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Materials Similar to Effect of Essential Skills Practice on Student Understanding of Probabilities in an Upper-Division Quantum Mechanics Course

• 41%: Using student-generated content to engage students in upper-division quantum mechanics
• 39%: Surveying students' understanding of quantum mechanics in one spatial dimension
• 38%: Improving Students' Understanding of Quantum Mechanics
• 37%: Multiple roles of assessment in upper-division physics course reforms
• 37%: Investigating students’ strategies for interpreting quantum states in an upper-division quantum computing course
• 37%: Applying a symbolic forms lens to probability expressions in upper-division quantum mechanics
• 36%: A Research-Based Approach to Assessing Student Learning Issues in Upper-Division Electricity & Magnetism
• 36%: Characterizing and monitoring student discomfort in upper-division quantum mechanics
• 36%: Transforming Upper-Division Quantum Mechanics: Learning Goals and Assessment
• 36%: Investigating student understanding of basic quantum mechanics in the context of time-dependent perturbation theory
• 35%: What happens between pre- and post-tests: Multiple measurements of student understanding during an introductory physics course
• 34%: Assessment feedback: A tool to promote scientific practices in upper-division
• 34%: From Cartesian coordinates to Hilbert space: Supporting student understanding of basis in quantum mechanics
• 34%: Investigating Student Difficulties with Time dependence of Expectation Values in Quantum Mechanics
• 34%: Student difficulties with determining expectation values in quantum mechanics
• 34%: Student understanding of unit vectors and coordinate systems beyond cartesian coordinates in upper division physics courses
• 33%: Student understanding of basic probability concepts in an upper-division thermal physics course
• 32%: Surveying Students’ Understanding of Quantum Mechanics
• 32%: Improving students' understanding of quantum mechanics by using peer instruction tools