Abstract
A large body of research shows that using interactive engagement pedagogy in the introductory physics classroom consistently results in significant student learning gains; however, with a few exceptions, those learning gains tend not to be accompanied by more expertlike attitudes and beliefs about physics and learning physics. In fact, in both traditionally taught and active learning classroom environments, students often become more novicelike in their attitudes and beliefs following a semester of instruction. Further, prior to instruction, men typically score higher than women on conceptual inventories, such as the Force Concept Inventory (FCI), and more expertlike on attitudinal surveys, such as the Colorado Learning Attitudes about Science Survey (CLASS), and those gender gaps generally persist following instruction. In this paper, we analyze three years of pre-post matched data for physics majors at Virginia Tech on the FCI and the CLASS. The courses were taught using a blended pedagogical model of peer instruction, group problem solving, and direct instruction, along with an explicit focus on the importance of conceptual understanding and a growth mindset. We found that the FCI gender gap decreased, and both men and women showed positive, expertlike shifts on the CLASS. Perhaps most surprisingly, we found a meaningful correlation between a student's post- CLASS score and normalized FCI gain for women, but not for men.
Highlights
A substantial body of work in physics education research has demonstrated that interactive-engagement instructional techniques lead to significantly higher student learning gains on conceptual inventories such as the Force Concept Inventory (FCI) [1] and the Force and Motion Conceptual Evaluation (FMCE) [2] as compared to traditional, lecturebased practices [3]
The average of the individual normalized gains for men and women on the FCI were 0.579 and 0.536, respectively, which is consistent with previous work documenting higher normalized learning gains in activeengagement classes than traditionally taught classes, where hgi < 0.3 [3]
Many interactive classes have shown strong learning gains for students, we attribute the atypical success of narrowing the gender gap on the FCI and obtaining positive attitudinal shifts for students of all genders at Virginia Tech to the confluence of interactive engagement pedagogies alongside a classroom culture that explicitly encourages collaboration, conceptual understanding, and a growth mindset in both the introductory physics and the seminar courses
Summary
A substantial body of work in physics education research has demonstrated that interactive-engagement instructional techniques lead to significantly higher student learning gains on conceptual inventories such as the Force Concept Inventory (FCI) [1] and the Force and Motion Conceptual Evaluation (FMCE) [2] as compared to traditional, lecturebased practices [3]. A study by Lorenzo, Crouch, and Mazur [6] showed a significant narrowing of the pre to post FCI and FMCE gender gap in physics courses at Harvard University that used an array of interactive engagement strategies including Peer Instruction [7], Tutorials in Introductory Physics [8], and cooperative problem solving. When Pollock, Finkelstein, and Kost tried to replicate the Harvard findings at the University of Colorado by using similar pedagogical techniques, they found that interactive engagement techniques resulted in higher normalized learning gains, the gender gap was not reduced [9]. Beichner et al report that women have higher success rates in SCALE-UP classrooms than in traditional physics courses [10] It seems that interactive engagement courses can show encouraging steps towards eliminating the gender gap, there may be other factors at play
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