The author’s “Nana” was grandmother to an entire neighborhood of children. Today, her afterschool program fulfills a similar set of needs for 21st century children and their parents.
This paper will provide program leaders and staff with a brief overview of what is known about physical activity in afterschool programs. Then, by integrating experience in afterschool programming with expertise in health promotion, physical education, physical activity promotion, public health, and the social psychology of sport and physical activity, we will present strategies and recommendations for promoting physical activity in afterschool settings.
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TEAM MEMBERS:
Aaron BeighleMichael BeetsHeather ErwinJennifer HubertyJustin MooreMegan Stellino
Afterschool Matters talked with Sylvia Lyles, Ph.D., program director of the Academic Improvement Programs Group in the Office of Elementary and Secondary Education at the U.S. Department of Education in Washington, DC., about providing high-quality learning experiences for children and youth.
This article follows the New York State Afterschool Network (NYSAN) as it develops a framework for program quality and related assessment tools. It suggests ways in which this framework can be useful to afterschool practitioners, technical assistance professionals, intermediaries, and policymakers nationwide.
This case study sought to understand why educators participate in museum summer institutes and how participation transferred to personal development and professional practice. The study found participation was affected by an interest in and need for learning about a particular time in history, ability to transfer institute content to curricula, the chance to share their experiences with peers, and factors such as museum reputation, design and facilitation of the institute, and institutes' speakers and presenters. Participants were able to transfer institute experiences into their professional
The article focuses on an educational program called Game Design Through Mentoring and Collaboration. The program is a partnership between McKinley Tech and George Mason University (GMU) in Fairfax, Virginia. Through this program the teachers ensure students understand the pathways needed for participation in the science, technology, engineering, and math (STEM) enterprise. Kevin Clark, is the principal investigator of the program.
In this paper, we introduce the Exploratory Behavior Scale (EBS), a quantitative measure of young children's interactivity. More specifically, the EBS is developed from the psychological literature on exploration and play and measures the extent to which preschoolers explore their physical environment. A practical application of the EBS in a science museum is given. The described study was directed at optimizing parent guidance to improve preschoolers' exploration of exhibits in science center NEMO. In Experiment 1, we investigated which adult coaching style resulted in the highest level of
The current political and social backdrop in China that is characterized by rapid educational reforms to the K-12 education system, rapid growth in the number of science museum institutions, and Central Government policy which encourages collaboration between museums and school has the potential to be fertile ground for meaningful engagement between museums and schools. Notwithstanding, the Chinese K-12 education system generally does not utilize museum resources to support the curriculum, as is common in Western countries. This hermeneutic phenomenographic study elucidates the current Chinese
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TEAM MEMBERS:
Changyun KangDavid AndersonXinchun Wu
Challenged by a National Science Foundation-funded conference, 2020 Vision: The Next Generation of STEM Learning Research, in which participants were asked to recognize science, technology, engineering, and mathematics (STEM) learning as lifelong, life-wide, and life-deep, we draw upon 20 years of research across the lifespan to propose a new way of thinking about and investigating the topic. We propose Fullness of Life (or Total Life) as the minimal unit of analysis that allows people generally and researchers specifically to make sense of cognition. This move reverses traditional
Although there has been considerable focus on the underrepresentation of minorities in science, technology, engineering, and mathematics (STEM) disciplines and the need for science instruction that fosters diversity, much of the associated effort has focused on the goal of diversity and tended to assume that science and science learning are acultural. We describe a conceptual framework employed in our work with both urban and rural Native American communities that focuses on culturally based epistemological orientations and their relation to the cultural practices associated with science
This paper aims to further articulate multicultural science education scholarship. In particular, it explores the notions of borders and border epistemologies as intellectual resources to think again about the challenges of science education in the global world that demand more sophisticated concepts to unravel some of its complexities. It responds in part to Osborne's (2007) call for more “armchair science education” to “develop better theories about our goals and values” (p. 11). Borders and border spaces reconceptualize and extend the view of borders typically presented within the