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Materials Similar to Study of TA's ability to implement the Tutorials in Introductory Physics and student conceptual understanding

• 47%: Using the Conceptual Survey of Electricity and Magnetism to investigate progression in student understanding from introductory to advanced levels
• 47%: Development and validation of a conceptual multiple-choice survey instrument to assess student understanding of introductory thermodynamics
• 45%: Longitudinal study of student conceptual understanding in electricity and magnetism
• 45%: Introductory Physics Students Retention of Conceptual Understanding of Forces
• 45%: Developing and validating a conceptual survey to assess introductory physics students' understanding of magnetism
• 44%: Replicating and understanding successful innovations: Implementing tutorials in introductory physics
• 42%: Conceptual Underpinnings of Students' Ability to Understand Reflections from a Plane Mirror
• 42%: Implementing a mixed-methods approach to understand students’ self-efficacy: A pilot study
• 41%: Relationship between students' conceptual knowledge and study strategies-part I: student learning in physics
• 41%: Assessing the impact of a computer simulation in conjunction with Tutorials in Introductory Physics on conceptual understanding
• 41%: 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
• 40%: Student Learning In Upper-Level Thermal Physics: Comparisons And Contrasts With Students In Introductory Courses
• 40%: Secondary analysis of teaching methods in introductory physics: A 50 k-student study
• 38%: What happens between pre- and post-tests: Multiple measurements of student understanding during an introductory physics course
• 38%: Visualizing patterns in CSEM responses to assess student conceptual understanding
• 38%: Analysis and comparison of students’ conceptual understanding of symmetry arguments in Gauss’s and Ampere’s laws
• 37%: Testing the development of student conceptual and visualization understanding in quantum mechanics through the undergraduate career
• 37%: Initial understanding of vector concepts among students in introductory physics courses
• 37%: Modeling students’ conceptual understanding of force, velocity, and acceleration