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.
This 12-month planning grant will create the foundation for a project based on meaningful, online, game-based learning. Specifically, it will enable the proposer to develop and validate story lines and game characters with middle-school aged children in two summer design institutes. In addition, the proposer will build partnerships with museums and informal learning institutions and develop a plan to work with these partners for the dissemination, promotion, use and evaluation of the future games. Intellectual Merit: The project will develop standards-linked design specifications for play scenarios, game characters and real-world, problem-based activities across STEM domains. These design specifications should be of significant value for future educational game development. Children will serve as "informants" during game design, providing input where most effective. This involvement in the planning process is critical to the success of the games, and should ensure the desired "kid appeal." Broader Impact: The strategy of involving advisory groups of children, including those at-risk, will allow the project to factor in ways to engage audiences underrepresented in the sciences by tailoring characters and activities that ensure broad appeal. In addition, the approach of solving puzzle-like problems embedded in a game's story narrative should appeal to both boys and girls. This project will generate a report for publication on the design process and resulting specifications.
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.
This planning grant proposal would develop the logistical, programming and creative specifications for production of Magic Porthole, an innovative Web-based science game for 8-14 year olds. The content and learning will focus on the value and significance of intact coral ecosystems to human communities, encouraging young people to seek more sustainable relationships with their environment. The project will use existing video footage of coral reef life along with new live action footage, text, stills, music and flash animation. The 8-14 year olds will be engaged in a sustained mystery story that will pull them more deeply into scientific content. The organizational collaborators are environmental education and media organizations.
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TEAM MEMBERS:
Janine SelendyJan PostWilliam FinneganBrett Pierce
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.
We will develop two CD-ROM based interactive multimedia resources for middle school students, based on print modules from Stanford's Middle Grades Life Science Education Curriculum project, which is funded by the national Science Foundation and Carnegie Corporation of New York. One multimedia title will cover the cardio-respiratory systems, linking the biology of the heart and lung to disease risk and prevention. The other will focus on genetics, cellular, and developmental biology, with applications to human gene therapy and genetic engineering. These new multimedia science education resources will extend the work supported by the U.S. Public Health Service through Stanford's SEPA grant to develop an innovative and highly interactive multimedia resource on athe Nervous System and the Effects of Drugs and Alcohol. Faculty, staff, and science education graduate students in Stanford's Program in Human Biology and School of Education, along with local middle and high school science teacher consultants, will continue to work in partnership with Volotta Interactive Video, a multimedia design and production company in Larkspur, California. Many of the structural design elements created for the first multimedia resource will be used to develop the next titles. These design features will provide a consistency in the human biology multimedia titles, which will make it easier for students and for teachers to use, once they have gained experience with one resource. It also will help lower the development costs for the subsequent titles.
MEDMYST: Dissemination Phase II A Phase I grant, The Reconstructors Investigate Medical Mysteries, from the National Center for Research Resources (R25 RR15295) funded the creation and field-test of innovative web-based materials targeted for middle school students. The product has come to be known as MEDMYST.It is an episodic adventure series with accompanying classroom activities focusing on infectious diseases and the microbes that cause them. The MEDMYST materials consist of: a) web adventures; b) classroom activities; c) MEDMYST Magazine--all designed to engage students in problem-solving activities not likely to be encountered elsewhere. Each of these components is available free of charge on the web site (http://medmyst.rice.edu) and all components are aligned with the National Science Education Content Standards. An extensive field test involving over 700 students from 9 different schools tested the efficacy of these materials. The results, accepted for publication in American Society for Microbiology's Microbiology Education journal, indicated significant learning gains with exposure to the Internet component of the materials. In this Phase II application, the goals are: 1) To create a network of MEDMYST Dissemination Partners and Lead Teachers whose expertise and training will continue beyond the SEPA funding. 2) To amplify teaching of Infectious Disease related concepts though MEDMYST in middle school classrooms by training a minimum of 1200 teachers, who will teach approximately 150,000 students over a two-year period. 3) To evaluate the impact of MEDMYST teacher training and document the adoption process in classrooms. 4) To continue to promote MEDMYST in a variety of educational settings, such as homes, after-school programs, museums, and with links from other web sites. To accomplish these goals, we have formed partnerships with the University of Washington Educational Outreach, The Minnesota Science Museum, the John P. McGovern Museum of Health ad Medical Science, and the American Society for Microbiology.
We propose to leverage the power of the Internet and the appeal of on-line gaming environments for middle school students to create a new type of learning resource in science. Case histories of medical discovery will be transformed into "problem- based" multimedia mysteries for students to solve. Through prior research we have developed and field tested a working model for an adventure series that engages middle school students. We propose to extend the model to new content. Assuming the on-line role of a Reconstructor who seeks lost medical knowledge from the past, students will unravel the origins of specific diseases or medical discoveries. The learning objectives for each episode will be multidisciplinary. The goal is to engage students in constructing their own knowledge by participating in virtual experiments, by helping them establish a context for the discoveries, and by understanding issues involved in forming public health policy. An experienced team representing medicine, biology, history of science, education, and information technology will oversee the project, assuring the integrity of the site content, and incorporating cutting edge technology. A process of iterative prototyping, focusing heavily on teachers and students will be employed to make the resource site exciting, educational, and useful in classrooms, in homes, and in museums. The field tests will be conducted in schools, representing a cross-section of the community, assuring appropriate presentation of materials to target populations.
1. Build stepwise a prototype -Virtual Clinical Research Center- (VCRC) for K-12 learners and mentors (diverse peers, experts, and patients) by accessing, mobilizing, and linking the human and physical resources of a prototype national network of Clinical Research Centers (CRC) and translational laboratories through state-of-the-art Telemedicine communication and collaborative technologies and featuring T3 or the 3Ts - Teams, Technologies, Translation - of the Clinical Research Enterprise); 2. Develop the Medical Ignorance Exploratorium (MIEx) as a hybrid K-12 cybercafe-health science museum with key features of a) navigable, game-like, 3D environment including -Isles of Medical Ignorance- and -Questionator,- b) Resource Library, c) Live Performance Theater; and d) Collaboration Space, all to stimulate and guide student-centered inquiry about medical breakthroughs, clinical topics, and sick patients (featuring cyber Q3 or the 3Qs-Questions, Questioning, and Questioners); 3. Evaluate the impact and effectiveness of the curricular and delivery resources and models in SA1 and 2 as well as the dissemination in SA4; 4. Disseminate, embed, and expand the refined Virtual CRC and Medical Ignorance Exploratorium in K-12 schools, the clinical research community, and beyond.
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TEAM MEMBERS:
Marlys WitteGrace WagnerMichael Bernas
A team of researchers and practitioners developed a museum program to coach families in the skills of scientific inquiry at interactive exhibits. The program was inspired by the increasing focus on scientific inquiry in schools and the growing number of open-ended exhibit designs in science museums. The development process involved major decisions in two arenas: which inquiry skills to teach, and what pedagogical strategies to use to teach them. After many rounds of refinement based on evaluation with families, the final program, called Inquiry Games, improved visitors' inquiry behavior in