Future Scientists and Engineers of America (FSEA) is a structured after-school program to promote math and science through engineering applications among American youth, grades 4 through 12. FSEA has hands-on projects at increasing levels of complexity which provide student members with practical engineering applications of science and mathematics. Students advance through categories similar to the Scouts based on Satisfactory completion of projects. They enter as a technician and advance to levels of scientist and engineer. Chapters are sponsored by businesses, professional societies and community organizations which provided mentors and funding for FSEA projects. Each Project is conducted by a team consisting of a volunteer teacher and a volunteer mentor. A mentor must have a technical background in a scientific or engineering field. Mentors can be volunteers recruited from industry, retired scientists and engineers or engineering students. In less than a year, mentors and teachers have attended start- up workshops and 24 chapters have been successfully organized. Increasing demand for chapter development, with continuing emphasis on minority and female youth, has created the need for further development of projects kits, parent involvement and continuity among feeder schools. The proposal intends to develop the procedures, structure and organization that would enable FSEA to develop an additional 35 chapters in Southern California and become a national after-school program and expand to other states.
The Science Center of Connecticut will develop, evaluate, and install 57 mathematical exhibit activities in its new 160,000 sq. ft. exhibit facility. These activities will engage visitors in learning how math is an integral part of daily life and a necessary skill in many careers. Eight math topics will be treated: probability and statistics; relative scale; geometry; symmetry; math puzzles; chaos and fractals; numbers, measurements, and calculations; and estimations. The hands-on activities will range from involvement with low-tech to high- tech, computerized activities. The target audience is people nine and up and it will be available to the museums 500,000 annual visitors. The mathematics activities will be distributed throughout the museum and math will serve as a integrating theme for all the museum's exhibits. The topics are aligned with Connecticut s SSI program which focuses on applied mathematics in context of the science disciplines. Within the state, plans are taking shape to link with Connecticut Public Television to broadcast electronic field trips to the museum through Knowledge Network. Nationally, museum staff members will make presentations at both museum and mathematics education meetings to other museum professionals. The concept of thematic integration throughout the museum will be disseminated through the state and the nation.
The Educational Film Center (EFC) is developing a science, engineering, and technology careers exhibit for distribution to science museums and technology centers. The core of the exhibit kiosk, with related career graphics surrounds, is SET/QUEST, an interactive multimedia program for both Macintosh and PC/Windows using CD-Rom as the full motion video source. Teens and preteens will enter an interactive exploration of thirty careers with first person video profiles of people in science and engineering; animated/reality video simulations of a work experience in these fields, decision screens, and a database of over 200 more science and math-based professions. The documentary profiles, database, and a personal interest career match component will also be developed in alternative media formats (video, audio, print) for broad distribution to community and youth education networks, schools, and libraries. Specific emphasis in this project is being placed on reaching and attracting female, minority, and disabled youth. A parent outreach component has been developed and will be implemented by the Directorate of Education & Human Resources Programs of AAAS. The concept of the parent effort is to work directly with and through the national offices of four major national organizations with different institutional community roots -- Science Museums, Public Libraries, Schools, and Community Based Organizations -- to involve parents and families with SET Project materials and to provide them with information with which they can foster their children's pursuit of science and math education and careers in these fields. Initial efforts will be conducted in 18 cities. The project is a collaborative endeavor among three organizations: The Educationa l Film Center which will be responsible for management and development/production of the software and documentary video profiles; The New York Hall of Science which will be responsible for the exhibit kiosk and graphics, will design and develop the student workbook and user installation print, will serve as the principal test site for the exhibit, and will advise on software, interactive multimedia design, and installation options; and COMAP which will be responsible for direct involvement of the Advisory Board, for selecting and hiring content consultants, for assuring the accuracy of the science and math content, for formative and summative evaluation, and for developing and preparing community leader and school users guides for publication. Stephen Rabin, President of EFC, will serve as PI for the project.
