In this memo, we present a first version of the conceptual framework funded by the John D. and Catherine T. Macarthur Foundation. Our goal is to provide clarity around issues of scale and spread, and to develop a tool that can inform strategic thinking by members of the DML (Digital Media and Learning) community and the broader field. At the heart or the conceptual framework is a typology of conceptions of scale. Our interviews and literature review suggest that there are fundamentally different ways of conceptualizing the goals or outcomes of scale. We identify four: adoption, replication
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TEAM MEMBERS:
Cynthia CoburnAmy CattersonJenni HiggsKatie MertzRichard Morel
The Miami Museum of Science, in collaboration with University of Miami's (UM) School of Medicine, is requesting a Phase II grant to support national replication of the Biomedical Training, Research and College Prep (BioTrac) Project. The goal of Phase I, now in its final year of funding, was to develop a replicable model aimed at increasing the numbers of underserved students entering the biomedical research pipeline. Phase I focused on priority areas under Healthy People 2000 reflecting health issues of interest to the community as well as resources available through UM's Jackson Memorial Medical Center. Comprising hands-on project-based programming, career awareness activities, college prep, research internships and college residential experiences, the project has served 98 students to date, of whom 88% are low-income and 96% reside in homes where English is the second language. Of the 43 seniors who have graduated to date, 42 are enrolled in post-secondary studies. Of these, 52% have chosen a science-related major, and of these, 73% have chosen a biomedical course of study. Under the proposed Phase II project, the useum will establish BioTrac as a national demonstration site, extending BioTrac strategies and materials to formal and informal science institutions (ISis) through site-based institutes, distance-learning opportunities and professional conferences and publications. Continued delivery of BioTrac programming at the demonstration site will also further increase the number of underrepresented students entering the biomedical research pipeline, and allow for further programming aimed at increasing public understanding of Healthy People 2010 priorities and biomedical research. The museum will target ISis with youth programs to attend a three-day replication institute, reaching a minimum of 30 ISis during the grant. Through participation in national conferences and professional development sponsored by the Association of Science-Technology Centers, representng 340 ISis, the model has the capacity to impact small, medium, and large science centers nationwide. The model will also be adaptable for use by the other 123 Upward Bound Math & Science Centers engaged in science enrichment programming for underserved youth. Finally, elements of the model will be suitable for extracurricular school-based science clubs and high school magnet programs focused on biomedicine, further extending the potential impact of the model to school districts nationwide.
BioTrac will expand opportunities in biomedicine for low-income, first-generation college-bound high school students, increasing the number interested in, and prepared to enter, the biomedical research pipeline. Specific objectives are to: (1) Raise awareness of careers in biomedicine and provide students with real-world biomedical research experiences; (2) Increase awareness of requirements and opportunities for related post-secondary study; (3) Increase public understanding of the importance and diversity of biomedical research; and (4) Disseminate project outcomes. In collaboration with the University of Miami (UM) and Miami-Dade County Public Schools (M-DCPS), the Museum will design and implement a replicable model program exposing students to research on selected priority areas outlined in the Public Health Service's Healthy People 2000 agenda. The program will focus on areas with significant local research capacity, ties to local growth industries, and relevance to Miami-Dade's diverse communities. Students will investigate each area through hands-on lab activities, on-line research, site visits to research facilities, and through interactions with research scientists at UM's nationally renowned Jackson Memorial Medical Complex. Students will work in teams to conduct community-focused research on aspects of each priority area, using technology skills acquired as part of the program to document their research through digital video, PowerPoint presentations, and development of a BioTrac website. Students will present their research at annual symposia held at the Museum. They will also serve as science explainers in the Museum's galleries, interpreting biomedical-related exhibits to the general public. During the summer before 12th grade, students will attend residential programs at University of Florida and Florida A&M University, gaining exposure to post-secondary programs leading to careers in biomedical research. Students in 11th and 12th grade will also be encouraged to participate in M-DCPS's Advanced Academic Internship Program, gaining up to three honors credits for work in institutions engaged in biomedical research. Following 12th grade, prior to beginning college, students will be placed in an eight-week summer internships at UM labs engaged in a broad spectrum of biomedical research. The Museum will disseminate students' research experiences and project findings through an BioTrac web page, ASTC and Upward Bound conferences and networks, and Museum and UM publications.
The article focuses on a study guided by identity theory and a model of interest development to assess the use of comic books for conveying science information. The study employs viruses as scientific content which is reviewed to disseminate, and provide evidence regarding the limited knowledge of general public. It mentions that key concepts are summarized to compare comic and essay formats for disseminating scientific information.
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.
Summative evaluation plays a critical role in documenting the impacts of informal science education (ISE), potentially contributing to the ISE knowledge base and informing ongoing improvements in practice and decision-making. In response to the growing demand for capacity-building in ISE evaluation, this paper presents a framework for summative evaluation based on an extensive review of literature and research-based refinements. The framework synthesizes key elements of high-quality summative evaluation into three dimensions: (a) Intervention Rationale, (b) Methodological Rigor and
This is a handout from the Science Learning Plus (SL+) Forum held on InformalScience.org from July 6-17, 2015. It lists and describes resources about research and practice collaborations.
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
While industries such as music, newspapers, film and publishing have seen radical changes in their business models and practices as a direct result of new technologies, higher education has so far resisted the wholesale changes we have seen elsewhere. However, a gradual and fundamental shift in the practice of academics is taking place. Every aspect of scholarly practice is seeing changes effected by the adoption and possibilities of new technologies. This book will explore these changes, their implications for higher education, the possibilities for new forms of scholarly practice and what
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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TEAM MEMBERS:
Brigham Young UniversityUniversity of MarylandJes KoepflerNidhi JalwalVictor Yocco
Intuitive Company researchers and evaluators assessed four components of the DUST Alternate Reality Game for potential reusability: 1) QTE Environment during Collapse, 2) Brain/Health Scanner Mobile App, 3) Microbe Web App, 4) Star Map Web App. We assessed reusability based on five variables (facilitation, user identification, digital access, player type, and timing) along a continuum of informal to formal learning contexts, from museums to after school programs to formal classroom settings. Our assessment revealed that the: 1. QTE Environment during the Collapse is most replayable in its
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TEAM MEMBERS:
Brigham Young University, University of MarylandJes KoepflerNidhi JalwalVictor Yocco
The Open University's "Innovating Pedagogy Report" is an example of exploring innovative topics while giving oneself permission to be a bit less academic. In the report, authors choose 10 topics and write several pages on each, deliberately avoiding citing papers and supporting each individual point. This third report proposes ten innovations that are already in currency but have not yet had a profound influence on education. You can see a summary of each innovation at the menu on the right. Please contribute your comments on the report and the innovations.
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TEAM MEMBERS:
Mike SharplesAnne AdamsRebecca FergusonMark GavedPatrick McAndrewBart RientiesMartin WellerDenise Whitelock