Chemistry in the Community (ChemCom) was designed to provide an attractive, open access route for all high school students to the realm of relevant and useful chemical phenomena. What began as a dream a few years ago is now a well-developed high school program brought about by the concerted efforts of high school teachers, college and university professors, and industrial chemists and financed by the National Science Foundation and the American Chemical Society. This three-year project is designed as a partnership to support the dissemination of the Chemcom curriculum. Specially selected teachers will be educated so that they can become resource teachers who will conduct ChemCom inservice workshops throughout the country. These resource teachers are expected to represent as many as 150 school systems and will reach as many as 2,000 teachers with their inservice programs. The project also includes a series of networking activities entitled "An Evening with ChemCom, the establishment of a computer network, and the production of a newsletter. The evaluation will focus on the effectiveness of this particular model for implementing curriculum change. The total cost sharing (ACS, Publisher, School Systems) is expected to be almost five times the NSF request.
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TEAM MEMBERS:
Sylvia WareI. Dwaine Eubanks
resourceprojectProfessional Development, Conferences, and Networks
This project is aimed at perfecting and testing a new instructional method to improve the effectiveness of introductory physics teaching. the methods has two chief characteristics: 1) a systematic challenge to common sense misconceptions about the physical world, and 2) an emphasis on models and modeling as basic to physical understanding. Two versions of the method will be tested. The first version is designed especially for high school physics. It emphasizes student development of explicit models to interpret laboratory activities. After an initial test, this version will be taught to high school physics teachers in a summer Teacher Enhancement Workshop, and its effect on their subsequent teaching will be evaluated. Teachers with weak as well as strong backgrounds will be included. A special effort will be made to include females and minorities. The second version will be tested in a special college physics course designed to prepare students with weak backgrounds for a standard calculus based physics course. It emphasizes modeling techniques in problem solving. This project is jointly supported by the Division of Materials development, Research and Informal Science Education and the Division of Teacher Preparation and Enhancement.
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TEAM MEMBERS:
David HestenesMalcolm Wells
resourceprojectProfessional Development, Conferences, and Networks
Scientists and engineers are an underutilized resource in motivating students and assisting classroom teachers in teaching science. Pilot programs have demonstrated the value of preparing scientists for what to expect when they enter the classroom, how to incorporate the school curriculum into their program, and how best to reach the goal of making their visits a "never to be forgotten" life changing experience for students. The concept of a Survival Kit is an outgrowth of a Scientist-in-Residence program at the North Carolina Museum of Life and Science which has successfully matched scientists and public school classrooms locally since 1982. The North Carolina Museum of Life and Science proposes to conduct meetings for staff and outside educational specialists to identify the materials and strategies needed to prepare scientists to enter school classrooms. The final report of these meetings will include mechanicals of a Scientist Survival Kit, which can be disseminated across the country, and an evaluation report of how the kits can be and are used. Dr. Mark St. John, Inverness Associates, a professional evaluator noted for his work with nationally significant science education projects, will provide local and national evaluation through surveys and meetings to give a picture of the issues involved in establishing and maintaining programs of scientists in the schools and the role played by the Scientist's Survival Kit in furthering this aim.
Plantations, the botanical garden and arboretum of Cornell University, is developing a model program of informal education for elementary (K-5) school children. Project LEAP, Learning About Plants, will integrate the academic resources of Cornell University and the informal setting of its botanic gardens with the teaching of mathematics and science in local elementary schools. The project contains five components: 1) a conceptually-based curriculum of biology, ecology and agriculture which will include some components of SCIS (Science Curriculum Improvement Study) and OBIS (Outdoor Biology Instructional Strategies); 2) a teacher training workshop to stimulate curriculum integration and modification; 3) multiple two-year visits between Plantations and local schools providing children with direct experience with plants and animals; 4) a quantitative program of curriculum development and evaluation based on learning theory; and 5) a plan for dissemination of the structure and instructional contents of this program. Because children will experience LEAP over a period of years, the complex and meaningful learning of concepts in science will be achieved in the earliest years of a child's education. Because LEAP is being designed to become a model program applicable to many institutions of informal education, two publications will be produced: a notebook which describes the overall structure of the program, and a handbook for teachers which presents the individual lessons of the curriculum and the theoretical background supporting the choice of curriculum material. The notebook will distinguish those elements of the program peculiar to Cornell and Plantations, and mechanisms through which the program can be adapted to other institutions. The project is being split-funded by the Instructional Materials Development and Informal Science Education Programs.
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TEAM MEMBERS:
Robert Cook
resourceprojectProfessional Development, Conferences, and Networks
This project will test an instructional strategy designed to increase the pool of minority students who are successful in their study of algebra and higher mathematics courses. Since 1979, the Comprehensive Math and Science Program at Columbia University has been developing an instructional model designed to give all entering ninth grade students the opportunity to work to their highest level of capacity in mathematics. Key features of the model are a zero-based start, which makes no assumptions on students' prior mathematics background, and a complementary curriculum, which provides a set of parallel, interlocking mathematics courses that substantially increases the rate of mathematics instruction over a four semester period. Preliminary tests of the model in New York City schools have yielded encouraging results. In the current project, the instructional materials will be completed and the model will be extensively tested in New York City and in Fulton County, Georgia. The testing will be accompanied by the development of an apprenticeship model for teacher training, which will pair new teachers with experienced teachers in the interlocking courses of the program.
