login - create an account - help

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

Materials Similar to A Mixed Methods Approach Towards Defining A Student's Ranges of Self-Efficacy

• 71%: Implementing a mixed-methods approach to understand students’ self-efficacy: A pilot study
• 37%: Investigating the role of prior preparation and self-efficacy on female and male students’ introductory physics course achievements
• 36%: Pedagogical approaches, contextual variables, and the development of student self-efficacy in undergraduate physics courses
• 36%: Factors Influencing the Self-Efficacy Beliefs of First-Year Engineering Students
• 36%: Departmental support structures for physics graduate students: Development and psychometric evaluation of a self-report instrument
• 35%: Self-Efficacy of First Year University Physics Students: Do Gender and Prior Formal Instruction in Physics Matter?
• 35%: Exploring Student Learning Profiles in Algebra-based Studio Physics: A Person-Centered Approach
• 34%: Impact of an active learning physics workshop on secondary school students’ self-efficacy and ability
• 34%: A comparison of student evaluations of instruction vs. students' conceptual learning gains
• 33%: Blogging in the physics classroom: A research-based approach to shaping students’ attitudes toward physics
• 32%: Variations in students’ epistemological beliefs towards physics learning across majors, genders, and university tiers
• 32%: Themes in student self-assessments of attitudinal development in the CLASS
• 31%: The experience sampling method: Investigating students' affective experience
• 31%: Network centrality and student self-efficacy in an interactive introductory physics environment
• 31%: Reducing the gender gap in students’ physics self-efficacy in a team- and project-based introductory physics class
• 31%: Contribution of self-directed, naked-eye observations to students’ conceptual understanding and attitudes towards astronomy
• 31%: How Perception of Being Recognized or Not Recognized by Instructors as a “Physics Person” Impacts Male and Female Students’ Self-Efficacy and Performance
• 31%: Mapping university students’ epistemic framing of computational physics using network analysis
• 31%: Inconsistent gender differences in self-efficacy and performance for engineering majors in physics and other disciplines: A cause for alarm?