This multimedia project tells the human story of the long, continuing quest to identify, understand, and organize the basic building blocks of matter leading to the Periodic Table of Elements. Project deliverables include a two hour PBS documentary; a website on the Periodic Table and discovery of the elements; a Teacher\'s Guide; and an Outreach Plan led by the St. Louis Science Center and nine other science centers. The target audiences are adults with an interest in science, inner-city youth, and high school chemistry teachers and their students. Partners include Moreno/Lyons Productions, the American Chemical Society (ACS), the Chemical Heritage Foundation; the St. Louis Science Center; and Oregon Public Broadcasting. The national broadcast and outreach activities are intended to complement the International Year of Chemistry (IYC) 2011, furthering the opportunity to enhance the public understanding of chemistry. The goal of the project is to reveal science as an intensely human process of discovery through stories of some of the greatest scientists. The two-hour PBS special will tell a "detective story" of chemistry, stretching from the ancient alchemists to today's efforts to find stable new forms of matter. Among key characters will be Joseph Priestley, Antoine Lavoisier, Humphry Davy, Dmitrii Mendeleev, Marie Curie, Harry Moseley, and Glenn Seaborg. The program will show both their discoveries and the creative process, using reenactments shot with working replicas of their original lab equipment. Interwoven with history will be segments on modern chemical research and the real-world consequences of the discoveries. A two-part Outreach Plan is aimed at engaging inner-city youths through a network of ten science centers led by the St. Louis Science Center and at reaching a broader audience through events, activities, and publications offered by ACS during National Chemistry Week and IYC 2011. The television program is projected to reach three million viewers during its multiple broadcasts over premiere week, increasing to five million or more with subsequent repeat broadcasts and DVD distribution. It is estimated that 6,500 underrepresented urban teens will participate in the hands-on activities in the ten science centers during IYC 2011. The website is intended to become a resource extending the reach and impact of the project for a decade or more. The summative evaluation will assess the extent to which the project accomplishes the goals of enhancing public understanding of chemistry, affecting public attitudes toward chemistry and chemists, and improving the understanding of the nature of science. Three studies will be conducted. The first will be an in-depth evaluation of the program and Web site with a sample of 150 adult PBS viewers using a two-group post-test randomized study design. The second study will evaluate the outreach effort with diverse audiences at the local level prior to and during National Chemistry Week using on site observations, surveys, and interviews to capture participant feedback at local events. The third study will evaluate high school educators' use of the Teacher's Edition & Guide.
The Fusion Science Theater National Training and Dissemination Program builds on the success of the Fusion Science Theater (FST) planning grant (DRL 07-32142). Madison Area Technical College, in collaboration with the Institute for Chemical Education at the University of Wisconsin-Madison, the American Chemical Society (ACS) and area science centers and museums will create a national program to disseminate the FST model which directly engages children in playful, participatory, and inquiry-based science learning of chemistry and physics topics. The primary target audience is children aged 4-11, while undergraduate chemistry students, faculty, and formal and informal educators comprise the secondary professional audience. The project will result in the development of a robust, creative, and highly visible national dissemination program. The National Training and Dissemination Program includes three deliverables. First, a Distance Performance Training Program will be developed to teach groups of undergraduate students, faculty, and educators how to perform FST Science Investigation (SI) Shows. The Training Program includes a Performance Training Package and a 3-day Performance Training Workshop. The Performance Training Package will be comprised of training videos, performances videos, scripts, rehearsal schedules, and training exercises. These materials will be pilot tested while training representatives of five groups from around the country to perform SI Shows during the Performance Training Workshop at Madison Area Technical College in summer 2012. Participants will be selected from ACS undergraduate groups, outreach specialists, and museum professionals. Workshop participants then return to their home institutions and lead their groups through the improved Performance Training Package delivered via Moodle, with support from FST team members and social networking tools. The second deliverable is the FST Methods Workshop. The Methods Workshop is designed to teach formal and informal educators to use selected methods (Investigation Question, Embedded Assessment, and Act-It-Out) in their outreach efforts and classroom teaching. Four workshops will be presented at national meetings and at the invitation of colleges, universities, and science centers. Follow-up with workshop participants will be mediated through an online forum to encourage experimentation, modification, and dissemination of a second generation of FST activities. The final project deliverable is the development and implementation of a Promotion and Recruitment Plan to connect professional audiences with FST. The Distance Performance Training Program and workshops will be evaluated using mixed methods, while embedded assessment will be utilized to measure the impact on youth participants attending SI shows to determine the overall effectiveness the Distance Performance Training. This project is designed to have important impacts on STEM education and society. The proposed dissemination program brings innovative models and methods into the hands of informal science education practitioners who can use them to engage local audiences and enhance their own teaching and communication practices. Finally the project offers likely benefits for society through the creation and dissemination of innovative practices to combat science illiteracy, diminishing pools of scientists and engineers, lack of understanding about the nature of science, and the achievement gap that exacerbates these problems. This project could be transformative in informal science education as SI Shows use theater to engage audiences in multiple aspects of science learning. It is anticipated that this project will reach up to 2,500 individuals in public and professional audiences.