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TEAM MEMBERS:
Gilbert Lopez
resourceprojectProfessional Development, Conferences, and Networks
The middle school years are critical in determining a student's success and continued participation in mathematics. This proposal involves the expansion of MESA (Mathematics, Engineering, Science Achievement) model to the junior high/middle school population in the State of Washington. The project will focus on updating and revitalizing middle school mathematics curriculum, the goal being to increase minority student enrollment in algebra in the ninth grade. The MESA model also recognizes the need for teacher support and provides teacher seminars on a regular basis. Additionally, the expansion of the statewide Pre- College Center at the University of Washington will include the coordination of a statewide program at the junior high/middle school level. The MESA model is based on a partnership between industry and educators--a cooperative effort involving scientists on loan from industry, educators at the university level and educators at the secondary school levels working together to develop curricula that will stimulate student interest and achievement in mathematics and science. The staff for the project is well qualified with experience in the MESA program and in curriculum development and teacher training. The proposal addresses a clear need for improving minority mathematics education in middle/junior high schools and promises to have an impact throughout the nation for all students by serving as a model academic program. The project goals are consistent with the Instructional Materials guidelines. Therefore, an award is recommended.
The Mississippi Museum of Natural Science proposes to build on its program of activities that involve children in science and bring them into contact with the approaches, objects and equipment that scientists use, with each activity designed to stimulate thinking and heighten interest in science. Cardinal features of the program are the development of hands-on exhibits, science kits for classroom use and a studied tie with the children's television program, "3-2-1 Contact." The goals are to coordinate these activities with hands-on science activities for students in grades 3-6, and to coordinate classroom activities with those at the museum, which conducts "3-2-1 Contact Days" throughout the year when students come to the museum and take part in experiments, observations and enrichment lessons and actively manipulate museum objects. The museum now will refine the program components, including improvement and duplication of the hands-on kits, continuation of the workshops for elementary teachers and development of new participatory exhibits dealing with insects and endangered species, and will present them to an expanded audience. One-third of the children in the state live below the poverty level, and fifty per cent represent minority populations. As most of these children lack such out-of-school experiences these informal science activities are particularly meaningful.
The Mashantucket Pequot Museum and Research Center will implement a three-year, research-based community program entitled "Archeology Pathways for Native Learners." This comprehensive program consists of four components or pathways that are designed to increase participation of Native Americans in science. Pathway #1 invites students and teachers from New Haven Public Schools to participate in archaeology field research, which expands to include youth throughout the northeastern US. Students will be involved with site excavation, documentation and analysis of findings in an archaeology laboratory, working with scientists to interpret findings, and communicating the results of research to their peers and through the project Web site. Concurrently, in the first year of the project, Pathway #2 will focus on the expansion of museum programs for youth and community members in addition to the creation of related professional development programs for educators. Pathway #3 calls for replication of the research model at Navajo sites in New Mexico and Arizona during year three, while Pathway #4 emphasizes leadership training workshops for Native Americans from over 50 tribal communities. Workshops will focus on the creation of research-based youth programs in native communities across the country, using a train-the-trainer model to disseminate the model. It is anticipated that this project will reach more than 60,000 youth and community members, in addition to over 450,000 individuals via the Archeology Pathways website.
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TEAM MEMBERS:
Kevin McBrideMarc BlosverenElizabeth TheobaldGeoffrey BrownTrudie Lamb-Richmond
Family Science: Expanding Community Support for Inquiry-based Science is the University of Washington's innovative five-year plan for reaching youth and families in the Seattle school district. This program represents an enhancement of the NSF-funded Family Science program targeting grades K-5 and expansion of this successful program to include middle and high school students. The proposed activities, Science Explorations, Inquiry Science Conferences and Community Celebrations, are designed to help parents understand inquiry-based science instruction while heightening students' confidence in their ability to understand science processes. The hands-on activities also support and complement Seattle's Local Systemic Change project by enlisting teachers, parents and community members to champion science education outside of the formal school setting. The implementation strategy includes workshops to train Family Science Lead Teachers and Parent/Community Leaders to coordinate Family Science programs. Subsequent partnerships between teachers and community organizations are designed to establish regional clusters of community networks to support programmatic activities during and beyond the funding period. It is estimated that Family Science will result in the presentation of nearly 300 school and community-based events impacting 10,000 individuals.
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TEAM MEMBERS:
Leroy HoodEthan AllenDana RileyPatrick Ehrman
resourceprojectProfessional Development, Conferences, and Networks
The purpose of this project is to enhance African American parental involvement with high school student children by developing skills and strategies for effectively managing the educational careers of their children. It would create a capacity for collaborations with the schools that service African American children by developing the social and organizational infrastructure for continued parental involvement in educational careers. It seeks to increase enrollment and success of Black students in higher-level mathematics and science courses to diminish the race gap in math and science track placements. It uses a quasi-experimental design to implement a series of community workshops designed to enhance knowledge, skills, and strategies for managing placements of children in science and math tracks. The research would create an intervention designed to change the outcome of students. It would conduct ethnographic work to map successful pathways to enrollment in higher-level math courses. It would use findings from these studies to implement workships within the Black communities, and conduct statistical analysis of the growth in achievement as a result of the reduction in course taking.
WGBH is conducting preliminary work on an untested and novel idea for a new multimedia project, EGames. The target audience for the project is children ages 9-12. The project envisions a 13-part television series which combines the appeal of a game show with the drama of real-world challenges to engender enthusiasm and promote understanding of engineering in kids nationwide. The television programs will be complemented with materials and training for engineers to mount EGames events in public venues and run workshops in schools, afterschool programs and libraries, and an extensive companion website. During the research phase, WGBH will convene a Content Advisory Board which would include professional engineers, curriculum developers, classroom teachers, professors of engineering and informal educators, and a Funding Advisory Board. They will also write the series curriculum, design the game, develop outreach, Web, and evaluation plans, and develop and test a sample engineering challenge with a group of contestants to work out logistic and production questions. This will inform the next stage of project development. Note: This project led to the series "FETCH! With Ruff Ruffman."
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.