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.
KY-H.E.R.O.S. (Health Education Rural Outreach Scientists) is a health science education program that partners the largest science center in Kentucky with Science Heroes-- important regional biomedical research scientists. The Science Heroes, their stories and their studies serve as inspiration to our rural audience. The project objectives are to: (1) Convey the relevance of health science research to people's daily lives and promote awareness of healthy lifestyle choices and wellness; (2) Promote understanding of the fundamental principles of the scientifc process and inspire K-12 teachers to incorporate current research into their teaching of health science; and (3) Encourage students to pursue advanced science education and increase awareness of the wide range of health science related careers. The Science Center, working with the distinguished Science Heroes, their research teams and a group of 15 knowledgeable professional advisors will develop the new KY-H.E.R.O.S. science education program. The program will include new hands-on labs and demonstrations, teacher training workshops, career exploration activities, interactive videoconferencing distance learning links, and innovative public programs. Using museum-based exhibits and a wet lab, traveling exhibit components, telelinking (distance learning), an interactive website and printed and electronic materials, we will present information about the work of the Science Heroes and its relevance to the lives of participants. The focus of the program will change every two years to feature three different scientists and their work. A total of nine scientists will be included during the 5 year period covered by the SEPA grant. As the focus changes every two years to a different three scientists, all the programs and exhibits will be changed accordingly. KY-H.E.R.O.S. will be designed to serve audiences composed of school groups on field trips; teachers in workshops; classes in remote areas of the state participatng through videoconferencing; underserved groups including economically disadvantaged, minorities and young women; and the family audience that makes up about 60% of the Science Center's annual attendance. Formative and summative evaluation will be conducted by an outside firm to ensure effectiveness.
This project will disseminate neuroscience materials to secondary school science teachers via a CD-ROM. These materials will be evaluated to 1) determine changes in student attitudes toward science; 2) to assess changes in student knowledge of neuroscience concepts and 3) to quantify how students and teachers are using the Internet Neuroscience Resource ("Neuroscience for Kids"). The Scientific Attitude Inventory-II will be used to evaluate middle school student attitudes toward science before and after exposure to the Neuroscience Resource. Pretesting and posttesting of middle school students will be performed to evaluate content knowledge of neuroscience-related concepts and principles. Questions that comprise the content evaluation inventory will be based on the guidelines and benchmarks established by the American Association for the Advancement of Science, the National Research Council, and the National Science Teachers Association. Prior to general distribution, pretests and posttests for both attitude and content knowledge will be evaluated for validity and reliability with pilot group of middle school students. An Internet version of the Neuroscience Resource will continue to be developed.
The Internet has seen an explosive growth in the past few years, and masses of information on cancer are readily available to anyone with a live connection. Unfortunately, the vast majority of this information is presented in long test passages, with few illustrations and non multi- media elements to increase user interest. Absent are materials that help people appreciate how basic research in cancer genetics is being rapidly translated into new options for diagnosis, treatment and prevention. We seek support to create an extensive WWW site, Inside Cancer, which literally will take people into the workings of the cancer cell and into the laboratories of scientists who are revolutionizing cancer research. Building upon the project staff's strong experience in building multimedia WWW sites, Inside Cancer will make use of the most up-todate technology to merge animation and video into a visually stimulating experience. At the same time, the project draws scientific authority from a world-renowned research institute and advisors who have played important roles in the development of modern cancer research. Five modules will be developed. What is Cancer? quickly answers this and other related questions in short animations and prepares more curious visitors for the next modules. Cancer in the Laboratory features researchers explaining animated sequences of their own experiments, which laid the foundation for understanding cancer at the molecular level. Cancer Causes and Prevention animates the molecular events triggered by carcinogens, such as tobacco smoke and diet and emphasizes how lifestyle changes can reduce cancer risk. In Cancer Diagnosis and Treatment visitors shadow doctors making a cancer diagnosis, showing the connections between cancer cell alterations and new treatment options. Pathways to Cancer takes visitors on a 3-dimensional tour of a cell and its signaling pathways, then allows them to see downstream effects of mutations and their relation to cancer evelopment. As new findings and therapies are discovered, we will update the modules to keep Inside Cancer current.
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TEAM MEMBERS:
David MicklosShirley ChanSusan Lauter
The overall goal of this project is to further develop and test one high-potential current health science research dissemination strategy initially prototyped as part of the SEPA Phase I development of the Museum of Science-s Current Science & Technology Center: updateable interactive digital multimedia displays on current research that can be networked to multiple locations, including science museums, libraries, and student centers. This SEPA project aims to broadly disseminate learning resources on nanomedicine research, capitalizing on the momentum provided by the new NSF-funded Nanoscale Informal Science Education Network (NISE Net), also headquartered at the Museum of Science, Boston, which has plans to place exhibits relating to nanotechnology in 100 museums by 2011. In collaboration with the NISE-Net, the SEPA-funded team will: 1) Research, write, and produce four - six multimedia stories about current nanomedicine research, including elements such as researcher profiles, interpretive animations, interactives exploring the basic science, potential for human benefit, and pathways for further inquiry, 2) Prototype an updateable and networkable software interface and a physical digital display kiosk that can serve audiences in science museums, student centers, libraries, and other public locations, 3) Evaluate the effectiveness of interface and story content and make plans for further development and distribution, and 4) Develop additional content production partnerships with research centers and media.