Madison Area Technical College will refine and evaluate the effectiveness of Fusion Science Theater (FST), a combination of theater, science demonstrations, and participatory components, as an ISE teaching model, to test its transferability through development and trials of an exportable version (Science-in-a-Box), and to recruit appropriate partners nationally in preparation for a larger scale implementation and evaluation. A Fusion Science Theater event utilizes the collaborative effort of applied expertise in science, theater and education. These events support playful interactions as characters engage the emotions of the audience. The Act-It Out sequences invite children and parents to become involved in modeling scientific concepts, thus creating an environment where learning is the product of social interaction and kinesthetic, affective and interpersonal learning. To provide proof-of-concept that this a transferable model, an independent, interdisciplinary team from the University of Wisconsin, Madison Biotechnology Center will produce their own FST event that will be evaluated and compared to an existing FST program. The Madison Children's Museum will partner as a venue for the event and provide expertise in the planning process. The ultimate project resulting from this planning would include workshops to train collaborative teams from around the country in the principles and practices of FST, promotion of cross-disciplinary collaboration among professionals, and honing of an evaluation design for FST events. The trained teams would then produce FST events that reach children, their parents and the general public. The planning grant project design includes activities necessary to further test, verify and document Fusion Science Theater events. It provides a proof of concept of model effectiveness and transferability. It also initiates, develops and assesses ways to train other groups to implement the model and publicizes the model to national professional networks to spread the work and recruit site teams.
In-Touch Science provides informal learning experiences to help children ages 8 to 11 understand the science in their everyday lives. Each science theme is introduced through a hands-on activity in one subject area and is reinforced through a second experience based in a different field of science. By linking concepts common to the paired fields, the program teaches children to make connections between what they've learned in one context and what they observe in another arena. The program targets children enrolled in special needs programs, 4-H clubs, school-age child care facilities, and home schooling. The program engages, supports and sustains community science facilitators, the majority of whom are not experienced educators. They will be trained to work with the children, using the Learning Cycle, a guided discovery strategy. Cornell developed the curricula for three paired disciplines: 1) Engineering and Plant Science, 2) Animal Science and Fiber Science, and 3) Chemistry and Environmental Science. Instructional materials for the project consist of three curricula, a facilitator-training guide, and supply kits.
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TEAM MEMBERS:
Charlotte CoffmanDan BrownDaniel Tennessen
The New York Hall of Science will develop, test, and implement the "Biochemistry Discovery Lab," a 1000-sq.-ft. space designed to complement the content and design of "The Chemistry of Living Things," a 3000-sq.-ft. exhibition that will be opening in 1999. The Biochemistry Discovery Lab will engage visitors in four different types of activities: 1) guided experiments for scheduled groups, 2) self-guided experiments, 3) demonstrations, and 4) the prototyping of ancillary materials. These activities are intended to engage the target audiences -- families, students, and the general public -- in experiences leading to an understanding that chemical reactions are due to the interaction of molecules; that chemical reactions occur in both living and nonliving things; and that there are visible and measurable characteristics of chemical reactions in living and nonliving systems.
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.
Science Museums of Charlotte, Inc. will develop a 5500 square foot traveling exhibit on SCIENCE of FASHION for the Science Museum Exhibit Collaborative (SMEC). Opening in February 1994, SCIENCE of FASHION will tour eight major U.S> cities over thirty-two months, introducing 2.5 million people to principles of chemistry, physics, biology, mathematics, and technology that drive the textile industry. SCIENCE of FASHION integrates diverse disciplines and will help public explore science in a wholistic manner. Because the subject matter is somewhat unusual fare, SCIENCE of FASHION will help diversify audiences, drawing in population segments, particularly women, who may not normally visit science museums. SCIENCE of FASHION is an eloquent vehicle for science-rich exhibitry which teaches the mathematics of pattern geometry, production statistics, and retail costs, polymer chemistry for engineering new fabrics, the genetics of new natural colors and strong aware fibers, and the sophisticated research, robotics, and computerized technologies that keep America's textile industry at the top international commerce. Rigorous evaluation will ensure a satisfying product that is educationally-effective, durable, and appealing to a broad public audience. SCIENCE of FASHION will be a worthy addition to the rich menu of science fare in SMEC exhibitry.
