The Center for Chemistry at the Space-Time Limit (CaSTL)’s outreach program in collaboration with the California Science Project at Irvine (CSPI), housed at the Center for Educational Partnerships at UC Irvine designed, created, implemented, and consistently refined a science program for 8-12 year old students at the Boys and Girls Club(BGC) in Santa Ana, California. The year-long weekly program and 4-day summer camp consisted of hour-long lessons designed to connect to CaSTL’s research goals of investigation at the microscopic level. Appendix includes observation protocol, performance measure
This article presents extracurricular lesson plans and activities about sound propagation and acoustic communication. The activities were developed by STEM researchers. They align with the Next Generation Science Standards (NGSS) and are designed for fourth-grade students.
Conceptual change views of teaching and learning processes in science, and also in various other content domains, have played a significant role in research on teaching and learning as well as in instructional design since the late 1970s. An important issue is whether conceptual change can provide a powerful framework for improving instructional practice in such a way that students’ levels of scientific literacy are significantly increased. In this article, the first section provides an overview on the development of conceptual change perspectives. In sections two to six, we examine the
Making assumptions is an important step in solving many real-world problems. This study investigated whether participants who could solve well-defined physics problems could also solve a real-world physics problem that involved the need to make assumptions. The participants, who all had at least a BA in physics, were videotaped “thinking aloud” while solving three well-defined and one real-world problem and then interviewed about the problem-solving process. All the problems dealt with the same scientific content. The recordings were analyzed to identify similarities and differences in the
This article explores the roots of the citizen science movement. It uses several ongoing projects as examples, including the Audubon's Christmas Bird Count, research into bee colony collapse, and nanotechnology programs. The article concludes by providing guidance for the development of future citizen science projects, focusing on an increased dialogue between traditional and informal science education.
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TEAM MEMBERS:
Michael MuellerDeborah TippinsLynn Bryan
The Magnet Lab has a strong commitment to education. Through the Center for Integrating Research & Learning, the lab supports educational programming at all academic levels: K-12, technical, undergraduate, graduate and postdoctoral. Please explore the links listed to the left to find out more about the depth of our educational resources for the community, for teachers and for students as well as our unique research offerings. Our programs are designed to excite and educate students, teachers and the general public about science, technology and the world around them. All of our programs are developed in close collaboration with research scientists and educators. Housed at and partly funded by the MagLab, the Center is uniquely positioned to take advantage of the excellent resources, connections, world-class facilities and cutting-edge science the lab has to offer. We also receive generous support from the National Science Foundation and the State of Florida. The Center maintains a rigorous research agenda designed to investigate how Center programs and materials affect teachers and students. Our Mission Statement is to expand scientific literacy and to encourage interest in and the pursuit of scientific studies among educators and students of all ages through connections between the National High Magnetic Field Laboratory and the National Science Foundation, the community of Tallahassee, the State of Florida and the nation.
The requirement by the National Science Foundation (NSF) that research proposals include plans for "broader impact" activities to foster connections between Science, Technology, Engineering, and Math (STEM) research and service to society has been controversial since it was first introduced. A chief complaint is that the requirement diverts time and resources from the focus of research and toward activities for which researchers may not be well prepared. This paper describes the theoretical framework underlying a new strategy to pair NSF-funded nano research centres with science museums in
This award continues funding of a Center to conduct research and education on the interactions of nanomaterials with living systems and with the abiotic environment. The goals of this Center are to develop a predictive understanding of biological and ecological toxicology for nanomaterials, and of their transport and transformation in the environment. This Center engages a highly interdisciplinary, multi-institutional team in an integrated research program to determine how the physical and chemical properties of nanomaterials determine their environmental impacts from the cellular scale to that of entire ecosystems. The research approach promises to be transformative to the science of ecotoxicology by combining high throughput screening assays with computational and physiological modeling to predict impacts at higher levels of biological organization. The Center will unite the fields of engineering, chemistry, physics, materials science, cell biology, ecology, toxicology, computer modeling, and risk assessment to establish the foundations of a new scientific discipline: environmental nanotoxicology. Research on nanomaterials and development of nanotechnology is expanding rapidly and producing discoveries that promise to benefit the nation?s economy, and improve our ability to live sustainably on earth. There is now a critical need to reduce uncertainty about the possible negative consequences of nanomaterials in the environment, while at the same time providing guidelines for their safe design to prevent environmental and toxicological hazards. This Center addresses this societal need by developing a scientific framework of risk prediction that is paradigm-shifting in its potential to keep pace with the commercial expansion of nanotechnology. Another impact of the Center will be development of human resources for the academic community, industry and government by training the next generation of nano-scale scientists, engineers, and regulators to anticipate and mitigate potential future environmental hazards of nanotechnology. Partnerships with other centers will act as powerful portals for the dissemination and integration of research findings to the scientific, educational, and industrial communities, both nationally and internationally. This Center will contribute to a network of nanotechnology centers that serve the national needs and expand representation and access to this research and knowledge network through programs directed at California colleges serving underrepresented groups. Outreach activities, including a journalist-scientist communication program, will serve to inform both experts and the public at large about the safety issues surrounding nanotechnology and how to safely produce, use, and dispose of nanomaterials.
