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Autor/inn/en | Hofer, Sarah I.; Schumacher, Ralph; Rubin, Herbert; Stern, Elsbeth |
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Titel | Enhancing physics learning with cognitively activating instruction: A quasi-experimental classroom intervention study. |
Quelle | In: Journal of educational psychology, 110 (2018) 8, S. 1175-1191Infoseite zur Zeitschrift
PDF als Volltext |
Sprache | englisch |
Dokumenttyp | online; gedruckt; Zeitschriftenaufsatz |
ISSN | 0022-0663; 1939-2176 |
DOI | 10.1037/edu0000266 |
Schlagwörter | Quasi-Experiment; Begriff; Geschlechtsspezifischer Unterschied; Schüler; Lehrmethode; Unterrichtshilfe; Naturwissenschaftlicher Unterricht; Physikunterricht |
Abstract | Physics educators today face two major challenges: supporting the acquisition of a solid base of conceptual knowledge and reducing the persisting gender gap. In the present quasi-experimental study, we investigated the potential of physics instruction that is enriched with evidence-based cognitively activating methods, such as inventing with contrasting cases or metacognitive questions, to overcome both of these challenges. Four physics teachers in charge of two parallel classes each applied our cognitively activating instruction in one of their classes (CogAct classes). The other classes received regular physics lessons (regular classes) on the same content. The sample consisted of 172 individuals from the advanced track of Swiss secondary school. Controlling for several individual student variables, CogAct classes (N = 87) outperformed regular classes (N = 85) in conceptual understanding at posttest (p ( .01, beta = 0.19, 95% CI [0.07, 0.32]) and three months later (p ( .05, beta = 0.13, 95% CI [0.00, 0.26]). The CogAct classes' advantage in conceptual understanding was not at the expense of their quantitative problem-solving performance, which even exceeded the quantitative problem-solving performance of the regular classes at posttest (p ( .05, beta = 0.14, 95% CI [0.00, 0.28]). In addition, female students with above-average intelligence (PR )75) particularly benefited from CogAct instruction, as indicated by descriptive statistics and the interaction between intelligence and condition in the group of the female students for posttest conceptual understanding (p ( .05, beta = 0.88, 95% CI [0.06, 1.69]). We conclude that teachers can successfully be supported in implementing cognitively activating methods that improve their students' conceptual understanding and reduce the gender gap in physics. Educational Impact and Implications Statement Physics instruction has not yet adapted appropriately to the difficulties that otherwise capable students may have with understanding concepts like force or inertia. We integrated several methods of classroom practice, all of which have the potential to help students acquire meaningful knowledge, into a comprehensive teaching unit on Newtonian mechanics. Students taught according to this unit developed a better understanding of central concepts in mechanics than students who were taught by the same teachers in a traditional way. In particular, the group of intelligent female students, who often do not exploit their potential in traditional physics instruction, profited from the teaching unit that focused on conceptual understanding. Our findings show that this method of physics instruction can be successfully implemented by regular in-service teachers, supports the acquisition of meaningful knowledge, and reduces the gender gap in physics. (ZPID). |
Erfasst von | Leibniz-Institut für Psychologie, Trier |
Update | 2020/3 |