This two-year project is communicating the results of scientific discoveries produced by an on-going LTER (Long-term Ecological Research) project devoted to understanding the Everglades ecosystem. Specifically, Dr. Heithaus is capitalizing on the discoveries funded through 0620409 (Coastal Oligotrophic Ecosystems Research) about the role of large-bodied, top predators in the Everglades, including bull sharks (Carcharhinus leucas) and American alligators (Alligator mississippiensis). The STEM content of this project is biology, in particular ecology, the environment, and conservation. These results are being communicated via: (1) multimedia exhibit presentations at multiple museums and nature centers in southern Florida, primarily the Museum of Discovery and Science (MODS), located in Ft. Lauderdale near the Everglades and (2) online dissemination of mini-documentaries and other educational components at social media websites and the LTER web site. The target audience for the museum exhibit components includes learners from diverse cultural backgrounds, such as urban family groups reflecting the demographics of southern Florida. This project will also develop a documentary about Everglades ecology that is planned for dissemination on a cable TV channel devoted to natural history. In order to link with formal education, related educational deliverables are being produced for use in science classroom settings (grades 4 through 12) that are aligned with the state science standards and benchmarks. Formative assessment conducted by museum staff and university students will evaluate learning outcomes as they relate to STEM content learning goals. After the two-year funding period, the science learning opportunities produced from the current Communicating Research to Public Audiences (CRPA) project will be sustained as the exhibit travels to other venues and as web deliverables are accessed on-line.
This multimedia project tells the human story of the long, continuing quest to identify, understand, and organize the basic building blocks of matter leading to the Periodic Table of Elements. Project deliverables include a two hour PBS documentary; a website on the Periodic Table and discovery of the elements; a Teacher\'s Guide; and an Outreach Plan led by the St. Louis Science Center and nine other science centers. The target audiences are adults with an interest in science, inner-city youth, and high school chemistry teachers and their students. Partners include Moreno/Lyons Productions, the American Chemical Society (ACS), the Chemical Heritage Foundation; the St. Louis Science Center; and Oregon Public Broadcasting. The national broadcast and outreach activities are intended to complement the International Year of Chemistry (IYC) 2011, furthering the opportunity to enhance the public understanding of chemistry. The goal of the project is to reveal science as an intensely human process of discovery through stories of some of the greatest scientists. The two-hour PBS special will tell a "detective story" of chemistry, stretching from the ancient alchemists to today's efforts to find stable new forms of matter. Among key characters will be Joseph Priestley, Antoine Lavoisier, Humphry Davy, Dmitrii Mendeleev, Marie Curie, Harry Moseley, and Glenn Seaborg. The program will show both their discoveries and the creative process, using reenactments shot with working replicas of their original lab equipment. Interwoven with history will be segments on modern chemical research and the real-world consequences of the discoveries. A two-part Outreach Plan is aimed at engaging inner-city youths through a network of ten science centers led by the St. Louis Science Center and at reaching a broader audience through events, activities, and publications offered by ACS during National Chemistry Week and IYC 2011. The television program is projected to reach three million viewers during its multiple broadcasts over premiere week, increasing to five million or more with subsequent repeat broadcasts and DVD distribution. It is estimated that 6,500 underrepresented urban teens will participate in the hands-on activities in the ten science centers during IYC 2011. The website is intended to become a resource extending the reach and impact of the project for a decade or more. The summative evaluation will assess the extent to which the project accomplishes the goals of enhancing public understanding of chemistry, affecting public attitudes toward chemistry and chemists, and improving the understanding of the nature of science. Three studies will be conducted. The first will be an in-depth evaluation of the program and Web site with a sample of 150 adult PBS viewers using a two-group post-test randomized study design. The second study will evaluate the outreach effort with diverse audiences at the local level prior to and during National Chemistry Week using on site observations, surveys, and interviews to capture participant feedback at local events. The third study will evaluate high school educators' use of the Teacher's Edition & Guide.
This project will develop a new 4-H Afterschool curriculum called Discovering Technology to be implemented in 7 states potentially reaching 5000 middle school youths and 250 4-H leaders annually. The program would encourage youth in both rural and urban settings to pursue careers in engineering and technology. The project is a partnership of the Pratt School of Engineering at Duke University, the National 4-H Council/4-H Afterschool, North Carolina 4-H and the National Science & Technology Education Partnership (NSTEP).
Three and a half billion people currently live in cities, and this is projected to rise to six billion by 2050. In much of the world, cities are warming at twice the rate of rural areas and the frequency of urban heat waves is expected to increase with climate change throughout the 21st century. Addressing the economic, environmental and human costs of urban heat islands requires a better understanding of these complex systems from many disciplinary perspectives. The goal of this four-year Urban Heat Island Network is to advance multidisciplinary understanding of urban heat islands, examine how they can be ameliorated through engineering and design practices, and share these new insights with a wide array of stakeholders responsible for managing urban warming so that the health, economic, and environmental impacts can be reduced.
