Commonly described as youth-led or youth-driven, the youth-adult partnership (Y-AP) model has gained increasing popularity in out-of-school time (OST) programs in the past two decades (Larson, Walker, & Pearce, 2005; Zeldin, Christens, & Powers, 2013). The Y-AP model is defined as “the practice of (a) multiple youth and multiple adults deliberating and acting together (b) in a collective (democratic) fashion (c) over a sustained period of time (d) through shared work (e) intended to promote social justice, strengthen an organization and/or affirmatively address a community issue” (Zeldin et al
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TEAM MEMBERS:
Heng-Chieh Jamie WuMariah KornbluhJohn WeissLori Roddy
Young adulthood, typically defined as between the ages of 18 and 25, is a critical period of growth during which young people acquire the education and training that serve as the basis for their later occupations and income (Arnett, 2000). The successful transition from adolescence to early adulthood requires youth to have the skills and resources to graduate high school and then go to college or enter the workforce (Fuligni & Hardway, 2004; Lippman, Atienza, Rivers, & Keith, 2008). To accomplish these tasks in advanced urban societies, young adults need a wide range of social, cognitive
One day, as I was working with a student after school on a problem involving division with decimals, I told him which number goes in the “division house.” Suddenly the student blurted out, “That is not what my teacher told me, and I hate math!” I knew I had not yet found the key to helping this student. Was I addressing how he felt about math? Should I put the problem away and start over with the beauty of decimals, those smaller-than-one numbers that enable us to measure the speed of an Olympic athlete, the diameter of a pinhead, or the exact length of a ladybug? Teaching afterschool allows
The U.S. government’s Physical Activity Guidelines for Americans suggest that children should engage in moderate to vigorous physical activity for 60 minutes per day (U.S. Department of Health and Human Services [U.S. DHHS], 2008). However, recent data indicate that children in the U.S. are not accumulating enough physical activity (Centers for Disease Control and Prevention, 2014). The concern is deepest for youth of lower socioeconomic status and youth of color (Moore, Davis, Baxter, Lewis, & Yin, 2008; Singh, Kogan, Siahpush, & van Dyck, 2008). As a result, professionals in a variety of
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TEAM MEMBERS:
Heather ErwinStephanie RoseSarah SmallJay Perman
This document contains the appendices and literature review from the report "Art+Science: Broadening Youth Participation in STEM Learning." It includes assessment tools used during the project.
Art and science represent two powerful human ways of investigating and understanding the natural and social world. Both are creative processes involving acts of observation, interpretation, meaning-making, and the communication of new insights. While standards of evidence may vary between the two fields, there are also many common practices. Many artists, for example, employ a range of computational, digital and engineering practices. Many scientists are guided in part by aesthetic considerations in the formulation of questions, theories, and models. In this report we share the results of a
The Katonah Museum of Art (KMA) contracted Randi Korn & Associates, Inc. (RK&A) to evaluate its early childhood program, ArteJuntos/ArtTogether (ArteJuntos), ArteJuntos is a bilingual art and culture-based family literacy program that introduces low-income, educationally at-risk preschool children and their families to the KMA. Using works of art in KMA’s exhibitions, the program connects parents and their children (ages 3-5) to activities that support children’s emergent literacies—observation, oral and receptive language, and critical thinking skills.
How did we approach this study?
RK
This chapter reviews four projects that reflect the principles of design-based implementation research (DBIR) in an effort to highlight a range of relevant theoretical and methodological perspectives and tools that can inform future work associated with DBIR.The goal of this chapter is to highlight a range of relevant theoretical and methodological perspectives and tools that can inform future work associated with design-based implementation research (DBIR). As Penuel, Fishman, Cheng, and Sabelli (2011) described, DBIR entails engaging “learning scientists, policy researchers, and
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Jennifer RussellKara JacksonAndrew KrummKenneth Frank
Design-based research (DBR) is used to study learning in environments that are designed and systematically changed by the researcher. DBR is not a fixed “cookbook” method; it is a collection of approaches that involve a commitment to studying activity in naturalistic settings, many of which are designed and systematically changed by the researcher, with the goal of advancing theory at the same time directly impacting practice. The goal of DBR (sometimes also referred to as design experiments) is to use the close study of learning as it unfolds within a naturalistic context that contains
The authors argue that design-based research, which blends empirical educational research with the theory-driven design of learning environments, is an important methodology for understanding how, when, and why educational innovations work in practice. Design-based researchers’ innovations embody specific theoretical claims about teaching and learning, and help us understand the relationships among educational theory, designed artifact, and practice. Design is central in efforts to foster learning, create usable knowledge, and advance theories of learning and teaching in complex settings
Within the UNAM (The National Autonomous University of Mexico) there is an institution, the Dirección General de Divulgación de la Ciencia (DGDC) devoted to the popularization of science through different media such as museums, exhibitions, journals, books, radio and TV programs, internet, workshops for children, demos, shows, plays, summer courses and outreach programs. Most of these products and materials are planned, designed and manufactured by a multidisciplinary team of professionals in the DGDC. Some of our most outstanding projects are: the creation and operation of two science museums
The Exploratorium explainer program is not only important to the young people involved, but is an integral part of the museum culture. This initiative that started to help the youth of our community has blossomed into a program that has been very helpful to the science centre. In fact, the institution would not be complete without the fresh energy of the explainers. They help the Exploratorium to continue to give the real pear to its public.