This project is a full-scale development project that builds upon a pilot program funded by the NSF in 2007 (LEAP into Science/Pilot), developed by The Franklin Institute (FI) in collaboration with The Free Library of Philadelphia. By connecting children’s literature and hands-on science activities in out-of-school settings, LEAP/Pilot has promoted student and family engagement in science and literacy in Philadelphia for over six years. In 2011, a cohort of ten national sites joined the initiative to pilot LEAP into Science resources in multiple out-of-school time contexts and within unique institutional partnerships. The 10 sites, consisting of 27 institutional partnerships representing a diverse group of organizations (museums, libraries, K-12 school districts, universities, and public media). Through continued collaboration in Philadelphia and with these national cohort sites, LEAP into Science: Engaging Diverse Community Partners in Science and Literacy is leveraging the relationships, experiences, and resources initiated in LEAP /Pilot to address the needs of new audiences, meet partners’ requests for enhanced professional development, and study the efficacy of this program in different out-of-school time structures and populations across the country. The result will be an adaptable program that more effectively reaches diverse audiences in science and literacy through community partners, as well as a stronger understanding of implementation for improved sustainability.
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 poster was produced for the 2014 AISL PI Meeting held in Washington, DC. The Time Team America project's goal is to engage public audiences with the scientific process, STEM concepts, and STEM careers through the excitement of and active participation in archaeology.
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
The museum visit is an important part of elementary school science teaching. However, a divide exists between teachers, who require curricular accountability, and museums, who emphasize free-choice exploration. Can a carefully constructed worksheet bridge this divide by providing free-choice exploration of curricular topics during the museum visit? In the present study, a theoretical framework was constructed to inform the design of worksheets as free-choice learning devices. This framework was used to analyze the design of an existing museum worksheet. Subsequently, curriculum-related
This article presents a contextual model of learning that examines visitor learning in museums. It explores features of the model, factors that can influence learning in a museum setting, and challenges associated with teaching in a museum context.
Designs for CSCL (Computer-Supported Collaborative Learning) applications usually presume a desktop or laptop computer. Yet future classrooms are likely to be organized around Wireless Internet Learning Devices (WILD) that resemble graphing calculators, Palm, or Pocket-PC handhelds, connected by short-range wireless networking. WILD learning will have physical affordances that are different from today’s computer lab, and different from classrooms with 5 students per computer. These differing affordances may lead to learning activities that deviate significantly from today’s images of K-12 CSCL
Mobile technologies are a familiar part of the lives of most teachers and students in the UK today. We take it for granted that we can talk to other people at any time, from wherever we may be; we are beginning to see it as normal that we can access information, take photographs, record our thoughts with one device, and that we can share these with our friends, colleagues or the wider world. Newer developments in mobile phone technology are also beginning to offer the potential for rich multimedia experiences and for location-specific resources. The challenge for educators and designers
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TEAM MEMBERS:
Laura NaismithPeter LonsdaleGiasemi VavoulaMike Sharples
Given the role played by the informal sector in training and supporting educators and science learners within the formal sector, how might the informal sector respond to the NGSS? We answer this question by considering two further questions: (1) In what ways is the informal science education sector positioned to engage with and support NGSS? and (2) Where are points of mismatch between NGSS and ISE?
Many informal science and mathematics education projects employ multiple media, but studies typically have investigated learning from a single medium, rather than multiple media. The present research, funded by the National Science Foundation, used Cyberchase(a multiple-media, informal mathematics project targeting 8-to 11-year-olds, produced by Thirteen/WNET) to investigate synergy among multiple media components and how they interact to yield cumulative educational outcomes.
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TEAM MEMBERS:
Shalom FischRichard LeshElizabeth MotokiSandra CrespoVincent Melfi
"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
The middle grades are a crucial time for girls in making decisions about how or if they want to follow science trajectories. In this article, the authors report on how urban middle schoolgirls enact meaningful strategies of engagement in science class in their efforts to merge their social worlds with the worlds of school science and on the unsanctioned resources and identities they take up to do so. The authors argue that such merging science practices are generative both in terms of how they develop over time and in how they impact the science learning community of practice. They discuss the