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Materials Similar to Student Learning In Upper-Level Thermal Physics: Comparisons And Contrasts With Students In Introductory Courses

• 43%: Observations of General Learning Patterns in an Upper-Level Thermal Physics Course
• 42%: Student understanding of basic probability concepts in an upper-division thermal physics course
• 42%: Problem-based learning in upper division courses: Student successes, perceptions, and reactions
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• 41%: Comparison of student expectations in introductory calculus-based physics courses
• 40%: Professors' and students' conceptualizations of the learning task in introductory physics courses
• 39%: What happens between pre- and post-tests: Multiple measurements of student understanding during an introductory physics course
• 38%: Investigation of students' reasoning regarding heat, work, and the first law of thermodynamics in an introductory calculus-based general physics course
• 38%: Introductory College Physics Students' Explanations Of Friction And Related Phenomena At The Microscopic Level
• 38%: Student-generated content: Using PeerWise to enhance engagement and outcomes in introductory physics courses
• 38%: Initial understanding of vector concepts among students in introductory physics courses
• 38%: Interactive-Engagement Versus Traditional Methods: A Six-Thousand-Student Survey of Mechanics Test Data for Introductory Physics Courses
• 38%: Student Assessment Of Laboratory In Introductory Physics Courses: A Q-sort Approach
• 38%: A Research-Based Approach to Assessing Student Learning Issues in Upper-Division Electricity & Magnetism
• 37%: "After I gave students their prior knowledge" Pre-service teachers' conceptions of student prior knowledge
• 37%: Peaks and decays of student knowledge in an introductory E&M course
• 36%: Workshop tutorials: Accommodating student-centered learning in large first year university physics courses
• 36%: Comparing problem solving performance of physics students in inquiry-based and traditional introductory physics courses
• 36%: Student Reasoning Regarding Work, Heat, and the First Law of Thermodynamics in an Introductory Physics Course