The NIH Science Education Partnership Award (SEPA) program of Emory University endeavors to use an over-arching theme of citizen science principles to:
develop an innovative curriculum based on citizen science and experiential learning to evaluate the efficacy of informal science education in after-school settings;
promote biomedical scientific careers in under-represented groups targeting females for Girls for Science summer research experiences;
train teachers in Title I schools to implement this citizen science based curriculum; and
disseminate the citizen science principles through outreach.
This novel, experiential science and engineering program, termed Experiential Citizen Science Training for the Next Generation (ExCiTNG), encompasses community-identified topics reflecting NIH research priorities. The curriculum is mapped to Next Generation Science Standards.
A comprehensive evaluation plan accompanies each program component, composed of short- and/or longer-term outcome measures. We will use our existing outreach program (Students for Science) along with scientific community partnerships (Atlanta Science Festival) to implement key aspects of the program throughout the state of Georgia. These efforts will be overseen by a central Steering Committee composed of leadership of the Community Education Research Program of the Emory/Morehouse/Georgia Institute of Technology Atlanta Clinical Translational Science Institute (NIH CTSA), the Principal Investigators, representatives of each program component, and an independent K–12 STEM evaluator from the Georgia Department of Education.
The Community Advisory Board, including educators, parents, and community members, will help guide the program’s implementation and monitor progress. A committee of NIH-funded investigators, representing multiple NIH institutes along with experienced science writers, will lead the effort for dissemination and assure that on-going and new NIH research priorities are integrated into the program’s curriculum over time.
As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program seeks to advance new approaches to, and evidence-based understanding of, the design and development of STEM learning in informal environments. This Change Makers project will establish Food Justice Ambassador corps across three cities in Massachusetts where youth will install, manage and learn the science and technology underlying hydroponics. The project takes a near-peer mentoring approach that empowers high school youth to take the lead in improving ethnic minority and low-income residents' access to healthy produce and to help educate middle school youth regarding the value of fresh produce in one's diet by learning the science of hydroponics. Youth will create story maps to visualize food accessibility in their communities. High school youth will work with their communities to establish hydroponic farms in middle school after-school settings. The food that is grown will be provided to the community through farmers' markets. Youth will share their work with a larger community of urban farmers at the Massachusetts Urban Farming Conference. This project seeks to understand the contribution on youth development by the model's three components: (1) STEM learning embedded in a social justice framework, (2) near-peer mentoring, and (3) youth purpose and career development. This will enable researchers to better understand how the project enables youth to learn STEM skills; apply them to a real life problem; learn the relevance of STEM skills for addressing personal, career aspiration, and social justice issues; develop a sense of purpose and aspirations related to STEM fields; and mentor other youth through the same process. The project will use a mixed-method, multi-site longitudinal study utilizing quantitative surveys, structural equation modeling, and qualitative interviews to study the intersections of the components of the project. As such, the study will address three key questions: 1) How do youth and mentors perceive and experience their roles as participants in the pedagogy? 2) What is the impact of the intervention on youth' sense of purpose, identity, career adaptability, work volition, critical consciousness, school engagement, STEM interests, and STEM intentionality? 3) What is the contribution of relational/mentoring and psychosocial/career adaptability aspects of the youths' contexts on their capacity to benefit from this program and to develop and sustain purpose and engagement in school and STEM? Most urban youth (and adults) have little knowledge of where their food comes from and have limited opportunities to learn how to grow produce as well as develop related skills that can lead to a career in a STEM field. This is particularly disconcerting as 55% of African Americans live inside central cities (90% in metropolitan areas) and over half of all Latino/as live in central cities (United States Census Bureau, 2011). This project entails the recruitment of low-income youth from populations underrepresented in science into a program where social justice concerns (food justice, food security) are illuminated, analyzed, and acted upon through the development of STEM knowledge and skills. Specifically, this project recognizes the potential for urban youth to become deeply knowledgeable citizens who can mobilize their STEM knowledge and skills to resolve social injustices such as food deserts. If successful, this project will provide a model that should be transferable to similar contexts to help broaden participation in STEM.
