The Massachusetts Institute of Technology is conducting a three-day symposium to consider how to use images to communicate science and technology most effectively. Participants will include scientists, imaging technologists, computer scientists, photographers, science writers, illustrators, computer modelers, mathematicians, and others involved with communicating the basic science and findings from research. The focus of the conference will be on communication -- both from the scientific community to the general public, and within the scientific community. The 300 conference attendees will hear presentations from professionals working in the area. However, they will spend the majority of the time working collaboratively on solutions to model problems such as how to represent the interaction of a receptor with a ligand, how to make visually explicit the passage of time at all scales, and how to explain visually a sequence of events. Those who have committed to attend the conference will participate for several months in a conference web site prior to and after the meeting. The web site will enable participants to "critique" and make modification to various images and text used to communicate science. It also will be used to enable participants to collaborate in working groups on the model problems. The PI's for the project are Boyce Rensberger and Felice Frankel. Rensberger is director of the Knight Science Journalism Fellowships program at MIT. He is a science writer and editor and has worked in these capacities for both the New York Times and The Washington Post. Frankel is Artist-in-Resident and research scientist in the Department of Electrical Engineering and Computer Science at MIT. She photographs and digitally images research data in science and engineering. She has collaborated with George Whitesides to publish "On the Surface of Things: Images of the Extraordinary in Science."
National Public Radio (NPR) has been awarded a grant of $807,335 in declining amounts over a four year period for production of Science Friday, the weekly two-hour call-in radio show that deals with science topics. Over the four year period, NPR will make an increasingly larger commitment to the total budget of $1,763,768 until they assume total budgetary responsibility for the project in FY 2001. The series' goal is to make science easily accessible to the public and to help them realize the relevance of science and technology to everyday life. The format of the programs enables the public to engage in conversations with scientists and science educators to discuss contemporary science topics. Science issues anticipated to be included in future programs include: science and mathematics education, science literacy, science risk assessment and public policy, and the future of technology. In addition to the broadcast series, NPR will develop a web site for Science Friday which will distribute the radio series on demand via the Internet, bring Science Friday to cities and rural areas where the series is not broadcast, create live Internet chat groups where listeners can meet to discuss the program, provide sound bytes and audio files of guests, and create a "Science Day Book" which will be a calendar of events loaded with science opportunities for people in their own home towns. Science Friday also has established a joint project with Kidsnet, an established computerized clearinghouse for education through the media. Ira Flatow will continue as the series host and producer. Barbara Flagg of Multimedia Research has been engaged to assess the audience impact of the project.
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TEAM MEMBERS:
Kevin KloseWilliam BuzenbergBarbara Flagg
resourceprojectProfessional Development, Conferences, and Networks
The Museum of Science in Boston is conducting a workshop/symposium that will focus on the question of how best to address the issue of enhancing public understanding of major, on-going research efforts. The workshop will begin a critical discussion among researchers and some of the most prominent practitioners of informal public education in the areas of science, engineering and technology. The discussion will explore possible directions that might be taken in regard to disseminating information about research to the public and in increasing the public's understanding of the role and possible implications of this research. Issues to be examined include: The scope and aspects of research upon which to focus; The present obstacles to public understanding; The advantages and disadvantages of different approaches for disseminating information; Costs and time frames of different approaches; How to encourage and implement collaboration and networking among institutions that have the goal of increasing public understanding. The general goal of the workshop is twofold: to provide feedback that will inform the creation of new programs to address the issue of enhancing public understanding of research and to share ideas among institutions that have a common purpose.
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TEAM MEMBERS:
David Ellis
resourceprojectProfessional Development, Conferences, and Networks
Science Learning, Inc. will plan and carryout a two day conference that will bring together researchers, practitioners and policy makers in an effort to seek to better understand the workings of the informal science education infrastructure. Being promoted as a seminal event for defining and understanding the role of informal science education infrastructure in facilitating public understanding of science, conference participants will better define and delineate the informal science education infrastructure, hear about studies examining the nature and function of the informal science education infrastructure, learn about research models in other fields that are related to this question, and look toward the future by proposing studies and approaches to understanding this infrastructure even better. This is an outgrowth of a projected ten-year research study conducted for LA's California Science Center looking at the impact of a major urban science center on its community. This conference will be held in association with the May, 1998 annual meting of the American Association of Museums. Participants will apply to attend; it is anticipated that approximately 100 individuals will be selected. The conference proceedings will be published and broadly dissemination after the conference. It will include the nine formal papers presented at the conference along with summaries of the small groups' sessions and conclusion. The James Irvine Foundation and the California Science Center will provide additional support for this conference.
