In this paper, commissioned as part of a consensus study on successful out-of-school STEM learning, we draw on the research literature to consider (1) what is known about the impact of tinkering and making experiences on school-aged children’s learning (interest in, engagement with and understanding of STEM in particular); (2) the emerging design principles and pedagogies that characterize tinkering and making programs; and (3) the specific tensions and possibilities within this movement for equity-oriented teaching and learning.
More and more young people are learning about science, technology, engineering, and mathematics (STEM) in a wide variety of afterschool, summer, and informal programs. At the same time, there has been increasing awareness of the value of such programs in sparking, sustaining, and extending interest in and understanding of STEM. To help policy makers, funders and education leaders in both school and out-of-school settings make informed decisions about how to best leverage the educational and learning resources in their community, this report identifies features of productive STEM programs in
This pilot study was funded by the Museum of Science’s Women in Science Committee to examine the impact of competition on children participating in Design Challenges engineering experiences, and in particular, to see what effect, if any, the competitive design of these engineering activities had on girl participants. The research questions for this study included: 1. How does competition affect participants' engagement in engineering activities? 1.a Does this differ for boys and girls? 2. How does competition affect participants' desire to take part in future engineering activities? 2.a. Does
The article focuses on children's makerspaces and the maker movement in Canada. Topics include the Nova Scotia government's idea to distribute 3D printers to libraries to create public makerspaces, which are collaborative meeting places that blend craft and high technology to foster do-it-yourself (DIY) solutions, the Maker Club in Kitchener, Ontario owned by entrepreneur Cam Turner and his son Owen, and the organization Scoperta, maker Jim Akeson's version of the organization Curiosity Hacked.
In this article the authors discuss the importance of the use of natural instincts in teaching and studying science, technology, engineering, and mathematics (STEM) courses in U.S. middle and high schools. They present information on the Maker Movement, a campaign associated with the Maker Faire festivals and "Make" magazine, which encourages the use of creativity in STEM fields. Other topics include the importance of natural curiosity, building, and inventions in science education.
The article discusses the Maker Faires, a hybrid of science fairs, craft shows, and county fairs where people come to display what they have created and talk about what they learned. The faires are designed for people who work in places such as shops, garages, kitchen tables, schools, or science clubs, while they invent and innovate with new technologies, science, engineering, art performance and various crafts. The events' impact on economic development and education is mentioned.
The article focuses on the uTEC Maker Model, a maker education model that aims to help adults recognize behaviors they may only usually see in spurs. Topics discussed include using the item as intended by the inventor whose creative approach we trust, repurposing an item to use it in a different way than the inventor intended, and experimenting with an idea, invention, musical sound or video technique.
The article presents a brief overview of the Maker Movement and its connections to public libraries, focusing on the experiences of the Louisville Free Public Library of Louisville, Kentucky. Introductory details are given describing the movement, linking it to the expansion of community work spaces equipped with advanced machinery such as robotics tools and 3D printers. Several examples of maker-based organizations, subcultures, and resources are then given.
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TEAM MEMBERS:
Nicole DixonMichael WardEric Phetteplace
In order to attract and retain underrepresented student groups (USGs) who aspire to major in STEM fields, educators recognize that science and math instruction must improve and also develop students’ non-cognitive and social-emotional skills. Foremost in that effort is Xavier University of Louisiana, a historically black and Catholic university located in the heart of New Orleans. Throughout the past thirty years, Xavier compiled an extraordinary record as a top producer of African Americans who receive bachelor’s degrees in biology, chemistry, and physics. Although Xavier enrolls only
This longitudinal study examined factors that contribute to the persistence of underrepresented racial minority (URM) undergraduates in STEM fields. The primary source of data came from the Cooperative Institutional Research Program’s 2004 The Freshman Survey (TFS) and 2008 College Senior Survey (CSS). The sample included 3,670 students at 217 institutions who indicated on the TFS that they intended to major in a STEM field, 1,634 of whom were underrepresented minority (URM) students. Findings indicate that Black and Latino undergraduates were significantly less likely to persist in STEM
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TEAM MEMBERS:
Mitchell ChangJessica SharknessSylvia HurtadoChristopher Newman
Concord Evaluation Group (CEG) conducted an evaluation study to learn about the Future City’s impact on students as well as to discover ways to enhance Future City for future implementation. In addition to exploring the program’s impacts, with this study we also had an opportunity to explore potential differences between students who compete at their Regional competitions only versus students who make it to the National competition. In collaboration with DiscoverE, CEG developed four surveys to collect feedback from students, parents, educators, and engineer mentors. These data collection
National Engineers Week Foundation (EWeek) hired Concord Evaluation Group (CEG) in 2011 to conduct an independent evaluation of the Future City program (http://futurecity.org). Future City has been operating since 1992. According to EWeek, the Future City program is “a national, project-based learning experience where students in 6th, 7th, and 8th grade imagine, design, and build cities of the future. Students work as a team with an educator and engineer mentor to plan cities using SimCityTM 4 Deluxe software; research and write solutions to an engineering problem; build tabletop scale models