The goal of this engineering education project entitled EXTRAORDINARY WOMEN ENGINEERS (EWE) is to encourage more academically prepared high school girls to consider engineering as an attractive option for post-secondary education and subsequent careers in order to increase the number of women who make up the engineering workforce. Specific project objectives are to: 1) mobilize America's more than one million engineers to reach out to educators, school counselors, and high school girls with tested messages tailored to encourage participation in engineering education and careers; 2) help high school counselors and science, math, and technology teachers to better understand the nature of engineering, the academic background needed to pursue engineering, and the career paths available in engineering; 3) equip high school counselors and teachers to share this information with students, especially girls; and 4) reach out to girls directly with messages that accurately reflect the field of engineering and will inspire girls to choose engineering. The WGBH Educational Foundation has partnered with the American Association of Engineering Societies (AAES), American Society of Civil Engineers (ASCE), and a coalition of more than 50 of the country's engineering associations, colleges, and universities to fundamentally shift the way the engineering and educational communities portray engineering. Based on a needs assessment performed in 2004, the EWE coalition embraces a communication strategy that focuses on the societal value and rewards of being an engineer, as opposed to the traditional emphasis on the process and challenges of becoming an engineer. This project represents a nationwide outreach effort that includes training opportunities for engineers; targeted Web-based and print resources for students, school counselors and teachers, and engineers; and a range of outreach and marketing activities.
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TEAM MEMBERS:
Julie BenyoPatrick NataleF. Suzanne Jenniches
This collaborative project aims to establish a national computational resource to move the research community much closer to the realization of the goal of the Tree of Life initiative, namely, to reconstruct the evolutionary history of all organisms. This goal is the computational Grand Challenge of evolutionary biology. Current methods are limited to problems several orders of magnitude smaller, and they fail to provide sufficient accuracy at the high end of their range. The planned resource will be designed as an incubator to promote the development of new ideas for this enormously challenging computational task; it will create a forum for experimentalists, computational biologists, and computer scientists to share data, compare methods, and analyze results, thereby speeding up tool development while also sustaining current biological research projects. The resource will be composed of a large computational platform, a collection of interoperable high-performance software for phylogenetic analysis, and a large database of datasets, both real and simulated, and their analyses; it will be accessible through any Web browser by developers, researchers, and educators. The software, freely available in source form, will be usable on scales varying from laptops to high-performance, Grid-enabled, compute engines such as this project's platform, and will be packaged to be compatible with current popular tools. In order to build this resource, this collaborative project will support research programs in phyloinformatics (databases to store multilevel data with detailed annotations and to support complex, tree-oriented queries), in optimization algorithms, Bayesian inference, and symbolic manipulation for phylogeny reconstruction, and in simulation of branching evolution at the genomic level, all within the context of a virtual collaborative center. Biology, and phylogeny in particular, have been almost completely redefined by modern information technology, both in terms of data acquisition and in terms of analysis. Phylogeneticists have formulated specific models and questions that can now be addressed using recent advances in database technology and optimization algorithms. The time is thus exactly right for a close collaboration of biologists and computer scientists to address the IT issues in phylogenetics, many of which call for novel approaches, due to a combination of combinatorial difficulty and overall scale. The project research team includes computer scientists working in databases, algorithm design, algorithm engineering, and high-performance computing, evolutionary biologists and systematists, bioinformaticians, and biostatisticians, with a history of successful collaboration and a record of fundamental contributions, to provide the required breadth and depth. This project will bring together researchers from many areas and foster new types of collaborations and new styles of research in computational biology; moreover, the interaction of algorithms, databases, modeling, and biology will give new impetus and new directions in each area. It will help create the computational infrastructure that the research community will use over the next decades, as more whole genomes are sequenced and enough data are collected to attempt the inference of the Tree of Life. The project will help evolutionary biologists understand the mechanisms of evolution, the relationships among evolution, structure, and function of biomolecules, and a host of other research problems in biology, eventually leading to major progress in ecology, pharmaceutics, forensics, and security. The project will publicize evolution, genomics, and bioinformatics through informal education programs at museum partners of the collaborating institutions. It also will motivate high-school students and college undergraduates to pursue careers in bioinformatics. The project provides an extraordinary opportunity to train students, both undergraduate and graduate, as well as postdoctoral researchers, in one of the most exciting interdisciplinary areas in science. The collaborating institutions serve a large number of underrepresented groups and are committed to increasing their participation in research.
