home - login - register

• Conferences
  • PERC 2025
  • FFPER Series
  • Gordon Series
  • PERC Series
  • All Conferences
• Community
  • PER Programs
  • Community Events
  • Community Announcements
  • PER Jobs
  • For the Media
  • Wiki
  • PERTG & PERLOC
  • PER SOLO Group
  • PER Graduate Students
• Curriculum
  • Course Packages
  • Student Activities
  • Research Instruments
  • Pedagogy Guides
  • Browse All
  • Suggest a Material
• Research Articles
  • Browse
  • Advanced Search
  • Suggest an Article
• Dissertations
  • Browse
  • Suggest a Dissertation
• Serials
  • Reviews in PER
  • PERC Proceedings
  • PR-PER
  • AJP
  • Perticles

Materials Similar to The Impacts of Modeling Physics in Upper-Level Courses: The Persistence of Males and Females

• 54%: The impact of social integration on student persistence in introductory Modeling Instruction courses
• 44%: The Impacts of Instructor and Student Gender on Student Performance in Introductory Modeling Instruction Courses
• 43%: The impact of peer interaction on the responses to clicker questions in an upper-level quantum mechanics course
• 43%: Investigation of male and female students’ motivational characteristics throughout an introductory physics course sequence
• 41%: Student Learning In Upper-Level Thermal Physics: Comparisons And Contrasts With Students In Introductory Courses
• 39%: Investigating the role of prior preparation and self-efficacy on female and male students’ introductory physics course achievements
• 38%: How the learning environment predicts male and female students’ motivational beliefs in algebra-based introductory physics courses
• 38%: How learning environment predicts male and female students’ physics motivational beliefs in introductory physics courses
• 37%: Impact on students' views of experimental physics from a large introductory physics lab course
• 37%: Observations of General Learning Patterns in an Upper-Level Thermal Physics Course
• 37%: Multiple roles of assessment in upper-division physics course reforms
• 35%: The Impact of Course Structure on eText Use in Large-Lecture Introductory-Physics Courses
• 34%: Positive Impacts of Modeling Instruction on Self-Efficacy
• 34%: Differences in Male/Female Response Patterns on Alternative-format Versions of the Force Concept Inventory
• 33%: Assessment to complement research-based instruction in upper-level physics courses
• 32%: Toward equity through participation in Modeling Instruction in introductory university physics
• 32%: Creating a coupled multiple response assessment for modeling in lab courses
• 31%: Student ideas about the moon and its phases and the impact of a real 3D model of the Sun/Earth/Moon system in an introductory astronomy laboratory course
• 31%: Creating Opportunities to Influence Self-Efficacy through Modeling Instruction