Date of Award/Publication
2000
Document Type
Thesis
Degree Name
MS in Mathematics, Science, and Technology Education
Abstract
Much has been written about problem-based learning and its ability to promote metacognition and self-directed learning. (Sage and Torp, 1998) This study was designed to determine if teacher modeling of metacognitive strategies, within a problem-based learning unit, would help students become independent, reflective thinkers. Metacognitive strategies modeled were the need-to-know-board, mind mapping, and reflective writing in daily problem logs. The study was conducted in a seventh grade science classroom over a one-month period. Students were enrolled in the district's Major Achievement Program. Data collection included responses from daily problem logs and a summative reflective essay. Additional data was collected from teacher observations and a videotaped focus group of nine students. The study concludes that teacher modeling of metacognitive strategies, within a problem-based learning unit, does increase students self-directed learning behavior through adoption of these strategies. Additionally, this study showed a growth in t h e way students perceived their ability to solve problems. Finally this study suggests that students must experience several problem-based learning situations before they can become expert self-directed learners.
Recommended Citation
Panton, Lynn E., "Modeling Metacognitive Strategies for Student Adoption within a Problem-Based Learning Unit" (2000). Mathematical and Computing Sciences Masters. Paper 41.
https://fisherpub.sjf.edu/mathcs_etd_masters/41
Please note that the Recommended Citation provides general citation information and may not be appropriate for your discipline. To receive help in creating a citation based on your discipline, please visit http://libguides.sjfc.edu/citations.