The Internet, specifically the World Wide Web (WWW), has the potential to deliver science education materials directly to classrooms, media centers, libraries and homes. The current application seeks to use this new technology through a collaborative effort of an active scientist and a group of middle school science teachers to develop, disseminate and evaluate educational materials related to neuroscience for use in middle school science classes. This project attempts to introduce new technologies into the science classroom, extend science education to include the information superhighway and increase parental involvement in their children's education. Materials will be integrated with the existing middle school science curriculum and will include l) on-line and off-line experiments and activities covering a range of topics in neuroscience, 2) a "virtal neuroscience laboratory", 3) an Internet neuroscience resource list and 4) a "Neuroscientist Network" consisting of active neuroscientists around the world who will serve as experts answering student questions. All activities will be designed will attention to being self-paced, hands-on, entertaining and to involve Cooperative learning. Both quantitative and qualitative methods will be used to evaluate the usage of the Intemet Neuroscience Resource. It is hoped that this project will serve as a model to other scientists and teachers and to encourage them to develop Internet resources in their own areas of expertise for use in the classroom.
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
With NCRR SEPA Phase I funding, the Exploratorium developed a microscope imaging station (MIS) for public use in the museum. At this facility, visitors explore living things using research-grade equipment. For visitors, microscopes and images are engagement points for learning more about basic biology, biomedical research, and human health. With SEPA Phase II funding, the Exploratorium proposes to use the infrastructure and educational approach developed in Phase I to: (1) Create a wider, more comprehensive array of biomedically relevant, image-based materials-including still and time-lapse images, movies, and teaching activities; and (2) Disseminate these to students, teachers, museum visitors, the broader public, and other science centers. The Exploratorium will collaborate with biomedical researchers to generate high-resolution images and plan public programs. Material from these collaborations will be on current biomedical topics. Planned dissemination activities include eight "Meet the Scientist and Learn about Their Research" public programs; Saturday teacher workshops; development of multimedia exhibit content for museum display; development of web content for the MIS site; creation of image-based teacher activities; inclusion of images, movies, and activities in established web-based teacher resources (as well as new resources for high-bandwidth Internet2 application). Materials will be free to other educational institutions. Using these dissemination strategies, the Exploratorium expects to attract and engage well over 1 million visitors annually.
Working in collaboration with biomedical researchers from universities in the San Francisco area, across the nation, and abroad, the Exploratorium proposes to develop a high-quality microscopic imaging station for use by museum visitors, students, teachers and Internet visitors. This facility will utilize the highest quality optics and state-of-the-art microscopic techniques including biological staining and sophisticated digital recording. A variety of living specimens fundamental to basic biology, human development, the human genome and health-related research will be displayed. The station will be the lively center of the life sciences' area at the Exploratorium, providing educational content, dramatic imagery and regular demonstrations to reach an audience which ranges from the mildly curious to research scientists. In addition, the Exploratorium will be the first public institution, outside of a few research laboratories, to present live microscopic specimens via video and the Internet in real time. (To date, remote microscopes have generally presented inanimate objects or fixed tissue.) In order to increase student accessibility, subject matter for the imaging station will be integrated into the ongoing middle and high school teacher professional development at the museum. Teachers will be able to use the imaging station to conduct their own experiments, develop classroom explorations, take away images, access the website in their classrooms, or share materials with other teachers.
The National Research Council's Roundtable on Public Interfaces of the Life Sciences held a 2-day workshop on January 15-16, 2015, in Washington, DC to explore the public interfaces between scientists and citizens in the context of genetically engineered (GE) organisms. The workshop presentations and discussions dealt with perspectives on scientific engagement in a world where science is interpreted through a variety of lenses, including cultural values and political dispositions, and with strategies based on evidence in social science to improve public conversation about controversial topics
Amusement parks offer rich possibilities for physics learning, through observations and experiments that illustrate important physical principles and often involve the whole body. Amusement parks are also among the most popular school excursions, but very often the learning possibilities are underused. In this work we have studied different teacher roles and discuss how universities, parks or event managers can encourage and support teachers and schools in their efforts to make amusement park visits true learning experiences for their students.
