The Maryland Science Center (MSC), in collaboration with Johns Hopkins University (JHU), the University of Maryland, Baltimore (UMB), and Morgan State University (MSU), has sought the support of the National Institutes of Health SEPA (Science Education Partnership Award) Program to develop "Cellular Universe: The Promise of Stem Cells," a unique exhibition and update center with related programs that highlight the most current science in cell biology and stem cell research. Visitor surveys have shown that science museum visitors are very interested in learning about stem cell research, but know little about the science of stem cells or cell biology, which form the basis of stem cell research. The goal of this project is to help visitors learn about advances in cell biology and stem cells so that they will make informed health-related decisions, explore new career options, and better understand the role of basic and clinical research in health advances that affect people's lives. Topics to be covered include the basic biology of cells, the role of stem cells in human development, current stem cell research and the clinical research process. This exhibition will also address the controversies in stem cell research. Our varied advisory panel, including cell biologists, physiologists, adult and embryonic stem cell researchers and bioethicists, will ensure the objectivity of all content. "Cellular Universe: The Promise of Stem Cells" will be a 3,500 square-foot exhibition to be planned, designed and prototyped in Fall 2006-Winter 2009, and installed in MSC's second-floor human body exhibition hall in Spring 2009. This exhibition will build on the successful model of "BodyLink," our innovative health science update center funded by a 2000 SEPA grant (R25RR015602) and supported by partnerships with JHU and UMB.
The Science and Math Informal Learning Education (SMILE) pathway is serving the digital resource management needs of the informal learning community. The science and math inquiry experiences offered by science and technology centers, museums, and out-of-school programs are distinct from those found in formal classrooms. Interactive exhibits, multimedia presentations, virtual environments, hands-on activities, outdoor field guides, engineering challenges, and facilitated programs are just some of the thoughtfully designed resources used by the informal learning community to make science and math concepts come alive. With an organizational framework specifically designed for informal learning resources, the SMILE pathway is empowering educators to locate and explore high-quality education materials across multiple institutions and collections. The SMILE pathway is also expanding the participation of underrepresented groups by creating an easily accessible nexus of online materials, including those specifically added to extend the reach of effective science and math education to all communities. To promote the use of the SMILE pathway and the NSDL further, project staff are creating professional development programs and a robust online community of educators and content experts to showcase best practices tied to digital resources. Finally, to guarantee continued growth and involvement in the SMILE pathway, funding and editorial support is being provided to expansion partners, beyond the founding institutions, to add new digital resources to the NSDL.
This research oriented project integrates the informal and formal science education sectors, bringing their combined resources to bear on the critical need for well-prepared and diverse urban science teachers. It represents a partnership among The City College of New York (CCNY), the New York Hall of Science (NYHOS), and the City University of New York Center for Advanced Study in Education (CUNY-CASE). It integrates the Science Career Ladder, a sustained program of informal science teaching training and employment at the NYHOS, with the CCNY science teacher preparation program. The longitudinal and comparative research study being conducted is designed to examine and document the effect of this integrated program on the production of urban science teachers. Outcomes from this study include a new body of research related to the impact of internships in science centers on improving classroom science teaching in urban high schools. Results are being disseminated to both the informal science education community (through the Association for Science and Technology Centers and the Center for Informal Learning in Schools, an NSF supported Center for Learning and Teaching situated at the San Francisco Exploratorium) and the formal education community (through the National Science Teachers Association and the American Educational Research Association).
The Science Career Ladder program engages undergraduates as inquiry-based interpreters (Explainers) for visitors to the NY Hall of Science. Integrating this experience with a formal teacher certification program enables participants to coordinate experiences in the science center, college science and education classes, and K-12 classrooms. Participants receive a license to teach science upon graduating. The approach has its theoretical underpinnings in the concept of situated learning as noted by Kirshner and Whitson (1997, Situated Cognition: Social, Semiotic and Psychological Perspectives, Mahwah, NJ: Erlbaum). Through apprenticeship experiences, situated learning recreates the complexity and ambiguity of situations that learners will face in the real world. Science centers provide a potentially ideal setting for situational learning by future teachers, allowing them to develop, exercise and refine their science teaching and learning skills as noted by Gardner (1991, The Unschooled Mind, New York: Basic Books).
