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Materials Similar to Student Understanding of Period in Introductory and Quantum Physics Courses

• 56%: Impact of an introductory lab course on students’ understanding of measurement uncertainty
• 56%: Enhancing student visual understanding of the time evolution of quantum systems
• 55%: Improving students’ understanding of quantum measurement. I. Investigation of difficulties
• 54%: Initial understanding of vector concepts among students in introductory physics courses
• 54%: Student Learning In Upper-Level Thermal Physics: Comparisons And Contrasts With Students In Introductory Courses
• 54%: Understanding How Students Use Physical Ideas in Introductory Biology Courses
• 54%: What happens between pre- and post-tests: Multiple measurements of student understanding during an introductory physics course
• 54%: Investigating student understanding of basic quantum mechanics in the context of time-dependent perturbation theory
• 54%: Using a parachute course to retain students in introductory physics courses
• 50%: Improving students’ understanding of quantum measurement. II. Development of research-based learning tools
• 50%: Improving student understanding of addition of angular momentum in quantum mechanics
• 49%: Workshop: Assessing Coherent Student Understanding in Introductory Physics Courses
• 49%: Resources Students Use to Understand Quantum Mechanical Operators
• 49%: Exploring Student Understanding of Energy through the Quantum Mechanics Conceptual Survey
• 49%: Difficulties Understanding the Explicative Model of Simple DC Circuits in Introductory Physics Courses
• 48%: Research as a Guide for Curriculum Development: An Example from Introductory Electricity. Part I: Investigation of Student Understanding
• 48%: The Influence of Student Understanding of Classical Physics When Learning Quantum Mechanics
• 48%: Student Difficulties in Understanding Probability in Quantum Mechanics
• 48%: Student understanding of potential, wavefunctions and the Jacobian in hydrogen in graduate-level quantum mechanics