home - login - register

• Conferences
  • PERC 2023
  • 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 Pedagogical approaches, contextual variables, and the development of student self-efficacy in undergraduate physics courses

• 49%: Investigating the role of prior preparation and self-efficacy on female and male students’ introductory physics course achievements
• 40%: Factors Influencing the Self-Efficacy Beliefs of First-Year Engineering Students
• 40%: Connecting Self-Efficacy and Nature of Science Shifts in Undergraduate Research Experiences
• 39%: From Fear to Self-Expression: The Contextual Nature of Physics Students’ Motivations
• 39%: Implementing a mixed-methods approach to understand students’ self-efficacy: A pilot study
• 38%: Research and Teaching: Engaging Students - An Examination of the Effects of Teaching Strategies on Self-Efficacy and Course Climate in a Nonmajors Physics Course
• 38%: Self-Efficacy of First Year University Physics Students: Do Gender and Prior Formal Instruction in Physics Matter?
• 38%: Becoming a scientist: The role of undergraduate research in students' cognitive, personal, and professional development
• 38%: 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
• 37%: Student-Generated Scientific Inquiry for Elementary Education Undergraduates: Course Development, Outcomes and Implications
• 36%: The Development of a Physics Self-Efficacy Instrument for Use in the Introductory Classroom
• 35%: Attitudes of Undergraduate General Science Students Toward Learning Science and the Nature of Science
• 34%: Student Learning In Upper-Level Thermal Physics: Comparisons And Contrasts With Students In Introductory Courses
• 34%: Network centrality and student self-efficacy in an interactive introductory physics environment
• 34%: Reducing the gender gap in students’ physics self-efficacy in a team- and project-based introductory physics class
• 34%: Contextual details, cognitive demand and kinematic concepts: exploring concepts and characteristics of student-generated problems in a university physics course
• 34%: Supporting student quantitative skills across introductory STEM courses: faculty approaches and perceived needs
• 33%: Beyond performance metrics: Examining a decrease in students’ physics self-efficacy through a social networks lens