The New England Aquarium (NEAq) will develop a traveling exhibit and associated programs to focus on parallel scientific and environmental issues facing Lake Victoria (East Africa) and North American fisheries. The NEAq is working in partnership with the national Museums of Kenya (NMK). This project results from NSF supported research on Lake Victoria biodiversity crises and a workshop that involved 70 scientists, policymakers, and resource managers. A 5,000 sq. ft. exhibit "Lake Victoria: Mukasa's Tear" will be developed that will present both the Lake Victoria and North American fisheries issues in six modules including: Biodiversity Then and Now; Changing Life Styles; Lake Victoria Timelines; Fisheries Technology; Global Markets; and Towards the Future. Complementary educational programs will include on-site interpretation, special programs for K-12 classes, teacher workshops and curriculum materials, special events. The exhibit will open at NEAq in 1998 and will begin its national tour in 1999. A second version of the exhibit (which will be funded separately), will be shown in Kenya.
The California Museum of Science and Industry (CMSI) will develop a new exhibit "Body in Balance: Developing Integrative Life Science Exhibits." This will be a 3000 sq. ft. component in the new 17,500 sq. ft. World of Life Exhibit Hall when the CMSI opens its new facility in 1997 and becomes the California Science Center. The World of Life is organized around several key science concepts which emphasize the commonalties among living things and their life processes. One of the major ideas to be communicated in this area is homeostasis as it applies to human beings. Homeostasis has been chosen because it is the unifying theme of system physiology. The exhibit will include seventeen exhibits (with a total of sixty- seven interactive elements) as well as a "The Body in Balance" theater presentations and bilingual (English/Spanish) exhibition books. This integrative view of body functions is consistent with recommendations from Benchmarks for Science Literacy and the Science Framework for California Public Schools Grades K-12. A broad menu of complementary formal education materials will be developed.
The Massachusetts SSI (Project PALMS) will conduct this project in partnership with MITS (the Museum Institute for Teaching Science, Inc.) and will develop, demonstrate the effectiveness of, and disseminate a locally-driven model for parental involvement in mathematics, science, and technology education. The model builds on the SSI structure by starting with parents who are active in PALMS District Leadership Teams for Systemic Change (approximately 2900 parents). These parents will have opportunities for additional training with materials such as Project PRISM, EQUALS, AAAS, etc. These support the new State frameworks and assessments developed through he SSI, and are also in support of the high quality curriculum materials recommended for implementation in schools. Parents will then develop local plans for engaging other parents in their communities. Materials will be developed, including a manual on How to Build Coalitions to Engage Community Members in Mathematics, Science, and Technology Reform. In addition, materials will be developed and outreach activities will be conducted to include activities for parents and children (estimated to reach an additional 21,000 parents) held in nontraditional environments such as subways, laundromats, health clinics, and malls. Products will include a manual on building coalitions to engage communities in supporting mathematics and science reform, and a collection of field-tested prototype outreach activities. Findings will be disseminated through the Eisenhower Consortia, National PTA, Urban League, and National Council of La Raza.
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TEAM MEMBERS:
Thomas NoonanMary Jane SchmittPendred Noyce
This planning project, sponsored by the Washington MESA program, will carry out a planning program which will result in a full proposal to support a strong parents program in the four MESA centers in the State of Washington. With funds from the planning grant the MESA staff will do an assessment of need for a parents program at ten target sites, identify potential partners in working with the project and develop a parent involvement plan for each center. Specific tasks will be to identify a parent coordinator at each site, to prepare the sites to deliver a program for family math, science and technology training and to develop parent leaders at each site who will work with the schools so that they can deliver a strong math, science and technology to all students as well as prepare parents to become active in their children's learning.
