Since August of 2011, Project iLASER (Investigations with Light And Sustainable Energy Resources) has engaged children, youth and adults in public science education and hands-on activities across the entire length of the U.S.-Mexico border, from the Pacific Ocean to the Gulf of Mexico. The two main themes of Project iLASER activities focus on sustainable energy and materials science. More than 1,000 children have been engaged in the hands-on activities developed through Project iLASER at 20+ sites, primarily in after-school settings in Boys & Girls Clubs. Sites include Boys & Girls Clubs in California (Chula Vista, Imperial Beach, El Centro and Brawley); Arizona (Nogales); New Mexico (Las Cruces); and Texas (El Paso, Midland-Odessa, Edinburg and Corpus Christi). The project was co-funded between the NSF Division of Chemistry (CHE) and the Division of Research on Learning in Formal and Informal Settings (DRL).
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Southwestern CollegeDavid BrownDavid Hecht
The article discusses the 4-H Science mission of the 4-H Youth Development Program, an out-of-school-time program addressing science technology engineering and mathematics (STEM) learning. It states that one of the approaches is on robotics education using a Junk Drawer Robotics curriculum having three levels: Give Robots a Hand, Robots on the Move, and Mechatronics, each level having modules that focus on science and engineering concepts.
The article discusses the promotion of creative thinking at school libraries through Makerspace, a space in which students, teachers and librarians can take advantage of multiple learning styles. Individuals who are users of this space may be considered non-conformists, radicals and misfits. They use the Using, Tinkering, Experimenting and Creating (uTEC) Maker Model which guides them to the creative and inventive processes.
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David LoertscherLeslie PreddyBill Derry
This portfolio contains the following reports: "Community Science Workshops: A Powerful and Feasible Model for Serving Underserved Youth. An Evaluation Brief"; "Community Science Workshops: Building a Bridge to Science for Urban Youth. A Descriptive Look at CSWs."; "What Do Community Science Workshops Do For Kids? The Benefits to Urban Youth."; and "CSWs by the Numbers: A Statistical Portrait of Community Science Workshops." Community Science Workshops are community-based non-profit programs that offer underserved youth living in low-income, high-minority neighborhoods a fun and safe way to
Conventional wisdom about young people's use of digital technology often equates generational identity with technology identity: today's teens seem constantly plugged in to video games, social networks sites, and text messaging. Yet there is little actual research that investigates the intricate dynamics of youth's social and recreational use of digital media. This book fills that gap, reporting on an ambitious three-year ethnographic investigation into how young people are living and learning with new media in varied settings—at home, in after school programs, and in online spaces. By
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University of California, IrvineMizuko Ito
The New York Hall of Science (NYSCI), in collaboration with O\'Reilly Media will host a two-day workshop to explore the potential for the kinds of making, designing, and engineering practices celebrated at Maker Faire to enrich science and math learning. The purpose of this workshop is to identify and aggregate successful programming strategies that increase student engagement and proficiency in STEM, with a focus on students underrepresented in STEM careers. The meeting will be organized around three main ideas: catalyzing a national Maker movement; dissemination and scaling of design principles; and assessment of impacts on STEM learning and attitudes. The convening highlights the capacity of making activities to impact student motivation, attitudes, and conceptual understanding in STEM in both informal and formal learning environments. The workshop will be held in conjunction with the World Maker Faire at NYSCI on September 18-19, 2011. The World Maker Faire is a two-day, family-friendly event that celebrates the Do-it-Yourself or DIY movement and brings together a broad community of professionals and laypersons with a common interest in technology-based creativity, tinkering, and the reuse of materials and technology. The proposed workshop extends the work of the previous Maker Faire workshop (DRL 10-46459) by identifying initiatives that bridge the Maker and STEM communities while building students' foundational STEM knowledge and engaging audiences underrepresented in STEM careers. This workshop will accommodate approximately 50 local and national scientists, engineers, learning science researchers, educators, policymakers, and philanthropists. Select participants will present detailed case studies of maker programs, design principles, assessments, and measured outcomes in STEM attitudes and learning. Key elements of successful programs and assessment strategies will be identified across the case studies in brainstorming sessions and roundtable discussions. Following the workshop, a subset of the case studies will be compiled into an edited volume, indexed by the dimensions of student learning in the National Research Council publication, "A Framework for K-12 STEM Education: Practices, Crosscutting Concepts and Core Ideas." This project uses the momentum of the popular Maker Faire movement, based in design, engineering and technology concepts, to connect to STEM education while capitalizing on the strengths of informal learning environments. The workshop provides researchers, practitioners, and policymakers with an aggregated collection of program design principles and reliable metrics for documenting changes in preK-20 STEM attitudes and learning. The edited volume has the potential to advance the understanding of how to bridge formal and informal learning environments, while also fostering research on the affective dimensions of making in diverse audiences.
