The Westside Science Club (WSSC) is an out-of-school time opportunity that brings participant-directed STEM activities to under-resourced late-elementary and middle school students in low-income housing units in Los Angeles. WSSC and CCI Solar began a collaboration in 2012 with funding from the NSF to connect research scientists from Caltech with the underserved youth in the club. Another community partner, Wildwood School, provided high school students to act as near-peer mentors for the club members. CCI Solar's research on the efficient and economical conversion of solar energy into stored chemical fuel provides an entry point for informal science education activities designed to introduce pre-high school participants to basic chemistry and related STEM concepts such as physics and plant biology. Activities were largely student driven, though lessons were developed by the team of facilitators including the club's founder Ben Dickow, Wildwood teacher Levi Simons, and students, post-docs, and staff from Caltech. Each lesson was tied to CCI Solar's research through a mind-map of related chemistry concepts. The activities were mostly intended to be "maker-type" experiences that allowed the club members to follow their own interests and questions. Caltech students and postdocs from CCI Solar helped deliver activities while honing their science communication skills with the young WSSC audience. The team is currently adapting the model of this successful collaboration to develop another science club in a different Los Angeles community. Two-years of lessons developed from this project, an evaluation of the project by Kimberly Burtnyk of Science for Society, and a model on how to replicate such a program are available in the project final report below. This was a two-year pilot program that was completed in July 2014.
The purpose of the Handbook is to inform the co-creation of a new wave of iSaveSpecies interactives designed to deepen engagement in science and conservation at zoos, aquariums, and other living-exhibit institutions. The Handbook allows participating institutions to easily collect visitor data, to better understand how visitors currently engage at exhibits, and to apply visitor data to the development of iSaveSpecies inquiry and action tools. We describe some common methods of data collection including: timing and tracking of visitors, prototyping exhibit mock-ups, and language testing using
This broader implementation project will create a professional network of individuals and institutions increasing their capacity to develop, implement, and evaluate the impact of large scale community science festivals. The project builds on a previous award that supported the implementation of science festivals in Cambridge, MA; San Francisco, San Diego, and Philadelphia. Each festival reached 50-70,000 attendees, many of them families from low-income, ethnic communities. Festival organizers and participants include science center practitioners, Science, Technology, Engineering and Mathematics (STEM) researchers, STEM related businesses, public television STEM producers, universities, K-12 schools, and government and foundation stakeholders. The summative evaluation indicated significant impacts on participant's STEM interest, learning, and connections to STEM resources in their community. The number of science festivals across the country is increasing. Consequently this new project will create a professional network with numerous benefits to professionals in the Informal Science Education (ISE) field and other stakeholders including: timely access to information, knowledge and experience related to science festivals; rich relationships to draw on when facing challenges; credibility of the festival concept; ability to partner with multiple festivals and magnify the reach of existing ISE institutions and program; diffusion of knowledge and innovation; and collective intelligence and inclusive consultation. It is expected that the network will involve supporting approximately 50 science festivals during the grant period. A business plan will be developed for long term sustainability of the network and the subsequent growth of science festivals. This is a collaborative proposal with 4 project partners who have distinct roles in creating and sustaining the network: MIT, University of California at San Francisco, University of North Carolina/Morehead Planetarium and Science Center, and The Franklin Institute. MIT's project deliverables include hosting the central management and administrative functions of the network and providing conferences, workshops, individual mentoring of new science festival champions, maintaining the network website, etc. UCSF will develop tools, resources, and linkages to increase participation of scientists in festivals. UNC/Morehead Planetarium and Science Center will provide expertise in statewide festival organizing. The Franklin Institute will help network participants build capacity for engaging low-income families with programming examples, community asset analysis tools, and webinars. This multi-hub approach is a new innovative strategy for creating and sustaining the first ever professional network for science festival organizers. The project evaluation will focus on the network\'s vibrancy, connectivity and effect. Network vibrancy impact data will be collected on how members share goals, enhance leadership, and expand geographic and model diversity. Network connectivity evaluation will study the strength and growth of the relationships within the SFA network. Network effects will study the ways the Science Festival Alliance (SFA) network is achieving science festival organizational capacity looking at increases in the number of science festivals, geographic spread, science festival innovations, and the presence of a SFA sustainability plan. This project will add new knowledge about the impact of networks on the development and impact of science festivals throughout the country.
The Science Source Pathways Project will conduct initial work designing and testing a new model for providing news on STEM related topics to the rural and Native American communities in Montana. This project will enhance understanding of how the communication of scientific research reaches and impacts underrepresented audiences. A collaborative model will be developed between the environmental journalism program at the University of Montana and various local television, radio, and online media outlets that are either operated by or reach Native Americans on reservations and throughout the state. Project deliverables include a survey and analysis of current science reporting reaching this audience; and production and testing of prototype science news stories for dissemination on various platforms (print, radio, TV, web). The development of science news pieces will be led by graduate students in the School of Journalism under the careful guidance and mentorship of experienced professors. This project will enhance the communication and amount of STEM content delivered to underserved groups, and provide diverse opportunities for them to engage in STEM related environmental issues that affect their local communities.
