Positive youth development and youth organizing are strengths-based approaches to the lives, needs, and contributions of young people (Damon & Gregory, 2003). These approaches privilege the voices of youth as they engage with issues in their communities and challenge institutions to respond. Few studies, however, have explored the role of positive youth development and youth organizing initiatives among immigrant youth of color. The challenging terrain of modern urban life requires these youth to navigate the political, economic, and legal demands confronted by their families; to understand
DATE:
TEAM MEMBERS:
Anthony de JesusSofia OviedoScarlett Feliz
Challenge seeking is an important component of children’s personal and academic development. Defined in this paper as a set of beliefs and behaviors that propels individuals to initiate and persist at difficult ventures, challenge seeking is a key indicator of mastery goal orientation. This orientation has been linked with a number of positive and adaptive behaviors. For instance, research shows that individuals who pursue mastery goals are more likely than others to value cooperation, seek help when confused, and use deeper learning strategies such as monitoring their comprehension and
The University of Oklahoma will increase knowledge about how youths create information and how information professionals can help them become successful information creators by promoting their information and digital literacies and other 21st century skills. This Early Career research project builds on existing research and results of previously funded IMLS Learning Labs by investigating how twenty-four middle school students engaged in project-based, guided-inquiry STEM learning to create information in a school library Learning Lab/Makerspace. The project will result in a model of information-creating behavior that can help develop a groundbreaking approach to information literacy instructions and creative programs.
The Cyberlearning and Future Learning Technologies Program funds efforts that support envisioning the future of learning technologies and advance what we know about how people learn in technology-rich environments. In this Cyberlearning EAGER project, the project team is developing foundations for using "paper mechatronics" as a learning technology. Paper mechatronics makes possible a craft-oriented approach to engineering and computing education that integrates key concepts from mechanical engineering, electrical engineering, control systems, and computer programming, while using paper as the primary material for learner design, exploration, and inquiry. In this approach, learners will design foldable paper components and assemblies; program motors, sensors and controls; test their ideas iteratively; and share their designs on a website. This paper-based modeling approach to learning concepts in and practices of mechanical engineering, electrical engineering, control systems, and computer programming ultimately aims to make it possible for all learners to have exposure to and the opportunity to participate in creative engineering, design, and computer programming.
The approach to learning through designing and making through paper mechatronics is made possible by a convergence of many different technological factors -- the array of small computers, sensors, and actuators that are becoming available at low cost and a size that children can use; availability of a wide variety of manipulable conductive materials (threads, paints, fabrics); low-cost and precise desktop and laser cutters for paper and similar materials; a wide variety of novel paper-like materials; and new ways of interacting with the computer. The approach has its foundations in Papert's constructionism and in the current maker movement, but it has potential beyond constructionism itself, both in practice and with respect to what can potentially be learned about learning and development in in context of its use.
These resources are designed to identify opportunities to improve training for educators and researchers during implementation of the Living Laboratory model. The Data Collection Guidelines provide general instructions and tips for conducting evaluation through observations of (and/or interviews with) visitors. Two versions of each instrument (Researcher-Caregiver Conversations Instrument and Research Toy Interactions Instrument) are included: one can be modified and printed for data collection; the second is an annotated version, which includes more detailed instructions for each item in the
This document presents an overview of the quantitative survey data findings from the SL+ Equity Pathways in Informal Science Learning project. Further qualitative analysis on some of the open response data is yet to be completed. Findings are grouped into four areas: about the individuals taking part in the survey; their definitions and understanding of equity and related terms; their current equity practice; and their practices around equity work including reading, talking with colleagues and evaluation.
This Research & Practice Agenda is a synthesis of findings from the Youth Access & Equity in Informal Science Learning (ISL) partnership, a UK-US researcher-practitioner project, funded by the Science Learning+ Initiative. Activities included a survey administered in the UK and US with 134 ISL researchers and/or practitioners; workshops with 111 participants in both the UK and US; a literature review; and a joint UK/US workshop conducted in the UK. This set of activities generated a range of data, resources and raised questions, both research questions and questions of practice, which we have
This infographic reports findings from the Youth Access & Equity in Informal Science Learning (ISL) project, a UK-US researcher-practitioner partnership funded by the Science Learning+ Phase 1 scheme. Our project focuses on young people aged 11-14 primarily from under-served and non-dominant communities and includes researchers and practitioners from a range of ISL settings: designed spaces (e.g. museums, zoos), community-based (e.g. afterschool clubs) and everyday science spaces (e.g. science media).
This briefing paper reports findings from the Youth Access & Equity in Informal Science Learning (ISL) project, a UK-US researcher-practitioner partnership funded by the Science Learning+ Phase 1 scheme. Our project focuses on young people aged 11-14 primarily from under-served and non-dominant communities and includes researchers and practitioners from a range of ISL settings, including designed spaces (eg museums, zoos), community-based (e.g. afterschool clubs) and everyday science spaces (e.g. science media).
This briefing paper reports findings from the Youth Access & Equity in Informal Science Learning (ISL) project,
a UK-US researcher-practitioner partnership funded by the Science Learning+ scheme. Our project focuses on young people aged 11-14 primarily from under-served and non-dominant communities and includes researchers and practitioners from a range of ISL settings: designed spaces (e.g. museums, zoos), community-based (e.g. after school clubs) and everyday science spaces (e.g. science media).
This University of Wisconsin System will conduct research to understand how the Madison Public Library (MPL) is building a production-oriented approach to literacy and learning through their maker-focused program, the Bubbler. On a national level, this project speaks to educational research communities, professionals, members of informal learning institutions, and organizers of designed makerspaces. At the local level, it addresses underserved populations in the Madison area and MPL in evaluating and developing the Bubbler. Findings will be shared through conference presentations, journal articles, and networks of library professionals.
This paper presents a novel data analytic approach to collect detailed information from visual artworks. This new method provides researchers with a framework to compare, analyze, and review in a systematic way large quantities of data from visual productions. Drawing on principles of art historical criticism, our research team devised a comprehensive coding scheme that captures both technical and content attributes. The coding scheme is configured to record specific, fundamental features for each artwork, providing an instrument for collecting data and cross-examining codes to reveal content