Although there is a significant literature documenting the strength of informal science experiences in controlled or specialized settings, such as museums and science-focused youth programs it is not yet clear how best to regularly provide such opportunities in typical after-school programs--ones not established or specifically supported to test or implement grant-funded curricula or STEM approaches under specialized conditions. What's more, the majority of the 6.5 million children enrolled in after-school programs participate in typical programs. This study addressed this gap in the
The evaluation was guided by four major questions: 1) How has math education changed at the afterschool programs sites over the course of the project? 2) Have children's experiences of informal math changed over the course of the project? 3) How have program staff changed in relation to math education? and 4) How is Mixing in Math being sustained at the program sites and disseminated to other programs and sites? Staff, program, and organizational factors all played a strong role in supporting high quality implementation of Mixing in Math. Mixing in Math was most successful where the
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TEAM MEMBERS:
Beth MillerTERC Inc.Kristin Lewis-Warner
The Cryptoclub: Cryptography and Mathematics Afterschool and Online is a five-year project designed to introduce middle school students across the country to cryptography and mathematics. Project partners include the Young Peoples Project (YPP), the Museum of Science and Industry in Chicago, and Eduweb, an award-winning educational software design and development firm. The intended impacts on youth are to improve knowledge and interest in cryptography, increase skills in mathematics, and improve attitudes towards mathematics. The secondary audience is leaders in afterschool programs who will gain an increased awareness of cryptography as a tool for teaching mathematics and adopt the program for use in their afterschool programs. Project deliverables include online activities, online cryptography adventure games, interactive offline games, a leader\'s manual, and training workshops for afterschool leaders. The project materials will be developed in collaboration with YPP staff and pilot tested in Year 3 at local afterschool programs and YPP sites in Chicago in addition to four national sites. Field testing and dissemination occurs in Year 4 at both local sites in Chicago and national locations such as afterschool programs, science centers, and community programs. Six 3-day training workshops will be provided (2 per year in Years 3-5) to train afterschool leaders. It is anticipated that this project will reach up to 11,000 youth, including underserved youth in urban settings, and 275 professional staff. Strategic impact resulting from this project includes increased awareness of cryptography as a STEM topic with connections to mathematics as well a greater understanding of effective strategies for integrating and supporting web-based and offline activities within informal learning settings. The Cryptoclub project has the potential to have a transformative impact on youth and their understanding of cryptography and may serve as a national model for partnerships between afterschool and mentoring programs.
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TEAM MEMBERS:
Janet BeissingerSusan GoldmanDaria TsoupikovaBonnine Saunders
WGBH is producing Seasons II and III of ZOOM, a television series featuring kids that gives viewers in the 8- to 11-year-old range a chance to explore, experiment, and share their creativity with the world. Each season would consist of 40, daily, half-hour shows -- each including a number of science and/or mathematics segments. A unique aspect of ZOOM is that every idea and activity on the show comes from a child who writes or e-mails the show and who is credited on-air for his or her contribution. Production staff and a working group of advisors with expertise in science and math education take these raw ideas and develop them into program segments and outreach projects designed to encourage "habits of mind" -- a set of problem-solving skills and dispositions toward science and math that has been developed in concert with the advisors. Three over-arching science and math-based themes also guide the way science and math are presented over the course of a season. Outreach for Seasons II and III will build on the solid base of outreach developed for Season I, and will consist of: ZOOMerang: Every child who communicates with ZOOM will get something back such as a compilation of science and math activities, jokes, poems, recipes and a series update. ClubZOOM: A set of standards-based science and math activities will be developed along with guidance for how to create after-school clubs. This effort will be pilot tested at 20 sites. ZOOMzones: These are areas in science-technology centers and museums that are devoted to ZOOM and include opportunities for youth and families to interact with science and math content featured on ZOOM. Ten pilot ZOOMzone sites were developed for Season I (from 80 applications). The number of ZOOMzones will be increased and continuing support will be offered to existing sites during Seasons II and III. ZOOMdays: During Season III, WGBH will develop ZOOMdays at shopping malls to reach youth who may not have access to ZOOMzones or ClubZOOM. ZOOMweb site: This web site provides an outreach extension to the TV series by collecting and sharing submissions; illustrating and producing science and math activities; creating a ZOOM community; providing research links to other sites; and aiding adults who are interested in furthering ZOOM's science and math activities in their homes, classrooms, museums and after-school programs.
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.
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.
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.
After-school programs are a source of powerful, positive experiences for an estimated eight to ten million youth, especially those in low-income, under-represented populations (the majority of youth in these programs). Through this conference grant, TERC, along with the Exploratorium and the Lawrence Hall of Science, proposes to launch a national initiative to create, support and sustain engaging, research-based science and mathematics activities in the after-school community. This planning conference will bring together the leaders and experts who run exemplary after-school programs, create quality science and mathematics materials, and provide effective staff training to identify the challenges, goals and questions of greatest interest and value to the national community. Intellectual merit and broader impact are evidenced by the gathering of key players, promotion of dialog and the facilitation of connections between developer and after-school communities.
Mixing in Math is a multi-dimensional, three-year project that seeks to build the capacity of after-school programs to provide meaningful and engaging math activities for youth. Program collaborators including project leaders from TERC and after-school program leaders will reach approximately 40,000 children through at least 350 sites and approximately 9,000 staff and volunteers. Drawing on the unique features of the after-school environment, the project design includes the following elements: development of materials appropriate to the setting; staff development and support; institutionalization and dissemination of materials throughout an established network and evaluation research to further knowledge about informal math and after-school programming. Project goals are to: provide free math materials to all participating after-school staff; produce a significant increase in informal math training for the after-school workforce; strengthen the role of informal math in after-school settings; and conduct and disseminate research on the project in terms of its impact on after-school programming, informal math education and the math "achievement gap." "Mixing in Math" national partners will facilitate further reach of the project. The National Institute of Out of School Time (NIOST) in addition to posting materials on their website, will incorporate project activities into their staff development programs. Ceridian, a work-life benefits provider, will distribute project materials to workplace school-ages childcare programs.
The St. Louis Science Center, in collaboration with the City College of New York and the Science Museum of Minnesota, will combine their considerable expertise with youth programs to create new opportunities for after-school STEM learning. Teens, ages 14-17, currently participating in the "Youth Exploring Science" program at the St. Louis Science Center and the Youth Science Center at the Science Museum of Minnesota will receive intensive training to prepare them to assume the role of lead designers of Learning Places that will be created in nine-after school programs in St. Louis and St. Paul. "Learning Places" are educational environments supported by hands-on activities and innovative strategies that integrate science, mathematics and technology into after-school programs. In the final year of the grant the project will be disseminated to five museums across the US including the Pacific Science Center (Seattle, WA), Headwaters Science Center (Bemidji, MN), Explora (Albuquerque, NM), and Sciencenter (Ithica, NY). Youth program staff, and staff and administrators in after-school programs and partnering museums will also benefit from training and professional development. Deliverables include 27 "Learning Places," a teen training program, a Resource Guide for implementation and research contributions to the field.