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Materials Similar to Using the Resources of the Student at the Urban, Comprehensive University to Develop an Effective Instructional Environment

• 33%: Leveraging the expertise of the urban STEM student in developing an effective LA Program: LA and Instructor Partnerships
• 31%: Using Students' Design Tasks to Develop Scientific Abilities
• 30%: Using Reflection with Peers to Help Students Learn Effective Problem Solving Strategies
• 29%: Investigative Science Learning Environment: Using the processes of science and cognitive strategies to learn physics
• 29%: Using multimedia modules to better prepare students for introductory physics lecture
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• 27%: Helping students develop an understanding of Archimedes' principle. II. Development of research-based instructional materials
• 27%: Student Perceptions of Three Different Physics by Inquiry Classes using the Laboratory Program Variables Inventory
• 27%: University Student Conceptual Resources for Understanding Forces
• 26%: Effect of instructional environment on physics students’ representational skills
• 26%: Students know what physicists believe, but they don’t agree: A study using the CLASS survey
• 26%: Using student-generated content to engage students in upper-division quantum mechanics
• 26%: Mapping university students’ epistemic framing of computational physics using network analysis
• 26%: How Physics Teachers Model Student Thinking and Plan Instructional Responses When Using Learning-Progression-Based Assessment Information
• 25%: Using Large-Scale Classroom Research to Study Student Conceptual Learning in Mechanics and to Develop New Approaches to Learning
• 25%: Developing skills versus reinforcing concepts in physics labs: Insight from a survey of students’ beliefs about experimental physics