There is a well-documented shortage of science teachers in urban school districts. The causes of this shortage relate to all phases of the teacher professional continuum, from recruitment through training and retention. At the same time, the demographic composition of American teachers is increasingly out of synch with the demographics of the student population, raising concerns that a critical shortage of role models may be at hand, contributing to a worsening situation in urban schools. In the face of these challenges many innovative teacher recruitment and teacher preparation programs have been developed to augment traditional pathways to teaching. These programs range from high school academies for students expressing an interest in teaching to the recruitment and training of individuals making mid-life career changes. The CLUSTER program described above represents a new alternative. There are more than 250 science centers in the United States. Many of these have extensive youth internship programs and collaborative relationships with local colleges. Therefore, the proposed model is widely applicable.
The Astronomical Society of the Pacific, in collaboration with the Institute for Learning Innovation, will implement "Sharing the Universe." This research and implementation project is designed to include both a comprehensive, two-phased research component, as well as a large-scale national dissemination. The intended impacts are to improve the quality and effectiveness of informal science education activities provided by amateur astronomers; increase the frequency of public engagements in astronomy; and broaden the variety of events and diversity of the outreach to include underserved and underrepresented audiences. The project will create a community of practice using club leaders to improve astronomy clubs nationwide through research tools, training and outreach skills. Project deliverables include Phase I research which is designed to gain an understanding of how outreach-orientated clubs function and identify strategies that make successful clubs effective. Phase II will examine a core group of 20 clubs in detail to further understand the outreach culture while using interventions developed from the Phase I results such as a training DVD, Online Resource Library, Outreach Toolkit and a robust community of practice. The final deliverable will be the dissemination of proven strategies and best practices revealed by the research to 200 diverse astronomy clubs across the country. Strategic impact will be realized in increased outreach capacity among amateur astronomers and a strong model for astronomy clubs with proven best practices and resources. It is anticipated this project will reach more than 4,400 amateur astronomers and indirectly impact more than one million Americans in astronomy clubs in four years. Inverness Research will conduct the summative evaluation of the project.
The University of Massachusetts Lowell and Machine Science Inc. propose to develop and to design an on-line learning system that enables schools and community centers to support IT-intensive engineering design programs for students in grades 7 to 12. The Internet Community of Design Engineers (iCODE) incorporates step-by-step design plans for IT-intensive, computer-controlled projects, on-line tools for programming microcontrollers, resources to facilitate on-line mentoring by university students and IT professionals, forums for sharing project ideas and engaging in collaborative troubleshooting, and tools for creating web-based project portfolios. The iCODE system will serve more than 175 students from Boston and Lowell over a three-year period. Each participating student attends 25 weekly after-school sessions, two career events, two design exhibitions/competitions, and a week-long summer camp on a University of Massachusetts campus in Boston or Lowell. Throughout the year, students have opportunities to engage in IT-intensive, hands-on activities, using microcontroller kits that have been developed and classroom-tested by University of Massachusetts-Lowell and Machine Science, Inc. About one-third of the participants stay involved for two years, with a small group returning for all three years. One main component for this project is the Handy Cricket which is a microcontroller kit that can be used for sensing, control, data collection, and automation. Programmed in Logo, the Handy Cricket provides an introduction to microcontroller-based projects, suitable for students in grades 7 to 9. Machine Science offers more advanced kits, where students build electronic circuits from their basic components and then write microcontroller code in the C programming language. Machine Science offers more advanced kits, which challenge students to build electronic circuits from their basic components and then write microcontroller code in the C programming language. Machine Science's kits are intended for students in grades 9 to 12. Microcontroller technology is an unseen but pervasive part of everyday life, integrated into virtually all automobiles, home appliances, and electronic devices. Since microcontroller projects result in physical creations, they provide an engaging context for students to develop design and programming skills. Moreover, these projects foster abilities that are critical for success in IT careers, requiring creativity, analytical thinking, and teamwork-not just basic IT skills.
