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Materials Similar to Understanding Students' Poor Performance on Mathematical Problem Solving in Physics

• 58%: Synthesis problems: role of mathematical complexity in students' problem solving strategies
• 56%: Strong preference among graduate student teaching assistants for problems that are broken into parts for their students overshadows development of self-reliance in problem-solving
• 55%: Differences in the Processes of Solving Physics Problems Between Good Physics Problem Solvers and Poor Physics Problem Solvers
• 54%: Changes in students’ problem-solving strategies in a course that includes context-rich, multifaceted problems
• 52%: Towards an Understanding of How Students Use Representations In Physics Problem Solving
• 52%: The Effect of Students’ Learning Orientations on Performance in Problem Solving Pedagogical Implementations
• 50%: Effects of Representation on Students Solving Physics Problems: A Fine-Grained Characterization
• 50%: Comparing problem solving performance of physics students in inquiry-based and traditional introductory physics courses
• 49%: Assessing student expertise in introductory physics with isomorphic problems. II. Effect of some potential factors on problem solving and transfer
• 49%: Assessing student expertise in introductory physics with isomorphic problems. I. Performance on nonintuitive problem pair from introductory physics
• 48%: Evaluating the effectiveness of two methods to improve students' problem solving performance after studying an online tutorial
• 47%: Assessment of Student Problem Solving Processes
• 45%: Effect of explicit problem solving instruction on high school students' problem-solving performance and conceptual understanding of physics
• 43%: The combined effect of mathematics skills and formal operational reasoning on student performance in the general physics course
• 43%: Representational Format, Student Choice, and Problem Solving in Physics
• 43%: Students' understanding and application of the area under the curve concept in physics problems
• 43%: Potential Relationship of Chosen Major to Problem Solving Attitudes and Course Performance
• 42%: Should students be provided diagrams or asked to draw them while solving introductory physics problems?
• 42%: Examination of Students’ Self-monitoring in Problem Solving