This paper focuses on the ways students can construct scientific explanations and arguments as part of scientific inquiry. Berland and Reiser synthesize understandings from philosophy, science, and logic in order to interpret students’ arguments during a unit on invasive species in the Great Lakes.
Students with special educational needs score significantly below their peers across several measures of science achievement. However, educational approaches that provide appropriate scaffolding and support, such as the inquiry-based science writing heuristic described in this paper, can benefit special educational needs students and ensure an equitable experience for all.
This study helps us understand how children and adolescents perceive science and scientists, and it suggests some factors that influence those images. Researchers collected drawings from Catalan students ages 6 to 17 and analyzed them using the Draw-A-Scientist Test (Chambers, 1983). Findings show that, in general, Catalan students, and particularly boys over 12, retained classic stereotypes of scientists.
Researchers asked 5,000 Norwegian college-level students of STEM about the sources of inspiration for their educational choices. The most influential people were teachers and parents—the people who knew the young people best. The findings suggest that the most effective STEM role models are individuals who have a personal connection with the young person making education and career choices.
In this paper, Anderman and colleagues examine the skills adolescents need in order to learn science effectively. They note that many negative experiences associated with science learning could be avoided if educators were more aware of the abilities of adolescents and the types of environments that foster particular abilities. They offer seven recommendations to practitioners.
In this comparative case study, Enright explores whether the very act of labeling students contributes to continued differences in educational opportunity for students labeled “mainstream” and “non-mainstream.”
When engaging in inquiry, learners find it difficult to control variables, design appropriate experiments, and maintain continuity across inquiry sessions. To support learners, researchers developed an inquiry task that promoted record keeping. The aim was to highlight the role that record keeping can play in metacognition and, ultimately, in successful inquiry.
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.
Some say that if we could dismantle negative stereotypes of scientists, minority students would be more likely to consider careers in STEM. But precisely what views do minority students hold? In this study, researchers examined the perceptions of 133 Native American students by analysing students’ drawings of scientists and their accompanying written explanations.
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 presents a case study of two currently high-achieving 13-year-old British Asian schoolgirls: One appears keen to pursue advanced science learning, whilst the other seems more likely to reject such a path. Wong’s discussion offers insight into how young people develop an identity with science—or not. His analysis adds to the literature on why students rapidly lose interest in science on reaching adolescence and secondary school.
This study examined the ways in which teachers’ beliefs influence their practice when taking students to visit a science and technology museum. The researchers interviewed 14 primary and secondary school teachers before and after their museum visit, which was also observed. They found a clear relationship between teachers’ beliefs about the value of informal, museum-based learning and their goals and actions before, during, and after the visit.