The Center for Informal Learning and Schools (CILS) is a five-year collaborative effort between the Exploratorium in San Francisco, the University of California at Santa Cruz, and King's College London. The purpose of the Center is to study the intersection of informal science learning that takes place in museums and science centers and formal learning that takes place in schools, and to prepare leaders in informal science education. Through the efforts of the center, new doctoral level leaders will be prepared who understand how informal science learning takes place and how informal institutions can contribute to science education reform. A Ph.D. program will be offered to 16 individuals at King's College London (two cohorts of eight) and a post-doctoral program to six scientists interested in issues of learning and teaching in informal settings. A doctoral program is planned at the University of California at Santa Cruz for 24 students, 12 whose interests are primarily in education and 12 who come from the sciences. In addition to doctoral level training, there will be a certification program for existing informal science professionals to better enable them to support teachers, students and the general public. That program will provide 160 informal science educators 120 hours of professional development experiences, and an additional 24 informal science educators with a master's degree in informal science education at UC Santa Cruz. A Bay Area Institute will be developed to serve as a central focus for all CILS activities. It will bring together researchers and practitioners; it will offer courses and workshops for graduate students; and it will provide a central location for reporting research findings and methodologies that focus on how informal learning institutions can best contribute to science education reform.
'TV411 What's Cooking?' provides adults with low levels of literacy and numeracy with access to a free multi-media resource which delivers mathematics and science content in the form of an online cooking show. This series builds on a prior NSF planning grant (DRL 07-75623) and the research-based design of the TV411 educational materials while addressing biochemical, physical, and mathematical processes that occur in cooking and daily life. The project will be managed by the Education Development Center's Adult Literacy Media Alliance (ALMA) project, in partnership with the Public Internet Channel, a New York-based Head Start Program, and formal education partners. The project's goals are to raise awareness of math and science content in daily life, overcome negative attitudes and behaviors related to science learning, and increase knowledge, vocabulary, and skills related to science and math while building capacity to use informal science education resources. Additional goals are to increase the capacity level of adult educators and informal workshop facilitators to teach basic math and science concepts. Finally, the project is designed to research strategies in which low-literacy adult learners utilize informal math and science resources in a Web 2.0 environment. Deliverables include six video segments that embed basic literacy and numeracy concepts in a cooking show format, 12 interactive web activities including games and simulations, and a reconstructed TV411 Online website with Web 2.0 features. In year 2, Spanish language videos and web lessons, customized toolkits for The Public Internet Channel, workshop materials for parents, and articles and reports for dissemination to education and informal learning networks nationwide are produced. The videos will be distributed on TV411 Online and the Public Internet Channel (pic.tv). The mixed-methods evaluation addresses four impact categories (awareness, engagement, attitudes, and behavior). An embedded evaluation approach will be used to determine knowledge gains, while behavioral and attitudinal questions will be asked separately in two web surveys given to random sample of 500 website visitors. Interviews are used to determine teacher perceptions of usability and effectiveness of materials. 'TV411 What's Cooking?' is projected to attract 1.5 million website visitors in the first year and an additional 500,000 each subsequent year. This well-researched project advances adult literacy and numeracy, while providing students participating in GED, adult basic education, and informal community-based programs with engaging STEM content.
