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.
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
The EcoTeens Program is a hands-on, science based enrichment program offered by the Franklin Park Zoo. The program is open to youth in Boston Public Schools grades 9 - 11, and is designed to teach students about natural history and conservation issues, and to provide them with opportunities to develop leadership skills. Youth participate in the out-of-school time program during weekly after-school sessions, as well as every other Saturday sessions. In the 2008 program, they could choose to participate in one session (January through March, or April through early June) or in both sessions
Our Sky is a series of Out-of-School Time and museum educational programs that inspire an appreciation and understanding of Earth and Space Science (ESS) in a diverse population of children ages 3-10 and their parents, caregivers and educators. All resources are developed through a partnership between Boston Children’s Museum and Smithsonian Astrophysical Observatory in Boston and Cambridge, Massachusetts. The vision for Our Sky is that children ages 3-10 and their adult caregivers will gain an appreciation for celestial objects and phenomena as a foundation for understanding of Earth and Space Science. All resources and activities will be designed to realize this vision, and to:
Serve a diverse range of audiences, with an emphasis on urban and low-income children and families;
Increase appreciation among diverse adults and children of the sky as an accessible science learning resource;
Share NASA resources with, and help develop foundational STEM skills in children;
Encourage adults to engage in and guide ESS learning experiences with children;
Inspire practical application of STEM skills by children and adults as they explore celestial objects together; and
Expand the capacity of museum staff and afterschool educators to engage families in learning STEM skills through ESS exploration.
Our Sky activities will result in:
A series of museum-based programs that incorporate NASA resources and ESS activities across a range of content areas; and
A series of new ESS-focused activities for the award-winning “Beyond the Chalkboard” afterschool curriculum that include NASA resources and will reach hundreds of thousands of children around the world.
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