Despite the many hours students spend studying science, only a few relate to these subjects in such a manner that it becomes a part of their essential worldview and advances their education in a larger sense - one in which they make a connection to the subject matter so that it becomes a source of inspiration and occupies a formative position in their life. Using the hermeneutic/phenomenological sense of lifeworld as our being in the world, we explore questions of identity in the teaching and learning of science. We suggest that by taking the notion of identity in science to include students'
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TEAM MEMBERS:
Richard CozollMargery Osborne
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 purpose of this paper is to explore and discuss the role of practical work in the teaching and learning of science at school level. It emphasizes practical work as a means for students to learn about the nature of science.
Reports from the NSF, NRC, AAAS, and others urge over and over that we must teach "science as science is done," that "science is a way of knowing," that our goal should be to impart "scientific habits of mind," and that learning must be learner-centered and oriented toward process. Fine. But what does this really mean for science education, and especially laboratory education?
The purpose of this paper is to examine the role of laboratory-based science from a perspective that synthesizes developments in (1) science studies, e.g., history, philosophy and sociology of science and (2) the learning sciences, e.g., cognitive science, philosophy of mind, educational psychology, social psychology, computer sciences, linguistics, and (3) educational research focusing on the design of learning environments that promote dynamic assessments. Taken together these three domains have reshaped our thinking about the role inquiry, and in turn the laboratory, has in science
The Museum of Science in Boston will develop exhibits and programs for visitors to use models as tools for understanding the world around them. It is the 4th stage of a six-part, long-range vision and plan that focuses on comprehending science as a way of thinking and doing. "Making Models" will serve over one million visitors per year, mostly families and school groups. The models to be featured include physical, biological, conceptual, mathematical, and computer simulation models. Four (4) specific science inquiry skills will be stressed, which are associated with making and using models: recognition of similarities, assessment of limitations, communication of ideas, and the creation of one's own models for developing personal understanding and appreciation of the world in which we live. In tandem with this new exhibit, some current exhibits and programs will be modified to meet these modeling goals. Demonstrating the application of these new exhibit techniques for other museums and science centers, and evaluating how visitors learn in this setting will also be performed, with the results disseminated on a national level. The Museum will collaborate with two (2) other nationally known sites in this development and evaluation of exhibit components, creation of new teacher development programs, and the development of models-related web resources.
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TEAM MEMBERS:
Douglas SmithLarry BellPaul Fontiane
ScienceQuest is an innovative program created by the Education Development Center that fosters an interest in science and technology among adolescents ages 10-14. This program builds on the successful "ThinkQuest" model, in which small teams of 2-3 students work with adult coaches to research subjects of interest and share their knowledge through the creation of websites. "ScienceQuest" teams focus on science topics and are housed in HUD Neighborhood Network technology centers, located in communities with HUD-assisted or insured housing residents. Participants include individuals with and without disabilities from low-income urban areas. Students select a science topic and research it using online resources, hands-on experiments and visits to museums and science centers. Coaches such as scientists, teachers, museum staff and other role models, as well as on-line scientists, provide assistance by setting goals, devising an action plan and identifying appropriate resources. The "I-Search" model, a four-step strategy used to direct student inquiry, is used to guide investigations and aid in content acquisition. Once completed, websites are mounted on the "ThinkQuest" server. Parental participation is encouraged throughout the process. "ScienceQuest" will be piloted in the greater Boston area in year one, and disseminated to 75 Neighborhood Network sites throughout the country in years two and three of the grant. Each site may have one or more teams. With more than 500 Neighborhood Networks in place, "ScienceQuest" has the potential for widespread dissemination.
Temple University's "Sisters in Science in the Community (SISCOM)" is a constructivist-based, inclusive youth/community project targeting underrepresented urban middle and high school girls in grades 6-10 and their families; it supports inclusion of girls with disabilities. It engages girls and their parents in hands-on, inquiry-based sports science in after-school, Saturday, and summer programs co-hosted by community-based organizations and Temple University. Girls will also be engaged in student-centered research projects guided by female scientists. With regard to intellectual merit, SISCOM is based on previous research done by Temple on methods for engaging girls and their parents in STEM activities. The infrastructure of research and practices in education will be facilitated through the sharing of information between the network of partners and the national community of formal and informal educators
Coastal Communities for Science: A Bering Sea Partnership is a 3-year program of collaboration among the WWF-US, four Alaska native rural communities and regional scientists investigating the ecology of the Bering Strait. Its primary purpose is to advance youth interaction with science and it proposes to achieve this by engaging young people from high school and beyond to conduct research with scientists. The project which involves training community youth on science and research methods, capacity building of informal educators in these rural communities to lead and encourage field-based programs, inclusion of community elders in the overall learning and communication of science concepts and the creation of a model of collaboration. The science content, an amalgam of community interest and researcher interest, is grounded in local environmental and economic issues. With WWF's support and electronic technology, this has the potential of being a model project that is broadly disseminated at local, regional and national levels.
