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Materials Similar to Framework for articulating instructional practices and conceptions

• 52%: Characterizing Instructional Practices in the Laboratory: The Laboratory Observation Protocol for Undergraduate STEM
• 42%: Instructional Goals and Grading Practices of Graduate Students after One Semester of Teaching Experience
• 41%: Investigating and Accounting for Physics Graduate Students' Tutorial Classroom Practice
• 41%: Applying a framework for characterizing physics teaching assistants’ beliefs and practices
• 40%: Concept-based problem solving: Combining educational research results and practical experience to create a framework for learning physics and to derive effective classroom practices
• 38%: Taking into Account Student Conceptions in Instructional Strategy: An Example in Physics
• 38%: Multiple Frameworks?: Evidence of manifold conceptions in individual cognitive structure
• 38%: Evaluating a model of research-based practices for teacher preparation in a physics department: Colorado PhysTEC
• 38%: The Best of Both Worlds: Building on the COPUS and RTOP Observation Protocols to Easily and Reliably Measure Various Levels of Reformed Instructional Practice
• 37%: Promoting Instructional Change in New Faculty: An Evaluation of the Physics and Astronomy New Faculty Workshop
• 36%: Instructional Systems of Practice: A Multidimensional Analysis of Math and Science Undergraduate Course Planning and Classroom Teaching
• 35%: Effects of the learning assistant experience on in-service teachers' practices
• 35%: Instructional Pragmatism: Using a variety of evidence-based approaches flexibly to improve learning
• 33%: Pedagogical Practices of Physics Faculty in the USA
• 33%: Using Artifact Methodology to Compare Learning Assistants’ and Colleagues’ Classroom Practices
• 32%: Applying a resources framework to analysis of the Force and Motion Conceptual Evaluation
• 32%: Using Observations of Universal Design for Learning to Enhance Post-secondary STEM Teaching Practices
• 32%: Impact of industry experience on faculty teaching practices in STEM
• 32%: A framework for improving diversity work in physics