This is a proposal for a 3 year, $1,297,456 project to be conducted as collaboration among 5 higher education institutions and one school system across the country, with St. Joseph's University in Philadelphia, PA serving as the lead institution (other collaborators are from Colorado School of Mines, Ithaca College, Santa Clara University, Duke University, and Virginia Beach School System). The primary goal is to attract and retain students in computer science, especially women and underrepresented minorities (including two EPSCoR states). To this end, the project will use Alice, a software program that utilizes 3-D visualization methods, as a medium to create a high-level of interest in computer graphics, animation, and storytelling among high school students, hence to build understanding of object-based programming. Such an IT focus on media and animation is aligned with national computer science standards. The project will build a network of college and high school faculty, who will offer workshops and provide continuing support during the academic year. In each site, pairs of teachers from each participating school (total = 90) will learn with university faculty via a 3-week summer program in which an introduction to using Alice for teaching will be followed by teacher development of materials for students that will then be used to teach high school students. An experimental start at one site will be followed by implementation at four additional sites and culminated with revised implementation at the sixth site (1-4-1 design).
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TEAM MEMBERS:
Susan Rodger
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
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.
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TEAM MEMBERS:
Thomas StoebePatricia MacGowan
resourceprojectProfessional Development, Conferences, and Networks
This CAREER grant interweaves research and teaching focused on understanding how social groups construct meaning during scientific conversations across different learning contexts, such as classrooms, museums and the home. This work will be translated into formal educational settings and used to inform teaching practices within pre-service University and in-service school district settings. The research and educational emphasis will be on creating conceptual links between social learning in diverse settings and the creation of corridors of opportunity between formal and informal learning institutions. To date there has been little research with families from cultural and linguistic minority populations, such as Latino families, at informal learning settings and virtually none that integrates formal and informal learning, or impacts teaching. The five-year project will: 1. Conduct Study 1, aimed at making fundamental cross-cultural comparisons of family conversational meaning making at the Monterey Bay Aquarium and linking this work with family interviews, reflective conversations and visits to family homes; 2. Review the theoretical framework and conduct Study 2, which will incorporate lessons learned from Study 1, and linking this research to formal classrooms; and 3. Use the findings (at each stage) to inform teaching practice with UCSC undergraduate (Science majors) and graduate (Science credential, MA and Ph.D.) students, and, in collaboration with teacher research groups for new and experienced teacher in schools that serve predominantly Latino students. This research plan provides an opportunity for viewing several inter-connected mechanisms, including family interactions and conversations, compelling science content, naturalistic learning in museum settings, and, finally, analyzing these factors in order to inform teaching practices that promote bilingual minority students to the rank of scientists.
The Informal Science Education Program has been supporting the radio series "Living on Earth" for several years. The World Media Foundation is now adding environmental science and technology features to "Living on Earth" and is developing and testing an outreach component that will involve youth as researchers and radio producers. The science and technology features, ranging in length from four to twenty-four minutes, will depart from the usual news-driven reports on the programs. Many of the segments will illustrate basic building blocks of environmental science, technology and related mathematics. Others will profile diverse pioneers in these disciplines. The radio programs will be the framework for an interdisciplinary exploration program for youth. Working with a team of educators from the Antioch University Graduate Program in Environmental Education, the project staff will develop a program in which secondary school aged youth cooperate with peers to produce professional, concise reporting on local environmental issues. Living on Earth will feature the best of the student work on National Public Radio and highlight these pieces as an expanded feature on its website.
Talcott Mountain Science Center, in cooperation with the Urban Schools Learning Network (encompassing a variety of state, regional and national partners), seeks $698,141 in National Science Foundation funds under the Informal Science Education Program for a three year national model for increased minority interest and participation in Informal Science Education Program for a three year national model for increased minority interest and participation in informal science education. The title of this partnership is Project PROMMISE )Promoting Role Model Minorities in Science Education). Over the next three years, Project PROMMISE will produce and broadcast at least 30 distance learning programs for thousands of secondary level students in urban and disadvantaged communities throughout the U.S. These Project PROMMISE broadcasts will bring distinguished minority and women scientists, explorers, astronauts and other figures in touch with urban young people through interactive video programming. Broadcasts will be preceded and followed by hands- on informal science education activities. The project also will broadcast national career exposure, exploration, and mentoring programs to better inform urban minority students of academic and career enrollment in secondary and post-secondary math, science and technology studies and cultural isolation by urban students, teachers and urban informal science education institutions. Major national partners for reform and pre- college minority enrichment are participating in the project, including the Edna McConnell Clark Middle School Change Network, the Museum Satellite Network, PIMMS at Wesleyan, the CT Pre- Engineering Program (CPEP). Private sector support has been gained from United Technologies, CIGNA and Union Carbide.
