Materials Similar to Student Understanding of Superposition: Vectors and Wave Functions
- 54%: Student difficulties with quantum states while translating state vectors in Dirac notation to wave functions in position and momentum representations
- 49%: Student understanding of the measurable effects of relative phases in superposition states
- 44%: Algebra-Based Students & Vectors: Assessing Physical Understanding in Arrow vs ijk
- 44%: Students’ use of conceptual resources for understanding superposition
- 41%: Improving student understanding of Dirac notation by using analogical reasoning in the context of a three-dimensional vector space
- 41%: Investigating Student Understanding of Perturbation Theory and the Inner Products of Functions
- 41%: Student understanding of potential, wavefunctions and the Jacobian in hydrogen in graduate-level quantum mechanics
- 40%: Testing Students’ Understanding of Vector Concepts
- 40%: Student use of a material anchor for quantum wave functions
- 38%: Investigating the Influence of Visualization on Student Understanding of Quantum Superposition
- 38%: Investigation of Student Understanding of the Wave-Like Properties of Light and Matter
- 37%: Students' difficulties with unit vectors and scalar multiplication of a vector
- 37%: Improving students’ understanding of quantum measurement. I. Investigation of difficulties
- 36%: A research-based approach to improving student understanding of the vector nature of kinematical concepts
- 36%: Student understanding of the wave nature of matter: Diffraction and interference of particles
- 36%: Examining consistency of student errors in vector operations using module analysis
- 35%: Test of understanding of vectors: A reliable multiple-choice vector concept test
- 35%: Enhancing student visual understanding of the time evolution of quantum systems
- 34%: Student Objections to and Understanding of Non-Cartesian Unit Vector Notation in Upper-Level E&M