To provide the general public with an understanding of the basic principles that underlie the transmission, storage, and retrieval of information, the Fleet Center proposes to build SIGNALS, a 4,500 square foot exhibition. SIGNALS will be divided into three sections, of approximately 15 interactive exhibits each, which explore the physical principles of wave motion, the properties of electromagnetic pulses useful for communications, and the signal processing that enables us to handle information. An Advisory Committee comprised of highly qualified individuals at the leading edge of their fields will support development of SIGNALS; a very experienced team of exhibit developers will fabricate the exhibition. SIGNALS will become a permanent exhibition in an expanded Fleet Center, where it is expected to attract 1 million visitors a year, including at least 100,000 K-12 students. Since the lack of technological understanding is a national problem, we propose to build a 3,000 square foot traveling version of SIGNALS, contingent upon an NSF review of the completed permanent exhibition. The total cost for both exhibitions is $1,983,480. We are requesting $985,900 from NSF: $692,800 for the permanent exhibition and $293,100 for the traveling exhibition. The project will begin in June, 1992, and be completed by June, 1996.
Founded in 1979, the Science Skills Center (SSC) is a non-profit community based program which encourages young minority and female students to pursue careers in science, mathematics, and technology. At its current two sites, located in Brooklyn, New York, approximately 400 students, ages six to eighteen, are enrolled in programs where they take accelerated courses in biology, chemistry, physical science, rocketry, oceanography, botany, and advanced mathematics. Classes, which are presented within the cultural and linguistic understanding of minority children, provide students with an opportunity to recognize the relationship of science, mathematics, and technology to their everyday lives. The SSC proposes to replicate its present programs, establishing three additional sites in the New York City area in three years. The SSC also proposes to establish a systematic replication program which would assist other communities, both regional and national, to establish their own SSCs. This project would require a resource person to guide communities in all aspects of program development. To assist in that effort, SSC proposes development of comprehensive educational and administrative manuals as well as the preparation of accompanying training and profile videos. Finally, the SSC proposes to develop a research module in software and manual form which would assess and track student learning, school performance, performance on standardized exams, career aspiration and selection, and student attitudes in a community based science program targeting minority students.
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.
National Geographic Television is creating multi-platform media to communicate the scientific and engineering stories unfolding in the Gulf region due to the major oil spill. The Deepwater Horizon oil spill is one of the worst environmental disasters to occur in the U.S., and though traditional news outlets continue to report on the spill, there is little discussion about the scientific factors at play. They include the technology and engineering skills needed to stop the leak and contain the oil; the scientific and engineering efforts to mitigate its effects; and the potential impacts on the Earth system. Communicating these scientific and engineering concepts to the public is both critical and urgent. National Geographic is uniquely positioned to take the lead in reporting on the science and engineering behind the spill and its implications. Deliverables will include: a 60-minute "Explorer" documentary television program to air on the National Geographic Channels in September 2010; 16 weekly online "Science Journal" segments featuring interviews with scientists, engineers, and other experts, promoted through National Geographic's social media channels; ongoing online news coverage and blog reports from the Gulf region; and online content for children. Funding from the National Science Foundation will specifically support coverage of the yet-to-be-filmed science and engineering segments for the television program and digital content. The television program and digital content will reach a broad public audience with critical science and engineering concepts. The entire project is designed to communicate scientific messages from the Gulf in real time and over the longer term, and in so doing, to enhance public understanding of science and engineering as it relates to the oil spill crisis.
The 4-H organization of Virginia is developing a Marine and Aquatic Education Program with a strong field study component for youngsters ages five through nine. They plan to reach these young people through local and community 4-H clubs and in summer camps. One part of the program is aimed at the handicapped and development of strategies to meet their special needs. Other components of the program include volunteer training of high school students and adult leaders and a series of publications with emphasis on "hands-on" activities. There is a strong national dissemination plan and, through a national survey, the Virginia 4-H have determined that 27 state 4-H organizations are interested in adapting program. The 4-H organization is the largest youth organization in the United States with a membership of 4.3 million young people. They have a strong network, both urban and rural, with minorities representing 22% of the membership, 53% are female and 63% are under 11 years of age. The Virginia 4-H mirrors the national picture but with a slightly more rural membership. This project provides an opportunity to strengthen science learning outside of the formal education system by supporting a test project in marine education. Over the next three years the project will be tested with 38,500 youngsters and 500 adults. The program will then be expanded to all 115,467 Virginia members as well as a strong outreach effort to the national membership. This project is directed at two important goals for the Informal Science Education Program: strengthening out-of-school science programs for young people and the handicapped. The marine science area is one of high interest and significance both locally and nationally. The staff are experienced and committed and the program is cost effective at a little over $3.00 per person.
