login - create an account - help

• AAPT ComPADRE
• Events
• Collaborate
• About
• Contact Us

Materials Similar to Facilitating Students’ Problem Solving across Multiple Representations in Introductory Mechanics

• 68%: Assessing student expertise in introductory physics with isomorphic problems. II. Effect of some potential factors on problem solving and transfer
• 59%: Developing Thinking and Problem Solving Skills in Introductory Mechanics
• 59%: Facilitating Strategies for Solving Work-Energy Problems in Graphical and Equational Representations
• 58%: Changes in students’ problem-solving strategies in a course that includes context-rich, multifaceted problems
• 57%: Case Study: Students' Use of Multiple Representations in Problem Solving
• 54%: Assessing student expertise in introductory physics with isomorphic problems. I. Performance on nonintuitive problem pair from introductory physics
• 54%: 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
• 52%: Expert and Novice Use of Multiple Representations During Physics Problem Solving
• 52%: Context Rich Problems: Teaching Introductory Physics Through Problem Solving
• 51%: Enhancing Cognitive Development through Physics Problem Solving: A Taxonomy of Introductory Physics Problems
• 50%: Interactive video tutorials for enhancing problem-solving, reasoning, and meta-cognitive skills of introductory physics students
• 50%: Teaching Students Problem Solving in Introductory Physics: Forming an Initial Hypothesis of Instructors' Beliefs
• 50%: Students' Perceptions of Case-Reuse Based Problem Solving in Algebra-Based Physics
• 50%: Multiple Modes of Reasoning in Physics Problem Solving, with Implications for Instruction
• 50%: Using Reflection with Peers to Help Students Learn Effective Problem Solving Strategies
• 49%: Phenomenographic study of students’ problem solving approaches in physics
• 49%: Identifying Student Difficulty in Problem Solving Process via the Framework of the House Model (HM)
• 49%: Coupling Conceptual and Quantitative Problems to Develop Expertise in Introductory Physics Students
• 49%: Representational Format, Student Choice, and Problem Solving in Physics