Gender achievement gaps in education, particularly in the science, technology, engineering, and mathematics (STEM) domain continue to persist. On the 2015 NAEP, male students continue to significantly outperform female students in science in Grades 8 and 12, and on the 2017 NAEP, male students outperformed female students in mathematics at Grades 4 and 8. In addition, a recent study by Reardon and colleagues supported by IES found that the gender achievement gap favoring male students in mathematics was related to local socioeconomic conditions, with the gap being more prevalent in more socioeconomically advantaged school districts.
Although we know that the gender achievement gap is pervasive, particularly in STEM, what can we do to help close the gap? Previously, IES released a Practice Guide on Encouraging Girls in Math and Science that included evidence-based recommendations for how practitioners can better support and encourage girls to pursue math- and science-related fields. Adding to this research base, three new FY 2018 IES grants funded under the Education Research Grants program will explore potential causes and correlates of gender differences in achievement that can provide new insights and approaches to closing the gender achievement gap in STEM. Here is a brief summary of these studies along with their potential contributions to research, practice, and policy.
Gender Stereotypes in STEM – Although many factors influence the gender gap in STEM, research points to gender difference in students' interest and motivation in STEM as a major contributor to later disparities in STEM majors and careers. Allison Master and colleagues will explore how and when gender stereotypes about academic fields emerge, the relationship between stereotypes and motivation in STEM fields, and whether teaching a growth mindset (i.e., the belief that intelligence is malleable) can change stereotypes and improve students' sense of belonging, self-efficacy, interest, and outcomes in STEM in grades 2 to 8. The results from this study will be used to inform the development of future interventions to reduce the impact of STEM-gender stereotypes.
The Relation of Gender-Integrated Classroom Climate to Students' Academic Outcomes - Because boys and girls are typically taught together in classrooms, there is the assumption that boys and girls are cooperative and integrated in their classroom activities, yet evidence suggests this may not be the case. Some classroom climates facilitate gender integration, while other classroom climates may perpetuate gender segregation where students tend to only work with classmates of the same gender. Carol Lynn Martin and colleagues will examine how gender integration relates to 4th to 6th grade students' school-related engagement and academic perceptions and achievement. The results from this study will provide preliminary evidence of potentially promising practices for gender integration in classrooms that can help girls feel more comfortable working with boys and may encourage persistence in STEM.
Underrepresented Student Learning in Online Introductory STEM College Courses – Online instruction has the potential to make course content more accessible to a larger number of students, thereby strengthening the STEM pipeline. Michelle Perry and colleagues will explore the interaction among various characteristics of online instruction and postsecondary students' persistence in STEM courses. In particular, the researchers will explores how students traditionally underrepresented in STEM (e.g., women, first-generation students, minorities) benefit from or are impeded by online course features (e.g., course videos, discussion boards). The results from this study will provide a theory of postsecondary online STEM instruction that could strengthen persistence in STEM among women and others traditionally underrepresented in STEM.
Written by Christina Chhin, Education Research Analyst, National Center for Education Research