IDSolutions, in partnership with the National Association of Health Education Centers (NAHEC) and eight NAHEC member organizations will develop an original project to provide informal science education experiences to children, families and the local community via visual communications' technology. This initiative includes building a technical infrastructure that will connect participating Health Education Centers. It will expand beyond the installation of a network and will focus the bulk of its energy on the technology's application -- generating inquiry-based science experiences through active engagement with content that originates from remote locations. Through the creation of an Interactive Videoconferencing Programming Collaborative (IVPC), IDSolutions, NAHEC, and NAHEC Members will produce and disseminate to our target audience of school-age children, families, community groups and teachers, a high volume of science-related programming. The core content of the initial set of programs will be extracted from one of the nation's most popular life science traveling exhibits called "Grossology." These distance-learning programs will originate from a central "studio" location and will be available during the day, after school, on weekends, during summer breaks and holidays. Supporting this effort will be Advanced Animations (designers of "Grossology" and "Experience Science!"), a science education consulting company.
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.
This award provides support for Mr. Kamen to explore the feasibility of developing an interactive educational kiosk (to be named FIRST PLACE), programmed with electronic mathematics and science games and placed in out-of-school area such as shopping malls to reach K-12 children. Students would play the games and be rewards with coupons. This multi- disciplinary project would expand students access to science and mathematics, the learning into the economy, and present learning as a leisure time activity.
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 Shared Signing Science Planning Project will develop a prototype of a web-based Signing Science Pictionary. The prototype will be piloted to families and caretakers of deaf and hard of hearing children to study the feasibility and effectiveness of the learning technology and identify the activities that are most effective in helping deaf children learn life science at informal science centers. The project team will also compile a dictionary of science terms with the intention of including the terms in a full version of the Pictionary. The final Pictionary will be comprehensive; including scientific terms from life, physical, Earth, and space science and will be presented in animated sign language accompanied by written explanations and pictorial illustrations. The project will also produce a video guide with a description of activities that parents can implement with their children. The planning project will result in a prototype with 100 life science terms of species found at the three informal science centers the children and parents will visit to test the prototype. These informal sites are hands-on and exploratory featuring marine organisms and a range of terrestrial flora and fauna to touch and interact with. To prepare for the site visits, parents and caretakers of deaf or hard of hearing children will be taught how to use the Pictionary with children through a Flash-based movie that introduces the interactive features and assists the parents in engaging with their children in three activities using the signing scientific vocabulary. The preparatory vocabulary work with the parents and children will lay the educational foundation for the visits to the informal science education sites. Families will test the initial project prototypes with deaf children using a control group for comparison. Pre-tests will be used to assess childrens' vocabulary before use of the Pictionary. Follow up tests will test knowledge of the new words and will include field observations of children in museums, zoos, and farms, where the new terms will come to life in corresponding exhibits. The results of the ongoing evaluation will be compiled into a guide for other developers of similar materials for the deaf community, and will impact the development of the final project. The project will broaden participation of an underserved audience in STEM learning and generate new knowledge about how to effectively integrate emerging learning technologies into exhibits and programs for deaf learners.The project team includes TERC and Vcom3D and collaborators from Gallaudet University Regional Center at Northern Essex Community College, the College of the Holy Cross, and the Learning Center for Deaf Children. Participating informal science education institutions are represented by the EcoTarium, Davis' Farmland, and the Stone Zoo. These partnerships provide the necessary expertise and support for the proposed project to have significant impact on advancing STEM learning in informal settings for children with hearing disabilities through the use of assistive learning technologies.
Digital image processing offers several possible new approaches to the teaching of a variety of mathematical concepts at the middle-school and high-school levels. There is reason to believe that this approach will be successful in reaching some "at-risk" students that other approaches miss. Since digital images can be made to reflect almost any aspect of the real world, some students may have an easier time taking an interest in them than they might with artificial figures or images resulting from other graphics- oriented approaches. Using computer-based tools such as image processing operators, curve-fitting operators, shape analysis operators, and graphical synthesis, students may explore a world of mathematical concepts starting from the psychologically "safe" territory of their own physical and cultural environments. There is reason to hope that this approach will be particularly successful with students from diverse backgrounds, girls and members of minority groups, because the imagery used in experiments can easily be tailored to individual tastes. The work of the project consists of creating detailed designs of the learning modules, implementing them on microcomputers, and evaluating their effectiveness in a variety of ways, using trials with students at Rainier Beach High School, which is an urban public high school having an ethnically diverse student body and a Macintosh computer laboratory.
