In 2006, the Institute for Advanced Learning and Research (IALR) received a three-year grant from the National Science Foundation's Information/Innovative Technology Experiences for Students and Teachers (ITEST) division to create the Dan River Information Technology Academy (DRITA) for under-served high school students in rural Virginia. The only program of its kind in Southern Virginia, the program was designed to provide participating students with competencies in information technology (IT) and workforce skills. In addition, the program seeks to encourage students to graduate from high
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TEAM MEMBERS:
Irene GoodmanLorraine DeanMiriam KochmanHelena PylvainenColleen ManningKaren PetermanInstitute of Advanced Learning and Research
This white paper is the product of the CAISE Formal-Informal Partnerships Inquiry Group, which began work during a July 2008 ISE Summit organized by CAISE. Their examination of what the authors call "the hybrid nature of formal-informal collaborations" draws on relevant theoretical perspectives and a series of case studies to highlight ways in which the affordances of formal and informal settings can be combined and leveraged to create rich, compelling, authentic, and engaging science that can be systematically developed over time and settings.
This comprehensive ITEST project would provide sixty middle and high school teachers with an introduction to Geographic Information System (GIS) and Global Positioning System (GPS) technologies. The project, which brings together a leadership team of educators, science researchers and experts in resource management, is based at the University of Maryland Center for Environmental Science Appalachian Laboratory, a research facility that studies stream and forest ecosystems. The program will focus on environmental applications in which teachers use probes to investigate the properties of local forest and stream ecosystems. Teachers will apply their technology experiences to creating standards based lessons aligned with local curricula. The teacher participants will be recruited from rural, underserved Appalachian communities in western Maryland and northern West Virginia. Local students will be recruited to participate in a four-day summer session that includes field-testing the proposed lessons and learning about career opportunities in information technology.
Led by Washington University, Making Natural Connections: An Authentic Field Research Collaboration (DRL-0739874), is a series of two field-based informal science education programs in environmental biology targeting St. Louis area teenagers. The project aims for engagement of science research institutions and career scientists in the execution of informal science education programming, bringing real and dynamic context to the science content and allowing for deep and transparent career exploration by teenage participants. Project goals include (1) providing a model for integration of informal science education into the research and restoration projects at biological field stations and nature reserves, (2) communicating current environmental biology research to audiences outside the research community, and (3) influencing the entry of pre-college students into the science career pipeline. The project is a collaborative partnership between Washington University’s Tyson Research Center and the Missouri Botanical Garden’s Shaw Nature Reserve. The Shaw Institute for Field Training (SIFT) program trains St. Louis area high school students in scientific exploration of the natural world at Shaw Nature Reserve. During a one-week training session in June, teens are introduced to a variety of Missouri ecosystems and gain skills necessary to conduct field research, including plant and animal identifications, biotic sampling and census techniques, testing of abiotic factors, and training in the use of maps, compass and GPS. During the rest of the summer and school year, teens are involved in important research and restoration activities at Shaw, Tyson Research Center and other field research sites in the St. Louis area. Fieldwork opportunities may include invasive species management, prairie reconstruction, plant and animal inventories, and prescribed burns. The Tyson Environmental Research Fellowships (TERF) program places high school students as summer interns on ecology and environmental biology research teams at Tyson Research Center. Selected teen participants have successfully completed the SIFT program and apply their field skills to ongoing research projects at Tyson and other partnering research sites. During the summer, the four-week program provides teens with exposure to a variety of field science experiences and skills. TERF teens work alongside university scientists, post-doctoral researchers, graduate students and undergraduate students. The TERF program provides a cultural apprenticeship in university-based environmental biology research and training in scientific communication. It is an advanced summer experience modeled on the undergraduate research internships offered at Tyson. During the following school year, participants work on posters and presentations for symposia at Washington University and Tyson and at community fairs, and their posters are displayed at Shaw Nature Reserve. A national dissemination workshop for informal science educators, high school biology teachers, and research scientists provides the necessary materials and background to replicate the project design in other locales. The summative evaluation will address impacts on teenage participants (engagement, cognitive and emotional support, competence, career viability, experiential learning) and professional audiences (implementation of teen program, program components, impacts on mentoring scientists). The strategic impact of this project results from the integration of teenage immersion experiences into research activities at a university-based facility. This model of informal science training activities leading into participation in authentic research may be transferable to other STEM disciplines.
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TEAM MEMBERS:
Phyllis BalcerzakPeter RavenSusan FlowersKim Medley
Voyage of Discovery is a comprehensive and innovative project designed to provide K-12 youth in Baltimore City with an introduction to mathematics, engineering, technology, environmental science, and computer and information science, as it relates to the maritime and aerospace industries. The Sankofa Institute, in partnership with the Living Classrooms Foundation and a host of marine, informal science, community, and educational organizations, collaborate to make science relevant for inner-city youth by infusing science across the curriculum and by addressing aspects of history and culture. Youth are introduced to historical, current, and future innovations in shipbuilding as a means to learn the science, mathematics, and history associated with navigation, transportation, environmental science, and shipping. Activities will take place at the Frederick Douglass-Isaac Myers Maritime Park and Museum where students participate in intensive afterschool, Saturday, and summer sessions. Families are invited for pre-session orientation meetings and again at the end of each session to observe student progress. This project will provide over 3,900 K-12 youth with the opportunity to learn mathematics (algebra, geometry, and trigonometry), physics (gravity, density, mechanics), design, and estuarine biology while participating in hands-on sessions. Project deliverables include a 26-foot wooden boat, a working model of a dirigible, a submarine model, and pilot control panel models, all constructed by students and subsequently incorporated into exhibits at the USS Constellation Museum. The project also results in the production of two curricula--one each on celestial navigation and propulsion. Voyage of Discovery informs the literature on inquiry-based informal science education programs and strategies to engage minority and low-income youth in learning science and technology.
