Research has intimated that engineering design activities can enhance students’ understanding of engineering and technology and can increase their interest in science. Few studies, however, have defined or measured this interest empirically. Dohn examined the effect of an eight-week engineering design competition on 46 sixth-grade students. His findings suggest that design tasks can indeed stimulate interest. He found four main sources of interest: designing inventions, trial-and-error experimentation, making the inventions work, and collaboration.
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 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.
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.
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 provides firm evidence, for formal and informal educators alike, that shared learning can be powerful and meaningful, if carefully considered. Findings from a study conducted in a summer middle school mathematics class suggest that when students are able to ask legitimate, authentic questions and share understanding about a common problem, their learning becomes truly “distributed by design.”
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.
A two stage summative evaluation was conducted following the launch of the Mystic Seaport for Educators website, the final output resulting from the IMLS National Leadership grant entitled Mystic E-Port Digital Classroom project. The results of four focus groups, conducted in two phases, found consistent results suggesting that the project was successful at achieving all four goals as outlined in the original grant proposal. Appendix includes focus group protocol.
Through a critical ethnography, Birmingham and Calabrese Barton examined why and how a group of six middle school girls took civic action, defined as “educated action in science,” after studying green energy in an afterschool science program. The paper follows the students’ process in planning and implementing a carnival to engage their community in energy conservation and efficiency issues.
Dabney and colleagues examine the relationship between university students’ reported interest in STEM careers and their participation in out-of-school time science activities during middle and high school. The researchers examined the specific forms of OST science activities associated with STEM career interest and the correlations among those forms.
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.