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Materials Similar to Faculty Conceptions About the Teaching and Learning of Problem Solving in Introductory Calculus-Based Physics

• 63%: Why solve problems? Interviewing College Faculty About the Learning and Teaching of Problem Solving
• 57%: Students Learning Problem Solving in Introductory Physics - Forming an Initial Hypothesis of Instructors' Beliefs
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• 55%: Physics faculty beliefs and values about the teaching and learning of problem solving. II. Procedures for measurement and analysis
• 52%: An Explanatory Model of Physics Faculty Conceptions about the Problem-Solving Process
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• 45%: Teaching Students Problem Solving in Introductory Physics: Forming an Initial Hypothesis of Instructors' Beliefs
• 43%: Enhancing Cognitive Development through Physics Problem Solving: A Taxonomy of Introductory Physics Problems
• 42%: Teaching Problem Solving Through Cooperative Grouping. Part 2: Designing Problems and Structuring Groups
• 42%: Instructors' reasons for choosing problem features in a calculus-based introductory physics course
• 42%: Concept-based problem solving: Combining educational research results and practical experience to create a framework for learning physics and to derive effective classroom practices
• 41%: Assessing student expertise in introductory physics with isomorphic problems. II. Effect of some potential factors on problem solving and transfer
• 39%: Teaching general learning and problem-solving skills
• 39%: Comparing problem solving performance of physics students in inquiry-based and traditional introductory physics courses
• 39%: Instructors’ Beliefs and Values about Learning Problem Solving
• 39%: Graduate teaching assistants’ perceptions of a context-rich introductory physics problem
• 39%: Graduate teaching assistants use different criteria when grading introductory physics vs. quantum mechanics problems