Playtime Is Science: A National Model for Parent Involvement In Early Science Education is an innovative parent/child science activity program. The overall goal of the model is to enlarge the potential pool of students who are competent in science and technology to include more girls, children of color, with disabilities, and children from low-income families. By engaging parents in partnership with schools and community organizations, Playtime Is Science will increase the science literacy of young children (ages 4-7) as well as that of their parents and other adults in their lives. This three-year project, built on a successful local model developed in New York City public schools, will include the following activities: training and networking for site liaisons; pilot testing and evaluation at three sites chosen for geographic, racial, ethnic, language, and socioeconomic diversity; materials development and production; a formal research study; and intensive national dissemination of Playtime Is Science materials package. Materials to be developed include 1) four videotapes to provide a visual rendering of the program for parents, teachers, and administrators; 2) a how-to manual providing easy-to-follow instructions for implementing the program; 3) and a home activity booklet for parents illustrating science activities which utilize inexpensive, readily-available materials found in every home.
This planning grant deals with helping people in a flood prone area, Lehigh Valley, understand climate change and the impacts it can have on their livelihood. Through a series of town hall type meetings and distributed materials, the Nurture Nature Foundation and scientists will provide perspective on climate change and options now available to them. The target audience will range from teenagers to adults. During these discussions STEM concepts shall be integrated into the materials. An important aspect of this planning project is devising strategies for interactions with the local groups in meetings and for effective displays and exhibits that not only address the flooding/climate change issues but also reflect the STEM principles and concepts that are involved.
National Geographic Television is creating multi-platform media to communicate the scientific and engineering stories unfolding in the Gulf region due to the major oil spill. The Deepwater Horizon oil spill is one of the worst environmental disasters to occur in the U.S., and though traditional news outlets continue to report on the spill, there is little discussion about the scientific factors at play. They include the technology and engineering skills needed to stop the leak and contain the oil; the scientific and engineering efforts to mitigate its effects; and the potential impacts on the Earth system. Communicating these scientific and engineering concepts to the public is both critical and urgent. National Geographic is uniquely positioned to take the lead in reporting on the science and engineering behind the spill and its implications. Deliverables will include: a 60-minute "Explorer" documentary television program to air on the National Geographic Channels in September 2010; 16 weekly online "Science Journal" segments featuring interviews with scientists, engineers, and other experts, promoted through National Geographic's social media channels; ongoing online news coverage and blog reports from the Gulf region; and online content for children. Funding from the National Science Foundation will specifically support coverage of the yet-to-be-filmed science and engineering segments for the television program and digital content. The television program and digital content will reach a broad public audience with critical science and engineering concepts. The entire project is designed to communicate scientific messages from the Gulf in real time and over the longer term, and in so doing, to enhance public understanding of science and engineering as it relates to the oil spill crisis.
The middle-school and high-school years are a period of change and crystalization in terms of life goals, disciplinary and course preferences, and social and political attitudes. The literature provides a number of cross-sectional descriptions and models concerning cognitive and attitudinal development during adolescence and young adulthood, but there are no longitudinal data available to study these processes. The proposed longitudinal study will examine the (1) development of interest in science and mathematics, (2) the growth of scientific literacy, (3) the development of attentiveness to science and technology issues, and (4) the attraction to careers in science and engineering among two national cohorts of adolescents and young adults. One cohort will begin with a national sample of 3,000 seventh graders and follow them through the 10th grade. The second cohort will begin with a national sample of 3,000 10th graders and follow them for the next four years through the first full year after high school. Data will be collected from students, teachers, counselors, principals, and parents. A purposive sample of two or three school districts with exemplary elementary school science and mathematics education programs will be selected and comparable data will be collected in these districts. The analysis will consist of a series of expanding multivariate developmental models that will seek to understand cognitive and attitudinal growth and change in the context of family, school, and peer influences. Each wave of data collection will provide an opportunity to examine cognitive and attitudinal change measures in an increasingly rich context of previous measures. Periodic reports will be issued with each cycle of data collection and the data will be made available to other scholars on a timely basis. The first phase of the project, being funded at this time, provides approximately 15 months for instrument development and pilot testing, for sample selection, for monitor selection and training, and for working with the research advisory committee.
