The Ocean Institute (OI), in partnership with Scripps Institution of Oceanography (Scripps), Capistrano Valley Boys & Girls Clubs (BGC) and the Institute of Electrical and Electronics Engineers (IEEE), is developing "SeaTech," a multi-year, Youth-based ITEST program providing 120 female and minority middle and high school students from underserved populations with 391 contact hours of information technology (IT)-intensive oceanographic research experiences. SeaTech content focuses on understanding the acoustic behaviors of whales and dolphins, specifically, sound production, noise impacts and acoustic population census in California, the Bering Sea and the Southern Ocean. SeaTech offers a two-year core program for 13 & 14 year olds consisting of a "Breadth of Exposure" phase and a "Depth of Skills" phase totaling 299 hours. The core program has three distinct elements -- after-school clubs, field explorations and summer research institutes -- and is augmented with efforts before and after: an Early Pipeline Development phase (52 hours) for youth age 12, and Internships (40 hours) for youth age 15. The three-year ITEST grant will host three cohorts of 40 participants each. Each youth participant will receive 391 total contact hours. Through efforts directed at parents, SeaTech anticipates involving 60 parents in about 80 hours of activities each year. Coordinated through and with the expertise of Capistrano Valley BGC, recruitment will include orientation and information programs, a bilingual brochure and direct efforts by BGC staff. In addition, recruitment will happen from local schools. INTELLECTUAL MERIT: IT-based studies of marine mammal bio-acoustics will 'hook' student interest in after-school clubs, field explorations and summer research institutes. SeaTech advances understanding of the role of broader pipeline development in addressing chronic recruitment and retention problems in teen-targeted IT programs. BROADER IMPACTS: SeaTech programming has been meticulously and demonstrably integrated into the afterschool programming at the BGC. The SeaTech Club provides organizational structure to the teen activities at the BGC; however, the IT curriculum is also integrated into two nationally renowned extant structures called Career Launch and Club Tech. Findings from the project's examination of recruitment, retention and parental involvement will have broad implications to the field of informal science education.
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TEAM MEMBERS:
Harry HellingKelly ReynoldsJohn HildebrandCandice Dickens
resourceprojectProfessional Development, Conferences, and Networks
The Computer Clubhouse Network, based at the Museum of Science in Boston, has developed a successful model for engaging youth ages 10-18 in technology-related activities. This planning grant will build on the best practices acquired over the 12-year history of the Computer Clubhouse and identify materials and resources to support professionals at community sites and after school centers with similar goals. The planning activities will inform the creation of professional development workshops and resources to improve the quality of technology programs for youth. Project partners include the MIT Media Lab; Fairfax County Department of Community and Recreation Services (Fairfax, VA); Westside Youth Technology Entrepreneur Center (Chicago, IL); Little Haiti Housing Association (Miami, FL); and Youth Opportunities Unlimited (Los Angeles, CA). The project deliverables include an analysis of existing programs; a staff needs assessment; examination of effective professional development strategies, pilot workshops and online resources, and a matrix to measure program effectiveness. Strategic impact will be realized through the design of resources that support content-rich programs and improve sustainability in community technology programs nationwide.
Thinking SMART is a comprehensive five-year program that will encourage young women to pursue careers in science, mathematics and technology. The project focuses on girls ages 12-18, and will especially target those who are underserved and underrepresented in the sciences, including girls from diverse backgrounds and persons with disabilities. Key elements include four science/engineering module options, a two-tiered mentoring component, training, resource materials, online activities and an awards program. The modules (Material Girls, Eco Girls, Galactic Girls, Net Girls), focus on engineering, ecology, physics and computer science respectively, and will be aligned with national standards. The modules are implemented during the school year and include weekly programming, a summer camp and a spring "Women in Science and Engineering" conference organized by girls. Weekly meetings are augmented by online activities, in which girls interact with other participants and mentors, publish reports and obtain career information. Additionally, participants who complete all four modules are eligible to become paid mentors for younger participants. Five publications will be produced to support the program, including manuals for mentors (both adults and youth), module activities, a parent guide and a guide for implementation sites on community partnerships. Thinking SMART materials will be developed and piloted tested at eight sites in conjunction with Girls, Inc. affiliates in Nashua, NH, Worcester, MA, Oakridge, TN and Shelbyville, IN, with input from the Society of Women Engineers. Extensive training will also be provided for pilot programs and future dissemination. Finally the E3 Awards Program will motivate implementation sites to create high quality local programs. It is anticipated that more than 1,500 Girls, Inc. affiliates will adopt "Thinking SMART."
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TEAM MEMBERS:
Brenda StegallJanet StantonHeather Johnston NicholsonShalonda MurrayJoe Martinez
The "Crafting & Evaluating Interactive Educational Websites" conference will be developed through a collaboration between the Cornell University Laboratory of Ornithology and the Exploratorium. The PIs will develop and host a three-day invitational conference focusing on the practice of interactive web site design, development, evaluation and maintenance intended to achieve or support informal STEM learning. The conference, which will be held in Spring, 2005, will involve 50 individuals with a wide range of expertise who will focus on a variety of issues including audience expectations and abilities, designing for learner outcomes, testing for usability, evaluation tools and accessibility. With regard to intellectual merit, conference attendees will explore challenges and barriers that hinder development of truly interactive web sites and identify best practices and promising models, tools and technologies for encouraging authentic public interaction. Conversations begun at the conference will be extended to a broader audience through development of an online manual, informed by the conference presentations and commentaries, and designed for use by the museum, media and research communities. An interactive Web site developed after the conference will allow Web developers to locate content and ideas for design, and to share new ideas and results of usability studies and evaluations.
