Materials Similar to Student understanding of potential, wavefunctions and the Jacobian in hydrogen in graduate-level quantum mechanics
- 39%: Student understanding of quantum mechanics at the beginning of graduate instruction
- 38%: Investigating student understanding of basic quantum mechanics in the context of time-dependent perturbation theory
- 38%: Exploring Student Understanding of Energy through the Quantum Mechanics Conceptual Survey
- 37%: Assessing and improving student understanding of quantum mechanics
- 37%: Improving student understanding of addition of angular momentum in quantum mechanics
- 36%: The Influence of Student Understanding of Classical Physics When Learning Quantum Mechanics
- 36%: Student Difficulties in Understanding Probability in Quantum Mechanics
- 34%: Surveying students' understanding of quantum mechanics in one spatial dimension
- 34%: Quantum Mechanics Students' Understanding of Normalization
- 34%: Using student-generated content to engage students in upper-division quantum mechanics
- 33%: Improving students' understanding of quantum mechanics via the Stern–Gerlach experiment
- 33%: Investigating Student Difficulties with Time dependence of Expectation Values in Quantum Mechanics
- 33%: Testing the development of student conceptual and visualization understanding in quantum mechanics through the undergraduate career
- 33%: Surveying Students’ Understanding of Quantum Mechanics
- 33%: Improving Students' Understanding of Quantum Mechanics
- 33%: Improving students’ understanding of quantum measurement. I. Investigation of difficulties
- 33%: Student difficulties with determining expectation values in quantum mechanics
- 32%: Analogous Patterns of Student Reasoning Difficulties in Introductory Physics and Upper- Level Quantum Mechanics
- 32%: Improving the Quantum Mechanics Content Knowledge and Pedagogical Content Knowledge of Physics Graduate Students
