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Megan Goeke; David DeLiema – Educational Technology Research and Development, 2024
Agency is a core pedagogical goal of the maker education movement. However, there are still many unknowns about how agency is identified in maker settings. To document maker educator professional visions of agency, we conducted video-cued interviews with eleven U.S-based maker educators using video clips of families making in a drop-in…
Descriptors: Professional Autonomy, Museums, Shared Resources and Services, Cooperative Learning
Wang, Xiao-Ming; Hwang, Gwo-Jen – Educational Technology Research and Development, 2017
Computer programming is a subject that requires problem-solving strategies and involves a great number of programming logic activities which pose challenges for learners. Therefore, providing learning support and guidance is important. Collaborative learning is widely believed to be an effective teaching approach; it can enhance learners' social…
Descriptors: Programming, Problem Based Learning, Cooperative Learning, Problem Solving
Belland, Brian R.; Gu, Jiangyue; Kim, Nam Ju; Turner, David J. – Educational Technology Research and Development, 2016
Science educators increasingly call for students to address authentic scientific problems in science class. One form of authentic science problem--socioscientific issue--requires that students engage in complex reasoning by considering both scientific and social implications of problems. Computer-based scaffolding can support this process by…
Descriptors: Middle School Students, Ethnography, Grade 7, Cooperative Learning
Mulcahy, Robert Sean – Educational Technology Research and Development, 2012
When a course designed around cooperative, problem-centered instruction attracts learners with a wide range of experience in the topic, should learners be grouped heterogeneously or homogeneously in terms of their relative expertise? In this study, learners were randomly distributed between the two types of groups; learning gains, satisfaction,…
Descriptors: Expertise, Problem Solving, Adult Students, Professional Development
Kapur, Manu; Kinzer, Charles K. – Educational Technology Research and Development, 2007
This study investigated the effect of well- vs. ill-structured problem types on: (a) group interactional activity, (b) evolution of group participation inequities, (c) group discussion quality, and (d) group performance in a synchronous, computer-supported collaborative learning (CSCL) environment. Participants were 60 11th-grade science students…
Descriptors: Group Discussion, Problem Solving, Cooperative Learning, Problem Based Learning
Ge, Xun; Land, Susan M. – Educational Technology Research and Development, 2004
We present a conceptual framework for scaffolding ill-structured problem-solving processes using question prompts and peer interactions. We first examine the characteristics and processes of ill-structured problem solving, namely, problem representation, generating solutions, making justifications, and monitoring and evaluation. Then, we analyze…
Descriptors: Scaffolding (Teaching Technique), Problem Solving, Questioning Techniques, Instructional Design