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TEAM MEMBERS:
George BarnettBelle LiangDavid Blustein
This is the final report from the external evaluator of the project that created MedLab, an interactive learning experiences for Chicago area middle and high school students. This external evaluator's final report summarizes the outcomes and impacts of the five-year (2012-2017) funding compared to project objectives. The aim of the project was to use in person and online curricula, including a humanoid patient simulator (iStan®), to build interest in and knowledge of health sciences and health careers, with a particular focus on local community health concerns. An additional goal was to
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TEAM MEMBERS:
Christina Shane-SimpsonJohn FraserSusan HannahKin KongPatricia WardRabiah Mayas
Elementary school children are capable of reproducing sophisticated science process skills such as observing, designing experiments, collecting data, and evaluating evidence. An understanding of the nature of scientific knowledge requires more than teaching and learning the performance of these skills. It also requires an appreciation of how these actions lead to knowledge generation and shape its durable and tentative nature. Our understanding of activities that support the teaching and learning of the nature of scientific knowledge is still growing. This study compares how scientific
This article examines how effectively a curriculum designed for a sixth grade classroom in a low income urban middle school was adapted utilize the funds of knowledge that existed among the students. The author discusses how all students draw on information that they obtain from their environment in the classroom and that this is often difficult for students in science classrooms in urban areas. The curriculum that is examined was for a unit that explored food and nutrition. The authors examine what funds of knowledge the students did bring into the classroom and how they were able to utilize
Science education researchers increasingly focus on the use of controversial science topics in the classroom to prepare students to make personal and societal decisions about these issues. However, researchers infrequently investigate the diverse ways in which students learn about controversial science topics outside the classroom, and how these interact with school learning. Therefore, this study uses qualitative, ethnographic research methods to investigate how 20 high school students attending a New York City public school learn about a particular controversial science topic-HIV/AIDS-in
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TEAM MEMBERS:
Jennie BrotmanFelicia Moore MensahNancy Lesko
Having developed the concept of near-peer mentorship at the middle school/high school level and utilized it in a summer science education enhancement program now called Gains in the Education of Mathematics and Science or GEMS at the Walter Reed Army Institute of Research (WRAIR), it is now our goal to ultimately expand this program into an extensive, research institute-based source of young, specially selected, near-peer mentors armed with kits, tools, teacher-student developed curricula, enthusiasm, time and talent for science teaching in the urban District of Columbia Public Schools (specific schools) and several more rural disadvantaged schools (Frederick and Howard Counties) in science teaching. We describe this program as a new in-school component, involving science clubs and lunch programs, patterned after our valuable summer science training modules and mentorship program. Our in-house program is at its maximum capacity at the Institute. Near-peer mentors will work in WRAIR's individual laboratories while perfecting/adapting hands-on activities for the new GEMS-X program to be carried out at McKinley Technology HS, Marian Koshland Museum, Roots Charter School and Lincoln Junior HS in DC, West Frederick Middle School, Frederick, MD and Folly Quarter Middle School and Glenelg HS, in Howard County, MD. Based on local demographics in these urban/rural areas, minority and disadvantaged youth, men and women, may choose science, mathematics, engineering and technology (SMET) careers with increasing frequency after participating, at such an early age, in specific learning in the quantitative disciplines. Many of these students take challenging courses within their schools, vastly improve their standardized test scores, take on internship opportunities, are provided recommendations from scientists and medical staff and ultimately are able to enter health professions that were previously unattainable. Relevance to Public Health: The Gains in the Education of Mathematis and Science (GEMS) program educates a diverse student population to benefit their science education and ultimately may improve the likelihood of successfully entry into a health or health-related professions for participating individuals. Medical education has been show to improve public health.
The Science Museum of Minnesota (SMM)--in collaboration with scientists at the University of Minnesota's Center for Infectious Disease Research and Policy and Academic Health Center; the Minnesota Department of Health, and the Minnesota Antibiotic Resistance Collaborative--requests a Phase 1/11five-year SEPA grant of $1,250,000 to develop a traveling museum exhibition and web site that highlight the fascinating science behind the outbreaks of emerging and re-emerging infectious diseases that are changing and shaping our way of life in the 21st century. Topics to be covered will include the emergence of new illnesses like SARS and Avian Influenza and the re-emergence of drug-resistant infections that were once curable but now can be fatal. An Infectious Disease Advisory Panel and Content Experts representing the collaborating institutions listed above and others will guide museum staff in the development of these exhibits and programs. EMERGING INFECTIOUS DISEASES will be a 1,500 square-foot special exhibition to be installed in SMM's Human Body Gallery in spring 2007. After an 18-month presentation, it will begin a tour to five medium size science centers over two years. In addition to the exhibition and its complementary web site, special programming will be targeted to reach specific audiences, including: K-12 school groups visiting the museum (a user guide with on-line pre- and post-visit activities aligned with state and National Science Education Standards); K-12 classroom teachers (Curriculum Enhancement Institutes); and outreach programs serving after-school programs for children in under-served inner-city neighborhoods. A focus on areas of ongoing research will be used to highlight how far we have come in understanding the complex world of infectious diseases and how far we must go in treatment or elimination of present day health threats.
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
The “Being Me” program was developed to bring the educational process to life through hands-on learning that promotes children’s awareness of health issues and encourages scientific inquiry in an art-focused curriculum supporting National Science Content Standards (now Next Generation Science Standards, or NGSS). In 2009, the “Being Me” partnership – Children’s National Medical Center (CNMC), the National Children’s Museum (NCM), and George Washington University’s Graduate School of Education and Human Development (GW) – received a five-year National Institutes of Health Sciences Education
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TEAM MEMBERS:
Children’s Research InstituteJohn Fraser