login - create an account - help

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

Materials Similar to Student Representational Competence and the Role of Instructional Environment in Introductory Physics

• 51%: Effect of instructional environment on physics students’ representational skills
• 45%: Representational Format, Student Choice, and Problem Solving in Physics
• 45%: The Use of Multiple Representations and Visualizations in Student Learning of Introductory Physics: An Example from Work and Energy
• 42%: Network centrality and student self-efficacy in an interactive introductory physics environment
• 41%: Changes in students’ problem-solving strategies in a course that includes context-rich, multifaceted problems
• 40%: Student representational competence and self-assessment when solving physics problems
• 40%: An Exploratory Qualitative Study of the Proximal Goal Setting of Two Introductory Modeling Instruction Physics Students
• 40%: Should students be provided diagrams or asked to draw them while solving introductory physics problems?
• 40%: Coupling Conceptual and Quantitative Problems to Develop Expertise in Introductory Physics Students
• 40%: Facilitating Students’ Problem Solving across Multiple Representations in Introductory Mechanics
• 40%: Assessing students' ability to solve introductory physics problems using integrals in symbolic and graphical representations
• 39%: Assessing student expertise in introductory physics with isomorphic problems. II. Effect of some potential factors on problem solving and transfer
• 38%: Using the Resources of the Student at the Urban, Comprehensive University to Develop an Effective Instructional Environment
• 38%: Student Learning In Upper-Level Thermal Physics: Comparisons And Contrasts With Students In Introductory Courses
• 37%: Student difficulties in translating between mathematical and graphical representations in introductory physics
• 37%: A study on the beliefs about the role of physics and physicists amongst introductory students
• 36%: The impact of students' epistemological framing on a task requiring representational consistency
• 36%: Investigating the role of prior preparation and self-efficacy on female and male students’ introductory physics course achievements
• 36%: How the learning environment predicts male and female students’ motivational beliefs in algebra-based introductory physics courses