During the 3 years of this project, 72 high school and middle school teachers and 36 students will work as members of atmospheric research teams studying each of ten airshed around the Portland, OR metropolitan area. Each summer's activities include a 4-week atmospheric interaction research course and a one-week air quality measurement campaign during a pollution episode. Transfer to the classroom is anticipated through action research projects during the academic year. An interactive webpage will enable all partners to access data, real time models of the atmosphere, and descriptions of the action research projects. A lead high school will serve as the Horizons-Air site for an airshed zone and will work collaboratively with four other middle/high schools, the Horizons-Met sites.
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TEAM MEMBERS:
Linda GeorgeDaniel JohnsonWilliam Becker
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.
Through "Addressing the Science of Really Gross Things: Engaging Young Learners in Biomedical Science Through a Fulldome Planetarium Show and Supporting Curricula," Morehead Planetarium and Science Center at the University of North Carolina at Chapel Hill, in close collaboration with NIH-funded researchers at the UNC and a leading children's book author, will develop an informal science education media project and a suite of hands-on, inquiry-based curricula based on the media project for use in science centers, museums and schools. This project will build the pipeline of future researchers and create awareness of NIH-funded research by generating interest and excitement among children age 9-13 in the health sciences and related careers and building their science content knowledge. To achieve the objective, the investigators will develop a fulldome planetarium show; create correlating curricula for summer camps, afterschool programs, scout programs, science center field trips, science clubs and schools; and produce a DVD highlighting careers in the health sciences. In addition, the project will use several methods to target populations traditionally underrepresented in the biomedical fields, including featuring professionals from underrepresented populations in the multimedia and curricula products, making outreach visits to counties with large populations traditionally underrepresented in health science research careers, and producing a Spanish-language version of the products. The use of a known brand, "Grossology," is an innovative way to connect to children in the target age range and to encourage the informal science education community to embrace health-science content in their fulldome theaters. In addition, the project's hub-and-spoke approach further encourages adoption of this programming by providing informal science venues with both an engaging experience (hub) and the supporting curricula (the spokes) that is necessary to extend the show's potential for having significant educational impact. A strong project team maximizes the project's likelihood for success. The team includes fulldome producers and educators from Morehead and NIH-funded researchers with expertise in appropriate science content areas. In addition, the investigators have created a network of consultants, advisory board members and evaluators that will create feedback loops designed to ensure high-quality, scientifically-accurate, educationally-effective products. The investigators will use a combination of free and revenue-based dissemination strategies to ensure that the products of this award are broadly distributed. These strategies hold significant promise for creating broad use of this project's products in the nation's science centers, museums and classrooms.
This Phase I SEPA proposal supports a consortium of science and education partners that will develop System Dynamics (SD) computer models to illustrate basic health science concepts. The consortium includes Oregon Health Sciences University (OHSU), Portland Public Schools (PPS), Saturday Academy, and the Portland VA Medical Center. SD is a computer modeling technique in which diagrams illustrate system structure and simulations illustrate system behavior. Desktop computers and commercial software packages allow SD to be applied with considerable success in K-12 education. NSF grants to Portland Public Schools have trained over 225 high school teachers in Portland and surrounding areas. Two magnet programs have been established with an emphasis on systems and at least five other schools offer significant systems curriculum. Major components of this project include (1) Annual summer research internships at OHSU for high school teachers and high school students, (2) Development of SD models relevant to each research project, (3) Ongoing interactions between high school science programs and OHSU research laboratories, (4) Development of curriculum materials to augment the use of the SD model in the high school classroom or laboratory setting, and (5) Development of video materials to support the classroom teacher. Content will focus on four fundamental models: linear input/exponential output, bi-molecular binding (association/dissociation), population dynamics, and homeostasis. Each of these models is very rich and may be extended to a broad variety of research problems. In addition these models may be combined, for example to illustrate the effect of drugs (binding model) on blood pressure (homeostasis model). System Dynamics is an exemplary tool for the development of materials consistent with National Science Education Standards. SD was specifically developed to emphasize interactions among system structure, organization, and behavior. Students use these material as part of inquiry-based science programs in which the teacher serves as a guide and facilitator rather than the primary source of all content information; technical writing by students is also encouraged. Finally, these SD materials will provide a coherent body of work to guide the ongoing professional development of the classroom science teacher.
Researchers have described the inquiry process as involving five Es: engage, explore, explain, elaborate, and evaluate. Designed to facilitate the process of conceptual change in science, the 5E model can help students at almost any level engage in scientific practices. This brief correlates the 5E framework outlined by Bybee and colleagues with the science practices described in the Framework for K–12 Science Education.
As part of a grant from the National Science Foundation, the National Federation of the Blind (NFB) is conducting regional STEM workshops, entitled NFB STEM2U, for blind youth [youth], grades 3 – 6. During this first regional workshop in Baltimore, the NFB operated three different programs simultaneously: one program for youth, a second program for their parents/caregivers, and a third program for a group of teachers who work with visually impaired students. A fourth program, for Port Discovery museum staff, was conducted earlier to prepare the museum staff to assist with the youth program
More and more young people are learning about science, technology, engineering, and mathematics (STEM) in a wide variety of afterschool, summer, and informal programs. At the same time, there has been increasing awareness of the value of such programs in sparking, sustaining, and extending interest in and understanding of STEM. To help policy makers, funders and education leaders in both school and out-of-school settings make informed decisions about how to best leverage the educational and learning resources in their community, this report identifies features of productive STEM programs in