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Comparison of student team dynamics between nonflipped and flipped versions of a large‐enrollment sophomore design engineering course
Author(s) -
Baughman Jacqulyn,
Hassall Lesya,
Xu Xiaowei
Publication year - 2019
Publication title -
journal of engineering education
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 3.896
H-Index - 108
eISSN - 2168-9830
pISSN - 1069-4730
DOI - 10.1002/jee.20251
Subject(s) - affordance , teamwork , psychology , flipped classroom , team learning , dynamics (music) , course (navigation) , medical education , cooperative learning , knowledge management , mathematics education , engineering , computer science , teaching method , pedagogy , management , medicine , open learning , economics , cognitive psychology , aerospace engineering
Background This study examined the differences between team dynamics in nonflipped and flipped versions of a multisection team‐ and project‐based sophomore engineering design course. Purpose/Hypothesis We hypothesized that team dynamics in nonflipped and flipped course settings may reveal differences in student perceptions of team conflict, peer assessment, and team member satisfaction as well as possible relationships among these three variables. Design/Method Students in both nonflipped and flipped settings completed a web‐based Comprehensive Assessment of Team Member Effectiveness (CATME) SMARTER Teamwork survey. A series of ANCOVAs and path analyses were conducted to gain insights into team dynamics in both course environments. Results Although no significant differences in team conflict were found, significantly higher levels of team member satisfaction and peer assessment rates were detected in the flipped course. The path analysis revealed relationships among team conflict, team member satisfaction, and peer assessment in both course versions. Differences in relationships among the unidimensional levels of team conflict and the other two variables were found between the nonflipped and flipped versions. Conclusions The primary pedagogical implication of this research points to the affordance of the flipped course setting in providing sufficient time for student members to become cohesive teams. As part of the student experience, engineering educators are encouraged to allow time for team formation and development in addition to content learning. Instructors should provide guidance that helps teams and individuals understand themselves and others as well as create workflows to support their learning and team management.