The Fusion Science Theater National Training and Dissemination Program builds on the success of the Fusion Science Theater (FST) planning grant (DRL 07-32142). Madison Area Technical College, in collaboration with the Institute for Chemical Education at the University of Wisconsin-Madison, the American Chemical Society (ACS) and area science centers and museums will create a national program to disseminate the FST model which directly engages children in playful, participatory, and inquiry-based science learning of chemistry and physics topics. The primary target audience is children aged 4-11, while undergraduate chemistry students, faculty, and formal and informal educators comprise the secondary professional audience. The project will result in the development of a robust, creative, and highly visible national dissemination program. The National Training and Dissemination Program includes three deliverables. First, a Distance Performance Training Program will be developed to teach groups of undergraduate students, faculty, and educators how to perform FST Science Investigation (SI) Shows. The Training Program includes a Performance Training Package and a 3-day Performance Training Workshop. The Performance Training Package will be comprised of training videos, performances videos, scripts, rehearsal schedules, and training exercises. These materials will be pilot tested while training representatives of five groups from around the country to perform SI Shows during the Performance Training Workshop at Madison Area Technical College in summer 2012. Participants will be selected from ACS undergraduate groups, outreach specialists, and museum professionals. Workshop participants then return to their home institutions and lead their groups through the improved Performance Training Package delivered via Moodle, with support from FST team members and social networking tools. The second deliverable is the FST Methods Workshop. The Methods Workshop is designed to teach formal and informal educators to use selected methods (Investigation Question, Embedded Assessment, and Act-It-Out) in their outreach efforts and classroom teaching. Four workshops will be presented at national meetings and at the invitation of colleges, universities, and science centers. Follow-up with workshop participants will be mediated through an online forum to encourage experimentation, modification, and dissemination of a second generation of FST activities. The final project deliverable is the development and implementation of a Promotion and Recruitment Plan to connect professional audiences with FST. The Distance Performance Training Program and workshops will be evaluated using mixed methods, while embedded assessment will be utilized to measure the impact on youth participants attending SI shows to determine the overall effectiveness the Distance Performance Training. This project is designed to have important impacts on STEM education and society. The proposed dissemination program brings innovative models and methods into the hands of informal science education practitioners who can use them to engage local audiences and enhance their own teaching and communication practices. Finally the project offers likely benefits for society through the creation and dissemination of innovative practices to combat science illiteracy, diminishing pools of scientists and engineers, lack of understanding about the nature of science, and the achievement gap that exacerbates these problems. This project could be transformative in informal science education as SI Shows use theater to engage audiences in multiple aspects of science learning. It is anticipated that this project will reach up to 2,500 individuals in public and professional audiences.
This project augments an NCES data collection effort for the High School Longitudinal Study by including 150 additional schools in up to 10 selected states to create state representative samples of at least 40 schools in each state. NCES will create a contract with a survey organization to collect survey data from students in about 800 schools starting at the 9th grade and following them to age 26. The student, teacher, and parent survey data will be merged with state administrative data. Thus the final data set for these states will include detailed longitudinal data on student education histories, test scores, courses, demographics, and other survey information about parents and teachers. In some of the states the student data will be linked with detailed teacher data. The purpose of this augmentation is to provide support for additional schools to create state samples. NSF will also be involved in planning for future surveys of these students as they reach college age.
This EAGER grant supported initial exploratory work on the utility and feasibility of providing informal science education (ISE) educators with access to current and relevant peer-reviewed research findings. The investigators of the Center for Informal Learning and Schools (CILS) in San Francisco and London and the Learning in Informal and Formal Environments (LIFE) Center at the University of Washington selected some 200 peer-reviewed research studies from published journals and translated them into practitioner-friendly language. The translations sought to explicitly note the relevance of the findings to informal science education contexts. The translated abstracts were posted on a website that was field tested with some 500 ISE practitioners to determine whether the translations and presentations of the research were accessible and usable. The audience during this exploratory phase was educators who design and lead science education programs for children and youth in informal settings such as museums, botanical gardens, youth development organizations, after-school programs, and different media-based contexts, such as web, television, and radio. The research summaries provided these educators, who often do not have access to published research journals, with information about learning progressions, curriculum design and sequencing, use of new media, building on the cultural resources of children, the nature of scientific argumentation, and education policy. The journals covered included those oriented primarily towards researchers (Science Education, Journal of Research in Science Teaching, Journal of the Learning Sciences, Studies in Science Education, International Journal of Science Education) as well as practitioners (Curator, Science Communication, Journal for Education in Museums, and Afterschool Matters).