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TEAM MEMBERS:
Fred MartinDouglas PrimeMichelle Scribner-MacLeanSamuel Christy
resourceprojectProfessional Development, Conferences, and Networks
The Coalition for Science After School (CSAS) was established in 2004 in response to the growing need for more STEM (science, technology, engineering, and mathematics) learning opportunities in out-of-school time. CSAS sought to build this field by uniting STEM education goals with out-of-school time opportunities and a focus on youth development. Over a decade of work, CSAS Steering Committee members, staff and partners advocated for STEM in out-of-school-time settings, convened leaders, and created resources to support this work. CSAS leadership decided to conclude CSAS operations in 2014, as the STEM in out-of-school time movement had experienced tremendous growth of programming and attention to science-related out-of-school time opportunities on a national level. In its ten-year strategic plan, CSAS took as its vision the full integration of the STEM education and out-of-school time communities to ensure that quality out-of-school time STEM opportunities became prevalent and available to learners nationwide. Key CSAS activities included: (1) Setting and advancing a collective agenda by working with members to identify gaps in the field, organizing others to create solutions that meet the needs, identifying policy needs in the field and supporting advocates to advance them; (2) Developing and linking committed communities by providing opportunities for focused networking and learning through conferences, webinars, and other outreach activities; and (3) Identifying, collecting, capturing, and sharing information and available research and resources in the field. The leadership of the Coalition for Science After School is deeply grateful to the funders, partners, supporters, and constituents that worked together to advance STEM in out-of-school time during the last decade, and that make up today's rich and varied STEM in out-of-school time landscape. We have much to be proud of, but as a movement there is much more work to be done. As this work continues to expand and deepen, it is appropriate for the Coalition for Science After School to step down as the many other organizations that have emerged over the last decade take on leadership for the critical work that remains to be done. A timeline and summary of CSAS activities, products, and accomplishments is available for download on this page. All resources noted in the narrative are also available for download below.
The Astronomical Society of the Pacific (ASP) will develop and test a new model of informal science education professional development to help small museums increase the public's knowledge and interest in astronomy. The lead collaborators in addition to ASP are the National Optical Astronomy Observatory (NOAO) and the Association of Science Technology Centers (ASTC). The project deliverables include 1) workshops for approximately 240 informal science education (ISE) practitioners in 180 small ISE institutions delivered both on-site and through distance learning 2) hands-on astronomy activity toolkits and 3) an on-going "community of practice" network. The project development team includes representatives from small ISE institutions (Randall Museum, CA; Lakeview Museum of Arts and Science, IL; Stamford Museum & Nature Center, CT) as well as others. This project has the potential for making a strategic impact on the ISE field with its research on the use of distance learning compared to on-site professional development workshops
The Learning and Youth Research and Evaluation Center (LYREC) is a collaboration of the Exploratorium, Harvard University, Kings College London, SRI International and UC Santa Cruz. LYREC provides technical assistance to NSF AYS projects, collects and synthesizes their impact data, and oversees dissemination of progress and results. This center builds on the Center for Informal Learning in Schools (CILS) that has developed a theoretical approach that takes into account the particular strengths and affordances of both Out of School Teaching (OST) and school environments. This foundation will permit strengthening the potential of the NSF AYS projects to develop strong local models that can generate valid and reliable data that can guide future investment, design and research aimed at creating coherence across OST and school settings. The overarching questions for the work are: 1. How can OST programs support K-8 engagement and learning in science, and in particular how can they contribute to student engagement with K-8 school science and beyond? 2. What is the range of science learning outcomes OST programs can promote, particularly when in collaboration with schools, IHE's, businesses, and other community partners? 3. How can classroom teachers and schools build on children's OST experiences to strengthen children's participation and achievement in K-12 school science Additionally, the data analysis will reveal: 1. How OST programs may be positioned to support, in particular, high-poverty, female and/or minority children traditionally excluded from STEM academic and career paths; and 2. The structural/organizational challenges and constraints that exist to complicate or confound efforts to provide OST experiences that support school science engagement, and conversely, the new possibilities which are created by collaboration across organizational fields. Data will be gathered from surveys, interviews, focus groups, evaluation reports, and classroom and school data.
