There is a dearth of prominent STEM role models for underrepresented populations. For example, according to a 2017 survey, only 3.1% of physicists in the United States are Black, only 2.1% are Hispanic, and only 0.5% are Native American. The project will help bridge these gaps by developing exhibits that include simulations of historical scientific experiments enacted by little-known scientists of color, virtual reality encounters that immerse participants in the scientists' discovery process, and other content that allows visitors to interact with the exhibits and explore the exhibits' themes. The project will develop transportable, interactive exhibits focusing on light: how we perceive light, sources of light from light bulbs to stars, uses of real and artificial light in human endeavors, and past and current STEM innovators whose work helps us understand, create, and harness light now. The exhibits will be developed in three stages, each exploring a characteristic of light (Color, Energy, or Time). Each theme will be explored via multiple deliveries: short documentary and animated films, virtual reality experiences, interactive "photobooths," and technology-based inquiry activities. The exhibit components will be copied at seven additional sites, which will host the exhibits for their audiences, and the project's digital assets will enable other STEM learning organizations to duplicate the exhibits. The exhibits will be designed to address common gaps in understanding, among adults as well as younger learners, about light. What light really is and does, in scientific terms, is one type of hidden story these exhibits will convey to general audiences. Two other types of science stories the exhibits will tell: how contemporary research related to light, particularly in astrophysics, is unveiling the hidden stories of our universe; and hidden stories of STEM innovators, past and present, women and men, from diverse backgrounds. These stories will provide needed role models for the adolescent learners, helping them learn complex STEM content while showing them how scientific research is conducted and the diverse community of people who can contribute to STEM innovations and discoveries.
The project deliverables will be designed to present complex physics content through coherent, immersive, and embodied learning experiences that have been demonstrated to promote engagement and deeper learning. The project will research whether participants, through interacting with these exhibits, can begin to integrate discrete ideas and make connections with complex scientific content that would be difficult without technology support. For example, students and other novices often lack the expertise necessary to make distinctions between what is needed and what is extra within scientific problems. The proposed study follows a Design-Based Research (DBR) approach characterized by iterative cycles of data collection, analysis, and reflection to inform the design of educational innovations and advance educational theory. Project research includes conceiving, building, and testing iterative phases, which will enable the project to capture the complexity of learning and engagement in informal learning settings. Research participants will complete a range of research activities, including focus group interviews, observation, and pre-post assessment of science content knowledge and dispositions.
By showcasing such role models and informing about related STEM content, this project will widen perspectives of audiences in informal learning settings, particularly adolescents from groups underrepresented in STEM fields. Research findings and methodologies will be shared widely in the informal STEM learning community, building the field's knowledge of effective ways to broaden participation in informal science learning, and thus increase broaden participation in and preparation for the STEM-based workforce.
This project is funded by the National Science Foundation's (NSF's) Advancing Informal STEM Learning (AISL) program, which supports innovative research, approaches, and resources for use in a variety of learning settings.
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TEAM MEMBERS:
Todd BoyetteJill HammJanice AndersonCrystal Harden
The Sustainability Teams Empower and Amplify Membership in STEM (S-TEAMS), an NSF INCLUDES Design and Development Launch Pilot project, will tackle the problem of persistent underrepresentation by low-income, minority, and women students in STEM disciplines and careers through transdisciplinary teamwork. As science is increasingly done in teams, collaborations bring diversity to research. Diverse interactions can support critical thinking, problem-solving, and is a priority among STEM disciplines. By exploring a set of individual contributors that can be effect change through collective impact, this project will explore alternative approaches to broadly enhance diversity in STEM, such as sense of community and perceived program benefit. The S-TEAMS project relies on the use of sustainability as the organizing frame for the deployment of learning communities (teams) that engage deeply with active learning. Studies on the issue of underrepresentation often cite a feeling of isolation and lack of academically supportive networks with other students like themselves as major reasons for a disinclination to pursue education and careers in STEM, even as the numbers of underrepresented groups are increasing in colleges and universities across the country. The growth of sustainability science provides an excellent opportunity to include students from underrepresented groups in supportive teams working together on problems that require expertise in multiple disciplines. Participating students will develop professional skills and strengthen STEM- and sustainability-specific skills through real-world experience in problem solving and team science. Ultimately this project is expected to help increase the number of qualified professionals in the field of sustainability and the number of minorities in the STEM professions.