The Science Museum of Minnesota (SMM) is collaborating with the Museum of Science in Boston (MoS), the North Carolina Museum of Life and Science in Durham (NCMLS), Explora in Albuquerque, the Center for Research in Mathematics and Science Education at San Diego State University (CRMSE), and TERC in Cambridge, MA to develop, create and evaluate "MathCore for Museums," long-term math environments that children can interact with over multiple visits and over several years. The project is prototyping and producing 12 open-source, validated interactive exhibits about proportion: fractions, ratios, similarity, scaling, and percentages, basic concepts for understanding Algebra. The eight best exhibits will be replicated for each MathCore museum and the exhibits will be supported by a limited-access website designed to support and extend repeated use of exhibits and further exploration of ratio and proportion. Selinda Research Associates will conduct a longitudinal evaluation of the project. CRSME will conduct a research study of selected exhibit prototypes to investigate when children start to work on proving relations between similarity and proportion in informal settings, the relationship between children's artwork and mathematical insight, and the roles of bodily activity in learning to see relations in similarity and proportion. Results will be disseminated in peer-reviewed publications, at professional meetings, at the Association of Science and Technology Center's RAP Sessions at the NCMLS, and through the project's website.
This project comprises the NSF-funded portion of the renovation of a 25,000 sq. ft. natural history gallery called "CHANGING CALIFORNIA." ORIGINAL PROJECT DESCRIPTION: The Oakland Museum of California (OMCA) will develop, implement, and evaluate Hotspot California, a research-based natural science gallery transformation that will explore the educational potential of wildlife dioramas to engage the public in urgent environmental issues. The exhibition will showcase five real places in California that exemplify high biological diversity and complex environmental issues. Innovative approaches to interpretation will emphasize personal connections to these places and infuse static dioramas with visualization technologies that illustrate environmental change over time. The project will explore how such enhancements to dioramas might help visitors develop place-based connections to the natural world. The project has four major deliverables: 1) an innovative 25,000 sq ft gallery exhibition installation featuring five specific California places where California's unique biodiversity is threatened; 2) an application and evaluation of a new participatory exhibit design model involving community contribution, collaboration, and co-design; 3) a two-day "synthesis symposium" for informal science education professionals to consider broad applications of project findings for the field; and 4) "Diorama Dilemmas: A Source book for Museums," synthesizing relevant literature, case studies, and findings from the project's research and evaluation generalizable to the field. The project has evolved since the NSF award, but it remains aligned with its original goals. The team increased the number of California places from five to seven and worked to add a strong human presence within a gallery previously devoted almost entirely to other species. Innovative reuse of OMCA's dioramas and habitat cases continues to be the project's core, but the team's approach has emphasized re-contextualizing rather than revising those exhibits. New elements include iconic artifacts and environments reflecting recent human impact on California, relevant objects from OMCA's art and history collections, digital visualizations of dynamic natural phenomena, and spaces for hands-on investigation. Community focused elements include multiple co-created exhibits and media programs offering inspiring encounters with Californians deeply involved in these seven places.
The University of Minnesota is partnering with several nature centers in the Midwest to transform citizen "technicians" into citizen "scientists." The Driven to Discover project will use existing citizen science programs with strong educational components to engage 12-14 year old youth and their adult mentors in authentic research. The goal of the project is to develop a training model for adults who work with youth in a variety of informal education settings to involve them in authentic scientific inquiry via citizen science rather than just data collection activities. In the proof-of-concept phase, teams consisting of 4-H youth, adult leaders, and several scientists are conducting participatory action research to understand what factors lead youth to full engagement in ecological research. In phase two, project personnel are training 4-H educators, naturalists, and teachers how to engage youth and their adult leaders in other 4-H programs and other informal education programs to conduct ecological research with scientists in advisory roles. Phase one involves approximately 10 adults and 70 youth, whereas phase two involves approximately 40 adults and 300 youth. A front-end study defined the project's target audiences and partners. Formative evaluation study will monitor interactions among members of the research teams and summative evaluation will measure impacts on participants' knowledge, skills development, attitudes, and behavior. Project deliverables include youth-generated ecological research findings, web-based program implementation materials, an annual conference, and a model for engaging youth groups in informal settings in authentic scientific inquiry. The model is expected to impact more than six million youth nationwide.