San Francisco State University is collaborating with MESA of California to replicate the Mission Science Workshop (MSW) model for informal science education to establish 10 self-supporting interactive Community Science Workshops (CSW's) throughout California. The overriding theme for activities at the CSW's is to let children and parents "be" scientists as they explore through the use of interactive exhibits, hands-on building/tinkering activities and content workshops, while at the same time ensuring they learn correct science concepts. Content to be presented is from the areas of Engineering, Life Sciences, Physical Sciences, and Mathematics. The target audience is primarily African-American, Latino, and Native American children in grades K-8 and their families.
Nationally, there is tremendous interest in enhancing participation in science, technology, engineering, and mathematics (STEM). Providing rich opportunities for engagement in science and engineering practices may be key to developing a much larger cadre of young people who grow up interested in and pursue future STEM education and career options. One particularly powerful way to engage children in such exploration and playful experimentation may be through learning experiences that call for tinkering with real objects and tools to make and remake things. Tinkering is an important target for research and educational practice for at least two reasons: (1) tinkering experiences are frequently social, involving children interacting with educators and family members who can support STEM-relevant tinkering in various ways and (2) tinkering is more open-ended than many other kinds of building experiences (e.g., puzzles, making a model airplane), because it is the participants' own unique questions and objectives that guide the activity. Thus, tinkering provides a highly accessible point of entry into early STEM learning for children and families who do not all share the same backgrounds, circumstances, interests, and expertise. This Research-in-Service to Practice project is funded by the Advancing Informal STEM Learning (AISL) program which seeks to advance new approaches to, and evidence-based understanding of, the design and development of STEM learning in informal environments. The project will take place in the Tinkering Lab exhibit at Chicago Children's Museum. The research will investigate how reflective interactions between parents and children (ages 6-8) during tinkering activities ultimately impact child engagement in STEM. Design-based research (DBR) is well-suited to the iterative and contextually-rich process of tinkering. Using a DBR approach, researchers and museum facilitators will be trained to prompt variations of simple reflection strategies at different time points between family members as a way to strengthen children's engagement with, and memory of these shared tinkering events. Through progressive refinement, each cycle of testing will lead to new hypotheses that can be tested in the subsequent round of observations. The operationalization of study constructs and their measurement will come organically from families' activities in the Tinkering Lab and will be developed in consultation with members of the advisory board. Data collection strategies will include observation and interviews; a series of coding schemes will be used to make sense of the data. The research will result in theoretical and practical understanding of ways to enhance STEM engagement and learning by young children and their families through tinkering. A diverse group of at least 350 children and their families will be involved. The project will provide much needed empirical results on how to promote STEM engagement and learning in informal science education settings. It will yield useful information and resources for informal science learning practitioners, parents, and other educators who look to advance STEM learning opportunities for children. This research is being conducted through a partnership between researchers at Loyola University of Chicago and Northwestern University and museum staff and educators at the Chicago Children's Museum.
In this paper, commissioned as part of a consensus study on successful out-of-school STEM learning, we draw on the research literature to consider (1) what is known about the impact of tinkering and making experiences on school-aged children’s learning (interest in, engagement with and understanding of STEM in particular); (2) the emerging design principles and pedagogies that characterize tinkering and making programs; and (3) the specific tensions and possibilities within this movement for equity-oriented teaching and learning.
This pilot study was funded by the Museum of Science’s Women in Science Committee to examine the impact of competition on children participating in Design Challenges engineering experiences, and in particular, to see what effect, if any, the competitive design of these engineering activities had on girl participants. The research questions for this study included: 1. How does competition affect participants' engagement in engineering activities? 1.a Does this differ for boys and girls? 2. How does competition affect participants' desire to take part in future engineering activities? 2.a. Does
The article focuses on children's makerspaces and the maker movement in Canada. Topics include the Nova Scotia government's idea to distribute 3D printers to libraries to create public makerspaces, which are collaborative meeting places that blend craft and high technology to foster do-it-yourself (DIY) solutions, the Maker Club in Kitchener, Ontario owned by entrepreneur Cam Turner and his son Owen, and the organization Scoperta, maker Jim Akeson's version of the organization Curiosity Hacked.
The maker movement is fundamentally changing the way educators and educational researchers envision teaching and learning. This movement contends making — an active process of building, designing, and innovating with tools and materials to produce shareable artifacts — is a naturally rich and authentic learning trajectory (Martinez & Stager, 2013). Makerspaces are places where making happens in community. I craft my dissertation to explore these two defining characteristics of makerspaces through a comparative case study (Stake, 1995) and a design experiment (Brown, 1992). In the comparative