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TEAM MEMBERS:
Andre NelYoram CohenHilary GodwinArturo KellerPatricia Holden
resourceevaluationProfessional Development, Conferences, and Networks
In February 2013, the Atomic Heritage Foundation (AHF) brought together historians, sociologists and other scholars, as well as museum directors and thought leaders from the informal science education field to engage in a two-day discussion to explore ways to engage the public in the topic of the development of the atomic bomb in the context of history, society and culture. The workshop, titled "Transforming the Relationship Between Science and Society: The Manhattan Project and Its Legacy," had as its overarching goal to identify how the Manhattan Project might best be interpreted in a
On February 14-15, 2013, the Atomic Heritage Foundation (AHF) hosted a workshop in Washington, DC: "Transforming the Relationship between Science and Society: Interpreting the Manhattan Project." The workshop, funded by the National Science Foundation, brought together historians, scientists, museum experts, and representatives of the National Park Service, Department of Energy and Manhattan Project museums from across the country. The goals of the workshop were to develop ideas for interpreting the controversial history and legacy of the Manhattan Project for a national traveling exhibit. By
Project LIFTOFF works with local, regional, and national partners to engineer statewide systems for Informal Science Education that inspire: YOUTH to pursue STEM education and careers through increased opportunities for quality, hands-on STEM learning. AFTERSCHOOL STAFF to facilitate STEM learning experiences that contribute to the overall STEM education and aspirations of youth in their programs. PROGRAM ADMINISTRATORS to encourage and support staff in the integration of STEM enrichment into the daily programming. STATE LEADERS to sustain and expand afterschool learning opportunities so that all students have access to engaging STEM experiences outside of the regular school day. Project LIFTOFF is dedicated to the development of the following essential elements of statewide systems for informal science education:
Access to appropriate STEM Curriculum for youth of all ages, abilities, and socio-cultural backgrounds that meets the needs and interests of individual community programs
Systematic STEM Professional Development that matches individual skills in positive youth development with abilities to facilitate discovery and science learning
A diverse Cadres of Trainers who will deliver the professional development, technical assistance and curriculum dissemination in their local communities
Authentic Evaluation of informal science efforts that determine the impacts on youth aspirations and the capacity of youth programs to provide quality STEM experiences
Local STEM education leadership to identify the ways in which collaborative education efforts can advance the development of 21st Century Skills and the preparedness for STEM workforce and higher education
Partnerships in support of youth development and informal science education that convene local, regional, and statewide organizations and stakeholders
To advance national initiatives and states' sySTEM engineering efforts, LIFTOFF coordinates an annual convening, the Midwest Afterschool Science Academy, that brings together national informal science experts, system leaders and youth development professionals to elevate the levels of science after school. The 5th MASA will be in the spring of 2014 in Kansas City, MO
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TEAM MEMBERS:
Missouri AfterSchool NetworkJeff Buehler
This Nanoscale Science and Engineering Center (NSEC) is a collaboration among Harvard University, the Massachusetts Institute of Technology, the University of California—Santa Barbara, and the Museum of Science—Boston with participation by Delft University of Technology (Netherlands), the University of Basel (Switzerland), the University of Tokyo (Japan), and the Brookhaven, Oak Ridge, and the Sandia National Laboratories. The NSEC combines "top down" and "bottom up" approaches to construct novel electronic and magnetic devices with nanoscale sizes and understand their behavior, including quantum phenomena. Through a close integration of research, education, and public outreach, the Center encourages and promotes the training of a diverse group of people to be leaders in this new interdisciplinary field.