Alaska is a vast state with a widely dispersed population, lack of road access to most communities, natural barriers such as large expanses of wilderness, mountain ranges, rivers, some of the harshest weather anywhere, and high costs of travel. Providing adequate health programs, services and information to Alaska's remote and largely underserved population has proven to be a daunting task for health care administrators, providers, and educators. The Imaginarium plans to design and create a five-year Health Outreach Caravan program in order to educate and inform the Alaskan public about health science research, so they are better equipped to make healthier lifestyle choices. The program will also be designed to stimulate Alaskan students' interest in science, particularly those students in remote rural areas of Alaska who are traditionally underrepresented in the science professions. The specific objectives of The Imaginarium's Health Outreach Caravan are to form partnerships with the scientific, public health, educational and cultural communities to improve student and public understanding of health sciences; to develop mobile, hands-on, interactive and culturally appropriate health- related programs, exhibits, curricula and kits; to develop a Health Science Teen Volunteer Corps across remote, culturally unique regions of Alaska to facilitate linkages between biomedical scientists, village elders, and local community and school programs; to train teacher aids and teachers to present handson interactive and culturally appropriate classroom health science demonstrations; and to develop culturally appropriate community health science festivals to spark interest in science and health, and to improve student, family and public understanding of health science issues.
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TEAM MEMBERS:
Haywood SavinaRamon WallaceGregory DannerErin Graves
The Maryland Science Center, in cooperation with the Johns Hopkins Medical Institutions (JHMI) and the University of Maryland, Baltimore, developed and produced BodyLink, a unique health sciences update center. The group did so with support from the National Institutes of Health SEPA (Science Education Partnership Award) Program, BodyLink, which is modeled after the Maryland Science Center's praised SpaceLink space science update center, will make today's medical and health news clear and relevant for visitors, young and old. Science and technology centers have long struggled with ways to acquaint visitors with the latest and greatest discoveries in health and biomedical science, and to interpret the significance of these findings for all ages. Museums can no longer be content with presenting only basic science, and need to expand their role as public communicators of science by presenting cutting-edge research, and by interpreting and explaining this information for visitors. BodyLink is a 1,500-square foot multimedia center where visitors can discover and appreciate the wonders of cutting-edge medical research (basic research, as well as clinical research) through interactive exhibits, stunning imagery, and facilitated demonstrations in a multimedia driven programmable space. BodyLink also includes WetLab, an open-access microbiology laboratory facility that allows visitors to conduct scientific investigations using state-of-the art research technology. Visitors can extract DNA from wheat germ, test common anti-microbial products on live bacteria, and learn Gram staining techniques, among other activities. Bodying will further serve school groups, general museum visitors, and remote-learning participants through the interactive website. BodyLink also incorporates an internship program for graduate students from the Maryland Science Center's collaborating universities. These internships give the graduate students an opportunity to interact with the general public to enhance their scientific communication skills and give them first-hand experience with investigating public understanding of scientific research.
BioTrac will expand opportunities in biomedicine for low-income, first-generation college-bound high school students, increasing the number interested in, and prepared to enter, the biomedical research pipeline. Specific objectives are to: (1) Raise awareness of careers in biomedicine and provide students with real-world biomedical research experiences; (2) Increase awareness of requirements and opportunities for related post-secondary study; (3) Increase public understanding of the importance and diversity of biomedical research; and (4) Disseminate project outcomes. In collaboration with the University of Miami (UM) and Miami-Dade County Public Schools (M-DCPS), the Museum will design and implement a replicable model program exposing students to research on selected priority areas outlined in the Public Health Service's Healthy People 2000 agenda. The program will focus on areas with significant local research capacity, ties to local growth industries, and relevance to Miami-Dade's diverse communities. Students will investigate each area through hands-on lab activities, on-line research, site visits to research facilities, and through interactions with research scientists at UM's nationally renowned Jackson Memorial Medical Complex. Students will work in teams to conduct community-focused research on aspects of each priority area, using technology skills acquired as part of the program to document their research through digital video, PowerPoint presentations, and development of a BioTrac website. Students will present their research at annual symposia held at the Museum. They will also serve as science explainers in the Museum's galleries, interpreting biomedical-related exhibits to the general public. During the summer before 12th grade, students will attend residential programs at University of Florida and Florida A&M University, gaining exposure to post-secondary programs leading to careers in biomedical research. Students in 11th and 12th grade will also be encouraged to participate in M-DCPS's Advanced Academic Internship Program, gaining up to three honors credits for work in institutions engaged in biomedical research. Following 12th grade, prior to beginning college, students will be placed in an eight-week summer internships at UM labs engaged in a broad spectrum of biomedical research. The Museum will disseminate students' research experiences and project findings through an BioTrac web page, ASTC and Upward Bound conferences and networks, and Museum and UM publications.
Founded in 1999, the Silicon Valley Astronomy Lectures are non-technical illustrated public lectures, presented on six Wednesday evenings during each school year at Foothill College, in the heart of California's Silicon Valley. Speakers over the years have included a Nobel-prize winner, members of the National Academy of Sciences, the first woman in history to discover a planet, an astrophysicist who is an award-winning science fiction writer, and many other well-known scientists explaining astronomical developments in everyday language. The series is jointly sponsored by the Astronomical Society of the Pacific, the SETI Institute, NASA's Ames Research Center, and the Foothill College Astronomy Program. In-kind funding and staff time is contributed by the sponsoring organizations. The lectures are held and videotaped in the 950-seat Smithwick Theater in Los Altos Hills. Thanks to a generous grant from an anonymous local donor, each lecture is now video and audio taped, professionally edited, and made available free of charge on a number of web sites. Videotaped lectures include: * Frank Drake discussing his modern view of the Drake Equation, * Sandra Faber on how galaxies were "cooked" from the primordial soup, * Michael Brown explaining how his discovery of Eris led to the demotion of Pluto, * Alex Filippenko talking about the latest ideas and observations of black holes, * Natalie Batalha sharing the latest planet discoveries from the Kepler mission, * Anthony Aguirre discussing how it is possible to have multiple universes, and * Chris McKay updating the Cassini discoveries about Saturn's moon Titan.