The goal of the project is to produce a one hour television documentary and a series of video teaching modules which explore a wide range of scientific disciplines in an exciting manner by presenting the story of how these disciplines are used in the preparation and racing of an Indianapolis race car. This program will be distributed to a wide audience through its broadcast by PBS and cable sports networks; through dissemination to classrooms and museums nationwide; and through distribution via agencies that focus on bringing educational programs to youth and minorities across the country. We expect to attract a new audience to science, the millions of Americans who are infatuated by automobiles. This is an audience that cuts across age, ethnic and racial distinctions in America today. This exciting story of applied science should also appeal to American youth in a way that more traditional science stories do not. The major scientific disciplines involved in the project are: basic engineering, mathematics and physics, aerodynamics, materials science, mechanics, telemetry and computer aided design. This project is submitted to the Informal Science Education Program. The specific content of this project will be aimed at an audience with little background in science. High-school students and adults should be able to understand all the principles presented. Younger audiences will gain insight into how a knowledge of science is fundamental to a sport that many of them find fascinating.
ONE, TWO, THREE...INFINITY: The World of Mathematics is a series of eight one-hour films about math in the real world. It will be produced by WQED/Pittsburgh for prime-time broadcast on the 340 PBS stations and in many foreign countries. The goal of the series is not to "teach" math but to show, in an entertaining fashion, the importance of math in many walks of life--music, art, engineering and communications, to name a few. Math affects our lives everyday in ways many of us have never imagined. Yet few of us ever stop to think about it, perhaps because of "Math anxiety." This series will be the first to reveal math's importance not only as a tool for discovery, but also as a major cultural force. Drawing on WQED's proven skill in creating special visual effects, and making liberal use of magic and mystery, puzzles, and paradoxes, the series will break down the public's fears and misconceptions about math. We hope viewers--children as well as adults--will come away with a new appreciation of mathematics and, most important, a more open attitude toward learning about it--the first step toward a higher level of math literacy. WQED's Producers and cinematographers bring many years of experience on such award- -winning programs as PLANET EARTH, THE INFINITE VOYAGE and the NATIONAL GEOGRAPHIC SPECIALS. A diverse and distinguished advisory committee will help shape the series and ensure its accuracy. And a companion book, together with a program of educational materials and activities, will extend its reach beyond the television audience, making the series a potent catalyst for learning.
The Exploratorium is developing the pilot for a Saturday morning science-oriented, live-action, film and animation, national network television series for teens aged 13 to 17. The half-hour show will present everyday science and the process of problem solving in a fast-paced, hip, and challenge-oriented format. Two teams, each of three teenagers, will compete in a series of challenges which require the application of common sense knowledge, observation, experimentation, and problem-solving strategies useful in science. The object is to demonstrate that real-world problem solving makes use of many skills and may have more than one solution. The Exploratorium will administer the project and will be responsible for the science content. Production will be done by Colossal Pictures, a San Francisco production studio experienced in animation and youth-oriented programming.
The Get Real! science strand will model and reinforce positive attitudes towards,and involve in, science and technology. It will seek to affirm for children the value of their ideas, and the importance of asking Why? It will tell stories about kids involved in science-related activities (such as science camps, inventors' fairs and wildlife rehabilitation programs), and connect science concepts to children's known experiences and activities. These ideas are basic to constructivism-that people grow based on what they already understand, adding levels of knowledge-and are central to Get Real! It will enforce viewers' active connection to the science content by making suggestions for projects to get involved with, and by encouraging children to discuss and question their knowledge of science and the world around them. We will also direct students to appropriate informal science education organizations (such as science centers and zoos) and to their teachers, for further discussion and information. (Teachers guides will be developed as part of this project.)
This project launches the creation of a new class of playground apparatus based on an emerging understanding of how students learn mathematics and science concepts. The equipment will be highly interactive and instrumented, providing opportunities for thoughtful, planned actions that children can evaluate with the aid of instrumentation. The design principles used are applicable to many mathematics and science topics, but this initial demonstration is restricted to creating units which embody some important concepts from classical mechanics. We will create, test, evaluate, and begin the dissemination of units incorporating timing, motion, and force sensor electronics designed to give children real- time, symbolic feedback to reflect their experiences. The first nine months will be devoted to the apparatus design, building, testing, safety evaluation, and formative research. We will install apparatus in three highly varied sites to evaluate the design. In a second phase, improved units will be built for one site and detailed research on student learning undertaken. If we observe the hypothesized learning, the approach we use in mechanics will have broad generalizability. This work could lead to interesting and highly educational apparatus addressing other science fields and useful in a broad range of informal learning environments.
