Materials Similar to Energy measurement resources in spins-first and position-first quantum mechanics
- 50%: Spin First vs. Position First instructional approaches to teaching introductory quantum mechanics
- 50%: Student perceptions of math-physics interactions throughout spins-first quantum mechanics
- 48%: Spin First instructional approach to teaching quantum mechanics in sophomore level modern physics courses
- 46%: Representations for a spins-first approach to quantum mechanics
- 46%: Student difficulties with determining expectation values in quantum mechanics
- 43%: On the Study of Student Use of Meta-Resources in Learning Quantum Mechanics
- 40%: Student difficulties with quantum states while translating state vectors in Dirac notation to wave functions in position and momentum representations
- 40%: Designing, validating, and contrasting conceptual quantum mechanics questions for spin states and spatial wave functions
- 40%: Development, validation and in-class evaluation of a sequence of clicker questions on Larmor precession of spin in quantum mechanics
- 38%: Resources Students Use to Understand Quantum Mechanical Operators
- 38%: Improving students’ understanding of quantum measurement. I. Investigation of difficulties
- 38%: Improving students’ understanding of quantum measurement. II. Development of research-based learning tools
- 38%: Student reasoning about sources of experimental measurement uncertainty in quantum versus classical mechanics
- 37%: Exploring Student Understanding of Energy through the Quantum Mechanics Conceptual Survey
- 36%: Development and Evaluation of a Quantum Interactive Learning Tutorial on Larmor Precession Of Spin
- 35%: Investigating student understanding of basic quantum mechanics in the context of time-dependent perturbation theory
- 34%: A new multimedia resource for teaching quantum mechanics concepts