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TEAM MEMBERS:
Steven TanimotoMichele LeBrasseurJames King
The goal of this project is to educate children between the ages of 10 and 18 about the ecology of insects and forests, how human activities affect their interaction, and how scientific research is conducted. It will disseminate information throughout Indiana based on research award DEB 0345331, Cicadas and Forests Education. For a period during May and June 2004 the United States was captivated by periodical cicadas in an unusual convergence of popular and scientific interest. This project will use this heightened awareness as a vehicle for informal science education as additional broods emerge in 2007 and 2008 in the Midwest and South. The project will use existing video footage from the research to produce a documentary film on periodical cicadas for airing on public television stations and distribution on DVDs to schools; an interactive computer-based presentation in PowerPoint; and an interactive 3-D animation of the cicada life cycle for use in a science center. Project collaborators include local public television stations, Wonderlab (a science museum), the Indiana State Museum and school systems in Indiana.
The award winning, computer animated, broadcast quality videotapes on a number of mathematics topics developed at California Institute of Technology under two previous NSF grants are the basis of this project that produces interactive multimedia lessons distributed on CD-ROM. The videotapes use live action footage to relate mathematics to the real world and the interactive, multimedia version moves these materials more firmly into the hands of students.
This project for six (6) months' duration will bring advisors and designers together to plan an environment of interactive touch-screen displays to draw high-school students and their parents into thoughtful consideration of careers in science, mathematics, and technology. Housed at Kennedy Space Center's Visitor Center and in keeping with the theme of space exploration, the visitor will become a crewmember on a future voyage and solve problems encountered on the journey via computer simulations. Veteran astronauts will narrate the scenarios, since they have actually encountered unexpected problems in space. The proposed final exhibit will have six (6) stations, each featuring a different episode and levels of complexity of a common storyline. After solving the problem using math, science, technology and critical thinking skills, a registration mechanism will enable the student to request information on spedific careers and information about post-secondary schools that offer such training.
Lawrence Berkeley Labs developed a CD containing educational materials, staff training and the software necessary for informal science education centers to offer to middle school students one- hour sessions, multiple-day workshops, and ongoing participation in a drop-in computer lab. Hands-On Universe (HOU) is an active science education program that provides participants access to observing time on professional telescopes through the use of a personal computer and the Internet. The CD contains: exploration experiences and challenge games; resource material including images from other national labs, descriptions and animations of related topics, and astronomical catalogs; image processing software; a telecommunications package to interface with HOU telescopes and support network, the Internet, and World Wide Web; staff training material. The target audiences are youth in grades three through high school, and adults.
MarsQuest Online is an exploration-based website designed to complement the innovative MarsQuest traveling exhibit launched by the Space Science Institute (SSI) in 1997. "MarsQuest Online" will enhance and extend the exhibit, which is currently on a six-year, 18-city tour. TERC, working in collaboration with the Space Science Institute and NASA's Jet Propulsion Laboratory (JPL), will create a virtual version of the exhibit using software such as Java, Quicktime VR and JPL's sophisticated MarsNet Viewer system. Users will be immersed in an integrated, interactive environment complete with the tools and resources to carry out investigations and enhance inquiry-based learning. "MarsQuest" will expand users' understanding of the history of Mars, scientific exploration, the climate and related earth science concepts, while enabling them to follow the exploration of various landers and orbiters, and access NASA scientists. A diverse collection of Guided Inquiry experiences will foster the ability of users to develop inquiry and analysis skills, while offering options for novice, intermediate and advanced learners. Finally, a comprehensive evaluation plan will examine how the website and exhibit compare in promoting the understanding of science, broadening public interest in space exploration, and motivating further learning. The site will be promoted for use by schools as a tool for teaching earth science and space exploration. It is estimated that 300,000 people will visit "MarsQuest Online" annually.
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TEAM MEMBERS:
Daniel BarstowPaul DusenberyPaul AndresChris Randall
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.