The Next Generation Science Standards (NGSS) identify an ambitious progression for learning energy, beginning in elementary school. To help the nation's teachers address this challenge, this project will develop and investigate the opportunities and limitations of Focus on Energy, a professional development (PD) system for elementary teachers (grades 3-5). The PD will contain: resources that will help teachers to interpret, evaluate and cultivate students' ideas about energy; classroom activities to help them to identify, track and represent energy forms and flows; and supports to help them in engaging students in these activities. Teachers will receive the science and pedagogical content knowledge they need to teach about energy in a crosscutting way across all their science curricula; students will be intellectually engaged in the practice of developing, testing, and revising a model of energy they can use to describe phenomena both in school and in their everyday lives; and formative assessment will guide the moment-by-moment advancement of students' ideas about energy. This project will develop and test a scalable model of PD that will enhance the ability of in-service early elementary teachers to help students learn energy concepts by coordinating formative assessment, face-to-face and web-based PD activities. Researchers will develop and iteratively refine tools to assess both teacher and student energy reasoning strategies. The goals of the project include (1) teachers' increased facility with, and disciplined application of, representations and energy reasoning to make sense of everyday phenomena in terms of energy; (2) teachers' increased ability to interpret student representations and ideas about energy to make instructional decisions; and (3) students' improved use of representations and energy reasoning to develop and refine models that describe energy forms and flows associated with everyday phenomena. The web-based product will contain: a set of formative assessments to help teachers to interpret student ideas about energy based on the Facets model; a series of classroom tested activities to introduce the Energy Tracking Lens (method to explore energy concept using multiple representations); and videos of classroom exemplars as well as scientists thinking out loud while using the Energy Tracking Lens. The project will refine the existing PD and build a system that supports online implementation by constructing a facilitator's guide so that the online community can run with one facilitator.
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TEAM MEMBERS:
Sara LacyRoger TobinNathaniel BrownStamatis VokosRachel ScherrKara GrayLane SeeleyAmy Robertson
This document contains a summary of notes from an Open Space session on Media, Technology, and Informal Learning from the 2014 AISL PI Meeting. It includes a list of active AISL projects related to media.
The Exploratorium comes together with the Education Development Center, Inverness Research, TERC, the University of Colorado - Boulder, and the University of Washington to form a Research+Practice (R+P) Collaboratory. The Collaboratory seeks to address and reframe the gap between research and practice in K-12 STEM education. This gap persists despite decades of work by many leading organizations, associations, and individuals. Attempts to close the gap have generally focused on creating resources and mechanisms that first explain or illustrate "what research says" and then invite educators to access and integrate findings into practice. Recently, however, attention has turned to the ways in which the medical sciences are addressing the gap between research and clinical practice through the developing field of "translational research." In medicine, the strategy has been to shift the focus from adoption to adaptation of research into practice. Implicit in the notion of adaptation is a bi-directional process of cultural exchange in which both researchers and practitioners come to understand how the knowledge products of each field can strengthen the professional activities in the other. Along these lines, the R+P Collaboratory is working with leading professional associations and STEM improvement efforts to leverage their existing knowledge and experience and to build sustainable strategies for closing the gap. The R+P Collaboratory is developing an online 'Go-To' Resource Center website that houses the resources collected, created, and curated by the Collaboratory. The Resource Center also has significant 'Take-Out' features, with all materials meta-tagged so that they can be automatically uploaded, reformatted, and integrated into the existing communication and professional development mechanisms (e.g., newsletters, digests, conferences, and websites) of a dozen leading professional associations within a Professional Association Partner Network. In light of new and emerging standards in the STEM disciplines, the Collaboratory is focusing its work on four salient and timely bodies of research: (a) STEM Practices, (b) Formative Assessment, (c) Cyberlearning, and (d) Learning as a Cross-Setting Phenomenon. Special emphasis is being placed on research and practice that focuses on the learning of children and youth from communities historically underrepresented in STEM fields.
The objective of this project is to extend the concept of crowdsourcing in citizen science to the interaction design of the organization as well as to data collection. Distributed technologies offer new opportunities for conducting scientific research on a larger scale than ever before by enabling distributed collaboration. Virtual organizations that use distributed technologies in scientific organizations have primarily focused on how dedicated, professional scientists collaborate and communicate. More recently a rapidly increasing number of citizen science virtual organizations are being formed. Citizen scientists participate in scientific endeavors and typically lack formal credentials, do not hold professional positions in scientific institutions, and bring diversity of knowledge and expertise to projects and challenges. They participate in scientific endeavors related to their personal scientific interests and create new challenges for the design of virtual organizations. In terms of intellectual merit, the project will make three specific contributions: a new interaction design for collecting biodiversity data within a nature park, a model for crowdsourcing the design of an social computing approach to citizen science, and an analysis of the impact of crowdsourcing the design on motivating participation in collecting biodiversity data. Interactive tabletop computers will be placed in two nature parks so that the design of the citizen science environment can be embedded in a park experience and engage the public in understanding more about their parks, in data collection, and develop a personal commitment to environmental sustainability issues. In terms of broader impacts, the project provides three types of impact: research training by including graduate students, broad public dissemination to enhance scientific understanding of biodiversity, and benefits to society through association with the Aspen Center for Environmental Studies (ACES) and Encyclopedia of Life (EOL).