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TEAM MEMBERS:
Tandy WarnowDavid HillisLauren MeyersDaniel MirankerWarren Hunt, Jr.
The X-Tech program will bring together the Exploratorium and staff at five Beacon Centers to create an innovative technology program using STEM and IT activities previously tested at the Exploratorium. At each X-Tech Club, two Beacon Center staff and two Exploratorium Youth Facilitators will work with 20 middle school students each year for a total of 300 participants. Youth Facilitators are alumni of the Exploratorium's successful Explainer program and will receive 120 hours of training in preparation for peer mentoring. Each site will use the X-Tech hands-on curriculum that will focus on small technological devices to explore natural phenomenon, in addition to digital imaging, visual perception and the physiology of eyes. Parental involvement will be fostered through opportunities to participate in lectures, field trips and open houses, while staff at Beacon Centers will participate in 20 hours of professional development each year.
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TEAM MEMBERS:
Vivian AltmannDarlene LibreroVirginia WittMichael Funk
The youth-based ITEST proposal, Invention, Design, Engineering and Art Cooperative (IDEA), will provide 100 students in grades 8-12 from the East Side of St. Paul, Minnesota with IT experiences in engineering and design. The content focus is mechanical and electrical engineering, such as product design, electronics, and robotics with an emphasis on 21st century job skills, including skills in advanced areas of microcontrollers, sensors, 3-D modeling software, and web software development for sharing iterative engineering product design ideas and maintaining progress on student product development. These technologies are practical and specific to careers in engineering and standards for technological literacy. During the three-year project period, a scaffolding process will be used to move students from exploratory activities in Design Teams in the 8th and 9th grades to paid employment experiences in grades 10-12 as part of Invention Crews. All design and product invention work will be directly connected to solving problems for local communities, including families and local businesses. For grades 8 and 9, students will receive 170 total contact hours per year and for grades 10-12, 280 contact hours per year. The participant target goal is 75% participation by girls, and African-American and Latino youth. Students participating in this project are situated within the country's most diverse urban districts with students speaking more than 103 languages and dialects. The schools targeted by this project average 84% of students receiving free or reduced price lunches, and have a population with 81% falling below proficiency in the Grade 8/11 Math MCA-II Test. To achieve the project goals of recruiting underrepresented students, and supporting academic transitions from middle and high school to college and university, the project team aggregated an impressive group of project partners that include schools, colleges, universities, and highly experienced youth and community groups, technology businesses that will provide mentoring of students and extensive involvement by parent and family services. Every partner committed to the project has a longstanding and abiding commitment to serving students from economically challenged areas.