The Museum of Science, Boston (MOS) and its primary collaborators, the Science Museum of Minnesota (St. Paul, MN) and the Exploratorium (San Francisco, CA), are continuing and expanding the Nanoscale Informal Science Education Network (NISE Net), which has been in operation since 2005. NISE Net has established a national infrastructure of over one-hundred hands-on science centers and universities within seven regional hubs with the goal of fostering public awareness, engagement and understanding of nanoscale science and engineering (NSE). As part of this undertaking, NISE Net partners have: - created a nation-wide set of annual events called NanoDays; - developed dozens of interactive exhibits, media-based products, programs, and public forums based on NSE; - generated new knowledge about the design for learning about NSE, its applications, and societal implications; - produced a network that involves informal educators and researchers; and - developed a Web site for professionals, www.nisenet.org, that includes several resources for educators and researchers, including a catalog of educational products. During the next five years (2010 - 2014), NISE Net will continue to develop new educational products, deepen the involvement of current partnerships in nanoscale informal science education, and expand the number of partners overall to 300 organizations. The advisory committee, content steering committee, regional hubs, and other work groups will continue to develop collaborative relationships between museums and university-based NSE research centers, including Materials Research Science and Engineering Research Centers (MRSECs) and Nanoscale Science and Engineering Centers (NSECs). A Diversity, Equity, and Access group will actively support, foster, and encourage the NISE Net\'s efforts to reach diverse audiences with regard to geography, dis/ability, gender, race/ethnicity, language, and income. Four research studies will be conducted: Partnership and Network, Institutional Change, Learning Progressions, and Evidence-Based Decision Making.
EDC and the Lawrence Hall of Science propose an intensive, innovative mentoring and professional development model that will build the capacity of community-based organizations (CBOs) to deliver high-quality science and engineering curricula to children in after-school programs. The program's goal is to alleviate two consistent problems of after-school STEM providers: high turnover rate and the ability to lead/teach high quality science activities. The project will put in place a broad network of trainers in three regions of the country, leveraging the expertise and collaboration of two well-established and trusted national informal education networks. The extensive collaboration involves 14 organizations total including nine science centers (of varying sizes), three state 4-H agencies, the National 4-H Council and EDC. The primary audience for this project is the trainers (science center, 4-H, others) who currently (or may in the future) train CBO staff. EDC, LHS, and three "mentor" science centers will supervise these trainings and develop the new PD resources designed to improve the quality of training that CBO staff receive from these and other trainers. The National 4-H Council will help coordinate training and dissemination of products through the 4-H national network Goodman Research Group will conduct formative and summative evaluations of the project. DELIVERABLES: This project will deliver: 1) a model of prolonged training and support to build the capacity of CBOs to lead high quality science and engineering curricula with children; 2) a mentoring model to support and supervise trainers who work directly with CBOs; and 3) professional development tools and resources designed to improve the quality of training delivered to CBO staff. STRATEGIC IMPACT: This project will impact the national after-school professional development field by (a) demonstrating a model for how science-center, 4-H, and other trainers can build the capacity of CBOs to improve the way they lead science and engineering projects with children, (b) nurturing a cadre of mentor institutions to assist others to adopt this capacity-building and professional-development model, and (c) developing professional development tools and resources that improve the quality of training delivered by trainers to CBO staff. COLLABORATIVE PARTNERS: The three "mentor" institutions are: (1) the Lawrence Hall of Science, (2) the Science Museum of Minnesota, and (3) the Boston Children's Museum. The six science centers include (1) COSI Toledo in Toledo, OH; (2) Headwaters Science Center in Bemidji, MN; (3) Providence Children's Museum in Providence, RI; (4) Rochester Museum and Science Center in Rochester, NY; (5) River Legacy Living Science Center in Arlington, TX; and (6) Explora in Albuquerque, NM. The three 4-H partners include (1) 4-H New Hampshire, (2) 4- H Minnesota, and (3) 4-H California.