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TEAM MEMBERS:
Karen OberhauserNathan MeyerAndrea Lorek StraussPamela NippoltKatie ClarkRobert Blair
This project will engage underserved Native and non-native youth and adults in environmental science content and awareness through innovative exhibitions and hands-on activities. Traditional ecological knowledge (TEK) and western science will be communicated and promoted within culturally relevant contexts as valuable, complementary ways of knowing, understanding, and caring for the world. The Oregon Museum of Science and Industry (OMSI), the lead institution, and its partner organizations, The Indigenous Education Institute (IEI), The National Museum of the American Indian (NMAI), the Tramastklikt Cultural Institute, the Confederated Tribes of the Umatilla Indian Reservation, the Hibub Cultural Center and Natural History Preserve (Tulalip Tribes) will work collaboratively to develop and deliver all aspects of the project. An estimated 1.5 million Native American and non-Native American youth and adults are expected to be engaged in the project\'s exhibits, website, and activity kits over the five year duration of the project. Native American and non-Native American youth (ages 11-14) and their families from the Portland area and visitors to national science centers, tribal museums, and members of Native American organizations and service providers will be targeted for participation in Generations of Knowledge activities. In addition, the Professional Collaborative component will bring professionals from the partnering organizations to share resources, professional opportunities, and document their collaborative process. OMSI, project partners, Native scientists, tribal museum partner, exhibit developers, advisors, and members of various Native American communities will work collaboratively to develop four integrated deliverables. Each deliverable will be interconnected and designed to accommodate a variety of venues and audiences. Project deliverables include: (a) a 2,000 sq ft traveling exhibition, (b) a small traveling graphic panel exhibition, (c) an online virtual exhibition, (d) an activity kit for Native youth in informal and formal settings, and (e) opportunities and resources for reciprocal collaboration between ISE and Native American partners through a professional collaborative initiative. IEI and advisors from RMC Research and Native Pathways will conduct the external evaluation using a mixed method, community-based participatory research (CBPR) approach. Formative and summative evaluative data will be used to monitor, assess, and inform the project and the extent to which project goals have been met and the intended impacts achieved. The anticipated project outcomes include (but not limited to): (a) an awareness and understanding of the interconnectedness of TEK and western science, (b) a recognition of the relevancy and value of TEK and western science for understanding and caring for the natural world, (c) intergenerational learning and discussions about related TEK and western science issues, and (d) an increased capacity, supported by evidence, among the project team and partners to facilitate reciprocal collaborative efforts. This project builds on a long history of successful NSF/DRL supported work led by OMSI and IEI. It also extends existing traditional ecological knowledge focused work through a culturally contextualized hands-on traveling and virtual exhibitions, a rigorous professional development component, highly visible national partners (e.g., NMAI), and a national reach to over one million Native American and non-Native American youth and adults over a five year period. The project\'s research and evaluation findings will add to the knowledge base on strategies that can be employed to communicate and promote TEK and western science as complementary, valuable was of understanding and caring for the natural world.
The proposed CAREER study uses a comprehensive mixed-methods design to develop measures of motivational beliefs and family supports for Spanish and English speaking Mexican-origin youth in high school physical science. The research examines a three-part model which may provide a deeper understanding of how Mexican families support youth through their general education strategies, beliefs about physical science, and science specific behaviors. This approach incorporates motivation and ecodevelopmental theories while pursuing an innovative line of research that examines how the contributions of older siblings and relatives complement or supplement parental support. The study has four aims which are to (1) to develop reliable, valid measures of Mexican-origin adolescent motivational beliefs and family supports in relation to high school chemistry and physics, (2) to test whether family supports predict motivational beliefs and course enrollment, (3) to test how indicators in Aim 2 vary based on gender, culture, English language skills and relationship quality, and (4) to examine how family supports strengthen or weaken the relationship between school-based interactions (teachers and peer support) and the pursuit of physical science studies. Spanish and English-speaking Mexican-origin youth will participate in focus groups to inform the development of a survey instrument which will be used in a statistical measurement equivalence study of 300 high school students in fulfillment of Aim 1. One hundred and fifty Mexican high school students and their families will participate in a longitudinal study while students progress through grades 9-12 to examine Aims 2- 4. Data to be collected includes information on science coursework, adolescent motivational beliefs, supports by mothers and older youth in the family, and family interactions. All materials will be in English and Spanish. The educational and research integration plan uses a three pronged approach which includes mentoring of doctoral students, teacher outreach, and the evaluation of the ASU Biodesign high school summer internship program using measures resulting from the research. It is anticipated that the study findings will provide research-based solutions to some of the specific behaviors that influence youth motivation in physical sciences. Specifically, the study will identify youth that might be most affected by an intervention and the age of maximum benefit, as well as valid, reliable measures of youths' motivation that can used in interventions to measure outcomes. The study will also identify family behaviors that may be influenced, including education strategies for school preparation, beliefs about physical science, and sciece-specific strategies such as engaging in science activities outside school. The findings will be broadly disseminated to science teachers, scholars, and families of Mexican-origin youth. This multi-tiered approach will advance current scholarship and practice concerning Mexican-origin adolescents' pursuit of physical science.