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TEAM MEMBERS:
Anika WardKristen MurrayRachel GatesDavid Gundale
The National Center for Earth-surface Dynamics (NCED) is a Science and Technology Center focused on understanding the processes that shape the Earth's surface, and on communicating that understanding with a broad range of stakeholders. NCED's work will support a larger, community-based effort to develop a suite of quantitative models of the Earth's surface: a Community Sediment Model (CSM). Results of the NCED-CSM collaboration will be used for both short-term prediction of surface response to natural and anthropogenic change and long-term interpretation of how past conditions are recorded in landscapes and sedimentary strata. This will in turn help solve pressing societal problems such as estimation and mitigation of landscape-related risk; responsible management of landscape resources including forests, agricultural, and recreational areas; forecasting landscape response to possible climatic and other changes; and wise development of resources like groundwater and hydrocarbons that are hosted in buried sediments. NCED education and knowledge transfer programs include exhibits and educational programs at the Science Museum of Minnesota, internships and programs for students from tribal colleges and other underrepresented populations, and research opportunities for participants from outside core NCED institutions. The Earth's surface is the dynamic interface among the lithosphere, hydrosphere, biosphere, and atmosphere. It is intimately interwoven with the life that inhabits it. Surface processes span environments ranging from high mountains to the deep ocean and time scales from fractions of a second to millions of years. Because of this range in forms, processes, and scales, the study of surface dynamics has involved many disciplines and approaches. A major goal of NCED is to foster the development of a unified, quantitative science of Earth-surface dynamics that combines efforts in geomorphology, civil engineering, biology, sedimentary geology, oceanography, and geophysics. Our research program has four major themes: (1) landscape evolution, (2) basin evolution, (3) biological sediment dynamics, and (4) integration of morphodynamic processes across environments and scales. Each theme area provides opportunities for exchange of information and ideas with a wide range of stakeholders, including teachers and learners at all levels; researchers, managers, and policy makers in both the commercial and public sectors; and the general public.
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TEAM MEMBERS:
Efi Foufoula-GeorgiouChristopher PaolaGary Parker
The intent of this project is to use social network methods to study networks of afterschool and informal science stakeholders. It would attempt to create knowledge that improves afterschool programs access to informal science learning materials. This is an applied research study that applies research methods to improving access to and enactment of informal science education programs across a range of settings. The investigators plan to collect data from 600 community- and afterschool programs in California, conduct case studies of 10 of these programs, and conduct surveys of supporting intermediary organizations. The analysis of the data will provide descriptions of the duration, intensity, and nature of the networks among afterschool programs and intermediary agencies, and the diffusion patterns of science learning materials in afterschool programs. The project will yield actionable knowledge that will be disseminated among afterschool programs, intermediary organizations, funding agencies, and policymakers to improve the dissemination and support of afterschool science learning opportunities. The project is focused on free-choice settings where every day the largest numbers of children attend afterschool programs at schools and in other community settings. It seeks information about what conditions are necessary for informal science programs to significantly impact the largest possible number of children in these settings.
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TEAM MEMBERS:
Barbara MeansAnn HouseCarlin LlorenteRaymond McGhee
The Oregon Museum of Science and Industry (OMSI), in partnership with the Native American Youth Association (NAYA), Intel Oregon, the National Park Service, and National Oceanic and Atmospheric Administration, will the expand the existing Salmon Camp Research Team (SCRT), a youth-based ITEST project targeting Native American and Alaskan Native youth in middle and high school. SCRT uses natural resource management as a theme to integrate science and technology and provide students with opportunities to explore local ecosystems, access traditional American Indian/Native Alaskan knowledge, and work closely with researchers and natural resource professionals. The project is designed to spark and sustain the interest of youth in STEM and IT careers, provide opportunities to use IT to solve real world problems, and promote an understanding of the complementary nature of western and native science. The original SCRT project included summer residential programs, spring field experiences, weekend enrichment sessions, parental involvement, college preparatory support, and internship placement. The renewal will increase the IT content for participants by adding an afterschool component, provide opportunities for greater parental involvement, enhance the project website, and develop a SCRT toolkit. Students are exposed to a variety of technologies and software including Trimble GeoExplorer XM GPS units, PDAs with Bluetooth GPS antennae, YSI Multi-Probe Water Quality Field Meters, GPS Pathfinder, ArcMap, ArcPad, Terrasync, and FishXing. It is anticipated that this project will serve 500 students in Oregon, Washington, California, Idaho, Montana, and Alaska, proving them with over 132 contact hours.