While there is certainly a clear need to improve engagement and retention of underrepresented groups across the entire spectrum of STEM education - from K-12 through graduate education, and on through career choices - the explicit focus here is on the undergraduate piece of this critical issue. This approach to teamwork makes STEM socialization integral to the active learning process. Five-member transdisciplinary teams, from disciplines such as biology, chemistry, computer and information sciences, geography, geology, mathematics, physics, and sustainability science, will work together for ten weeks in summer 2018 on real-world projects with corporations, government organizations, and nongovernment organizations. Sustainability teams with low participation by underrepresented groups will be compared to those with high representation to gather insights regarding individual and collective engagement, productivity, and ongoing interest in STEM. Such insights will be used to scale up the effort through partnership with New Jersey Higher Education Partnership for Sustainability (NJHEPS).
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TEAM MEMBERS:
Amy TuiningaAshwani VasishthPankaj Lai
What pushed His Excellency Enrico Fermi, acclaimed Academician of Italy entitled to a state car and driver, to leave Italy all of a sudden in December 1938 in order to reach New York, after a short stop in Stockholm for the ceremony that celebrated him as a Nobel laureate for physics, and to accept a job as a simple physics lecturer at the Columbia University?
Rockman et al evaluated BURN: An Energy Journal, an NSF-funded radio series about the energy issues that impact our communities. Evaluation activities consisted of formative and summative focus groups, web usability studies, interviews with listeners, and surveys.
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
In 2004, WGBH received partial funding from the National Science Foundation to create Einstein's Big Idea, a two-hour docudrama on Einstein and the history of the formula E=mc2. Based on the book E=mc2, A Biography of the World's Most Famous Equation by David Bodanis, the program highlights the stories of those who helped develop the key concepts that make up the equation, with a particular focus on how Einstein pulled together these concepts to create E=mc2. Through these stories, Einstein's Big Idea focuses on four themes that served as learning goals for the project. The four themes are: (1
WGBH is producing a three-hour television series about the scientific quest for a unified set of laws governing the universe. The programs, to be broadcast as part of the on-going NOVA series, will place special emphasis on the new development in physics known as string theory. Inspired by Columbia University physicist Brian Greene's best-selling book of the same name, "The Elegant Universe" will explore the ways in which our understanding of matter and forces, space and time have shifted over the years, most recently with the emergence of string theory in the 1980s and its resurgence in the last five years. Greene will play a prominent role in the series, both on camera and as a consultant helping the producers shape the programs. The series, planned for broadcast in the fall of 2002, will communicate critical scientific concepts through filmed experiments, carefully crafted explanations, and the latest in computer animation. Interviews with scientists and historians, re-creations of key breakthroughs in the history of science, and sequences featuring physicists working on today's most pressing problems will allow viewers to share in the excitement of scientific discovery. Outreach material will be developed for the public and for teachers. NOVA Online will produce a rich companion Web site to allow viewers whose interest is piqued by the series to enhance their learning in a number of ways, including interactive animations of famous experiments and essays that go deeper into subjects than the programs could.
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TEAM MEMBERS:
Margaret DrainPaula ApsellBarbara Flagg
Independent Communications Associates will develop a five-part television public television series on light, optics, and perception, entitled "Light and Mind." The series explores both the outer, physical world of light and optics and the inner world of the mind that processes visual information. The programs examine the history of the subject as well as the frontiers of current research. The project is designed to be accessible to a wide range of audiences: the series is planned as a PBS primetime special aimed at adults while the ancillary educational materials are targeted to high-school students. During the first phase of planning the producers will work with their advisors, research and write a fuller treatment of the five episodes and a full script for the first program, create a budget, and develop an educational strategy and outline of the educational materials.
The University of Oregon, Eugene, is producing "Absolute Zero and the Conquest of Cold," a three-hour television documentary series about the field of low-temperature physics, the field in which one-third of all physicists are working today. The series explores key concepts, significant individuals and events in the field's turbulent history, and the enormous impact that the mastery of cold has had on society through technologies such as air-conditioning, refrigeration and liquefied gases. The film, based in large part on Tom Shachtman's book of the same name, will document how four centuries of research into lower temperatures has produced stunning scientific insights and applications that have revolutionized the world we live in. Planned outreach includes public programs, museum activities, and an interactive web site. The PI's for the project are Russell Donnelly of the University of Oregon, Richard Hudson of Twin Cites Public Television, and Meredith Burch of Meridian/Windfall Productions, Inc. Other key staff members include Thomas Shachtman, author of the book upon which the series is based; David Dugan, Co-Producer/Director of Windfall Films; David Heil of David Heil and Associates; Barbara Flagg of Multimedia Research; and Irene Goodman, of Goodman Research Group.