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Materials Similar to Using IBM’s Watson to automatically evaluate student short answer responses

• 40%: Validity of Force Concept Inventory evaluated by students’ explanations and confirmation using modified item response curve
• 38%: Mapping university students’ epistemic framing of computational physics using network analysis
• 36%: Using psychometric tools as a window into students’ quantitative reasoning in introductory physics
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• 35%: Linking and comparing short and full-length concept inventories of electricity and magnetism using item response theory
• 34%: Data sharing model for physics education research using the 70 000 response Colorado Learning Attitudes about Science Survey for Experimental Physics dataset
• 34%: Quantitative critical thinking: Student activities using Bayesian updating
• 33%: Criteria for collapsing rating scale responses: A case study of the CLASS
• 32%: Replicating analyses of item response curves using data from the Force and Motion Conceptual Evaluation
• 31%: Measuring student learning with item response theory
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• 31%: A comparison of student evaluations of instruction vs. students' conceptual learning gains
• 30%: Promoting Students’ Conceptual Knowledge using Video Analysis on Tablet Computers
• 30%: Quantifying the linguistic persistence of high and low performers in an online student forum
• 30%: Using the Microcomputer-Based Laboratory to Improve Student Conceptual Understanding in Physics
• 30%: How Physics Teachers Model Student Thinking and Plan Instructional Responses When Using Learning-Progression-Based Assessment Information
• 29%: Measuring Student Effort and Engagement in an Introductory Physics Course
• 29%: Using student-generated content to engage students in upper-division quantum mechanics
• 29%: Identifying a preinstruction to postinstruction factor model for the Force Concept Inventory within a multitrait item response theory framework