There is a growing demand from educators and policymakers for definitions, measures, and guidelines of design that capture the qualities of making as a learning process. The articles that comprise this dissertation respond to this demand, mapping the practices and perspectives of the maker community to foundational theories of the learning sciences. Theoretically, the work is based in the communities of practice framework. In adopting this approach, I am able to distinguish what making is as a learning process, through the identification of the core learning practices of the making community
This paper provides a brief overview of the ideas and principles underlying the connected learning movement, highlighting examples of how libraries are boosting 21st-century learning and promoting community development by partnering with a range of organisations and individuals to incorporate connected opportunities into their programmes. The connected learning movement supports interest-driven, peer-supported, and academically oriented learning for youth by promoting the core values of equity, participation, and social connection. By connecting formal and informal learning organisations with
Poster for 2014 AISL PI Meeting. The State University of New York (SUNY) and the New York Academy of Sciences (NYAS) are collaborating to implement the SUNY/NYAS STEM Mentoring Program, a full scale development project designed to improve the science and math literacy of middle school youth.
"Hybrid spaces for science learning" refers to the merging of real and virtual worlds to produce new environments and visualizations where physical and digital objects co-exist and interact in real time. Learning science within hybrid spaces can be a fun, engaging, and reflective experience. Further, hybrid spaces are inherently social, facilitating dialogue and social exchange, as well as the construction of knowledge, paralleling the nature of contemporary science. This symposium brings together several research programs that address learning "across contexts" that span classroom activities
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TEAM MEMBERS:
Ole SmordalJim SlottaTom MoherMichelle LuiAlfredo Jornet
In recent years, many technological interventions have surfaced, such as virtual worlds, games, and digital labs, that aspire to link young people's interest in media technology and social networks to learning about science, technology, engineering, and math (STEM) areas. Despite the tremendous interest surrounding young people and STEM education, the role of school libraries in these initiatives is rarely examined. In this article, we outline a sociocultural approach to explore how school library programs can play a critical role in STEM education and articulate the need for research that
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TEAM MEMBERS:
Mega SubramaniamJune AhnKenneth FleischmannAllison Druin
Adolescents often pursue learning opportunities both in and outside school once they become interested in a topic. In this paper, a learning ecology framework and an associated empirical research agenda are described. This framework highlights the need to better understand how learning outside school relates to learning within schools or other formal organizations, and how learning in school can lead to learning activities outside school. Three portraits of adolescent learners are shared to illustrate different pathways to interest development. Five types of self-initiated learning processes
There is a movement afoot to turn the acronym STEM—which stands for science, technology, engineering, and mathematics—into STEAM by adding the arts. Science educators have finally begun to realize that the skills required by innovative STEM professionals include arts and crafts thinking. Visual thinking; recognizing and forming patterns; modeling; getting a "feel" for systems; and the manipulative skills learned by using tools, pens, and brushes are all demonstrably valuable for developing STEM abilities. And the National Science Foundation and the National Endowment for the Arts have gotten
Current empirical research in science and technology studies provides new and different views of science and scientists that contrast markedly with the mythical views that underlie many curricular efforts geared toward increasing scientific literacy. If descriptions of science and scientists that emerge from science and technology studies are legitimate, considerable implications arise for educational aims guiding science instruction, learning experiences directed toward those educational aims, and resources that support those learning experiences and educational aims. In this paper, we (a)
The authors of this article discuss three pedagogical approaches, learning community, community of practice and community learning, and analyse their significance for knowledge acquisition and construction in higher education. The authors also explore the roles of technology in creating adequate environments for educators to implement teaching practices supported by these approaches and explain, through an illustrative course example, how technology and teaching methods can be used together to promote interaction among learners and help them achieve course goals.
Robotic Autonomy is a seven-week, hands-on introduction to robotics designed for high school students. The course presents a broad survey of robotics, beginning with mechanism and electronics and ending with robot behavior, navigation and remote teleoperation. During the summer of 2002, Robotic Autonomy was taught to twenty eight students at Carnegie Mellon West in cooperation with NASA/Ames (Moffett Field, CA). The educational robot and course curriculum were the result of a ground-up design effort chartered to develop an effective and low-cost robot for secondary level education and home use
Museums are excellent locations for testing ubiquitous systems; the Exploratorium in San Francisco offers a unique and challenging environment for just such a system. An important design consideration is how users switch between virtual and physical interactions.
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TEAM MEMBERS:
Margaret FleckMarcos FridEamonn O'Brien-StrainRakhi RajaniMirjana Spasojevic
In this study our goal is to conduct a "connective ethnography" that focuses on how gaming expertise spreads across a network of youth at an after-school club that simultaneously participates in a multi-player virtual environment (MUVE). We draw on multiple sources of information: observations, interviews, video recordings, online tracking and chat data, and hundreds of hours of play in the virtual environment of Whyville ourselves. By focusing on one particular type of insider knowledge, called teleporting, we traced youth learning in a variety of online and offlien social contexts, both from