The New England Wild Flower Society, in collaboration with the Yale Peabody Museum, Montshire Museum of Science, and the Chewonki Foundation, is implementing the Go-Botany project, a multi-faceted, web-based botany user interface. "Go-Botany: Integrated Tools to Advance Botanical Learning," improves botanical education by opening plant study to a larger and more diverse segment of the population including novices, citizen scientists, and informal science educators. The project is designed to integrate a variety of web tools and mobile communication devices to facilitate learning about botany and plant conservation with a focus on native and naturalized plants in New England. Project deliverables include an online database of New England plants; online keys to over 4,000 species of New England flora; a customizable user interface; My Plants personal webpages; an outdoor exhibit that incorporates mobile resources; training programs for informal science educators and educational programs for the public. Projected impacts include increased attraction to and engagement in botanical learning for public audiences and improved teaching abilities by informal science education professionals through the application of user friendly, digital resources on mobile communication devices. Go-Botany significantly impacts the field of informal science education by changing the way that informal learners learn about plants by removing barriers through the use of free online materials, mentoring, and user created resources. This project is projected to reach over 46,000 youth, adults, and informal educators in workshops and via the Go-Botany website.
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TEAM MEMBERS:
Elizabeth FarnsworthGregory LowenbergArthur HainesWilliam Brumback
The American Museum of Natural History, the Cornell Lab of Ornithology, and the National Audubon Society are partnering to organize a workshop for scientists, educators, and community members involved in conservation-oriented Public Participation in Scientific Research (PPSR) projects. PPSR projects have the potential to advance scientific discovery by engaging volunteers in large-scale data collection and analysis, enabling volunteers to conduct scientific inquiry, and promoting stakeholder involvement in policymaking. Despite PPSR's potential, educators need to understand what mechanisms best nurture the development of skills, attitudes, and behaviors of citizen scientist volunteers. Workshop participants will share experiences, lessons learned, protocols and tools, and develop an agenda for answering still unanswered questions about advancing informal science education goals via PPSR activities. Topics for workshop sessions include models of PPSR projects; PPSR data for conservation biology; conservation psychology; integrating PPSR into conservation planning; and emerging technologies for public participation in PPSR projects. The goals of the project are to (1) enhance the practice of biodiversity science, (2) increase the potential for biodiversity conservation projects to meet educational goals, (3) allow scientists to further engage in and contribute to answering large-scale research questions, and (4) prepare the groundwork for establishing more public participation projects as part of museum public programs. The project's objectives are to identify conditions under which PPSR projects can be most useful for biodiversity conservation, explore the impact of PPSR in encouraging volunteers to become interested in and stewards of nature, identify strategies and mechanisms for expanding the reach of PPSR to new audiences, and create a network for PPSR organizers.
This collaboration between the Franklin Institute and the Free Library of Philadelphia Foundation identifies the role of crucial intermediaries in the science learning of children and points to the opportunities offered through a museum and library partnership to provide engaging science resources in under-resourced communities where many adults lack science expertise and confidence. Through an emphasis on literacy and science, LEAP into Science builds the capacity of after school leaders, teens and parents to be competent science learners and facilitators and to connect science centers, parents and libraries in support of the science learning and achievement of children. Project features include a workshop model for families with K-4 children, enrichment sessions for after school students, family events at the museum, professional development for library and after school youth staff, and a national expansion conference. The conference introduces the project to potential national implementation sites. Case studies of sites from this conference inform a research study investigating the obstacles, modifications and necessary support to initiate and sustain the program model. The formative and summative evaluation measure the impact of this program on children, parents, librarians, and teen workers at the libraries. Fifty-three Philadelphia libraries in addition to libraries in three cities selected from the implementation conference have a direct program impact on 10,000 people nationally, including 300 after school facilitators and children's librarians.
