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.
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.
This is an after-school, informal science, engineering and technical advancement program for students in grades four through twelve. FSEA brings together students, volunteer mentors from business and industry, and teachers in activities centered around members working in teams designing, building, and testing FSEA hands-on projects making science, mathematics and technology "come alive." The goal for this project is to bring FSEA up to full implementation status and to expand the number of FSEA chapters to at least 300 and the number of students to at least 9,000. The anticipated outcome will be a national model implemented on a broad scale whereby small and large businesses participate with local schools in delivering technical education.
Future Scientists and Engineers of America (FSEA) is a structured after-school program to promote math and science through engineering applications among American youth, grades 4 through 12. FSEA has hands-on projects at increasing levels of complexity which provide student members with practical engineering applications of science and mathematics. Students advance through categories similar to the Scouts based on Satisfactory completion of projects. They enter as a technician and advance to levels of scientist and engineer. Chapters are sponsored by businesses, professional societies and community organizations which provided mentors and funding for FSEA projects. Each Project is conducted by a team consisting of a volunteer teacher and a volunteer mentor. A mentor must have a technical background in a scientific or engineering field. Mentors can be volunteers recruited from industry, retired scientists and engineers or engineering students. In less than a year, mentors and teachers have attended start- up workshops and 24 chapters have been successfully organized. Increasing demand for chapter development, with continuing emphasis on minority and female youth, has created the need for further development of projects kits, parent involvement and continuity among feeder schools. The proposal intends to develop the procedures, structure and organization that would enable FSEA to develop an additional 35 chapters in Southern California and become a national after-school program and expand to other states.
The intent of this project is to use social network methods to study networks of afterschool and informal science stakeholders. It would attempt to create knowledge that improves afterschool programs access to informal science learning materials. This is an applied research study that applies research methods to improving access to and enactment of informal science education programs across a range of settings. The investigators plan to collect data from 600 community- and afterschool programs in California, conduct case studies of 10 of these programs, and conduct surveys of supporting intermediary organizations. The analysis of the data will provide descriptions of the duration, intensity, and nature of the networks among afterschool programs and intermediary agencies, and the diffusion patterns of science learning materials in afterschool programs. The project will yield actionable knowledge that will be disseminated among afterschool programs, intermediary organizations, funding agencies, and policymakers to improve the dissemination and support of afterschool science learning opportunities. The project is focused on free-choice settings where every day the largest numbers of children attend afterschool programs at schools and in other community settings. It seeks information about what conditions are necessary for informal science programs to significantly impact the largest possible number of children in these settings.
DATE:
-
TEAM MEMBERS:
Barbara MeansAnn HouseRaymond McGheeCarlin Llorente
Community Science Workshops: Beginning a National Movement is an extension of a successful, NSF-funded project that created a network of community science centers in California. Green Mountain College has now taken this successful venture to a national level by working with partner organizations throughout the country to establish new Community Science Workshops (CSWs) in underserved communities. Once sites are selected, CSW directors participate in an intensive two-week training program. This is followed by visits by site mentors, annual meetings, and ongoing support through the Internet and other media, which contributes to the establishment and eventual sustainability of the centers. Each site partners with local, established museums, science centers and community-based nonprofit organizations to gain much needed assistance with exhibits and education programs. Community Science Workshops contain permanent exhibit space, a workshop area for student projects and classroom/storage space. They serve a variety of audiences through after school, family, school and summer science programs. National CSW locations include Miami, Houston, New Orleans, Boston, and Washington, D.C. A CSW program is also in development in Biloxi, MS.
Temple University's "Sisters in Science in the Community (SISCOM)" is a constructivist-based, inclusive youth/community project targeting underrepresented urban middle and high school girls in grades 6-10 and their families; it supports inclusion of girls with disabilities. It engages girls and their parents in hands-on, inquiry-based sports science in after-school, Saturday, and summer programs co-hosted by community-based organizations and Temple University. Girls will also be engaged in student-centered research projects guided by female scientists. With regard to intellectual merit, SISCOM is based on previous research done by Temple on methods for engaging girls and their parents in STEM activities. The infrastructure of research and practices in education will be facilitated through the sharing of information between the network of partners and the national community of formal and informal educators
Building Demand for Math Literacy is a comprehensive project designed to increase arithmetic and algebraic mathematical competency among underserved youth, as well as high school and college students trained as Math Literacy Workers. This project builds on the success of the nationally renowned Algebra Project that is designed to foster mathematics achievement among inner city youth. Math Literacy Workers will deliver after school activities to African-American and Hispanic youth in grades 3-6. In addition to offering weekly math literacy workshops, Math Literacy Workers will also develop and implement Community Events for Mathematics Literacy and activities for families in the following cities: Boston, MA; Chicago, IL; Jackson, MS; Miami, FL; Yuma, AZ; New Orleans, LA; San Francisco, CA and Newark, DE. The strategic impact will be demonstrated in the knowledge gained about the impact of diverse learning environments on mathematics literacy, effective strategies for family support of math learning, and the impact of culturally relevant software. Collaborators include the Algebra Project, the TIZ Media Foundation, and the Illinois Institute of Technology, as well as a host of community-based and educational partners. The project deliverables consist of a corps of trained Math Literacy Workers, workshops for youth, training materials and multimedia learning modules. It is anticipated this project will impact over 4,000 youth in grades 3-6, 700 high school and college students, and almost 4,000 family and community participants.
