This report summarizes findings from a research-practice partnership investigating STEM-rich making in afterschool programs serving young people from communities historically under-represented in STEM. The three-year study identified key dimensions related to (1) How STEM-Rich Making advances afterschool programmatic goals related to socio-emotional and intellectual growth for youth; (2) Key characteristics of programs that effectively engage youth historically marginalized in STEM fields; and (3) Staff development needs to support equity-oriented STEM-Rich Making programs.
Scientific literacy is an important educational and societal goal. Measuring scientific literacy, however, has been problematic because there is no consensus regarding the meaning of scientific literacy. Most definitions focus on the content and processes of major science disciplines, ignoring social factors and citizens’ needs. The authors developed a definition of scientific literacy for the California 4-H Program from the citizen’s perspective, concentrating on real-world science-related situations. The definition includes four anchor points: science content; scientific reasoning skills
This white paper discusses how out-of-school providers can inspire more underrepresented youth to become the innovators and problem-solvers of tomorrow. Boys & Girls Clubs of America convened key stakeholders from higher education, government, corporations and nonprofit organizations at the STEM Great Think, the first national thought leadership forum to combine innovation and creativity with STEM programming in the out-of-school time environment. The purpose of the STEM Great Think was to develop a plan for establishing strategic partnerships that advance STEM education during out-of-school
Through this review of research on public engagement with science, Feinstein, Allen, and Jenkins advocate supporting students as “competent outsiders”—untrained in formal sciences, yet using science in ways relevant to their lives. Both formal and informal settings can be well suited for work in which students translate scientific content and practices into meaningful actions.
This poster was presented at the 2016 Advancing Informal STEM Learning (AISL) PI Meeting held in Bethesda, MD on February 29-March 2. Through My Window is engineering education that applies research from the learning sciences—including the use of cognitive tools such as narrative and knowledge building—in an idea-centered digital environment. Together these approaches support deep learning and address the critical need of preparing young learners to participate in the knowledge society. The curriculum includes young adult novels; interactive, online learning modules; and offline enrichment
This poster was presented at the 2016 Advancing Informal STEM Learning (AISL) PI Meeting held in Bethesda, MD on February 29-March 2. After-School Math Plus (ASM+) combines inquiry-based, hands-on activities connected to students’ interests outside
of school; standards-aligned skill development; strong focus on reaching groups underrepresented in math; role models and career exploration; and family involvement.
To date, no national studies of science-focused out-of-school time (OST) programs have been implemented, making it difficult to get a sense of program diversity and characteristics. In this paper, Laursen, Thiry, Archie, and Crane map the national landscape of U.S. OST science, technology, and engineering programs. The findings allow the authors to describe a generalized profile for each of eight types of OST program providers.
Researchers examined whether engineering activities and lessons can help students apply science and math content in real-world contexts and gain insights into the professional activities and goals of engineers.
This paper investigates how intentionally designed features of an out-of-school time program, Studio STEM, influenced middle school youths’ engagement in their learning. The authors took a connected learning approach, using new media to support peer interaction and engagement with an engineering design challenge in an open and flexible learning environment.
In Spring 2006, the Missouri Botanical Garden received a National Science Foundation grant to fund the LIONS program. LIONS trained educators from the St. Louis region, through professional development about place-based education, to deliver after school and summer programming to students grades 5 through 8. Since its inception, the LIONS program has included evaluation of program implementation and outcomes. There were dramatic changes in the scope of the program, which expanded beyond the originally targeted University City school district by adding additional schools recruited by LIONS
We aim to understand how to help young people recognize the value of science in their lives and take initiative to see the world in scientific ways. Our approach has been to design life-relevant science-learning programs that engage middle-school learners in science through pursuit of personally meaningful goals. In this paper, we analyze the case studies of two focal learners in the Kitchen Science Investigators life-relevant, science-learning program. Our analysis highlights ways to design life-relevant science-learning programs to help learners connect science to their everyday lives in
Most communities have afterschool programs that give school-aged students a safe place to go after the dismissal bell rings. The next step after simply providing a safe haven is to create a nurturing environment that develops young people’s talents and supports their needs. A formal mentoring program can help to achieve this goal.
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TEAM MEMBERS:
Sara McDanielAnna-Margaret YarbroughKevin Besnoy