Abstract
Access and performance in advanced high school physics have been persistently inequitable when considering student ethnicity and gender. This quasiexperimental, observational study examined access and performance of students in four Advanced Placement (AP) Physics courses in 2018–2019: AP Physics 1 (N=150 451), AP Physics 2 (N=20 466), AP Physics C Mechanics (N=49 951), and AP Physics C Electricity & Magnetism (N=21 602); this analysis utilized an intersectional lens of ethnicity and gender in identifying enrollment and performance disparities. Descriptive and inferential analyses were conducted to determine whether the distribution of student ethnicities and genders of students who took the examinations was similar to that of U.S. schools. Further analyses were conducted to determine whether achievement on AP Physics examinations varied by 14 unique intersectional groups characterized by gender and ethnicity. Results indicated that AP Physics 1 was a relatively accessible course, though enrollment disparities among genders, ethnicities, and intersectional groups grew as the AP Physics courses became more advanced with physics and/or calculus prerequisites or corequisites. There were large decreases in course enrollments from first- to second-year AP Physics courses, particularly for women who were also underrepresented ethnic minorities. In terms of performance, AP Physics 1 had the lowest overall weighted average, with the majority of students failing the examination. Women who were traditionally underrepresented ethnic minorities were found to have failure rates of over 80% on the AP Physics 1 examination, and failure rates near 50% for AP Physics 2 and the AP Physics C courses compared to nonminority men who had approximately half the failure rates. In most cases, men outperformed women who shared their ethnicities. These results present opportunities for physics education policy makers and researchers to design interventions for students in intersecting marginalized social groups, many of whom have disproportionately low representation and achievement in advanced high school physics, which occurs at a critical juncture in the physics pipeline.Received 2 April 2021Accepted 17 June 2021DOI:https://doi.org/10.1103/PhysRevPhysEducRes.17.020105Published by the American Physical Society under the terms of the Creative Commons Attribution 4.0 International license. Further distribution of this work must maintain attribution to the author(s) and the published article’s title, journal citation, and DOI.Published by the American Physical SocietyPhysics Subject Headings (PhySH)Research AreasDiversity & inclusionEducational policyPhysics Education Research
Highlights
Most prior studies involving STEM intersectional inequities have been contextualized in undergraduate and graduate education, the present study addresses an overt gap in the literature by applying intersectional analysis to precollege physics
As with Advanced Placement (AP) Physics 1, White men enrolled at a higher rate, and White women enrolled at a lower rate
Precollege physics is an important context since many women and underrepresented ethnic groups do not persist in physics in post-secondary study; this time period has been identified as the “one significant leak in the physics pipeline” since many young women take physics in high school yet they earn few of bachelor’s degrees in physics [81] (p. 13)
Summary
School have demonstrated higher rates of STEM degree attainment in the U.S [1,2,3] Those who took a rigorous physics course demonstrated higher STEM career interest [4,5]. While there has been an increase in high school physics course taking [6] and physics bachelor’s degree attainment [7] in the U.S in recent years, indicating an increase in physics persistence, there remains inequitable physics access and achievement when considering demographic factors such as ethnicity [8,9,10,11,12,13], gender [8], and socioeconomic status [6,8,14,15]
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