the overarching content themes which broaden access to STEM learning resources and leverages partnerships. The project includes both a research and evaluation plan. The primary research question to be addressed is: How does a large informal science learning institution work with a community-based organization to support environmental scientific literacy and agency at all levels of the community? A sociocultural framework will be used for this mixed-methods case study research. Study participants include community leaders, youth, parents, teachers, and staff from Eden Place. The case study sample will include 20 focal individuals drawn from the participant groups and approximately 300 survey participants. Case study data will be triangulated with evaluation data and analyzed using a grounded theory approach. By examining changes from the baseline following the implementation of the community programs, the findings may provide insight on agency and science literacy among community members. The comprehensive, mixed-methods evaluation plan employs a quasi-experimental design and incorporates front-end, formative, and summative evaluation components. The evaluation questions address the quality of the processes and products, access to environmental science learning opportunities, environmental science literacy, sustainability, and barriers to implementation. An extensive dissemination plan is proposed with a dual emphasis on meeting stakeholders' needs at multiple levels. The evaluation and research teams will emphasize publication in peer reviewed journals and presentations at conferences for informal science education professionals. Findings will be shared with the Fuller Park community stakeholders using creative methods such as one-page research briefs written in layperson's language, videos, and recorded interviews with participants. The local project Advisory Board will also be actively involved in the dissemination of findings to community constituents. The SCIENCES National Amplification Network will be created and work collaboratively with the American Association of Zoos and Aquariums and the Metropolitan Green Spaces Alliance to disseminate the model. Collectively, the activities and deliverables outlined in this proposal will advance the discovery of sustainable models of community-based learning while the research will advance the understanding of informal learning support for science literacy and agency.