This comprehensive ITEST project would provide sixty middle and high school teachers with an introduction to Geographic Information System (GIS) and Global Positioning System (GPS) technologies. The project, which brings together a leadership team of educators, science researchers and experts in resource management, is based at the University of Maryland Center for Environmental Science Appalachian Laboratory, a research facility that studies stream and forest ecosystems. The program will focus on environmental applications in which teachers use probes to investigate the properties of local forest and stream ecosystems. Teachers will apply their technology experiences to creating standards based lessons aligned with local curricula. The teacher participants will be recruited from rural, underserved Appalachian communities in western Maryland and northern West Virginia. Local students will be recruited to participate in a four-day summer session that includes field-testing the proposed lessons and learning about career opportunities in information technology.
Voyage of Discovery is a comprehensive and innovative project designed to provide K-12 youth in Baltimore City with an introduction to mathematics, engineering, technology, environmental science, and computer and information science, as it relates to the maritime and aerospace industries. The Sankofa Institute, in partnership with the Living Classrooms Foundation and a host of marine, informal science, community, and educational organizations, collaborate to make science relevant for inner-city youth by infusing science across the curriculum and by addressing aspects of history and culture. Youth are introduced to historical, current, and future innovations in shipbuilding as a means to learn the science, mathematics, and history associated with navigation, transportation, environmental science, and shipping. Activities will take place at the Frederick Douglass-Isaac Myers Maritime Park and Museum where students participate in intensive afterschool, Saturday, and summer sessions. Families are invited for pre-session orientation meetings and again at the end of each session to observe student progress. This project will provide over 3,900 K-12 youth with the opportunity to learn mathematics (algebra, geometry, and trigonometry), physics (gravity, density, mechanics), design, and estuarine biology while participating in hands-on sessions. Project deliverables include a 26-foot wooden boat, a working model of a dirigible, a submarine model, and pilot control panel models, all constructed by students and subsequently incorporated into exhibits at the USS Constellation Museum. The project also results in the production of two curricula--one each on celestial navigation and propulsion. Voyage of Discovery informs the literature on inquiry-based informal science education programs and strategies to engage minority and low-income youth in learning science and technology.
Investigating Green Energy Technologies in the City (GET City) is a youth-based project designed to target underserved middle school students and introduce concepts in energy sustainability and environmental health. Partners include Michigan State University's College of Education and College of Engineering, Lansing Boys and Girls Club, Lansing Board of Water and Light, and Urban Options, a non-profit energy and environmental agency. Participants learn to use IT tools (GIS software, databases, and communication tools) and gain IT workforce skills, research experiences, science knowledge, and inquiry skills. Project components include bi-weekly afterschool sessions (18 weeks), a 3-week summer program with field-based design experiences, community energy events, parental involvement activities, career field trips, and a project website. Youth will also participate in an annual community fair and conduct energy audits. Topics covered include brownouts, environmental health, alternative energy sources, and green energy technologies. Youth will receive ongoing support from energy mentors and gain leadership experience. The project will result in the development of a curriculum that includes IT-based investigations with a focus on core energy concepts. GET City also includes a research component that examines youth identity development in science, engineering, and IT in an attempt to understand how the program supports participation in an IT community of practice. The research, in conjunction with the comprehensive evaluation, will contribute to the field by providing insight into how the program design fosters youth engagement and learning in science, engineering, and IT. Seventy youth will receive 280 contact hours over two years of participation.
The Physics and Chemistry Education Technology (PhET) Project is developing an extensive suite of online, highly-interactive simulations, with supporting materials and activities for improving both the teaching and learning of physics and chemistry. There are currently over 70 simulations and over 250 associated activities available for use from the PhET website (http://phet.colorado.edu). These web-based resources are impacting large number of students. Per year, there are currently over 4 million PhET simulations run online and thousands of full website downloads for offline use of the simulations. The goal is that this widespread use of PhET's research-based tools and resources will improve the education of students in physics and chemistry at colleges and high schools throughout the U.S. and around the world. This PhET project combines a unique set of features. First, the simulation designs and goals are based on educational research. Second, using a team of professional programmers, disciplinary experts, and education research specialists enables the development of simulations involving technically-sophisticated software, graphics, and interfaces that are highly effective. Third, the simulations embody the predictive visual models of expert scientists, allowing many interesting advanced concepts to become widely accessible and revealing their relevance to the real world. And finally, the project is actively involved in research to better understand how the design and use of simulations impacts their effectiveness - e.g. investigating questions such as "How can these new technologies promote student understanding of complex scientific phenomena?" and "What factors inhibit or enhance their use and effectiveness?".
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TEAM MEMBERS:
Katherine PerkinsMichael DubsonNoah FinkelsteinRobert ParsonCarl Weiman
This project continues the development, testing, and use of a series of web-based computer simulations for improving the teaching and learning of physics. It expands the number of simulations in physics, creates new simulations addressing introductory chemistry, creates simulations addressing the conceptual understanding of equations in solving science problems, and further refines some existing simulations. It increases, by approximately 35, the 35 online interactive simulations that have been developed for teaching physics. The project produces and widely disseminates on-line supporting materials for use in undergraduate and high school science courses. The supporting materials include: guided-discovery, tutorial worksheets; a list of learning goals; materials to support in-lecture, homework, and laboratory use; assessment instruments; and other user-contributed materials. The simulations being introduced and their effectiveness are being evaluated in at least eight additional courses in physics and chemistry at the University of Colorado and a diverse set of partner institutions. The materials are being extensively tested to ensure that they are easy to use and effective at promoting deep conceptual understanding and positive attitudes about science and technology.
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TEAM MEMBERS:
Carl WiemanNoah FinkelsteinKatherine Perkins