This research study involves collaboration between researchers at the University of Maryland, College Park and Bowie State University, an HBCU, to examine a multi-component pre-service model for preparing minority students to teach upper elementary and middle level science. The treatment consists of (1) focused recruitment efforts by the collaborating universities; (2) a pre-service science content course emphasizing inquiry and the mathematics of data management; (3) an internship in an after school program serving minority students; (4) field placements in Prince Georges County minority-serving professional development schools; and (5) mentoring support during the induction year. The research agenda will examine each aspect of the intervention using quantitative and qualitative methods and a small number of case studies.
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TEAM MEMBERS:
James McginnisSpencer BensonScott Dantley
The goal of this engineering education project entitled EXTRAORDINARY WOMEN ENGINEERS (EWE) is to encourage more academically prepared high school girls to consider engineering as an attractive option for post-secondary education and subsequent careers in order to increase the number of women who make up the engineering workforce. Specific project objectives are to: 1) mobilize America's more than one million engineers to reach out to educators, school counselors, and high school girls with tested messages tailored to encourage participation in engineering education and careers; 2) help high school counselors and science, math, and technology teachers to better understand the nature of engineering, the academic background needed to pursue engineering, and the career paths available in engineering; 3) equip high school counselors and teachers to share this information with students, especially girls; and 4) reach out to girls directly with messages that accurately reflect the field of engineering and will inspire girls to choose engineering. The WGBH Educational Foundation has partnered with the American Association of Engineering Societies (AAES), American Society of Civil Engineers (ASCE), and a coalition of more than 50 of the country's engineering associations, colleges, and universities to fundamentally shift the way the engineering and educational communities portray engineering. Based on a needs assessment performed in 2004, the EWE coalition embraces a communication strategy that focuses on the societal value and rewards of being an engineer, as opposed to the traditional emphasis on the process and challenges of becoming an engineer. This project represents a nationwide outreach effort that includes training opportunities for engineers; targeted Web-based and print resources for students, school counselors and teachers, and engineers; and a range of outreach and marketing activities.
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TEAM MEMBERS:
Julie BenyoPatrick NataleF. Suzanne Jenniches
Assessing the Impact of a Visit to a Zoo or Aquarium: A Multi-institutional Research Project will create a functional taxonomy of zoo/aquarium visitors' entering knowledge, attitudes and behaviors. This taxonomy, in conjunction with data about the specific experiences visitors have during their visit, will enable investigators to understand and predict the contribution of zoos and aquariums to the public understanding of animals and their conservation. The results will clarify the role of zoos and aquariums as centers of informal learning and point to ways to strengthen their educational impact. The AZA convened a national advisory committee that commissioned and completed a thorough review, confirming a critical need to conduct more research, particularly research that attempts to ask broad questions, collect data systematically, and includes sufficient number and types of institutions to permit community-wide generalizations. Twelve AZA institutions of various sizes, geographic regions and types will participate in the study. The net result of the study will be a descriptive model of zoo and aquarium visitor learning experiences and development of a set of diagnostic tools to help zoo and aquaria staff understand and enhance the nature and extent of their public impact.
The National Research Council, through its Board on Science Education, will carry out a synthesis study of informal science learning based on a workshop funded by a prior NSF planning grant. The intellectual merit of this project is based on the formation of a committee of experts representative of the diversity of the field who will engage in a fact-finding process on learning science in informal settings, deliberate about the evidence and produce a major report that will be published by the National Academies Press. The study will describe the status of knowledge in the field currently, articulate a common framework for the next generation of research on informal science learning and provide guidance to the community of practice. By presenting what we know about the characteristics of effective informal science learning environments across a range of outcome measures, the study will achieve broader impacts by assisting practitioners, policymakers and researchers in directing their efforts towards realizing the potential of informal science education for advancing public science literacy.