This project at the North Carolina Museum of Life and Science, Durham, North Carolina, will create a 2000 square foot permanent exhibition, "The Science Behind Medicine", using recent advances in medical science and technology to illustrate basic science concepts. It will engage visitors through their strong interest in health and medicine, present valuable information about medical subjects, and use their interest to present underlying scientific concepts they would otherwise avoid. The exhibition will be organized around four topics: organ structure and function and organ replacement and transplantation; advances in medical imaging, including infrared, ultrasound and x-ray technologies; pharmaceutical pharmacology, biological receptors and molecular design; and sickle cell anemia and its molecular biology. Over five years, more than one million people will use the exhibit, including both highly educated residents of the Research Triangle area, and a Durham population that is disadvantaged and 50% black. Extensive subject area consultation and formative evaluation will be used in exhibition design. A close consulting relationship is planned with two museums with similar exhibit interests, and exhibit research and plans will be offered to other interested museums to encourage wider use of the project's results. A strong regional health sciences focus will benefit the project through academic, business, community and industry membership on a project planning committee, and from 50% local matching funding. Two corporate planning grants have been awarded to the project, and a major facilities expansion funded in part by a recent bond issue.
WGBH Boston and its NOVA production group will produce a series of eight one hour television programs titled "Life: Cracking the Code". The series will cover recent advances in molecular biology, the record of personal quest and achievement of many of the biologists who have contributed to these advances, the social costs and benefits that have resulted and the ethical questions that new knowledge and new abilities in biology have generated. Individual programs will include "The Language of Life" on the discovery of DNA's role in molecular biology, "Molecular Machines" on proteins; "Designing the World to Order" on practical consequences of the new biology, "When Cells Rebel" on the processes involved in cancer, and "Between Self and Other" on the immune function. The series will be produced for prime time PBS evening broadcast to an audience of more than twelve million individuals by a co- production by the NOVA science unit at WGBH and the Chedd-Angier Production Company. Scientific advice and consulting will be provided by Harvard's Whitehead Institute for Biomedical Research and a project advisory committee composed of seven distinguished scholars chaired by Prof. David Baltimore. The series production budget will be approximately $ 4.2 million. This new science series on DNA, molecular biology and its new technologies will cover one of the great intellectual achievements of our time. It will provide timely information about an area of scientific discovery that is rapidly transforming many aspects of our life. The series will, in addition, document the rich recent history of molecular biology with the participation of many of the original researchers who are still alive and active in their fields.
Over a three year period, the Museum of Science, Boston will develop a national traveling exhibition and associated programs that will support the goals and standards for technological literacy that were recently articulated in reports by the National Academy of Engineering and the International Technology Education Association. Intellectual Merit. The exhibit will take advantage of the widely known characters and images of future technology from the Star Wars movies to attract visitors and to engage them in learning about potential technologies that may impact our lives. It incorporates new and adapted interactive devices that will involve visitors in inquiry-based learning about technologies related to frictionless land vehicles, robotic mobility mechanisms, and habitats for living underwater and in space. Broader Impact. The exhibition will reach a large national audience by traveling to the members of the Science Museum Exhibit Collaborative as well as other institutions. Use of popular culture, science fiction and futuristic technology will help attract those who may not be traditional science center visitors. Educational impact will be extended through programming for the public and school groups, including materials for institutions that do not host the exhibition, along with a website.
The Pittsburgh Children's Museum (PCM) is developing a 2,700 sq ft traveling exhibition, "How People Make Things," in collaboration with Family Communications, the producers of "Mister Rogers' Neighborhood." The exhibition will use the factory visit segments from this popular television program, the longest running on PBS, as a jumping off point for engaging children in the processes by which familiar objects are manufactured. PCM is building on its prior success with "Design It!," an after-school program funded by a prior NSF grant. This project extends that work to expose children to the hidden science and technology that form the basis for manufacturing. The exhibition will include the Neighborhood Factory orientation area and sections on Making Things: Designing Things, Forming Things (Additive, Subtractive, Deformational), and Assembling Things. Project collaborators include members of the Carnegie Mellon University Industrial and Engineering Design program and the University of Pittsburgh Learning Research and Development Center UPCLOSE. Broader Impact: The exhibition is projected to reach at least 750,000 visitors in nine museum venues through its nationwide tour; the target audience is families with children ages 3 to 10. Promotion and dissemination will be enhanced by the connection with PBS, which continues to air the "Mister Roger's Neighborhood" program. Partnerships with the AFL-CIO, Catalyst Communications, and Society of Manufacturing Engineers will extend the outreach effort. Special efforts will be made to target girls and underserved audiences.
