Independent Broadcasting Associates, Inc., is producing a series of twelve radio features for National Public newsmagazines about the Ganges river basin in South Asia. The purpose of this series is to examine the relationships between science and culture as they converge and diverge over issues concerning the Ganga: through (a) examination of the ecology of the river in two key areas; and (b) study of the relationships between scientific and religious attitudes applied to the environmental issues raised in both reaches of the river. The radio series is complemented by a Web site and extensive educational outreach through 11 state Geographic Alliances, an AP Environmental Science module and a pilot Virtual River program developed and tested in collaboration with the Museum of Science in Boston.
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TEAM MEMBERS:
Julian Crandall HollickKelly AlleyVinod TareRK SinhaGraham Chapman
WGBH will develop, produce, and distribute a comprehensive project that will review science of the twentieth century. The major components of the project will be a series of five, two-hour, prime time documentary programs for PBS, an outreach campaign to involve the public through informal and formal science education institutions and organizations, material for use in formal classrooms, and a science museum component. The focus of the series will be to review the science of the twentieth century by telling the dramatic story of the struggle to understand ourselves and our world over the past 100 years -- a time when science advanced further than in previous eras combined and when scientific discipline underwent a revolution. However, because at the close of the century there is an ever-widening gap between what scientists know and what most of the public comprehends, the series will explore the century's most enduring scientific endeavors with each two-hour program probing several related fields of investigation and application: views of the universe and of matter; origins of the Earth and of life; health, medicine, and the human body; human nature and behavior; and technology and engineering. It will offer viewers an opportunity to view 100 years of scientific pursuits as a whole, to recast their perceptions of science and scientists, and to be intrigued and inspired by a view of science as a never-ending and deeply human quest for answers and solutions. The outreach component of the project include: Video-based Components - videocassettes of the series, video modules selected for classroom use, level one videodiscs, and a prototype for a CD-ROM for home learning. A Discovery Challenge Activity - a national campaign targeted primarily for girls and boys 11-14 years of age. The two-phase activities will be offered through middle school science and social studies classes; through youth groups such as Girls Inc., Family Science Programs, 4-H, and Girls and Boys Clubs; at museums and science centers; and through other informal education outlets. Activities will be designed so they can be undertaken by youth with a wide range of interests, learning styles, and skills. Print Components - teacher's guide, video module activity guide, videodisc guide, poster, and a companion trade book. On-line Component - an electronic bulletin board and e-mail center related to the project. Public access sites will be established in libraries, community centers, and schools throughout the country and members of the public with home computers will be able to connect to WGBH at no cost. Service and activities offered on-line will include the ability of viewers to critique programs, ask questions of the production team, download educational materials, and ordering project material. The bulletin board will provide an electronic forum for educators to exchange strategies and ideas as they use the project's resources and enable participants in the Discovery Challenge to tap into the on-line resources and share information. The on-line component will be managed and controlled at WGBH. Museum Component - consisting of a museum tool kit and activities to be incorporated Science-by-Mail. Paula Apsell, executive producer for NOVA and director of the WGBH Science Unit, will serve as executive-in-charge of production. Jon Palfreman will be executive producer and will head up a project team consisting of the executive editor, Thomas Friedman, a senior producer, and two producers. Outreach activities will be the responsibility of Beth Kirsch, Director of Educational Print and Outreach, and Simone Bloom, Outreach Manager.
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TEAM MEMBERS:
Paula ApsellThomas FriedmanJon Palfreman
The excitement of astrophysical research and discovery is brought into the high school science and mathematics classes through a flexible set of student activities and projects on variable stars. The project includes a computerized database, of 400,000 measurements of brightness of 150 variable stars in five constellations over 25 years, from which students can deduce properties, processes, and evolution of these stars. Students can make additional measurements and discoveries from carefully selected time sequences of 125 35mm slides or from actual measurements from the night sky. A comprehensive student manual and instructional videos make the materials self-contained and easy to use. The teacher manual enables the instructor to adapt the materials to skills, objectives and local curricula. The material can be used in a variety of contexts: traditional mathematics and science classes at both the high school and college level, independent projects, summer institutes, and community science clubs. The material will be field tested in classes and refined through workshops with teachers. A newsletter and a video about amateur astronomers is planned.