WGBH's Science Unit is requesting funds to produce for NOVA a two-hour television special based on David Bodanis' book "E=mc2: A Biography of the World's Most Famous Equation." Combining dramatic and documentary techniques, the program uses Einstein's iconic equation to explore the physics behind the equation and the nature of the scientific process. A media initiative, an interactive Web site, and an outreach campaign broaden the program's impact beyond the television broadcast. "E=mc2" is intended for prime-time broadcast on PBS in the fall of 2005, to coincide with the centennial of Einstein's "Miracle Year," and should reach an initial audience of seven million viewers. Outreach kits will be made available for free to 16,000 public libraries and 1,000 after-school programs. Notification of educational resources will be sent to all 14,000 high school physics teachers around the country. A formative evaluation of the program and a summative evaluation of the program and outreach materials will ensure that "E=mc2" achieves its ultimate purpose: to enhance public understanding of science and promote scientific careers. Key Project Personnel: Director of the WGBH Science Unit and Senior Executive Producer of NOVA: Paula S. Apsell Writer/Director: Kevin Macdonald Producer: John Smithson Formative Evaluation: Multimedia Research Summative Evaluation: Goodman Research Group
Understanding the Science Connected to Technology (USCT) targets information technology (IT) experiences in a comprehensive training program and professional support system for students and teachers in science, technology, engineering and mathematics (STEM). Participants have opportunities to assume leadership roles as citizen volunteers within the context of science and technology in an international watershed basin. Training includes collection, analysis, interpretation and dissemination of scientific data. BROADER IMPACTS: Building on a student volunteer monitoring program called River Watch, the USCT project enables student scientists to conduct surface water quality monitoring activities, analyze data and disseminate results to enhance local decision-making capacity. The project incorporates state and national education standards and has the potential to reach 173 school jurisdictions and 270,000 students. USCT will directly impact 81 teachers, 758 students and 18 citizen volunteers. The USCT project provides direct scientist mentor linkages for each participating school. This linkage provides a lasting process for life-long learning and an understanding of how IT and STEM subject matter is applied by resource professionals. Broader impacts include accredited coursework for teachers and students, specialized training congruent with the "No Child Left Behind Act of 2001," and building partnerships with Native American schools. INTELLECTUAL MERIT: The USCT project is designed to refocus thinking from static content inside a textbook to a process of learning that includes IT and STEM content. The USCT engages students (the next generation of decision makers) in discovery of science and technology and expands education beyond current paradigms and political jurisdictions.
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TEAM MEMBERS:
Charles FritzGerald VanAmburg
resourceprojectProfessional Development, Conferences, and Networks
The Bay Area Discovery Museum will expand their "My Place by the Bay" theme with new programmatic elements that "reinforce the theme that people, plants and animals live together and depend upon each other to survive." Three new activity areas will be developed that focus on science learning: A) an outdoor "Tot Lot" for early science learners; B) an outdoor "Discovery Cove" focusing on place-specific elements of their bayshore site; and C) an indoor recreated "Research Vessel" outfitted with a simulated navigaion station and marine biology laboratory. The learning goals for these three areas are: 1) "The Bay environment is home to many living things"; and 2) "I can do science to explore and learn about my world". The "Tot Lot," built into a hill, will be a one-half acre, multi-sensory, outdoor, prepared environment for children under five to learn about animals living in three distinct Bay habitats: woodland, stream and meadow. The "Discovery Cove" will be a two-acre area prepared environment for children up to age eight. Learners will be encouraged to see the bay as an integrated system that includes animal adaptations, ecological relationships and human activity. The "Research Vessel" is inspired by the R/V Questuary and is the place where visitors will use authentic tools to do science. Other features of this project include an integrated system of Parenting Messages that includes special signage for parents and a Families Ask Guide for families with children ages seven and under that is a joint effort of DABM, Golden Gate National Recreation Area and the Golden Gate National Parks Association. They will also develop a series of teacher workshops that will link this informal learning space with the needs of formal education. One specific school group with whom they will work is the Junipero Serra, an NSF Urban Systemic Intiative site.