Impact of project‐based curriculum materials on student learning in science: Results of a randomized controlled trial

Harris, Christopher; Penuel, William R.; D’Angelo, Cynthia; DeBarger, Angela Haydel; Gallagher, Lawrence P.; Kennedy, Cathleen A.; Cheng, Britte Haugan; Krajcik, Joseph

doi:10.1002/tea.21263

Cited by 93 publications

(86 citation statements)

References 48 publications

(60 reference statements)

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“…These activities seem to provide productive starting points to address students' interests as well as fostering their understanding. Increasingly using related teaching methods, for example, project‐based learning (cf., Harris et al, ) or peer‐tutoring (cf., Ding & Harskamp, ), could offer the opportunity to profit most from this close interrelation between students' interest in specific activities and their achievement. With regard to science lessons in Germany, but probably also with regard to other countries, these teaching approaches cannot be considered as standard repertoire (Risch, ; Schiepe‐Tiska et al, ).…”

Section: Discussionmentioning

confidence: 99%

Knowing more about things you care less about: Cross‐sectional analysis of the opposing trend and interplay between conceptual understanding and interest in secondary school chemistry

et al. 2018

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The development of students' interest in school science activities, their understanding of central chemical concepts, and the interplay between both constructs across Grades 5–11 were analyzed in a cross‐sectional paper‐and‐pencil study (N = 2,510, mean age 11–17 years). Previous empirical findings indicate that students' knowledge increases over the time of secondary school while students' interest, especially in natural science subjects, tends to decrease. Concomitantly, there is evidence for an increase in the positive coupling between interest and knowledge across time. However, previous studies mainly rely on rather global measures, for example, school grades or general subject‐related interest, and focus on science as an integrated subject instead of specific disciplines, for example, chemistry. For this article, more proximal and differentiated measures for students' understanding of three chemical concepts (Chemical Reaction, Energy, Matter) and interest in seven dimensions of school science activities according to the RIASEC + N model (Realistic, Investigative, Artistic, Social, Enterprising, Conventional, and Networking; cf. Dierks, Höffler, & Parchmann, 2014) were applied. The results are in line with previous research indicating a general increase in conceptual understanding and a decline in students' interest for all school science activities. However, the interplay between conceptual understanding and interest differs across the seven dimensions. Interest in activities which are likely to promote cognitive activation (investigative, networking) or involving the communication of knowledge (social, enterprising, and networking) are increasingly connected to conceptual understanding, especially in upper secondary grades. Interest in guided hands‐on activities (realistic) which are typical in secondary science teaching, however, shows only small positive correlations to students' conceptual understanding across all grades. Hence, in upper‐secondary school, investigative, social, enterprising, and networking activities seem to provide opportunities to benefit most from the interrelation between students' interests and their understanding.

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Section: Discussionmentioning

confidence: 99%

Knowing more about things you care less about: Cross‐sectional analysis of the opposing trend and interplay between conceptual understanding and interest in secondary school chemistry

et al. 2018

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“…Involvement, practical work, and free choice have been identified as stimuli affecting students’ situational interest toward science at least for the duration of the lesson (Jack & Lin, ; Palmer, ) and may induce longer‐lasting individual interest. Nevertheless, the motivational value of intensive work in inquiry‐based lessons is not clear: inquiry‐based instruction can yield improved science learning (Harris et al, ) and higher enjoyment (Murray & Reiss, ) but may also lead to negative affect (Litmanen, Lonka, Inkinen, Lipponen, & Hakkarainen, ). Moreover, students only prefer practical work and group work when put in relation to other more theoretical teaching techniques: Abrahams () emphasizes that lab work per se will not increase students’ individual interest in science.…”

Section: Activity Emotions and Motivational Outcomes In A Science Clamentioning

confidence: 99%

Emotional and motivational outcomes of lab work in the secondary intermediate track: The contribution of a science center outreach lab

Itzek-Greulich

Vollmer

2016

J Res Sci Teach

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Students’ interest in science declines in secondary school. Therefore, motivating students to become competent and engaged in science topics that are relevant for their everyday lives is an important goal, so they can be better citizens and decision makers with socioscientific issues (e.g., climate change and waste disposal). The present study contributes to research on activity emotions (state) and motivational outcomes (situational interest and situational competence) in science education. The study compared three experimental groups in a guided inquiry lab work on the chemistry of starch and a control group. The three groups were (i) 13 science classes taught at school; (ii) 14 classes taught in a Science Center Outreach Lab (SCOL) visit; and (iii) 17 classes taught in a combined setting of (i) and (ii); the groups were taught on the same topic. The large sample of classes was randomly assigned to the experimental conditions and a control group and data were analyzed for the theoretical part and the practical part of the intervention. The nested data were analyzed using item response theory and multilevel analyses. The three lab‐work conditions were quite successful in comparison with the control group. There were some differences between the SCOL and school groups; the students experienced higher enjoyment in the theoretical part of the intervention in the school group and higher situational competence in the practical lab work at the combined setting. Especially low achievers profited from the intervention, supposedly because the topic was close to students’ everyday lives. Conscientiousness was a major predictor of emotional and motivational outcomes. In conclusion, experimental lab work at a SCOL can be seen as a supplement to a worthwhile STEM education. © 2016 Wiley Periodicals, Inc. J Res Sci Teach 54: 3–28, 2017

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“…The study sheds light on the importance of designing an intervention that can be effective in school districts that are experiencing a high magnitude of teacher instability and are under pressure to meet accountability requirements (Harris et al, ; Penuel, Riel, Krause, & Frank, ). Such an intervention will be a challenge for researchers and practitioners, but it appears to bring benefits to students, especially those in high‐poverty areas.…”

Section: Discussionmentioning

confidence: 99%

Curriculum‐based teacher professional development in middle school science: A comparison of training focused on cognitive science principles versus content knowledge

et al. 2019

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This study investigates, through a cluster‐randomized trial, the effectiveness of two approaches to increasing middle school students’ science learning using a traditional science curriculum. Ninety schools were randomly assigned into one of three arms: (a) a treatment arm in which the textbook curriculum was modified based on four principles of cognitive science coupled with teacher professional development (PD), (b) a second treatment arm in which teachers received PD designed to improve their knowledge of the science content, and (c) a business‐as‐usual control group. The PD was able to change teacher practice but barely improved teacher knowledge. No significant boost in student achievement was observed, except in a few instances, where there were some promising findings. Exploratory analyses were conducted to examine what makes the interventions more effective. Implications for future research were discussed.

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Impact of project‐based curriculum materials on student learning in science: Results of a randomized controlled trial

Cited by 93 publications

References 48 publications

Knowing more about things you care less about: Cross‐sectional analysis of the opposing trend and interplay between conceptual understanding and interest in secondary school chemistry

Knowing more about things you care less about: Cross‐sectional analysis of the opposing trend and interplay between conceptual understanding and interest in secondary school chemistry

Emotional and motivational outcomes of lab work in the secondary intermediate track: The contribution of a science center outreach lab

Curriculum‐based teacher professional development in middle school science: A comparison of training focused on cognitive science principles versus content knowledge

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