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TEAM MEMBERS:
Barry FoxWilliam ChristySusan GilleyMichael CliffordJoseph Hoffenberger
The Franklin Institute Science Museum, a major American Science Center serving more than 700,000 individuals annually, proposes to create a 3,700 square foot permanent exhibition that will promote public interest in and understanding of the concepts and principles of mathematics in concrete, tangible form. The exhibition will consist of five clusters of hands-on devices, interactive computer programs, models, and text on the themes of Geometry; Symmetry; Chance, Probability and Randomness; Series, Sequences and Limits; and "Modern Math"--Fractals, Knots and Braids and Topology. Museum staff will utilize several mathematicians as advisors and design participants and will develop adjunct educational materials for use by teachers, students, and family members. They will disseminate exhibition techniques and content by providing six collaborating museums with selected copies of exhibit devices and hardware for their use in developing temporary or permanent mathematics exhibits. Staff of the six museums will join advisors for a design conference during exhibition planning, and will provide evaluation reports on their use of the exhibit materials. Knowledge of mathematics is not only necessary for everyday life; it is central to public understanding of science and engineering, and a key to continued participation in science and engineering, and a key to continued participation in science education in high school and college. Increasing national interest improvement in the mathematical ability of americans at all levels, pre-college and college, make this proposed exhibition particularly timely.
The investigation of naive conceptions of science has many implications for both teaching and learning. The predominant model for past investigations has been with school children or within very formal settings. Extending investigations of misconceptions to informal settings is the challenge of this research. Museum visitors' misconceptions about two topics, gravity and mechanical advantage, will be recorded through a variety of interview formats. Twenty-five persons from each of the age ranges 9-11, 12-14, 15-18, and college students/adults will be interviewed. Information from the interview will be used to modify the current exhibit or to build new prototypes. The research will determine if a modification can be made that results in individuals moving from their previous misconceptions toward a correct conceptualization of the concepts. This research will document what individuals actually learn from museum exhibits and how "front end evaluation" can be used to redesign exhibits for maximum concept learning. The proposed research is challenging and has the potential of adding significant information to science education research on misconceptions. The principal investigator is highly respected in the field of museum education and the associated staff and consultants are the top scholars in their respective fields.
The American Museum of Natural History proposes to design and build a new permanent 9,000-square-foot Hall of Human Biology and Evolution over a three-year period. The exhibit is to start out with human biology and then move smoothly to human evolution and the fossil record and other evidences of early humans. The new exhibit will range from the molecular/genetic level to the emergence of human beings, and will include archeological excavations and findings, reconstruction and discussion of humanoids, early human evolution, human structure and function, and human diversity. In addition to stimulating the interests of visitors (2.7 million in 1986-87) in human biology and evolution through the use of traditional and interactive technology, the new exhibit program will provide curriculum supplement for elementary and high school classes and teacher-training guides and workshops to assist in the integration of the exhibition materials into classroom studies. The primary educational goal is to give the widest possible audience a concrete sense of where and how the human animal fits in the natural world through examination of the traits that we share with all creatures and those that are peculiar to humans. The exhibit promises further contribution by bridging the current exhibits on animal life and those on the rich ethnological collections on the diversity of human cultures. NSF dollars are to cover the costs only of planning, building and evaluating the exhibit, with no funds for staff.