This presentation given at the 2013 Materials Research Society (MRS) Spring Meeting examines evidence for the effectiveness of STEM education programs at the National High Magnetic Field Laboratory.
One objective of the Center for High-rate Manufacturing is to increase knowledge of and interest in nanotechology among secondary and postsecondary students, educators, and the general public. The Center partners with the Museum of Science, Boston, to help carry out these goals. The Museum's CHN sub-award PI and her team provides training to graduate students to help them learn how to engage in education and outreach activities with these groups. To better understand graduate student education and outreach activities, and student participation in the Museum of Science outreach activities and
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TEAM MEMBERS:
UMass Donahue Institute Research and Evaluation GroupCarol Lynn AlpertCarol Barry
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
The Science Source Pathways Project will conduct initial work designing and testing a new model for providing news on STEM related topics to the rural and Native American communities in Montana. This project will enhance understanding of how the communication of scientific research reaches and impacts underrepresented audiences. A collaborative model will be developed between the environmental journalism program at the University of Montana and various local television, radio, and online media outlets that are either operated by or reach Native Americans on reservations and throughout the state. Project deliverables include a survey and analysis of current science reporting reaching this audience; and production and testing of prototype science news stories for dissemination on various platforms (print, radio, TV, web). The development of science news pieces will be led by graduate students in the School of Journalism under the careful guidance and mentorship of experienced professors. This project will enhance the communication and amount of STEM content delivered to underserved groups, and provide diverse opportunities for them to engage in STEM related environmental issues that affect their local communities.
A national facility a three-system ground-based mobile radar fleet, the Doppler On Wheels (DOWs). The three systems include two mobile X-band Doppler on Wheels and the 6 to 12 beam "Rapid Scan DOW". These radar systems have participated in research projects that have covered a broad range of topics including individual cumulus cloud studies, orographic precipitation and dynamics, hydrologic studies, fire weather investigations, severe convective storms and tropical cyclones at landfall. DOWs can be frequently utilized on site for educational activities, such as being part of a university atmospheric instrumentation courses. The DOWs can be operated by students with minimal, often remote, technical supervision. The DOWs add significantly to the facility infrastructure of the atmospheric sciences community.
The C-DEBI education program works with audiences at all levels (K-12, general public, undergraduate, graduate and beyond) in formal and informal settings (courses, public lectures, etc.). Sub-programs focus on community college research internships and professional development for graduate students and postdocs.
The mission of QESST public outreach is to provide a platform for engaging the community; students, parents, teachers, and the general public; in discussions about solar energy. Although there is a growing interest in advances of solar energy, many misconceptions prevail amongst the general community. Community outreach serves as a mechanism for engaging people and drawing them in. It is often the hook that creates interest in parents who pass that interest onto their children, or lures young students into more formalized QESST programs. Our outreach events range in scale from small workshops, large university wide open houses, and participation in educational television.
The PhET Interactive Simulations group at the University of Colorado is expanding their expertise of physics simulations to the development of eight-to-ten simulations designed to enhance students' content learning in general chemistry courses. The simulations are being created to provide highly engaging learning environments which connect real life phenomena to the underlying science, provide dynamic interactivity and feedback, and scaffold inquiry by what is displayed and controlled. In a second strand of the project, a group of experienced faculty participants are developing and testing lecture materials, classroom activities, and homework, all coordinated with well-established, research-based teaching methods like clicker questions, peer instruction, and/or tutorial-style activities, to leverage learning gains in conjunction with the simulations. The third strand of the project focuses on research on classroom implementation, including measures of student learning and engagement, and research on simulation design. This strand is establishing how specific characteristics of chemistry sim design influence engagement and learning, how various models of instructional integration of the sims affect classroom environments as well as learning and engagement, and how sim design and classroom context factors impact faculty use of sims. To ensure success the project is basing sim design on educational research, utilizing high-level software professionals (to ensure technically sophisticated software, graphics, and interfaces) working hand-in-hand with chemistry education researchers, and is using the established PhET team to cycle through coding, testing, and refinement towards a goal of an effective and user friendly sim. The collection of simulations, classroom materials, and faculty support resources form a suite of free, web-based resources that anyone can use to improve teaching and learning in chemistry. The simulations are promoting deep conceptual understanding and increasing positive attitudes about science and technology which in turn is leading to improved education for students in introductory chemistry courses both in the United States and around the world.