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National Resource Center for Physics EducationAnn-Marie PendrillCecilia KozmaAndreas Theve
The World Biotech Tour (WBT) is a multi-year initiative that will bring biotechnology to life at select science centers and museums worldwide. The program, supported by the Association of Science-Technology Centers (ASTC) and Biogen Foundation, is scheduled to run from 2015-2017, with the 2015 cohort in Belgium, Japan, and Portugal. The WBT will increase the impact and visibility of biotechnology among youth and the general public through hands-on and discussion-led learning opportunities. Applications are now open for the 2016 cohort! Learn more and submit an application at http://www.worldbiotechtour.org/become-a-stop
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TEAM MEMBERS:
Association of Science-Technology CentersCarlin Hsueh
Innovation spaces are springing up around the world. This phenomenon is driven by emerging technologies in additive manufacturing, by new thinking about learning, by a desire to grow the Michigan economy through the democratization of innovation and entrepreneurship and the need to provide authentic experiences to engage and retain students in STEM (Science, Technology, Engineering and Math) disciplines and careers. We are presently engaged in the project planning phase of the Innovation 5 concept. Innovation 5 will be a community-based rapid prototyping/additive manufacturing facility that will be housed within and will be integral to the Impression 5 Science Center in downtown Lansing, MI. This space is envisioned to house resources such as rapid prototyping and additive manufacturing equipment, meeting spaces and networking facilities for collaboration, This space will also serve as a core element of the informal learning experience for visitors to the Impression 5 Science Center. Impression 5 is currently planning a dramatic renovation and expansion which provides a window of opportunity for development of this new concept. Innovation 5 is planned to function at the intersection of three major trends in education and economic development; additive manufacturing and rapid prototyping, authentic STEM experiences for students and community based innovation and entrepreneurial support.. Additive Manufacturing/Rapid Prototyping: Additive manufacturing and rapid prototyping are poised to be the next great digital revolution, where the barrier between digital concept and physical object ceases to exist. "Machines that turn binary digits into physical objects are pioneering a whole new way of making things" one that could rewrite the rules of manufacturing in much the same way that the PC laid waste to traditional computing (The Economist Technology Quarterly Dec 1, 2012) This technological revolution is becoming a central feature of a new set of institutions that make these facilities available to entrepreneurs as shared community resources. Global networks are already forming as non-profits such as FabLabs and MakerSpaces, commercial entities like TechShop and at the Federal government level, such as the recently announced National Additive Manufacturing Innovation Institute. Authentic STEM Experiences for Students: There is increasing recognition that student learning can be dramatically enhanced by enabling students to engage in inquiry-driven work that connects their learning to the real world and that involves collaboration and communication. For example, the National Science Foundation is devoting significant resources to promote the concept of learning through innovation through such programs as the I-Corps. The informal science education community has moved strongly towards becoming a center for STEM learning in conjunction with more traditional learning environments. The National Science Foundation recently changed the name of its Informal Science Education (ISE) division to Advancing Informal STEM Learning (AISL). The Impression 5 Science Center is also actively pursuing the link between informal education and innovation through its new exhibit, the Build Zone where children are encouraged to create and test new structures in a wide variety of physical formats. Community-based Entrepreneurial Support: The Maker/FabLab culture emphasizes the democratization of these new technologies. We feel that this can be a key contribution of Innovation 5 to the City of Lansing community. The population of the City of Lansing is diverse with a high proportion of members of underrepresented groups. In addition, Lansing is undersupported compared to neighboring communities in terms of access to technology and related educational resources. By becoming the local "on ramp to innovation," Innovation 5 can provide low-cost, easy-entry access to these new technologies for community members, whether as microentrepreneurs or just to access these technologies for personal interest. The goal of the Innovation 5 proposal is to meld these threads into a new type of institution. We view the Innovation 5 space as a graded environment for STEM learning through innovation. The facility is envisaged to have a "front end" that serves as an inviting informal education setting where children and families can learn about and participate in the process of innovation and where they can actually see and interact with, in a controlled fashion, the rapid prototyping facility. The "back end" of the facility will have multiple spaces with various levels of controlled access. There will be a collaboration space with visual global