Boston Museum of Science seeks funds from the National Science Foundation for the development of a group of interactive exhibits and educational programs that will comprise the Museum's permanent TESTING THE THEORY activity center. The project is part of a new approach to exhibits that aims to make the experiences available to visitors closer to the actual process of scientific discovery. Visitors will carry out experiments in fields ranging from chemistry and cognitive psychology, to statistics, optics, and materials science. The focus will be on promoting specific experimental skills and scientific habits of mind, and on encouraging the transfer of these skills to everyday activities. The exhibit techniques developed during the prototyping and production of TESTING THE THEORY are expected to be of importance to science museums and others concerned with increasing science literacy.
This project by the Oregon Museum of Science and Industry (OMSI) develops a public education program on chemistry. The program: introduces students and the general public to the science of chemistry and processes of chemistry-related research through drop-in lab activities; provides follow-up chemistry activities for use by elementary teachers and parents so that children can further explore the interests they have developed in science and chemistry; provides opportunities for internships for high-school students as lab assistants so that they can develop greater knowledge of "everyday" chemistry, laboratory techniques and safety, develop skills in working with others and in teaching chemistry, and explore potential careers in teaching chemistry; and make available the resources developed by OMSI to other interested science museums.
The Lawrence Hall of Science will develop a 3000 sq. ft. traveling interactive chemistry exhibit in which visitors will conduct a variety of basic chemical tests within the motivational genre of solving a mystery. Chem-Mystery will invite visitors into an Old House facade where two non-violent mysteries have occurred. Visitors will chose a mystery (either the case of the missing toy boat for youngsters or the case of the missing money for older children and adults) to solve. After learning the facts surrounding the case from videos of the chief detective and the suspects, visitors will collect evidence from the scene of the mystery and then proceed to the Forensics Laboratory. The Lab will contain 15 hands-on stations where visitors explore fundamental chemistry concepts while using chemistry as a tool to analyze clues. Complementary educational materials will be developed. A 20 page Going Further Guide will contain activities that can be done at home using techniques introduced in the exhibit. Teacher workshops will be held to introduce teachers to concepts in the exhibit and methods on how to incorporate the exhibit activities in their curricular agenda. These materials plus other general set-up information will be included in an Exhibit Installation Handbook. After opening to the public at the LHS in January 1996, it will begin its tour in October, 1996 to nine US science centers. It has the potential of reaching about 800,000 people during the twenty-seven month tour. The exhibit design will be reviewed for universal accessibility. It will be produced by the staff of the Lawrence Hall of Science and circulated by ASTC.
The New York Hall of Science will develop an interactive exhibit for the general public "The Chemistry of Life". There will be two editions of the exhibit: one 2,500 sq. ft. version will be installed permanently in the New York Hall of Science and another 1500 sq. ft. version will travel nationally. Focusing on the common chemical processes behind all life on earth, the exhibit will help visitors learn four basic chemistry concepts: 1) a shared chemistry underlies all forms of life, 2) the chemistry of energy transformation takes place in all living things, 3) chemical energy is converted to mechanical energy to animate life, and 4) the chemistry of reproduction provides for the continuity of life. The chemistry of the human body will be used whenever possible as an entry point to the concepts. Exhibits will include a hands-on staffed visitor chemistry lab, interactive activities, stimulations, models, demonstrations, and video clips. Complementary materials and workshops will be developed for families, school groups, and teachers. These materials are being developed with the curricular needs of the New York State Systemic Initiative and New York City Urban Systemic Initiative in mind. Teacher and student materials will be keyed to the curriculum guidelines. The long-term exhibit is scheduled to open late in 1998 and the traveling version will be available in spring 1999.
The Louisville Science Center will develop "The World We Create", a 13,000 sq. ft. exhibit which will transform their second floor to an active learning environment where visitors can explore the simplest element of the creative process to the most sophisticated networks available to our society. The activities will be organized into five core exhibit areas: New Way Tunnel, Think Tank, Inventor's Garage, Chemistry Kitchen, and Tech World and will reinforce educational reform activities in math, science, problem- solving, team cooperation, and decision making. In addition to the large number of interactives, there is a substantial technology/telecommunications component known as the Tech Forum. This will serve at the home site for the Kentucky TeleLinking Network (KTLN). The educational objectives of the exhibit were developed under the guidance of prominent formal educators in the state and they address both the education reform goals of the state and national science and math standards. The exhibit has also been developed with direct participation of a number of private sector partners. It is an impressive community effort. The exhibit is scheduled to open in March, 1997.