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Materials Similar to Women have lower physics self-efficacy controlling for grade even in courses in which they outnumber men

• 95%: Damage caused by societal stereotypes: Women have lower physics self-efficacy controlling for grade even in courses in which they outnumber men
• 50%: Investigating the role of prior preparation and self-efficacy on female and male students’ introductory physics course achievements
• 50%: Effect of gender, self-efficacy, and interest on perception of the learning environment and outcomes in calculus-based introductory physics courses
• 41%: Large gender differences in physics self-efficacy at equal performance levels: A warning sign?
• 40%: Pedagogical approaches, contextual variables, and the development of student self-efficacy in undergraduate physics courses
• 40%: Inconsistent gender differences in self-efficacy and performance for engineering majors in physics and other disciplines: A cause for alarm?
• 40%: How perception of learning environment predicts male and female students’ grades and motivational outcomes in algebra-based introductory physics courses
• 39%: Self-Efficacy of First Year University Physics Students: Do Gender and Prior Formal Instruction in Physics Matter?
• 39%: Exploring the contributions of self-efficacy and test anxiety to gender differences in assessments
• 39%: How Perception of Being Recognized or Not Recognized by Instructors as a “Physics Person” Impacts Male and Female Students’ Self-Efficacy and Performance
• 37%: Significant Reduction in Gender Grade Disparities in a Reformed Introductory Physics Course
• 37%: Reducing the gender gap in students’ physics self-efficacy in a team- and project-based introductory physics class
• 36%: Factors Influencing the Self-Efficacy Beliefs of First-Year Engineering Students
• 36%: Test anxiety, self-efficacy, and gender: A quest for equitable assessment practices in physics
• 36%: STEMing the tide: Using ingroup experts to inoculate women's self-concept in science, technology, engineering, and mathematics (STEM).
• 35%: Gender differences in classroom experiences impacting self-efficacy in an AP Physics 1 classroom
• 35%: Gender differences in self-efficacy states in high school physics
• 34%: Exploring the relationship between self-efficacy and retention in introductory physics
• 34%: Positive attitudinal shifts and a narrowing gender gap: Do expertlike attitudes correlate to higher learning gains for women in the physics classroom?