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Materials Similar to TA-designed vs. research-oriented problem solutions

• 42%: Graduate teaching assistants use different criteria when grading introductory physics vs. quantum mechanics problems
• 41%: Effect of Problem Solutions on Students' Reasoning Patterns on Conceptual Physics Problems
• 39%: 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
• 38%: An Overview of Physics Education Research on Problem Solving
• 36%: Categorization of problems to assess and improve proficiency as teachers and learners
• 35%: Resource Letter RPS-1: Research in problem solving
• 34%: Contextualizing problem-solving strategies in physics-intensive PhD research
• 34%: Characterizing problem types and features in physics-intensive PhD research
• 32%: Alignment of TAs' Beliefs with Practice and Student Perception
• 32%: Graduate teaching assistants’ perceptions of a context-rich introductory physics problem
• 31%: Resource Activation Patterns In Expert Problem Solving
• 31%: Participation rates of in-class vs. online administration of low-stakes research-based assessments
• 31%: Why solve problems? Interviewing College Faculty About the Learning and Teaching of Problem Solving
• 31%: Changes in students’ problem-solving strategies in a course that includes context-rich, multifaceted problems
• 31%: Differences in visual attention between those who correctly and incorrectly answer physics problems
• 30%: Using Similarity Rating Tasks to Assess Case Reuse in Problem Solving
• 30%: Role of beliefs and emotions in numerical problem solving in university physics education
• 30%: Exploring the role of conceptual scaffolding in solving synthesis problems
• 30%: Choosing the right solution approach: The crucial role of situational knowledge in electricity and magnetism