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TEAM MEMBERS:
Mary Lou MaherTom YehJennifer Preece
Recent biomedical research has transformed scientific understanding of human biology. But many of these advances haven’t filtered into public awareness, hindering our ability to make good health-related decisions. A new educational program ‒ Biology of Human ‒ will help the public, particularly young people, better understand advances in biomedical research. This innovative, learning research-based science education program is strategically designed to increase awareness of and understanding about new biomedical research developments pertaining to human biology. Biology of Human will provide a sophisticated science education outreach package for students aged 11 to 15 and adults, including parents and educators. The project's goal is to leverage the latest biomedical information and innovations, a dynamic suite of educational and dissemination strategies, and research-driven approach grounded in sociology to broadly educate youth and adults about human biology. A team led by the University of Nebraska State Museum, the Department of Sociology at the University of Nebraska-Lincoln, and the NIH/NCRR-funded Nebraska Center for Virology (a Center of Biomedical Research Excellence) will work with science writers, kids, and educators to complete three specific aims: 1) stimulate interest in and understanding of biomedical research's importance to diverse individuals' health, communities, and environments; 2) establish partnerships among science educators, biomedical researchers, science journalists, and others to create dynamic educational resources focused on biomedical research developments and human biology; and 3) increase youths' interest in biomedical science. Biology of Human will provide adults and youth with several simultaneous, complementary options for learning about how biomedical research has helped us understand human biology including essays, books and blogs; entertaining and scientifically accurate mobile and tablet apps; activities and graphic stories; and a Web site that complements and supports the project's professional development programs. More than 175,000 youth and adults are expected to be directly impacted through this effort.
With the success of open access publishing, Massive open online courses (MOOCs) and open education practices, the open approach to education has moved from the periphery to the mainstream. This marks a moment of victory for the open education movement, but at the same time the real battle for the direction of openness begins. As with the green movement, openness now has a market value and is subject to new tensions, such as venture capitalists funding MOOC companies. This is a crucial time for determining the future direction of open education. In this volume, Martin Weller examines four key
The goal of the study was to identify current issues for navigating and finding relevant information; evaluate the look and feel of the website in relation to its main purpose; assess the clarity of language to its audience; determine next steps for improvement. We addressed these goals through an expert review based on a 100+ point usability assessment framework on both desktop and mobile as of 12/4/2014 and informal feedback from 3 novice users ( age range 22-27 years).
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Brigham Young UniversityUniversity of MarylandJes KoepflerNidhi JalwalVictor Yocco
Mobile technology can be used to scaffold inquiry-based learning, enabling learners to work across settings and times, singly or in collaborative groups. It can expand learners’ opportunities to understand the nature of inquiry whilst they engage with the scientific content of a specific inquiry. This Sharples et al. paper reports on the use of the mobile computer-based inquiry toolkit nQuire. Teachers found the tool useful in helping students to make sense of data from varied settings.
This volume explores how technology-supported learning environments can incorporate physical activity and interactive experiences in formal and informal education. It presents cutting-edge research and design work on a new generation of "body-centric" technologies such as wearable body sensors, GPS tracking devices, interactive display surfaces, video game controller devices, and humanlike avatars. Contributors discuss how and why each of these technologies can be used in service of learning within K-12 classrooms and at home, in museums and online. Citing examples of empirical evidence and
Educators from K-12 and higher education are collaborating on a new school of the future projects involving humanoid robots and other forms of robots and student and teacher productivity tools. We are working in the areas of STEAM Plus. (science, technology, engineering, visual and performing arts, mathematics, computer languages and foreign languages) All team members will share their action research results through a traveling exhibition to all twelve public libraries in the city of Long Beach, California. Kids Talk Radio through its Backpack Science, Journalism, and Backpack Robotics programs will create video and audio podcasts of the action research and share findings over the Internet with schools, libraries and museums around the world.
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TEAM MEMBERS:
Super School SoftwareBob BarbozaWalter Martinez
An evaluation of the Natural History Museum of Utah'(NHMU) "Trailhead to Utah" digital guide carried out by Frankly Green & Webb in March of 2014. The "Trailhead" is a digital ecosystem at the Natural History Museum of Utah consisting of touchscreen kiosks, a mobile guide, and a web portal for post-visit exploration. Since launching, the Trailhead to Utah system has suffered from low usage. NHMU wanted to understand why the service (in particular its mobile/smartphone element) was underused, and how it could be changed to offer a better visitor experience. In scoping the project, one key
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Natural History Museum of UtahBecky MenloveLindsey GreenPaul Tourle
This report summarizes evaluative findings from a project titled “What Curiosity Sounds Like: Discovering, Challenging, and Sharing Scientific Ideas” (a.k.a.: “Discovery Dialogues”). The project, a Full-Scale development project funded by the National Science Foundation as part of its Advancing Informal Science Learning (AISL) program, explored new ways to actively engage both lay and professional audiences, and foster meaningful communication between scientists and the general public. Appendix includes survey and interview questions.