The article discusses an effective physical science center, which can be incorporated on the reading instructions of teachers, the inclined plane center, that helps enhance science teaching. It mentions that to create an inclined plane center, one must collect various objects that roll, slide and wobble and wooden cove molding for the tracks. The author thinks that it is not necessary to understand everything about force and motion, what is important is offering students with opportunities for concrete experiences.
The current political and social backdrop in China that is characterized by rapid educational reforms to the K-12 education system, rapid growth in the number of science museum institutions, and Central Government policy which encourages collaboration between museums and school has the potential to be fertile ground for meaningful engagement between museums and schools. Notwithstanding, the Chinese K-12 education system generally does not utilize museum resources to support the curriculum, as is common in Western countries. This hermeneutic phenomenographic study elucidates the current Chinese
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TEAM MEMBERS:
Changyun KangDavid AndersonXinchun Wu
The concern about students' engagement with school science and the numbers pursuing the further study of science is an international phenomenon and a matter of considerable concern among policy makers. Research has demonstrated that the majority of young children have positive attitudes to science at age 10 but that this interest then declines sharply and by age 14, their attitude and interest in the study of science has been largely formed. This paper reports on data collected as part of a funded 5-year longitudinal study that seeks to determine how students' interest in science and
This paper reports on the findings of a case study that investigated the interaction of the agendas and practices of students, teachers, and zoo educators during a class field trip to a zoo. The study reports on findings of the analysis of two case classes of students and their perceptions of their learning experiences during the field trip. The goals, expectations, and perceived outcomes of the trip for students, their classroom teachers, and the zoo educators were elicited through interviews, surveys, student work, and observations. Both cases demonstrated how students placed high value and
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TEAM MEMBERS:
Susan Kay DavidsonCynthia PassmoreDavid Anderson
This study examines the development and ongoing activities of a collaboration between an urban elementary school and a nearby aquarium. Although the benefits of such collaborations in support of science education are touted by numerous national organizations, the pathway to creating a successful relationship between these two different institutions, with inherently different cultures, is less well documented. Using the theoretical framework of communities of practice (E. Wenger, 1998), a better understanding of the challenges and successes of this collaboration is presented. In particular, the
We examine the research conducted by Kang, Anderson and Wu by discussing it in a larger context of science museum-school partnerships. We review how the disconnect that exists between stakeholders, the historical and cultural contexts in which formal and informal institutions are situated, and ideas of globalization, mediate the success for formal-informal partnerships to be created and sustained.
This report is the result of a two-year study that sought to provide a sustained, coherent, and proactive effort to identify and develop the future science, technology, engineering, and math (STEM) innovators in the United States. The report puts forth several policy recommendations, including: increasing K-12 access to accelerated coursework and enrichment programs; offering more “above-level tests,” especially in economically disadvantaged urban and rural areas; holding schools, and perhaps districts and states, accountable for the performance of the top students at each grade level; and
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TEAM MEMBERS:
National Science BoardNational Science Board
resourceresearchProfessional Development, Conferences, and Networks
This report addressed a request from the President in 2009 to develop specific recommendations concerning the most important actions that the administration should take to ensure that the United States is a leader in STEM education in the coming decades. The report focuses primarily on the K-12 level, and lists two main conclusions: that we must focus on preparation and inspiration to improve STEM education, and that the federal government has historically lacked a coherent strategy and sufficient leadership capacity for K-12 STEM education. Additionally, the report includes seven policy
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TEAM MEMBERS:
President’s Council of Advisors on Science and TechnologyPresident’s Council of Advisors on Science and Technology
This report is the National Education Technology Plan (NETP) submitted by the U.S. Department of Education (ED) to Congress. It presents five goals with recommendations for states, districts, the federal government, and other stakeholders. Each goal addresses one of the five essential components of learning powered by technology: Learning, Assessment, Teaching, Infrastructure, and Productivity. The plan also calls for "grand challenge" research and development initiatives to solve crucial long-term problems that the ED believes should be funded and coordinated at a national level.