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TEAM MEMBERS:
Travis Southworth-NeumeyerSteven TritzDaniel CalvertNicole Croft
This proposal, the "Dan River Information Technology Academy (DRITA)," is a request for a three-year program for high school students from underserved populations who are interested in pursuing IT or STEM careers. The overall goal of DRITA is to provide opportunities for promising African American or Hispanic youth to (1) develop solid Information Technology skills and (2) acquire the background and encouragement needed to enable them to pursue higher education in STEM fields, including IT itself and other fields in which advanced IT knowledge is needed. A total of 96 students will be recruited over the course of the three years. Each DRITA participant will receive 500 hours of project-based content. The project includes both school-year modules and a major summer component. Delivery components will include a basic IT skills orientation; content courses in areas such as animation, virtual environment modeling, advanced networking, programming, GIS, robotics, and gaming design; externships; a professional conference/trade show "simulation," and college/career counseling. Parent involvement is an integral part of the program and includes opportunities for parents to learn from participants, joint college visits, and information sessions and individual assistance in the college admission process.
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TEAM MEMBERS:
Julie BrownElizabeth NilsenMaurice Ferrell
The importance of reporting current science to the general public is more important now than ever before. The best way to ensure enthusiastic support for science is to engage the general public as directly as possible. Unlike schooling, learning in a museum is self-motivated, self-directed, and can be lifelong. The partnership between Columbia University's MRSEC (Materials Research Science and Engineering Center) and the New York Hall of Science will do this in an exciting manner by development of innovative 'rolling exhibits' (Discovery Carts) that are visually attractive, intellectually stimulating and demonstrate current research. This project will unite a dynamic University research faculty, dedicated graduate students, and high school teachers from one of the largest and best known teacher research experience programs in the country. NY Hall of Science, specialists in public science education, have developed exhibitions, over the past 20 years, for school and family group visitors in biology, chemistry and physics. Most recently, the Hall opened an 800-foot biochemistry discovery lab featuring ten experiments that teach visitors about the role of molecules in everyday life. The lab is facilitated by an explainer, and hundreds of families use the lab throughout the year. All exhibits and programs have rigorous science presented in an engaging manner in an educationally non-threatening environment. Columbia University is one of the premier research institutions in the country. Columbia's MRSEC is engaged in multi-faceted educational outreach activities in the New York metropolitan area, including a close working relationship with Columbia's 16 year old RET program. Together these institutions are well situated to involve the research community in public education activities that will inform the public about the current advances in science. Teachers and graduate students who have worked in MRSEC labs will assist in bringing new skills and ideas to the development of museum programming and exhibits. The teachers have experienced both the research projects first-hand and have had the experience in translating the research into meaningful classroom activities for their students. The graduate students have worked alongside the teachers, assisting them in making the research meaningful to high school students. Broader Impact: Highly skilled educators who can improve a young person's chances for success are like gold for the nation's schools, which are under pressure for tough accountability standards. Teachers will influence over a thousand students during the course of their careers. The Hall's Explainers are of high school and college age. These two groups will have positive impacts on our society for years to come. They will benefit from participation, and the tens of thousands of visitors to the museum will learn about cutting edge research.
A number of investigators have argued that emotion plays an important role in free-choice learning in settings such as museums, science centers, zoos, and aquariums, particularly given the relationship between emotion and cognition. Despite considerable research on the cognitive aspects of visits, empirical studies on emotion in such settings are virtually non-existent. This study investigated the role that emotion plays in facilitating and enhancing learning at a science center. Three major research questions were addressed: (a) Can emotion be measured using Russell's Affect Grid in a non
Understanding the visitor experience provides essential insights into how museums can affect people’s lives. Personal drives, group identity, decision-making and meaning-making strategies, memory, and leisure preferences, all enter into the visitor experience, which extends far beyond the walls of the institution both in time and space. Drawing upon a career in studying museum visitors, renowned researcher John Falk attempts to create a predictive model of visitor experience, one that can help museum professionals better meet those visitors’ needs. He identifies five key types of visitors who
Most environmental learning takes place outside of the formal education system, but our understanding of how this learning actually occurs is in its infancy. By surfing the internet, watching nature documentaries, and visiting parks, forests, marine sanctuaries, and zoos, people make active choices to learn about various aspects of their environment every day. Free-Choice Learning and the Environment explores the theoretical foundations of free-choice environmental education, the practical implications for applying theory to the education of learners of all ages, and the policy implications