The Maryland Science Center has received a SEPA grant to develop an exhibition, intern program and web site focusing on cell biology and stem cell research. The working title of the exhibition is Cellular Universe. The exhibit is intended to serve the following audiences: Families with children age nine and older; School groups (grades four and up); Adults; 9th grade underserved high school students in three local schools and/or community centers. Topics the exhibit will treat include: Structure and function of cells; Stem cells and their potential, the controversy surrounding stem cell
The Earth & Sky radio series reaches over 2.8 million individuals in the United States each week. This grant, which will diminish each year over a four-year period, will enable the project to accomplish the following goals: * Continue production and distribution of the Earth & Sky radio series * Distribute a bi-annual booklet for teachers, Earth In the Classroom * Establish a partnership between the Earth & Sky Young Producers Contest and National Science and Technology Week. * Increase the visual content of Earth & Sky Online * Launch an * Earth & Sky Classroom Project to provide teachers and students with a guided "Internet Experience" simulated on a CD and, therefore, not requiring an Internet connection. * Produce and test a 156 segment "trial run" of a Kids' Earth & Sky radio series designed for the emerging Radio Disney network. Earth & Sky is produced and hosted by Deborah Byrd and Joel Block. They work with a team of producer/writers and interact on a regular basis with members of a team of over 90 science advisors.
The scientific community is challenged by the need to reach out to students who have traditionally not been attracted to engineering and the sciences. This project would provide a link between the University of Michigan and the teachers and students of secondary education in the State of Michigan with an initial emphasis on southeast Michigan, through the creation of a range of computer services which will provide interactive access to current weather and climate change information. Taking advantage of a unique computer network capacity within the State of Michigan named MichNet which provides local phone ports in virtually every major city in the state, and the resources available to the university community via the University Corporation for Atmospheric Research (UCAR) UNIDATA program, this project would provide secondary schools with access to a state-of-the-art interactive weather information system. The real-time data available via the system, supplemented by interactive computer modules designed in collaboration with earth science teachers, will provide animated background information on a range of climate and weather related topics. While the principal objective of this project will be to provide educationally stimulating interactive computer systems and electronic weather and climate modules for application in inner city Detroit and its environs, the unique nature of the available computer networking will allow virtually every school system in the state to have access. Subsequently successful completion of this project could eventually make the same systems available to other cities and states.
As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program funds innovative resources for use in a variety of settings. This project is a time sensitive educational response to the 7.8 magnitude earthquake that struck Nepal on April 25, 2015 and was followed by major aftershocks. This project builds on the intense worldwide interest in that disaster by developing and distributing media resources for the public and educators explaining the scientific research into tectonic and fluvial processes of this highly vulnerable region encompassing the Himalayas of Nepal, the Ganges-Brahmaputra River Delta of Bangladesh and India, and the mountains of northeastern India. Project deliverables include PBS NewsHour broadcasts and online stories, short videos for classroom use, 3D/2D videos for public screenings in museums, Earth Magazine blogs and articles, and DVDs. Making new research understandable and accessible to the public is an important activity of the U.S. research enterprise. NSF is making a substantial investment in earth sciences research to increase knowledge of the conditions and processes that periodically cause earthquakes, landslides, and flooding. This education project leverages those investments and the public interest in the recent Nepal earthquake with a major public engagement opportunity that has the potential for reaching millions of students, teachers, and the public both in the U.S. and in other vulnerable regions.
A recent report by the Association for Computing Machinery estimates that by decade's end, half of all STEM jobs in the United States will be in computing. Yet, the participation of women and underrepresented groups in post-secondary computer science programs remains discouragingly and persistently low. One of the most important findings from research in computer science education is the degree to which informal experiences with computers (at many ages and in many settings) shape young people's trajectories through high school and into undergraduate degree programs. Just as early language and mathematics literacy begins at home and is reinforced throughout childhood through a variety of experiences both in school and out, for reasons of diversity and competency, formal experiences with computational literacy alone are insufficient for developing the next generation of scientists, engineers, and citizens. Thus, this CAREER program of research seeks to contribute to a conceptual and design framework to rethink computational literacy in informal environments in an effort to engage a broad and diverse audience. It builds on the concept of cultural forms to understand existing computational literacy practices across a variety of learning settings and to contribute innovative technology designs. As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program funds new approaches to and evidence-based understanding of the design and development of STEM learning in these settings. This CAREER program of research seeks to understand the role of cultural forms in informal computational learning experiences and to develop a theoretically grounded approach for designing such experiences for youth. This work starts from the premise that new forms of computational literacy will be born from existing cultural forms of literacy and numeracy (i.e., for mathematical literacy there are forms like counting songs -- "10 little ducks went out to play"). Many of these forms play out in homes between parents and children, in schools between teachers and students, and in all sorts of other place between friends and siblings. This program of study is a three-phased design and development effort focused on key research questions that include understanding (1) how cultural forms can help shape audience experiences in informal learning environments; (2) how different cultural forms interact with youth's identity-related needs and motivations; and (3) how new types of computational literacy experiences based on these forms can be created. Each phase includes inductive research that attempts to understand computational literacy as it exists in the world and a design phase guided by concrete learning objectives that address specific aspects of computational literacy. Data collection strategies will include naturalist observation, semi-structured, and in-depth interviews, and learning assessments; outcome measures will center on voluntary engagement, motivation, and persistence around the learning experiences. The contexts for research and design will be museums, homes, and afterschool programs. This research builds on a decade of experience by the PI in designing and studying computational literacy experiences across a range of learning settings including museums, homes, out-of-school programs, and classrooms. Engaging a broad and diverse audience in the future of STEM computing fields is an urgent priority of the US education system, both in schools and beyond. This project would complement substantial existing efforts to promote in-school computational literacy and, if successful, help bring about a more representative, computationally empowered citizenry. The integrated education plan supports the training and mentoring of graduate and undergraduate students in emerging research methods at the intersection of the learning sciences, computer science, and human-computer interaction. This work will also develop publically available learning experiences potentially impacting thousands of youth. These experiences will be available in museums, on the Web, and through App stores.