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TEAM MEMBERS:
Donald LaSalleGlenn CassisDaniel Barstow
Project Enhanced Science Learning (PESL) offers learning partners opportunities to engage in authentic scientific inquiry through apprenticeship. Such inquiry is often enabled by dynamic interactions among learning partners in physical proximity. Yet scientific and business practice using Internet and broadband services recognizes that not all partners necessary to an interaction can be co-located. Our vision uses new technologies to extend the collaborative "reach" of PESL to include diverse expertise among remote learners, teachers, and scientists. This work, in atmospheric sciences, extends collaborative media beyond asynchronous text-only email to shared workspaces and two-way audio/video connections that allow for collaborative visualization of science phenomena, data, models - What You See Is What I See (WYSIWIS). Tools for local- and wide-area networked learning environments will enable highly interactive, media-rich communications among learning partners. Research on these learning architectures will provide pedagogy and social protocols for authenticating the science learning experience in classrooms and other spaces. Greater motivation to learn and enhanced science learning in terms of more valid, performance assessments should result from students' participations. The next decade brings widespread, networked multi-media interpersonal computing. This project will provide a blueprint to inform the effective use of interpersonal collaborative media for science education.
NOVA'S CENTURY OF DISCOVERY is a series of five prime-time documentary specials to be shown nationally over the Public Broadcasting Service(PBS) during late 1997 or early 1998. Altogether the programs will tell a sweeping story, celebrating the end of a remarkable century of discovery when science advance further than in all previous centuries combined, and when every scientific discipline underwent a revolution. Yet the closing of the 20th century coincides with an ever-widening gap between what scientists know and what most of the public comprehends. To increase public understanding of science, scientists, and scientific methods, the series will provide a dramatic retelling and interpretation of the century's most enduring scientific endeavors. Each two-hour program will probe several related fields of investigation and application: views of the universe and of matter; origins of the planet and of life; health, medicine, and the human body; human nature and behavior; and technology and engineering. A marriage of scholarship and entertainment, NOVA'S CENTURY OF DISCOVERY will be created using all the tools at the command of its award winning production team including archival footage and stills; personal accounts; letters, dairies, and other primary sources; computer animation; and even dramatic re-creations. Indeed, the series will not only make a unique contribution to the public and historical record, but also offer viewers an unprecedented opportunity to view 100 years of scientific pursuits as a unified whole, to recast their perceptions of science and scientists, and to be intrigued, even inspired, by a view of science as a never-ending and very human quest for answers and solutions. A special outreach and promotion campaign will increase audience awareness of the series, particularly among nontraditional PBS viewers. In addition, carefully developed teaching and learning materials will extend the series' reach into formal and informal educational settings, including high school and college classrooms, and community and youth-serving organizations.
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TEAM MEMBERS:
Paula ApsellTom FriedmanJon Palfreman
The excitement of astrophysical research and discovery is brought into the high school science and mathematics classes through a flexible set of student activities and projects on variable stars. The project includes a computerized database, of 400,000 measurements of brightness of 150 variable stars in five constellations over 25 years, from which students can deduce properties, processes, and evolution of these stars. Students can make additional measurements and discoveries from carefully selected time sequences of 125 35mm slides or from actual measurements from the night sky. A comprehensive student manual and instructional videos make the materials self-contained and easy to use. The teacher manual enables the instructor to adapt the materials to skills, objectives and local curricula. The material can be used in a variety of contexts: traditional mathematics and science classes at both the high school and college level, independent projects, summer institutes, and community science clubs. The material will be field tested in classes and refined through workshops with teachers. A newsletter and a video about amateur astronomers is planned.
Cornell University is producing a documentary television program about the 100-meter radio telescope in Green Bank, West Virginia. The film, planned as a PBS special, will document the engineering and technology behind the construction of the telescope as well as examining and explaining the science of radio astronomy. Ancillary educational material, including a 20 minute version of the video, will be developed and distributed for use in informal education setting through the American Astronomical Society and the Astronomical Society of the Pacific. In addition images and information about the Green Bank Telescope and the science of radio astronomy will be made available through an electronic bulletin board service such as GOPHER or MOSAIC. Teaching materials also will be developed for use in the secondary school curriculum and an "Across Space and Time" undergraduate curriculum developed at Cornell University will be made available to faculty at other colleges and universities. In addition, the film and related material will serve as the centerpiece for short courses for college teachers at Green Bank under the National Chautauqua Short Course Program. The PI and major content developer is Martha Haynes, Professor of Astronomy at Cornell University associated with the National Astronomy and Ionosphere Center and the Center for Radiophysics and Space Research. The film is being produced by PhotoSynthesis Production of Ithaca, New York. David Gluck is co-producer, director, and cinematographer and Deborah Hoard is co-producer and writer. A twelve person advisory committee of astronomers, teachers, and informal science educators will guide development of the project.
This proposal requests partial funding for the development of a new paleobiology hall at the University of Nebraska State Museum. This project will give students and the general public a dynamic view of the period of time known as the Age of Reptiles. It emphasizes experience with interactive exhibits that focus on concepts of geologic time, how species adapt and change, relative size, scale and time, the activities of scientists as role models, and it provides reinforcement of these experiences for students in the classroom. This project includes the first use in a museum of SemNet, a software program designed for concept mapping and the representation of knowledge networks, which will be used with a videodisc. Prototypes of all interactive exhibits will undergo formative evaluation to establish maximal audience accessibility, ease of use and educational effectiveness. The exhibit concepts will be disseminated throughout the state of Nebraska through mini- versions, teachers in-service training, and scientist-in- residence programs. This project will also be used as a teaching laboratory for the University of Nebraska's graduate program in Museum Studies.
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