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Developing and Evaluating a Web-Based, Multi-Platform Curriculum for After-School Robotics
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Author(s): Fred G. Martin (University of Massachusetts Lowell, USA), Michelle Scribner-MacLean (University of Massachusetts Lowell, USA), Sam Christy (Machine Science Inc., USA)and Ivan Rudnicki (Machine Science Inc., USA)
Copyright: 2012
Pages: 18
Source title:
Robots in K-12 Education: A New Technology for Learning
Source Author(s)/Editor(s): Bradley S. Barker (University of Nebraska – Lincoln, USA), Gwen Nugent (University of Nebraska-Lincoln, USA), Neal Grandgenett (University of Nebraska-Omaha, USA)and Viacheslav I. Adamchuk (McGill University, USA)
DOI: 10.4018/978-1-4666-0182-6.ch013
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Abstract
The University of Massachusetts Lowell and a non-profit partner, Machine Science Inc. of Cambridge, Massachusetts have developed a Web-based curriculum for after-school robotics, based on two microcontroller platforms: one for middle school students and the other for high school students. The curriculum, which teaches computer programming and design skills in the context of hands-on electronics and robotics activities, was developed and evaluated as part of a four-year National Science Foundation-funded research project called Building an Internet Community of Design Engineers (iCODE). From 2006 to 2010, the project partners used the curriculum to support year-long academic enrichment programs at middle schools, high schools, and community centers in underserved communities within Boston, Lowell, and Lawrence, Massachusetts. This chapter describes the design and development of the iCODE curriculum, explores the project’s assessment strategies, and reflects on lessons learned from four years of offering after-school robotics for an inner-city youth population.
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