Led by Washington University, Making Natural Connections: An Authentic Field Research Collaboration (DRL-0739874), is a series of two field-based informal science education programs in environmental biology targeting St. Louis area teenagers. The project aims for engagement of science research institutions and career scientists in the execution of informal science education programming, bringing real and dynamic context to the science content and allowing for deep and transparent career exploration by teenage participants. Project goals include (1) providing a model for integration of informal science education into the research and restoration projects at biological field stations and nature reserves, (2) communicating current environmental biology research to audiences outside the research community, and (3) influencing the entry of pre-college students into the science career pipeline. The project is a collaborative partnership between Washington University’s Tyson Research Center and the Missouri Botanical Garden’s Shaw Nature Reserve. The Shaw Institute for Field Training (SIFT) program trains St. Louis area high school students in scientific exploration of the natural world at Shaw Nature Reserve. During a one-week training session in June, teens are introduced to a variety of Missouri ecosystems and gain skills necessary to conduct field research, including plant and animal identifications, biotic sampling and census techniques, testing of abiotic factors, and training in the use of maps, compass and GPS. During the rest of the summer and school year, teens are involved in important research and restoration activities at Shaw, Tyson Research Center and other field research sites in the St. Louis area. Fieldwork opportunities may include invasive species management, prairie reconstruction, plant and animal inventories, and prescribed burns. The Tyson Environmental Research Fellowships (TERF) program places high school students as summer interns on ecology and environmental biology research teams at Tyson Research Center. Selected teen participants have successfully completed the SIFT program and apply their field skills to ongoing research projects at Tyson and other partnering research sites. During the summer, the four-week program provides teens with exposure to a variety of field science experiences and skills. TERF teens work alongside university scientists, post-doctoral researchers, graduate students and undergraduate students. The TERF program provides a cultural apprenticeship in university-based environmental biology research and training in scientific communication. It is an advanced summer experience modeled on the undergraduate research internships offered at Tyson. During the following school year, participants work on posters and presentations for symposia at Washington University and Tyson and at community fairs, and their posters are displayed at Shaw Nature Reserve. A national dissemination workshop for informal science educators, high school biology teachers, and research scientists provides the necessary materials and background to replicate the project design in other locales. The summative evaluation will address impacts on teenage participants (engagement, cognitive and emotional support, competence, career viability, experiential learning) and professional audiences (implementation of teen program, program components, impacts on mentoring scientists). The strategic impact of this project results from the integration of teenage immersion experiences into research activities at a university-based facility. This model of informal science training activities leading into participation in authentic research may be transferable to other STEM disciplines.
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TEAM MEMBERS:
Phyllis BalcerzakPeter RavenSusan FlowersKim Medley
Michigan Technological University will collaborate with David Heil and Associates to implement the Family Engineering Program, working in conjunction with student chapters of engineering societies such as the American Society for Engineering Education (ASEE), the Society of Hispanic Professionals (SHP) and a host of youth and community organizations. The Family Engineering Program is designed to increase technological literacy by introducing children ages 5-12 and their parents/caregivers to the field of engineering using the principles of design. The project will reach socio-economically diverse audiences in the upper peninsula of Michigan including Native American, Hispanic, Asian, and African American families. The secondary audience includes university STEM majors, informal science educators, and STEM professionals that are trained to deliver the program to families. A well-researched five step engineering design process utilized in the school-based Engineering is Elementary curriculum will be incorporated into mini design challenges and activities based in a variety of fields such as agricultural, chemical, environmental, and biomedical engineering. Deliverables include the Family Engineering event model, Family Engineering Activity Guide, Family Engineering Nights, project website, and facilitator training workshops. The activity guide will be pilot tested, field tested, and disseminated for use in urban, suburban, and rural settings. Strategic impact will result from the development of content-rich engineering activities for families and the dissemination of a project model that incorporates the expertise of engineering and educational professionals at multiple levels of implementation. It is anticipated that 300 facilitators and 7,000-10,000 parents and children will be directly impacted by this effort, while facilitator training may result in more than 27,000 program participants.
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TEAM MEMBERS:
Neil HutzlerEric IversenChristine CunninghamJoan ChaddeDavid Heil