The American Association of Botanical Gardens and Arboreta (AABGA) is requesting support for the upcoming World Congress to be held in Ashville, NC, June 25-30, 2000. They intend to develop a theme, "Reaching Out: Informal Learning in Botanical Gardens," in order to enhance informal learning in botanical gardens across the nation. The theme will be addressed through plenary addresses, conference sessions, workshops and tours. A conference publication and a web site will extend the impact of this theme beyond the conference.
The New Ecological Paradigm Scale-Revised (NEP-R) is an updated version of the 1978 New Ecological Paradigm Survey. This updated version reflects current environmental terminology, as well as tests a single construct. The NEP-R is suitable for use in the general adult population.
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TEAM MEMBERS:
Riley E. DunlapKent D. Van LiereAngela MertigRobert Emmet Jones
This Phase I SEPA proposal supports a consortium of science and education partners that will develop System Dynamics (SD) computer models to illustrate basic health science concepts. The consortium includes Oregon Health Sciences University (OHSU), Portland Public Schools (PPS), Saturday Academy, and the Portland VA Medical Center. SD is a computer modeling technique in which diagrams illustrate system structure and simulations illustrate system behavior. Desktop computers and commercial software packages allow SD to be applied with considerable success in K-12 education. NSF grants to Portland Public Schools have trained over 225 high school teachers in Portland and surrounding areas. Two magnet programs have been established with an emphasis on systems and at least five other schools offer significant systems curriculum. Major components of this project include (1) Annual summer research internships at OHSU for high school teachers and high school students, (2) Development of SD models relevant to each research project, (3) Ongoing interactions between high school science programs and OHSU research laboratories, (4) Development of curriculum materials to augment the use of the SD model in the high school classroom or laboratory setting, and (5) Development of video materials to support the classroom teacher. Content will focus on four fundamental models: linear input/exponential output, bi-molecular binding (association/dissociation), population dynamics, and homeostasis. Each of these models is very rich and may be extended to a broad variety of research problems. In addition these models may be combined, for example to illustrate the effect of drugs (binding model) on blood pressure (homeostasis model). System Dynamics is an exemplary tool for the development of materials consistent with National Science Education Standards. SD was specifically developed to emphasize interactions among system structure, organization, and behavior. Students use these material as part of inquiry-based science programs in which the teacher serves as a guide and facilitator rather than the primary source of all content information; technical writing by students is also encouraged. Finally, these SD materials will provide a coherent body of work to guide the ongoing professional development of the classroom science teacher.
JOURNEY TO PLANET EARTH is a new television science series and outreach initiative from Emmy award- winning producers Marilyn and Hal Weiner. With a comprehensive informal and formal education program designed by the Chicago Academy of Sciences, the project will educate and motivate millions of people about the most important health and environmental issues of the 21st century. Against a backdrop of scientific findings illustrating the complexity and fragility of the Earth's natural systems, the series will provide a much needed perspective to help students and the general public understand and cope with the difficulties of developing a global agenda that addresses the health and environmental concerns of the next millennium. JOURNEY TO PLANET EARTH's outreach initiative targets middle-school aged youth in a variety of informal and formal educational contexts, including ten of the country's leading science museums. It is supported by a comprehensive evaluation program and strategic outreach partnerships with organizations such as the North American Association for Environmental Education, the Geological Survey, the International Food Policy Research Institute, the National 4-H, the Department of Agriculture's Classroom Program, the GLOBE Program and AAAS.
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.
Found in gravesites. Buried in the backyard. Lurking and scaring neighbors at Halloween. The stuff of legendary Hollywood horror films. But, in reality, bones are so much more. They are the living, growing framework of life. Bone Zone, a dynamic traveling exhibit to be developed by the Children's Museum of Indianapolis, will let visitors explore the mystery inside the body so long hidden by skin, fur or other outside covering. By capitalizing on the fact that visitors bring a portion of the exhibit into the gallery with them (their own bones), these visitors will learn that they too have bones and that their bones live and grow along with them. A great need for this type of exhibit exists because most people do not identify the skeleton as one of the body's major functioning systems. The cardiovascular and respiratory systems are most commonly cited. However, the skeletal system provides key functions. Visitors will learn the key functions this system fulfills as well as learn that bones are alive - most youth have the misconception that their bones are dead. The exhibit will showcase myriad human and animal bone scenarios in well-developed contexts that will help visitors understand the information presented. Interactive, hands-on activities will be highlighted in Bone Zone. Visitors will see the skeletons of other animals, and play a game where they learn the difference between bone and pseudo-bones, such as scales. In another area, visitors will observe bone cells in a microscope, see a large-scale depiction of a bone, and watch the bone cells at "work." The exciting and innovative 5,000-square-foot exhibit will be showcased at the museum beginning in 2001. The goals of the Bone Zone project are to (1) Develop an interactive, traveling exhibit about bones to promote an understanding of the skeletal system and bone-related diseases among children and the public; (2) Develop curriculum materials and workshops for teachers; and (3) Stimulate interest in health science careers.
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.