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TEAM MEMBERS:
U.S. Department of EducationDaniel AtkinsJohn BennettJohn Seely BrownAneesh ChopraChris DedeBarry FishmanLouis GomezMargaret HoneyYasmin KafaiMaribeth LuftglassRoy PeaJim PellegrinoDavid RoseCandace ThilleBrenda Williams
Arizona State University (ASU) in collaboration with Arizona Science Center, Boeing, Intel, Microchip, Motorola, Salt River Project, AZ Foundation for Resource Education, AZ Game & Fish Department, US Partnership for the Decade of Education for Sustainable Development, Mesa Public Schools, and Boys & Girls Clubs of the East Valley, offer a three-year extracurricular project resulting in IT/STEM-related learning outcomes for 96 participants in grades 7, 8, and 9. The project targets and engages female and minority youth traditionally under-represented in IT/STEM fields in multi-year out-of-school technological design and problem solving experiences. These include summer internships/externships and university research in the science center and industrial settings where participants develop socially responsible solutions for challenging real world problems. The program includes cognitive apprenticeships with diverse mentors, opportunities to practice workplace skills such as leadership, teamwork, time management, creativity and reporting, and use of technological tools to gather and analyze complex data sets. Participants simulate desert tortoise behaviors, research and develop designs to mitigate the urban heat island, build small-scale renewable energy resources, design autonomous rovers capable of navigating Mars-like terrain, and develop a model habitat for humans to live on Mars. Together with their families participants gain first-hand knowledge of IT/STEM career and educational pathways. In addition to youth outcomes, the adults associated with this project are better prepared to positively influence IT/STEM learning experiences for under-represented youth. The evaluation measures participant content knowledge, attitudes and interest in IT/STEM subjects, workplace skills and intentions to pursue IT/STEM educational and career pathways to understand participant reactions, learning, transfer and results. Informal curricula developed through this project, field-tested with youth at Boys & Girls Clubs and youth at Arizona Science Center will be available on the project website.
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TEAM MEMBERS:
Tirupalavanam GaneshMonica ElserStephen KrauseDale BakerSharon Robinson-Kurplus
resourceprojectWebsites, Mobile Apps, and Online Media
SETAC is funded by the Lifelong Learning Programme of the European Union and emerges out of the need to undertake specific action for the improvement of science education. It regards science education as among the fundamental tools for developing active citizens in the knowledge society. SETAC draws on the cooperation between formal and informal learning institutions, aiming to enhance school science education and active citizenship looking further into the role of science education as a lifelong tool in the knowledge society. On the day of the project’s conclusion, 31 October 2010, after two years of work SETAC contributes the following products and results to the field: 1. “Quality Science Education: Where do we stand? Guidelines for practice from a European experience” This is the concluding manifesto that presents the results of the SETAC work in the form of recommendations for practitioners working in formal and informal science learning institutions; 2. “Teaching and Learning Scientific Literacy and Citizenship in Partnership with Schools and Science Museums” This paper constitutes the theoretical framework of the project and innovative ways of using museums for science education and develop new modes of linking formal and informal learning environments; 3. Tools for teaching and learning in science: misconceptions, authentic questions, motivation. Three specific studies, leading to three specific reports, have been conducted in the context of the project, looking in particular into notions with an important role in science teaching and learning. These are on: Children’s misconceptions; Authentic questions as tool when working in science education; Students’ attitudes and motivation as factors influencing their achievement and participation in science and science-related issues; 4. Activities with schools: SETAC developed a series of prototype education activities which were tested with schools in each country. Among the activities developed between the partners, two have been chosen and are available on-line for practitioners to use and to adapt in their own context. These are: The Energy role game, a role game on Energy invites students to act in different roles, those of the stakeholders of an imaginary community, called to debate and decide upon a certain common problem; MyTest www.museoscienza.org/myTest, which aims to encourage students to engage in researching, reflecting and communicating science-oriented topics; 5. European in-service training course for primary and secondary school teachers across Europe. The training course is designed in such a way as to engage participants in debate and exploration of issues related to science education and active citizenship. The course is open to school teachers, headteachers and teacher trainers from all EU-member and associate countries. Professionals interested can apply for a EU Comenius grant. All the products of the project as well as information about the training course are available at the project website, some of them in more than one languages: www.museoscienza.org/setac
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.