The Next Generation Science Standards (NGSS) identify an ambitious progression for learning energy, beginning in elementary school. To help the nation's teachers address this challenge, this project will develop and investigate the opportunities and limitations of Focus on Energy, a professional development (PD) system for elementary teachers (grades 3-5). The PD will contain: resources that will help teachers to interpret, evaluate and cultivate students' ideas about energy; classroom activities to help them to identify, track and represent energy forms and flows; and supports to help them in engaging students in these activities. Teachers will receive the science and pedagogical content knowledge they need to teach about energy in a crosscutting way across all their science curricula; students will be intellectually engaged in the practice of developing, testing, and revising a model of energy they can use to describe phenomena both in school and in their everyday lives; and formative assessment will guide the moment-by-moment advancement of students' ideas about energy. This project will develop and test a scalable model of PD that will enhance the ability of in-service early elementary teachers to help students learn energy concepts by coordinating formative assessment, face-to-face and web-based PD activities. Researchers will develop and iteratively refine tools to assess both teacher and student energy reasoning strategies. The goals of the project include (1) teachers' increased facility with, and disciplined application of, representations and energy reasoning to make sense of everyday phenomena in terms of energy; (2) teachers' increased ability to interpret student representations and ideas about energy to make instructional decisions; and (3) students' improved use of representations and energy reasoning to develop and refine models that describe energy forms and flows associated with everyday phenomena. The web-based product will contain: a set of formative assessments to help teachers to interpret student ideas about energy based on the Facets model; a series of classroom tested activities to introduce the Energy Tracking Lens (method to explore energy concept using multiple representations); and videos of classroom exemplars as well as scientists thinking out loud while using the Energy Tracking Lens. The project will refine the existing PD and build a system that supports online implementation by constructing a facilitator's guide so that the online community can run with one facilitator.
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TEAM MEMBERS:
Sara LacyRoger TobinNathaniel BrownStamatis VokosRachel ScherrKara GrayLane SeeleyAmy Robertson
The Internet, specifically the World Wide Web (WWW), has the potential to deliver science education materials directly to classrooms, media centers, libraries and homes. The current application seeks to use this new technology through a collaborative effort of an active scientist and a group of middle school science teachers to develop, disseminate and evaluate educational materials related to neuroscience for use in middle school science classes. This project attempts to introduce new technologies into the science classroom, extend science education to include the information superhighway and increase parental involvement in their children's education. Materials will be integrated with the existing middle school science curriculum and will include l) on-line and off-line experiments and activities covering a range of topics in neuroscience, 2) a "virtal neuroscience laboratory", 3) an Internet neuroscience resource list and 4) a "Neuroscientist Network" consisting of active neuroscientists around the world who will serve as experts answering student questions. All activities will be designed will attention to being self-paced, hands-on, entertaining and to involve Cooperative learning. Both quantitative and qualitative methods will be used to evaluate the usage of the Intemet Neuroscience Resource. It is hoped that this project will serve as a model to other scientists and teachers and to encourage them to develop Internet resources in their own areas of expertise for use in the classroom.
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.
With the success of open access publishing, Massive open online courses (MOOCs) and open education practices, the open approach to education has moved from the periphery to the mainstream. This marks a moment of victory for the open education movement, but at the same time the real battle for the direction of openness begins. As with the green movement, openness now has a market value and is subject to new tensions, such as venture capitalists funding MOOC companies. This is a crucial time for determining the future direction of open education. In this volume, Martin Weller examines four key