The Zoo and Aquarium Action Research Collaborative research project targets zoo and aquarium staff with a cascading action research model meant to build the capacity of the informal science education field to conduct action research on visitor learning. Research questions focus on the experiences of participating zoo and aquarium staff in conducting action research on visitor experiences and how they use the information from that research to improve and develop educational programs. In the first year of the project, zoo and aquarium staff will implement a well validated educational activity with visitors to their institutions and learn how to develop and implement action research in their context. In the second year of the project, zoo and aquarium staff will take their new skills in action research and develop their own questions to investigate visitor learning in their own organizational settings. Project staff will train zoo and aquarium staff in action research, provide technical assistance and facilitate collaboration among the sites and staff. This project will contribute to learning in the field about how action research can be used to develop ISE staffs\' skills in data collection, data analysis and data-driven decision making. Partners in this project include TERC and Oregon State University, and sites are situated in zoos and aquariums in six states: CA, MO, MA, AZ, MD and WA. At each of these institutions approximately 15 senior staff will participate in the professional development. Evaluation of the project will focus on the learning that is generated about collaborative models for action research and the impact on ISE staff of participating in action research as professional development. Methods for the evaluation will include surveys and interviews with participants, observations, document review and site visits. Outcomes of the project include increased capacity for zoo and aquarium staff to conduct action research on visitor learning, case studies of collaborative action research projects that will be disseminated widely through workshops and conferences, and research papers presented at conferences and published.
This research project, from The University of Central Florida, and the Museum of Science and Industry, investigates a three-cycle research and development process where middle school student learners will be immersed in a mixed reality environment while interacting with functional metaphors to determine the effects of conceptual change, motivation and scientific habits of mind while engaged in learning physics content. The project is guided by the following research questions: How does the opportunity to embody elements of an immersive simulation affect a learner's propensity to experience conceptual change and develop scientific habits of mind? What design features of missed reality environments best support metaphors? What metrics are most effective for assessing learning through body-based metaphors? What are the practical considerations to creating immersive metaphor-based learning experiences in ISE institutions such as a Science Center? The investigators will use a between subjects mixed method approach with middle school students (N = 360) involving three research cycles that are performed in controlled conditions. The multiple iterations will allow modifications to the study's design to dig deeper into the data and afford more careful analysis, revisions and modifications to simulation content, protocol and data collection instruments and the technology installation. Middle school students will be recruited from local schools and the Museum of Science and Industry visitors. The evaluation plan includes the assessment of perceived values of using whole-body metaphors within mixed reality environments to learn physics. Professional audiences, educators and ISE practitioners will assess the impact, design and content associated with research on learning, mixed reality design, science and physics education. Research on understanding the process of using whole-body interactions in a mixed reality environments will help educational researchers and practitioners in the field understand the effectiveness of metaphor based learning of scientific concepts with whole body interactions. This project contributes knowledge about how people learn within informal settings. This theory-driven design approach has the potential for broad implementation in both formal and informal environments.
In this full-scale research and development project, Oregon State University (OSU), Oregon Sea Grant (OSG) and the Hatfield Marine Science Center Visitors Center (HMSCVC) is designing, developing, implementing, researching and evaluating a cyberlaboratory in a museum setting. The cyberlaboratory will provide three earth and marine science learning experiences with research and evaluation interwoven with visitor experiences. The research platform will focus on: 1) a climate change exhibit that will enable research on identity, values and opinion; 2) a wave tank exhibit that will enable research on group dynamics and problem solving in interactive engineering challenges; and 3) remote sensing exhibits that will enable research on visitor interactions through the use of real data and simulations. This project will provide the informal science educaton community with a suite of tools to evaluate learning experiences with emerging technologies using an iterative process. The team will also make available to the informal science community their answers to the following research questions: For the climate change exhibit, "To what extent does customizing content delivery based on real-time visitor input promote learning?" For the wave tank exhibit, "To what extent do opportunities to reflect on and share experiences promote STEM reasoning processes at a build-and-test exhibit?" For the data-sensing exhibit, "Can visitors' abilities to explain or use visualizations be improved by shaping their visual searches of images?" Mixed-methods using interviews, surveys, behavioral instruments, and participant observations will be used to evaluate the overall program. Approximately 60-100 informal science education professionals will discuss and test the viability of the exhibit's evaluation tools. More than 150,000 visitors, along with community members and local middle and high school students, will have the opportunity to participate in the learning experiences at the HMSCVC. This work contributes to the fields of cyberlearning and informal science education. This project provides the informal science education field with important knowledge about learning, customized content delivery and evaluation tools that are used in informal science settings.