This study examined the validity of the Draw-A-Scientist Test (DAST), which is commonly used to capture students’ perceptions of scientists. Findings suggest that the DAST is not valid as a sole measurement. The originally identified stereotypical traits are no longer widely held by students.
To support learning across settings, educators need to develop ways to elicit student interests and prior experiences. McClain and Zimmerman describe how, during outdoor walks at a nature center, families talked about prior experiences with nature, which were mostly from non-school settings. They used the prior experiences to remind, prompt, explain to, and orient one another during shared meaning-making activity.
Current science education reforms emphasize the ways in which students’ scientific practices, such as experimenting, collecting data, and interpreting results, develop over time. Bricker and Bell suggest that practices develop not only over time, but also across multiple settings and opportunities. Their study shows how, over several years, one youth’s identification with science was shaped by many everyday moments, social configurations, and collaborators.
Dancu, Gutwill, and Hido describe a process for designing science museum exhibits to create playful learning experiences. They outline five characteristics of play: It is structured by constraints, active without being stressful, focused on process not outcome, self-directed, and imaginative. For each characteristic, they offer an example of iterative design using formative evaluation.
Bang, Warren, Rosebery, and Medin explore empirical work with students from non-dominant communities to support teaching science as a practice of inquiry and understanding, not as a “settled” set of ideas and skills to learn.
This paper’s findings illustrate the claim that young people’s prior knowledge cannot be separated from the cultural context in which it is situated. Using examples from a longitudinal ethnographic study of 13 children, the authors Bricker and Reeve argue that, in order to understand young people’s thinking and practice, we need to understand the social and cultural systems in which their thinking is embedded.
This article makes a case for providing multiple types of hands-on resources to support learner inquiry. More specifically, a computer simulation of an electric circuit complemented work with a real circuit to support learners’ conceptual development. When learners had the opportunity to use both simulated and real circuits, less structured guidance seemed to benefit the inquiry process.
To create more equitable learning opportunities for students from marginalized communities, educators can design learning experiences that help young people connect their everyday interests and knowledge to academic content. Nasir et al. synthesized research on how students use sophisticated math in everyday practices like discussing basketball, playing dominoes, and selling candy. Then they explain how learning improves when varied student experiences are made relevant in informal and formal learning environments.
This paper explores how science-aspiring girls balance their aspirations and achievement with societal expectations of femininity. In-depth interviews revealed two models that the girls tended to follow, termed feminine scientist or bluestocking scientist, and the precarious nature of both of these identities. Archer et al. suggest ways that practitioners can better support girls in their balancing acts.
This article describes how two inquiry games promoted student science skills in a museum setting while minimizing demands on teachers, fostering collaboration, and incorporating chaperones. Students who played these games engaged in more scientific inquiry behaviors than did students in control groups.
What is the relationship between experiences in informal settings and students’ understanding of and attitudes toward science? By analysing existing data sets, Suter finds that science museum attendance has an effect—albeit a small one—on student achievement.
This Barron and Bell article provides a foundational overview for how “cross-setting learning” can equitably engage all youth across formal and informal educational contexts. The paper offers: 1) a review of research; 2) descriptions of supports and challenges to cross-setting learning, including learner interest and identity; and 3) suggestions for research and assessments that capture learning for underrepresented youth.