networking capability and access to design tools that will be relatively open. Beyond that area would be a space with rapid prototyping tools that require training and supervision for access and operation. One step beyond this might be small spaces for entrepreneurs to pursue more advanced projects. Students will participate integrally in all aspects of Innovation 5's functioning, from interacting with children in an informal setting to serving as team members in developing products from concept to market. Students will also provide the core of the group managing the facility, with substantial input into the direction Innovation 5 will take. Consistent with this vision, 6 student interns are diligently working this summer as a project planning team. They are focusing on various aspects of the facility, from design and equipment needs to marketing and social media. We anticipate completing the project planning phase this summer, to be followed by focused fundraising efforts to install and maintain Innovation 5. Impression 5 Science Center is strongly supportive of this project and has generously offered to provide ample space within their current building envelope for Innovation 5. With this support as well as financial support already received from Lansing area community, education and economic development groups, we are confident that we are well on our way to creating Innovation 5, the first facility of its kind in the United States, and one that has great potential to be replicated nationally.
This project engages members of racially and economically diverse communities in identifying and carrying out environmental projects that are meaningful to their lives, and adapts technology known as NatureNet to assist them. NatureNet, which encompasses a cell phone app, a multi-user, touch-based tabletop display and a web-based community, was developed with prior NSF support. Core participants involved in programs of the Anacostia Watershed Society in Washington, D.C., and Maryland, and the Reedy Creek Nature Preserve in Charlotte, NC, will work with naturalists, educators, and technology specialists to ask scientific questions and form hypotheses related to urban waterway restoration and preservation of native species. They will then collect and analyze data using NatureNet, requesting changes to the technology to customize it as needed for their projects. Casual visitors to the nature centers will be able to interact with the environmental projects via the tabletop, and those who live farther away will be able to participate more peripherally via the online community. The research project, led by researchers from the University of Maryland, College Park, with collaborators from the University of North Carolina, Charlotte, and the University of Colorado, Boulder, will provide answers to two questions: 1) How do community-driven informal environmental learning projects impact participants, including their motivation to actively participate in science issues via technology and their disposition toward nature preserves and scientific inquiry? and 2) What are the key factors (e.g., demographic composition of participants, geographical location) that influence the development of community-driven environmental projects? Researchers will gather extensive qualitative and quantitative data to understand how community projects are selected and carried out, how participants approach technology use and adaptation, and how informal learning and engagement on STEM-related issues can be fostered over a period of several months and through iterative project cycles. Data will be collected through motivation questionnaires; focus groups; interviews; tabletop, mobile, and website interaction logs; field notes from participatory design and reflection sessions; and project journals kept by nature preserve staff. Through extensive research, iterative design, and evaluation efforts, researchers will develop an innovative model for community-driven environmental projects that will deepen informal science education by demonstrating how members of diverse communities connect environmental knowledge and scientific inquiry skills to the practices, values, and goals of their communities, and how technology can be used to facilitate such connections.
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TEAM MEMBERS:
Tom YehMary Lou MaherJennifer PreeceTamara CleggCarol Boston
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.
Engaging the public on emerging science technologies has often presented challenges. People may hold notions that science is too complicated for them to understand and the venues at which science is discussed are formal and perceived as inaccessible. One approach to address these challenges is through the Science Cafe, or Cafe Scientifique. We conducted five Science Cafes across Canada to gauge public awareness of the synthetic biology technology, its potential applications, and to evaluate the effectiveness of the Science Cafe platform as a knowledge-translation tool. Cafe participants were
The integration of research with education and outreach is an essential aspect of our Center's mission. In order to assure the most effective use of our expertise and resources, we have developed a multi-faceted approach with activities that focus on coherent themes that address our three primary audiences: research community, our neighborhood, and the general public. These activities include research internships, enrichment programs for students & teachers, and informal science opportunities.