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Materials Similar to Targeting Students' Physical Science Misconceptions Using the Conceptual Change Model

• 43%: Using examples and analogies to remediate misconceptions in physics: Factors influencing conceptual change
• 40%: Using Conceptual Blending to model how we interpret computational models
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• 37%: Enhancing conceptual change using argumentative essays
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• 35%: Identifying students’ mental models of sound propagation: The role of conceptual blending in understanding conceptual change
• 34%: Towards research-based strategies for using PhET simulations in middle school physical science classes
• 33%: Model analysis of fine structures of student models: An example with Newton's third law
• 33%: Promoting conceptual change using collaborative groups in quantitative gateway courses
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• 33%: Star Spectra Science: Using Balloons and Buttons to Model Spectroscopy
• 33%: Supporting learning and promoting conceptual change with box and AVOW diagrams. Part 2: Their impact on student learning at A-Level
• 32%: Using deductive reasoning to promote the change of students' conceptions about force and motion
• 32%: Assessing Students' Misclassifications of Physics Concepts: An Ontological Basis for Conceptual Change