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TEAM MEMBERS:
Peter SnyderPatrick HamiltonBrian StoneTracy TwineJ. Marshall Shepherd
EdVenture Children's Museum, a hands-on, children's museum in Columbia, S.C., in close collaboration with NIH-funded researchers at the University of South Carolina, proposes a five-year, SEPA project titled "Unlocking the Mysteries of Chronic Diseases: BioInvestigations for Family, School and Youth Audiences." The program will develop teaching laboratories and experiments to educate youth ages 5-14, teens and adults about biomedical science topics in a fun, investigatory way. From these laboratory experiences, EdVenture will also develop educational programs designed to engage disadvantaged audiences in schools and communities to help expose them to the world of science and the benefits of community-based translational research. The laboratories and educational programs will utilize scientific content drawn from NIH-sponsored biomedical research, and will translate the research process and public impact into meaningful experiences for the public. These programs will reach a large population, both urban and rural, in socio-economically depressed areas of the state, promoting students' interest in topics that they may not otherwise be exposed to and encouraging a lifelong familiarity and facility with scientific thought and practice. Throughout the life expectancy of this project, a projected 2.5 million children and adults will experience the laboratories and related educational programs. Long-term goals are to encourage future biomedical science career choices, and most importantly, empower a child to take control over his/her own health decisions and to develop the necessary skills to navigate the flood of health information inherent in the quickly changing landscape that is health today.
The overall goal of the current proposal is to adapt the interdisciplinary research-based curriculum created at the School for Science and Math at Vanderbilt (SSMV) for implementation of a four-year program in three Metropolitan Nashville Public School (MNPS) high schools. The specific aims of the proposal are to adapt the on-campus (at Vanderbilt) model for implementation in three public high schools with different academic profiles (SSM Academies); to define the variables and features required to sustain the program and to replicate the model in any high school setting; and to define a strategy for disseminating the model to additional schools. Students entering 9th grade in a school in which an SSM Academy has been implemented will be encouraged to apply. Those who are accepted into the program will spend three hours every other day in two courses based on the adapted curriculum. As with the SSMV, rising seniors will have opportunities to enter Vanderbilt laboratories for summer research internships. Teachers from the high school will work with Center for Science Outreach scientists to adapt the SSMV curriculum for implementation. Ongoing, year-long teacher professional development will be conducted to ensure that the curriculum is dynamic and the teachers are well-prepared to engage and guide the students in the curriculum. The anticipated outcomes include enhanced student achievement as measured by GPA, and scores on ACT science reasoning and end of course tests; increased SSM student interest in careers in science; increased district-wide enrollment in SSM programs; increased graduation rates and postsecondary education enrollment by SSM students; development of unique curricular science units that can be adapted for a novel four-year interdisciplinary research- based curriculum; development of a sustainable model built on effective features of each SSM that can be exported to other high schools within and outside Nashville; enhanced community and family involvement in the SSM programs and school community in general; a strengthened partnership between Vanderbilt and MNPS that will serve as a national model of a successful university-K-12 collaboration to enhance science teaching and learning.
Indigenous people are significantly underrepresented in the fields of science, technology, engineering and math (STEM). The solution to this problem requires a more robust lens than representation or access alone. Specifically, it will require careful consideration of the ecological contexts of Indigenous school age youth, of which more than 70% live in urban communities (National Urban Indian Family Coalition, 2008). This article reports emergent design principles derived from a community-based design research project. These emergent principles focus on the conceptualization and uses of
This project develops an interdisciplinary and transformative in- and out of-school science education and technology program that engages high school aged youth and their teachers in 1) the production of food using hydroponics, and 2) the use of green energy technologies (solar, and wind) to power hydroponic systems. This distinctive program integrates food production, a novel model of parental outreach, a focus on green career development, and an authentic reason (growing their own produce for selling at a market) for learning how and why to use alternative energy technologies. The project creates an approach to sustainability in which students not only give back to their community, but are in a position to provide a continuous revenue stream to the school in order to operate their indoor urban garden indefinitely. The partnership with the Boston Youth Environmental Network provides youth opportunities for summer internships with green energy companies. The project builds upon a learning progressions model in which youth gradually learn about complex scientific systems and economic principles throughout their years in the program. Rather than a onetime experience, youth are engaged in a long-term experience building their knowledge and skills regarding science, economics, and college preparedness. This project has the potential to impact thousands of students informally and over 2000 students (in classrooms) directly with a minimum of 60 students receiving focused and in depth learning experiences during the summer and on weekends during the school year. With the passage of laws encouraging local schools to partner with local farms, the need for locally grown produce will increase; in that context, the program brings the farm to the school in a way that allows food to be grown year round. Thus, a model is developed that any school or informal learning center could adopt to grow their own food while simultaneously creating a living and learning laboratory for youth in their own program.
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TEAM MEMBERS:
George BarnettEric StraussDavid BlusteinCatherine WongElizabeth Bagnani