Cornell University, through Main Street Science (the education program of its Nanobiotechnology Center), proposes to create a 3,500 sq. ft. traveling exhibition on nanoscale science and engineering in partnership with Sciencenter of Ithaca, New York. Intellectual Merit: The exhibition will address two questions: How do we see things too small to see, and how do we make things too small to see? In sections titled Small, Smaller, Nano; Seeing Nano Structures; Making Nano Stuff; and Nano and Me, hands-on activities and experiences will present the tools, processes and applications of nanoscale science and engineering for children ages 8 to 13 and adults. Broader Impact: This traveling exhibition is projected to reach some three million visitors in at least six sites as part of its national tour. It will then become a permanent exhibition at Sciencenter. Dissemination will be supported by a web site, take-home materials, a children's book and activities to carry out at home, along with links to formal education.
WGBH is producing a new PBS television show with accompanying Web and outreach activities for 9- to 12-year-olds, to inspire a generation of budding engineers. "Design Squad" (working title) will be a 13-part television series, which combines the appeal of a game show with the drama of real-world challenges to engender enthusiasm and promote understanding of, and interest in, engineering and technology. Behind all the fun that this lively show envisions lays a serious educational purpose -- to get kids to think like engineers and understand how to use science and technology to solve real-life problems. The television programs will be complemented with materials and training for engineers to mount "Design Squad" events in public venues and run workshops in schools, afterschool programs and libraries, and an extensive companion web site. "Design Squad 's" three intended strategic impacts are to: (1) address a critical need in engineering education and children's television, (2) increase students' knowledge of engineering and the design process and (3) improve the public image of engineering, especially among girls and minorities. The WGBH production team will be lead by Brigid Sullivan and Kate Taylor. The Series Content Director is Dr. Daniel Frey of MIT. Goodman Research Group, Inc. will conduct the evaluation of the project.
Thirteen/WNET New York will develop and produce ten new episodes for a fifth season of Cyberchase. Broadcast daily on 340 PBS stations, Cyberchase has helped millions of children acquire a stronger foundation in mathematics. Cyberchase's content spans the 3rd-5th grade standards of the National Council of Mathematics. Ancillary materials, outreach and a highly popular Web site extend the learning and help make Cyberchase the sole mathematics media project available for the target age group of 8 to 11 year-olds. The new season will introduce a new campaign, "Math & Inventions: My Big Idea", to link mathematics and technology education and involve children in the invention process. These new programs will enrich the series' content while keeping viewers tuning in to the current shows. Plans include enhancing the Web site, building the inventory of multi-media outreach activities, strengthening the show's presence in after-school programs, and launching a new relationship with the museum community. Multimedia Research will conduct formative evaluation of two new elements to "My Big Idea" and a prototype of the online "Invention Machine." MediaKidz Research and Consulting (MRC) will conduct the pilot phase of a groundbreaking research study to evaluate the impact of varied media, and the interactions between the television series, Web site and outreach components, on children's mathematical thinking and attitudes toward mathematics.
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TEAM MEMBERS:
Sandra SheppardMichael TempletonBarbara Flagg
This project will develop a Digital Technology Institute and Youth Radio Science Desk as new components of the existing Youth Radio organization. The project's Digital Technology Institute and Science Desk will train and engage 450 low-income and underrepresented youth ages 14-24 in Los Angeles, California; Atlanta, Georgia and Washington, DC. An additional 300 youth will be engaged through quarterly community outreach programs. Youth Radio currently reaches wide audiences through traditional media such as NPR and emrging media such as podcasting and vodcasting. This project will produce 60 short-format radio programs for distribution on NPR, iTunes and MTV Interactive, as well as other distribution outlets. Organizational partners include media organizations, scientists and youth organizations around the country, universities and technical partners such as sound and animation studios.