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Materials Similar to Inquiry-based activities and their effects on students’ ability to explain related problem scenarios

• 42%: Comparing problem solving performance of physics students in inquiry-based and traditional introductory physics courses
• 40%: The impact of problem-based learning on engineering students’ beliefs about physics and conceptual understanding of energy and momentum
• 37%: Assessing student expertise in introductory physics with isomorphic problems. II. Effect of some potential factors on problem solving and transfer
• 36%: Effect of Problem Solutions on Students' Reasoning Patterns on Conceptual Physics Problems
• 36%: Strong preference among graduate student teaching assistants for problems that are broken into parts for their students overshadows development of self-reliance in problem-solving
• 35%: The effects of an interactive computer-based simulation prior to performing a laboratory inquiry-based experiment on students' conceptual understanding of physics
• 33%: Student Understanding of the Correlation between Hands- on Activities and Computer Visualizations of NMR/MRI
• 33%: The impact of metacognitive activities on student attitudes towards experimental physics
• 33%: The effects of a redesign on students’ attitudes and evaluations for an introductory calculus-based physics lab
• 33%: Design strategies for research-based physics activities
• 32%: Effect of peer-review on development of students' problem-solving abilities
• 31%: A Comparison of Student Understanding of Seasons Using Inquiry and Didactic Teaching Methods
• 31%: Changes in students’ problem-solving strategies in a course that includes context-rich, multifaceted problems
• 31%: Comparing Student Learning in Mechanics Using Simulations and Hands-on Activities
• 31%: Problem-based learning in upper division courses: Student successes, perceptions, and reactions
• 31%: Open-ended versus guided laboratory activities: Impact on students’ beliefs about experimental physics
• 31%: Student attitudes in a new hybrid design-based introductory physics laboratory
• 31%: Synthesis problems: role of mathematical complexity in students' problem solving strategies
• 31%: Problematizing in inquiry-based labs: how students respond to unexpected results