TY - JOUR
T1 - The effects of online simulation-based collaborative problem-solving on students’ problem-solving, communication and collaboration attitudes
AU - Chen, Meng Jun
AU - She, Hsiao Ching
AU - Tsai, Pei Yi
N1 - Publisher Copyright:
© The Author(s) 2024.
PY - 2024
Y1 - 2024
N2 - Despite national curricula and instructional reforms calling for collaborative problem-solving skills (CPS), however, there is an absence of a theory-laden model showing how to effectively construct CPS for science learning. We therefore developed and validated a simulation-based CPS model that exploits its constructs, sequences, and causal relationships, and evaluating its effectiveness on students’ problem-solving. Over the span of a two-week physics science course, 57 ninth-grade students were recruited from two intact middle school classes to engage in this online simulation-based collaborative problem-solving (CPS) program. This program consisted of nine electrochemistry problem-solving lessons spread across four class sessions, each lasting 45 min. Results indicated that the simulation-based CPS model was validated and proven to contribute to effective problem-solving by linking PS solution proposing, peer communication, implementing PS solutions with simulation, and providing evidence-based explanations. The simulation-based CPS model successfully improved the performance of both high- and low-achieving students. With the support and presence of high-achievers, low-achievers’ collaboration attitude was boosted, which lead them to achieve similar learning success.
AB - Despite national curricula and instructional reforms calling for collaborative problem-solving skills (CPS), however, there is an absence of a theory-laden model showing how to effectively construct CPS for science learning. We therefore developed and validated a simulation-based CPS model that exploits its constructs, sequences, and causal relationships, and evaluating its effectiveness on students’ problem-solving. Over the span of a two-week physics science course, 57 ninth-grade students were recruited from two intact middle school classes to engage in this online simulation-based collaborative problem-solving (CPS) program. This program consisted of nine electrochemistry problem-solving lessons spread across four class sessions, each lasting 45 min. Results indicated that the simulation-based CPS model was validated and proven to contribute to effective problem-solving by linking PS solution proposing, peer communication, implementing PS solutions with simulation, and providing evidence-based explanations. The simulation-based CPS model successfully improved the performance of both high- and low-achieving students. With the support and presence of high-achievers, low-achievers’ collaboration attitude was boosted, which lead them to achieve similar learning success.
KW - Collaboration attitudes
KW - Collaborative problem-solving
KW - Computer simulation
KW - High-vs. low-achievers
KW - Peer communication
UR - http://www.scopus.com/inward/record.url?scp=85187945125&partnerID=8YFLogxK
U2 - 10.1007/s10639-024-12609-y
DO - 10.1007/s10639-024-12609-y
M3 - Article
AN - SCOPUS:85187945125
SN - 1360-2357
JO - Education and Information Technologies
JF - Education and Information Technologies
ER -