The University of Massachusetts Lowell and Machine Science Inc. propose to develop and to design an on-line learning system that enables schools and community centers to support IT-intensive engineering design programs for students in grades 7 to 12. The Internet Community of Design Engineers (iCODE) incorporates step-by-step design plans for IT-intensive, computer-controlled projects, on-line tools for programming microcontrollers, resources to facilitate on-line mentoring by university students and IT professionals, forums for sharing project ideas and engaging in collaborative troubleshooting, and tools for creating web-based project portfolios. The iCODE system will serve more than 175 students from Boston and Lowell over a three-year period. Each participating student attends 25 weekly after-school sessions, two career events, two design exhibitions/competitions, and a week-long summer camp on a University of Massachusetts campus in Boston or Lowell. Throughout the year, students have opportunities to engage in IT-intensive, hands-on activities, using microcontroller kits that have been developed and classroom-tested by University of Massachusetts-Lowell and Machine Science, Inc. About one-third of the participants stay involved for two years, with a small group returning for all three years. One main component for this project is the Handy Cricket which is a microcontroller kit that can be used for sensing, control, data collection, and automation. Programmed in Logo, the Handy Cricket provides an introduction to microcontroller-based projects, suitable for students in grades 7 to 9. Machine Science offers more advanced kits, where students build electronic circuits from their basic components and then write microcontroller code in the C programming language. Machine Science offers more advanced kits, which challenge students to build electronic circuits from their basic components and then write microcontroller code in the C programming language. Machine Science's kits are intended for students in grades 9 to 12. Microcontroller technology is an unseen but pervasive part of everyday life, integrated into virtually all automobiles, home appliances, and electronic devices. Since microcontroller projects result in physical creations, they provide an engaging context for students to develop design and programming skills. Moreover, these projects foster abilities that are critical for success in IT careers, requiring creativity, analytical thinking, and teamwork-not just basic IT skills.
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TEAM MEMBERS:
Fred MartinDouglas PrimeMichelle Scribner-MacLeanSamuel Christy
What are the effects of globalization and how are these manifested in local communities and in the learning of science there? These questions are unpacked within one local community in the United States, a place called “Uptown” where I examine the educational opportunities and pathways in science that are available for low-income Black American girls. The data comes from eight years of work both as an after-school science education program director and researcher in Uptown. The results suggest that globalization is taking hold, both in the social and economic circumstances of the community and
In 2008, CSAS conducted a market study in partnership with the Center for Research, Evaluation, and Assessment (REA) at the Lawrence Hall of Science (LHS), University of California, Berkeley, with funding from the S. D. Bechtel, Jr. Foundation. The purpose of the market study was to help answer some highly practical questions for CSAS, including: Which after-school programs are "doing" science? What exactly are they doing? What are their needs? By collecting data that answered these questions, CSAS proposed to gain a greater understanding of existing science programs in after-school settings
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TEAM MEMBERS:
Bernadette ChiJason FreemanShirley Lee
As a matter of policy, 21st Century Community Learning Centers rely heavily on community organizations to provide a variety of instructional programs. In this way, 21st Century sites tap the depth and breadth of knowledge available in their communities to provide non-traditional learning experiences that can better meet young participants’ need for engagement and relevance than can a simple extension of school-day routine. However, the inclusion of multiple partners along with school-based site staff at any given 21st Century site means that the quality of instruction can be extremely uneven
A youth media program called Youthscapes not only helps participants combat negative stereotypes of urban teens, but also gives them a sense of group solidarity that enables them to function as responsible media producers when they venture out into the community.
Community technology centers (CTCs) help bridge the digital divide for immigrant youth in disadvantaged neighborhoods. A study of six CTCs in California shows that these centers also promote positive youth development for young people who are challenged to straddle two cultures.
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TEAM MEMBERS:
Rebecca LondonManuel PastorRachel Rosner
Community-based arts education serves the best of youth development practices and principles. In an era when school-based outcomes drive much afterschool programming, the value of the arts in building young people’s skills and abilities deserves wide support.
Dance classes provide a model for afterschool and in-school education where multiple, “embodied” modes of teaching and learning enhance development and where risk-taking is rewarded rather than punished.
Research on middle school participants’ engagement in afterschool programs shows that such programs often serve as developmental contexts for promoting “flow” experiences. Compared to when they are in other settings after school, participants in afterschool programs are more likely to experience high concentrated effort and intrinsic motivation, experiences consistent with Csikszentmihalyi’s concept of flow. Organized sports, arts enrichment, and academic enrichment activities were found to be particularly engaging program activities, in contrast to homework completion. The importance of high
This article is review of Robert Halperin's 2006 book "Critical Issues in Afterschool Programming," which presents four monographs that examine issues central to the development of the field: the role of afterschool programs in supporting literacy development and fostering the physical well-being of children, the challenge of building a system of afterschool education, and the question of appropriate expectations.
In what ways do urban youths’ hybridity constitute positioning and engagement in science-as-practice? In what ways are they “hybridizing” and hence surviving in a system that positions them as certain types of learners and within which they come to position themselves often as other than envisioned? To answer these questions, I draw from two ethnographic case studies, one a scientist–museum–school partnership initiative, and the other, an after-school science program for girls only, both serving poor, ethnically and linguistically diverse youth in Montreal, Canada. Through a study of the micro
We present a review of an after-school program that has been running at Queensborough Community College of the City University of New York for the past 5 years. The program is unique among after-school activities for high school students in several ways. First, it deliberately focuses on students who do not excel in science and math courses and students who are unsure about a college career. Second, it targets typically underrepresented minorities in the technology fields, namely blacks, Hispanics, and women. Third, it introduces these students to high-tech career options which do not require
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TEAM MEMBERS:
Amy BieberPaul MarcheseDon Engelberg