Early in childhood, children already have an awareness of prescriptive stereotypes—or beliefs about what a girl or boy should do (e.g., “girls should play with dolls”). In the present work, we investigate the relation between children’s own prescriptive gender stereotypes and their perceptions of others’ prescriptive gender stereotypes within three groups of children previously shown to differ in their prescriptive stereotyping—6- to 11-year-old transgender children ( N = 93), cisgender siblings of transgender children ( N = 55), and cisgender controls ( N = 93). Cisgender and transgender children did not differ in their prescriptive stereotypes or their perceptions of others’ prescriptive stereotypes, though the relationship between these variables differed by group. The more cisgender control children believed others held prescriptive stereotypes, the more they held those stereotypes, a relation that did not exist for transgender children. Further, all groups perceived the stereotypes of others to be more biased than their own stereotypes.
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Gender Stereotypes Influence Children’s STEM Motivation
Children’s memberships in social groups have profound effects on their motivation. Stereotypes about social groups shape children’s beliefs about what is expected for their group members. These beliefs can influence children’s developing beliefs about themselves (self‐perceptions). In this article, I review research on how gender stereotypes influence children’s motivation in science, technology, engineering, and math (STEM), including ability beliefs and sense of belonging. When children belong to a gender group that is negatively stereotyped in a STEM field, they may doubt their own capabilities and whether they belong in that field, making it harder for them to develop interest over time. Developmentally, the influence of gender stereotypes on motivation begins during preschool and strengthens during late childhood. I also address the consequences of different kinds of stereotypes and why some children are more influenced by stereotypes than others. Understanding this process in childhood will help researchers design effective interventions to remedy educational inequities in STEM.
more » « less- Award ID(s):
- 1849902
- NSF-PAR ID:
- 10389947
- Publisher / Repository:
- Wiley-Blackwell
- Date Published:
- Journal Name:
- Child Development Perspectives
- Volume:
- 15
- Issue:
- 3
- ISSN:
- 1750-8592
- Page Range / eLocation ID:
- p. 203-210
- Format(s):
- Medium: X
- Sponsoring Org:
- National Science Foundation
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Abstract Gender stereotypes are harmful for girls’ enrollment and performance in science and mathematics. So far, less is known about children’s and adolescents’ stereotypes regarding technology and engineering. In the current study, participants’ (
N = 1,206, girlsn = 623; 5–17-years-old,M = 8.63,SD = 2.81) gender stereotypes for each of the STEM (science, technology, engineering, and mathematics) domains were assessed along with the relation between these stereotypes and a peer selection task in a STEM context. Participants reported beliefs that boys are usually more skilled than are girls in the domains of engineering and technology; however, participants did not report gender differences in ability/performance in science and mathematics. Responses to the stereotype measures in favor of one’s in-group were greater for younger participants than older participants for both boys and girls. Perceptions that boys are usually better than girls at science were related to a greater likelihood of selecting a boy for help with a science question. These findings document the importance of domain specificity, even within STEM, in attempts to measure and challenge gender stereotypes in childhood and adolescence. -
null (Ed.)Many people believe in equality of opportunity but overlook and minimize the structural factors that shape social inequalities in the United States and around the world, such as systematic exclusion (e.g., educational, occupational) based on group membership (e.g., gender, race, socioeconomic status). As a result, social inequalities persist and place marginalized social groups at elevated risk for negative emotional, learning, and health outcomes. Where do the beliefs and behaviors that underlie social inequalities originate? Recent evidence from developmental science indicates that an awareness of social inequalities begins in childhood and that children seek to explain the underlying causes of the disparities that they observe and experience. Moreover, children and adolescents show early capacities for understanding and rectifying inequalities when regulating access to resources in peer contexts. Drawing on a social reasoning developmental framework, we synthesize what is currently known about children’s and adolescents’ awareness, beliefs, and behavior concerning social inequalities and highlight promising avenues by which developmental science can help reduce harmful assumptions and foster a more just society.more » « less
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null (Ed.)Children’s math self-concepts—their beliefs about themselves and math—are important for teachers, parents, and students, because they are linked to academic motivation, choices, and outcomes. There have been several attempts at improving math achievement based on the training of math skills. Here we took a complementary approach and conducted an intervention study to boost children’s math self-concepts. Our primary objective was to assess the feasibility of whether a novel multicomponent intervention—one that combines explicit and implicit approaches to help children form more positive beliefs linking themselves and math—can be administered in an authentic school setting. The intervention was conducted in Spain, a country in which math achievement is below the average of other OECD countries. We tested third grade students ( N = 180; M age = 8.79 years; 96 girls), using treatment and comparison groups and pre- and posttest assessments. A novelty of this study is that we used both implicit and explicit measures of children’s math self-concepts. For a subsample of students, we also obtained an assessment of year-end math achievement. Math self-concepts in the treatment and comparison groups did not significantly differ at pretest. Students in the treatment group demonstrated a significant increase in math self-concepts from pretest to posttest; students in the comparison group did not. In the treatment group, implicit math self-concepts at posttest were associated with higher year-end math achievement, assessed approximately 3 months after the completion of the intervention. Taken together, the results suggest that math self-concepts are malleable and that social–cognitive interventions can boost children’s beliefs about themselves and math. Based on the favorable results of this feasibility study, it is appropriate to formally test this novel multicomponent approach for improving math self-concepts using randomized controlled trial (RCT) design.more » « less
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Abstract Computational thinking (CT) is an important twenty-first century skill that begins developing early. Recent interest in incorporating early CT experiences in early childhood education (i.e., preschool) has increased. In fact, the early years mark an important time during which initial competencies are acquired, interest and motivation begins to form, and in which children may develop a sense of belonging in STEM fields. As a result, providing children with access to robotics and computer science experiences to support CT that are also developmentally appropriate and culturally relevant is key. This paper uses the “powerful ideas” of computer science, seven developmentally appropriate CT concepts that children can learn, as a framework and explores the experiences of two (composite) teachers who participated in and co-developed a culturally relevant robotics program and the processes they undertake to support children’s CT development and learning. This paper considers practices that support the seven key powerful ideals while leveraging existing instructional routines and contexts that are already occurring in most classrooms, such as centers, small group activities, classroom environments, and read-alouds. Of note, this paper prioritizes approaches that acknowledge, center, and feature the ethnic, cultural, and linguistic backgrounds of young children and their families. Identifying affordable and accessible practices, this paper provides educators with tangible, integrated, and authentic practices to support children’s computational thinking, STEM learning, and sense of belonging.