The McLean Hospital, working with the Exploratorium and Reginald Clark and Associates, proposes an intensive study of "typical" afterschool programs (those lacking specialized training, funding or partnerships). This study will build basic knowledge and data about how effective informal science activities can be developed for and presented by these after-school programs. It will consist of a sample size of at least 300 informal science after-school programs and include a variety of data collection methods such as surveys, phone interviews, and in-depth case studies. The project relies upon 50 leaders of youth organizations (CSAS - Coalition for Science After School) building upon the work of two NSF-funded conferences in 2003 and 2004. Afterschool leaders will be able to use this knowledge to increase and improve informal science in localized after-school settings as well as to set up demonstration projects. The study takes a holistic approach, connecting (a) features of strong informal science to (b) student outcomes/benefits to (c) core program components (curriculum, staffing, and support structures). The research will serve as a baseline for future studies in informal learning, as well as for policy recommendations. Strategic impact will be realized as this comprehensive study contributes important knowledge, documentation and tools for the rapidly developing after-school field, while expanding opportunities for informal learning in after-school programs. Additionally, this work will address sensitive measures that take into account the particular contexts of the after-school environment, youth development (particularly underserved youth) and powerful informal science learning. The results will be widely disseminated to after-school youth development and informal science education leaders, policymakers and funders through a program assessment tool, a Research-to-Practice Symposium and a policy recommendation paper.
The "Environmental Science Information Technology Activities (ESITA)" based at the Lawrence Hall of Science (LHS) at UC-Berkeley is a three-year, youth-based proposal that seeks to engage 144 inner-city ninth and tenth graders in learning experiences involving environmental science and information technology. The goal of the project is to develop, field-test, and disseminate an effective student-centered, project-based model for increasing understanding and interest in information technology. Program components included an afterschool program, summer enrichment and an internship program. An extensive partnership involving community based agencies, environmental science organizations, a local high school and industry support the project by serving as host sites for the afterschool program and internship component. Student participation in project-based, IT-dependent research activities related to environmental science will occur year round. Students will research air and water quality in their local communities and study attitudes toward -- and use of -- information technology among their peers. The focus of the research activities is based on the results of a students-needs assessment. Students participate in the program over a two-year period and are expected to receive at least 240 total contact hours. The afterschool program serves as the project's principal mechanism for content delivery. The five-month afterschool program consists of inquiry-based mini-courses on the following topics: Information Technology tools and concepts, earth and physical science, data compilation and modeling, and publication of research results. The summer enrichment component encompasses a series of workshops at LHS; excursions to IT-related exhibits, environmental facilities, and IT-based companies; and an annual student robotics fair. During the second year of program participation students will complete 12-month internships to support the application of concepts and skills learned the first year. The LHS Student Geoscience Research Opportunities program will serve as a model host site for the program. Stipends are provided throughout the program to encourage student participation and retention.
Temple University's "Sisters in Science in the Community (SISCOM)" is a constructivist-based, inclusive youth/community project targeting underrepresented urban middle and high school girls in grades 6-10 and their families; it supports inclusion of girls with disabilities. It engages girls and their parents in hands-on, inquiry-based sports science in after-school, Saturday, and summer programs co-hosted by community-based organizations and Temple University. Girls will also be engaged in student-centered research projects guided by female scientists. With regard to intellectual merit, SISCOM is based on previous research done by Temple on methods for engaging girls and their parents in STEM activities. The infrastructure of research and practices in education will be facilitated through the sharing of information between the network of partners and the national community of formal and informal educators
After-School Math PLUS (ASM+) uses the rapidly growing field of informal education as a venue to develop positive attitudes, build conceptual knowledge, and sharpen skills in mathematics for underserved youth in grades 3-8. "ASM+" brings families and children together in the pursuit of mathematics education and future career interests and directly addresses the NSF-ISE's four areas of special interests: (1) builds capacity with and among informal science education institutions; (2) encourages collaborations within communities; (3) increases the participation of underrepresented groups; and (4) models an effective after-school program. " ASM+" is being developed in collaboration with the New York Hall of Science and the St. Louis Science Center with support from after-school centers in their communities. "ASM+" incorporates the best practices of existing programs, while adding its own innovative elements that have proven successful in the NSF-funded "After-School Science Plus" (HRD #9632241). "ASM+" is aimed at underserved youth and their families, as well as after-school group leaders and teenage museum explainers who will benefit from training and participation in the project. It has facilitated the creation of alliances between museums, after-school centers, schools and the community.