This study examines how youth navigate socioscientific issues through the case studies of two students in an afterschool program. The study explores how the students’ thinking changed during the program and what influenced the students’ final stance on whether or not to build a new hybrid power plant in their community.
This 2006 paper reviews the ways in which structured informal learning programs for youth have been characterized in the research literature. The paper synthesizes opportunities for and challenges to research in this domain; it categorizes programs and gives concrete examples of various program types. A proposed Vygotskian research framework is organized around key dimensions of the informal learning context, including location, relationships, content, pedagogy, and assessment.
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.
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.
At first glance, public knowledge of climate science appears encouraging. When prompted, most people can correctly identify some of the contributors to climate change. But they are much less likely to do so when they are not shown a checklist of possible causes. This study examined public understanding of two commonly used terms: “global warming” and “climate change.” The findings have important implications for informal science educators seeking to develop effective programmes and exhibitions on climate science.
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.
This study examines the effectiveness of a teacher professional development program that sought to address the integration of Native American students’ cultures with classroom science teaching. Informal science education practitioners interested in reaching non-dominant populations can use this study as evidence that professional development focusing on cultural points of intersection has a positive effect.
The findings of this study suggest that pre-service teachers do not adequately understand key concepts in climate science. They see the greenhouse effect as a problem, not as a natural phenomenon. By contrast, they inaccurately see chlorofluorocarbons as key contributors to global warming. The practical implication is that training programmes for teachers—and indeed for other learners—need to explain key terms more effectively. These programmes must also emphasize the links among causes, consequences, and solutions.
This study focused on girls’ engagement with science and how they negotiate identities with and in opposition to science in a three-year study of community-based afterschool initiatives. Rahm conducted a multi-sited ethnography, observing girls’ whose families had recently immigrated to Montreal, Canada and were participating in a community organization creating science newsletters and science fair projects.
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.
How does a past learning experience get integrated into a present moment? How does a memory make individuals feel about what they are learning now—and then remember it? The influence of a past event or memory can significantly affect the learning going on in a present moment. In this paper presenting a theory of transfer, Nemirovsky argues that past emotions, past physical movements, and cognitive memories—which he calls collectively "episodic feelings"—are evoked in a present moment and contribute to an individual’s learning.