Current science education policy advocates for engaging students in scientific practices of inquiry as the best way for students to learn science. McConney et al.’s analysis of PISA data unexpectedly found a negative correlation between frequency of inquiry-based instruction and high levels of student scientific literacy. The analysis confirmed a positive correlation between frequency of inquiry-based instruction and high levels of interest and of engagement in science.
Formal readings and lectures are effective at delivering explanations, but the information they impart can be so densely packed and de-contextualized that students may not make full sense of the content. Arena and Schwartz found that video games have the potential to unlock the expository content delivered by lectures, textbooks, and diagrams.
Calabrese Barton, Tan, and Rivet provide valuable insights on supporting girls (and young people generally) as they negotiate the practices of formal science learning, establish learning identities, and engage with science. Analysis of rich ethnographic data shows how middle school girls created hybrid spaces between school and home that enabled them to draw on funds of knowledge in order to participate fully in school science.
As infographics and other visual forms of data become increasingly common, many educators wonder how to best integrate them into learning activities. Polman and Gebre interviewed 10 experts in science representation to understand common practices they used for selecting and interpreting infographics. The authors build on study results to generate guidelines for educators' use of infographics.
Polman, Newman, Saul, and Farrar reflect on six years of work with a science journalism program for teens that fosters a version of science literacy centered on developing fluency in the application and use of science in personal life.
Researchers examined how conducting an authentic science investigation in a bilingual classroom and weaving in discussions about the nature and culture of science affected students. They found that this process supported students’ growth in understanding of the scientific enterprise and made the culture of science more approachable.
For almost two decades, strict accountability measures have been in place across the country. In this literature review, Anderson investigated the effect of accountability on K–12 science instruction. He found that curricula have narrowed, less time is being dedicated to science, teacher morale is lower, and expectations for some student groups have increased.
The Next Generation Science Standards (NGSS) represent a dramatic shift in expectations for K–12 science education, particularly in its inclusion of engineering design. To understand the shifts that schools may need to make, Moore, Tank, Glancy, and Kersten examine the ways in which state K–12 science standards, prior to the adoption of NGSS, included engineering.
How can technology be used to support inquiry in the classroom? In this study, Rehmat and Bailey probe the effects of a science methods course for preservice elementary teachers that explicitly includes technology integration. The preservice teachers in this course broadened their definition of classroom technology, increased their technology use, and gained a more positive outlook on technology integration.
Long aware that people from working-class, low-income, and ethnic minority backgrounds do not visit, informal science education institutions often attribute lack of visitorship to cost or barriers to access. Dawson argues that such institutions are not inclusive due to social factors that reinforce the experience of difference, discomfort, and inaccessibility for these minority groups.
Cannady, Greenwald, and Harris call into question the accuracy of the STEM pipeline metaphor. They argue that a decade of pipeline-related policy prescriptions has not significantly affected the numbers or demographics of the STEM workforce. The authors found that almost half of STEM workers did not follow the traditional pipeline to a STEM career.
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.