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Materials Similar to Longer term impacts of transformed courses on student conceptual understanding of E&M

• 57%: A Longitudinal Study of the Impact of Curriculum on Conceptual Understanding in E&M
• 47%: The Impact of the History of Physics on Student Attitude and Conceptual Understanding of Physics
• 43%: Introductory Physics Students Retention of Conceptual Understanding of Forces
• 43%: Improving Student Understanding of Vector Fields in Junior-Level E&M
• 42%: Impact on students' views of experimental physics from a large introductory physics lab course
• 42%: Transferring Transformations: Learning Gains, Student Attitudes, and the Impacts of Multiple Instructors in Large Lecture Courses
• 42%: What happens between pre- and post-tests: Multiple measurements of student understanding during an introductory physics course
• 42%: The impact of problem-based learning on engineering students’ beliefs about physics and conceptual understanding of energy and momentum
• 41%: Peaks and decays of student knowledge in an introductory E&M course
• 41%: Writing Position Vectors in 3-d Space: A Student Difficulty With Spherical Unit Vectors in Intermediate E&M
• 40%: Contrasts in Student Understanding of Simple E&M Questions in Two Countries
• 40%: Research-Based Course Materials and Assessments for Upper-Division Electrodynamics (E&M II)
• 40%: Conceptual Understanding of Resistive Electric Circuits Among First-year Engineering Students
• 40%: Tapping into Juniors’ Understanding of E&M: The Colorado Upper-Division Electrostatics (CUE) Diagnostic
• 40%: Student Objections to and Understanding of Non-Cartesian Unit Vector Notation in Upper-Level E&M
• 39%: Longitudinal study of student conceptual understanding in electricity and magnetism
• 39%: Impact of an introductory lab course on students’ understanding of measurement uncertainty
• 39%: A study on the impact of real, virtual and comprehensive experimenting on students’ conceptual understanding of DC electric circuits and their skills in undergraduate electricity laboratory
• 39%: Developing and validating a conceptual survey to assess introductory physics students' understanding of magnetism