Rockman et al (REA), in partnership with Marti Louw and the University of Pittsburgh Center for Learning in Out-of-School Environments (UPCLOSE) conducted a summative evaluation in Summer 2014 of an aquatic macroinvertebrate digital teaching collection (macroinvertebrates.org) containing voucher specimens from the Carnegie Museum of Natural History (CMNH) in Pittsburgh, PA. The digital teaching collection groups three orders of aquatic insects (stoneflies, caddisflies, and mayflies), and users can click on a specific insect and get information on its genus, habitat, behaviors, size, abundance
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University of Pittsburgh Center for Learning in Out-of-School-Environments (UPCLOSE)Camellia Sanford-Dolly
Connected learning is an educational approach designed to make learning relevant to students, creating a deeper form of learning and understanding that will help students become life-long learners who will grow and thrive in school, work and life. Afterschool programs have long been implementing this approach that ties together students interests, peer networks and academic pursuits. This report explores the benefits of using a connected learning approach, the variety of ways afterschool programs are offering connected learning opportunities to engage students in learning, and shares ideas on
The "places" of learners and practitioners of science from communities of color are increasingly a focus in analyses of science learning and education in the U.S. Typically, these places are defined through the discourse of equity that focuses on representation and the goal of creating learning environments that will allow students of color to perform as well as their white peers. More recently, this focus has shifted from performance to actual knowledge of and the ability to think critically about science, technology, engineering, and mathematics (STEM) content. Although critical thinking and
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Megan BangDouglas MedinGregory Cajete
Indigenous people are significantly underrepresented in the fields of science, technology, engineering and math (STEM). The solution to this problem requires a more robust lens than representation or access alone. Specifically, it will require careful consideration of the ecological contexts of Indigenous school age youth, of which more than 70% live in urban communities (National Urban Indian Family Coalition, 2008). This article reports emergent design principles derived from a community-based design research project. These emergent principles focus on the conceptualization and uses of
In this article, we present a model for thinking about how learning settings provide resources for the development of the practice-linked identities of participants, drawing on data from a study on an African American high school track and field team. What does it mean to make an identity available in the context of a learning setting? In this article, we draw on current theories in anthropology, psychology, sociology, and sociocultural theory to develop a conceptual frame that might be helpful in addressing these questions. We focus on how individuals are offered (and how they take up)
There can be a mistaken impression that the new vision for K-12 science education is only relevant to classroom science instruction. But youth frequently engage in powerful science and engineering activities that take place after or outside-of-school. They learn STEM content, engage in STEM practices, and develop an understanding of how STEM is used in the world. To capitalize on those assets, educators and other stakeholders should learn about, leverage, and broker connections for youth across the STEM learning experiences available in and out of school.
Stories help people form relationships and make sense of the world around them. Business, medicine, and education have long used stories---or cases---as teaching and professional development tools. In the family engagement field, reading cases challenges those who work with families to consider multiple perspectives; think critically about real-world issues; communicate effectively; and identify family strengths. These are all abilities that educators need to work effectively with families. With this in mind, Harvard Family Research Project and the Community Engagement Team in the Department
Science from the Start provides informal science learning opportunities for children, mainly those of pre-school age, along with support and information for their parents/carers. Activities use free or low cost materials to facilitate recreation or expansion at home and address a broad range of scientific topics, often linking with wider local, national or international science awareness events to give extra context. Science from the Start has received funding and support from the Lancashire County Council, the Royal Society of Chemistry, the British Society for the History of Science, the British Pharmacological Society, and STEMnet.
The cultural phenomenon of 'science festivals' is ever expanding throughout the world, as universities, city and regional governments, and science engagement professionals alike embrace the concept of a focused 'celebration' of science. In the past however science festivals have been criticized for neglecting underrepresented audiences. This special issue explores the extent to which current science festivals have managed to engage with diverse publics, and identifies the key challenges facing the future of science festivals, most notably the need for deeper research into the impacts of
The “Being Me” program was developed to bring the educational process to life through hands-on learning that promotes children’s awareness of health issues and encourages scientific inquiry in an art-focused curriculum supporting National Science Content Standards (now Next Generation Science Standards, or NGSS). In 2009, the “Being Me” partnership – Children’s National Medical Center (CNMC), the National Children’s Museum (NCM), and George Washington University’s Graduate School of Education and Human Development (GW) – received a five-year National Institutes of Health Sciences Education
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Children’s Research InstituteJohn Fraser
This paper argues that the "kindergarten approach to learning" – characterized by a spiraling cycle of Imagine, Create, Play, Share, Reflect, and back to Imagine – is ideally suited to the needs of the 21st century, helping learners develop the creative-thinking skills that are critical to success and satisfaction in today’s society. The paper discusses strategies for designing new technologies that encourage and support kindergarten-style learning, building on the success of traditional kindergarten materials and activities, but extending to learners of all ages, helping them continue to
In today's rapidly changing world, people must continually come up with creative solutions to unexpected problems. Success is based not only on what one knows or how much one knows, but on one's ability to think and act creatively. In short, people are now living in the Creative Society. Unfortunately, few of today's classrooms focus on helping students develop as creative thinkers. In addition, the proliferation of new technologies is quickening the pace of change, accentuating the need for creative thinking in all aspects of people's lives. In this article, the author discusses two