home - login - register

• Conferences
  • PERC 2025
  • FFPER Series
  • Gordon Series
  • PERC Series
  • All Conferences
• Community
  • PER Programs
  • Community Events
  • Community Announcements
  • PER Jobs
  • For the Media
  • Wiki
  • PERTG & PERLOC
  • PER SOLO Group
  • PER Graduate Students
• Curriculum
  • Course Packages
  • Student Activities
  • Research Instruments
  • Pedagogy Guides
  • Browse All
  • Suggest a Material
• Research Articles
  • Browse
  • Advanced Search
  • Suggest an Article
• Dissertations
  • Browse
  • Suggest a Dissertation
• Serials
  • Reviews in PER
  • PERC Proceedings
  • PR-PER
  • AJP
  • Perticles

Materials Similar to Effect of students’ investigative experiments on students’ recognition of interference and diffraction patterns: An eye-tracking study

• 34%: Relationship between students' conceptual knowledge and study strategies-part I: student learning in physics
• 34%: Effect of an introductory quantum physics course using experiments with heralded photons on preuniversity students’ conceptions about quantum physics
• 31%: A Study of the Nature of Students' Models of Microscopic Processes in the Context of Modern Physics Experiments
• 30%: Effects of metacognitive scaffolding on students’ performance and confidence judgments in simulation-based inquiry
• 29%: Eye-gaze patterns as students study worked-out examples in mechanics
• 28%: Effect of integrating physics education technology simulations on students’ conceptual understanding in physics: A review of literature
• 27%: The combined effect of mathematics skills and formal operational reasoning on student performance in the general physics course
• 27%: Using Eye Tracking to Differentiate Student Difficulties Reasoning with Data
• 26%: Students’ productive strategies when generating graphical representations: An undergraduate laboratory case study
• 25%: The effect of context on student's reasoning about forces
• 25%: Effects of Representation on Students Solving Physics Problems: A Fine-Grained Characterization
• 25%: A Comparative Study of the Cognitive and Metacognitive Differences between Modeling and Non-Modeling High School Physics Students
• 25%: Implementing a mixed-methods approach to understand students’ self-efficacy: A pilot study
• 25%: Test of understanding graphs in kinematics: Item objectives confirmed by clustering eye movement transitions
• 25%: Eye-movement study of high- and low-prior-knowledge students’ scientific argumentations with multiple representations
• 24%: Effect of Problem Solutions on Students' Reasoning Patterns on Conceptual Physics Problems
• 24%: Reading between the lines: lab reports help high school students develop abilities to identify and evaluate assumptions
• 24%: Examining students' personal epistemology: the role of physics experiments and relation with theory
• 24%: Tracking the referent system to understand students' math modeling processes