In every drop of water, down at the scale of atoms and molecules, there is a world that can fascinate anyone - ranging from a non-verbal young science student to an ardent science-phobe. The objective of Learning Science Through Guided Discovery: Liquid Water & Molecular Networks is to use advanced technology to provide a window into this submicroscopic world, and thereby allow students to discover by themselves a new world. We are developing a coordinated two-fold approach in which a cycle of hands-on activities, games, and experimentation is followed by a cycle of computer simulations employing the full power of computer animation to "ZOOM" into the depths of his or her newly- discovered world, an interactive experience surpassing that of an OMNIMAX theater. Pairing laboratory experiments with corresponding simulations challenges students to understand multiple representations of concepts. Answers to student questions, resolution of student misconceptions, and eventual personalized student discoveries are all guided by a clear set of "cues" which we build into the computer display. Moreover, the ability to visualize "real-time" dynamic motions allows for student-controlled animated graphic simulations on the molecular scale and interactive guided lessons superior to those afforded by even the most artful of existing texts. While our general approach could be applied to a variety of topics, we have chosen to focus first on water; later we will test the generality of the approach by exploring macromolecules such as proteins and DNA. The simulation sofware we have been developing embodies a simple molecular interaction model but requires leading edge computing in order to (1) apply the model to large enough systems to yield simple and realistic behavior, and (2) animate the result in real time with advanced graphics. Our ultimate goal in this project is not only to help students learn science, but also to help them learn to think like research scientists. By looking at scientific knowledge as a set of useful models - models that are essentially temporary and will inevitably lead to better ones - they can see that science is not a set of facts, but a method for discovering patterns and predictability in an otherwise disordered and unpredictable world. Through mastery of the simulation software, students will gain the self-confidence to embark on their own missions of discovery.
The Consumers Union of U.S., Inc. will produce four half-hour television specials which focus on kids testing and evaluating popular products. This "real world" approach can motivate children to learn science and mathematics concepts and to develop problem-solving skills in the process of tackling everyday consumer problems. The approach is particularly effective with youth who are not print-oriented, who watch a lot of television, and who may find "formal" science and mathematics inaccessible. Outreach materials for viewers and for use in formal classes will extent the impact of the project. The PI and Project Director will be Joyce Newman, Director of Consumer Reports TV. Susan Markowitz, who produced the successful pilot program will be Producer and Edward Groth, a biologist who serves as Consumers Union Associate Technical Director for Public Service Projects, will be the Senior Science Advisor. Susan Isenberg will be a major science education advisor. Ms. Isenberg is an IBM Education Fellow and consultant to a number of New York and New Jersey school districts. She has a B.S. in Science Education, an M.S. in Education, and has been a teacher for 25 years. This core group will work closely with in-house scientists and education experts as well as with an advisory committee established for the project.
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TEAM MEMBERS:
Joyce NewmanEdward GrothSusan Markowitz
The critically acclaimed film "STAND AND DELIVER" accomplished the formidable task of focusing national attention on the achievements of minority students in higher mathematics. As a motivational tool for educators, the film's value can hardly be overstated. "STAND AND DELIVER" will now have a second life as a play for the stage. The intimate human drama of the story of Jaime Escalante and his inner city A.P. calculus class will be re- written and confined to one set - a classroom - making it a natural for the theatre. Best of all, junior and senior high schools already have the resources to stage a first-rate production. Since almost all the roles depict students and teachers, "STAND AND DELIVER" should be a natural choice for school drama clubs across the country. The transformation of the movie into a play will take place in three stages: First, the screenplay is adapted into a stage play. Second, the initial stage production is mounted. Third, the play is published and made available to schools and theatre companies for local performances.
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