Developing Students’ Futures Thinking in Science Education

Futures thinking involves a structured exploration into how society and its physical and cultural environment could be shaped in the future. In science education, an exploration of socio-scientific issues offers significant scope for including such futures thinking. Arguments for doing so include increasing student engagement, developing students?? values discourse, fostering students?? analytical and critical thinking skills, and empowering individuals and communities to envisage, value, and work towards alternative futures. This paper develops a conceptual framework to support teachers?? planning and students?? futures thinking in the context of socio-scientific issues. The key components of the framework include understanding the current situation, analysing relevant trends, identifying drivers, exploring possible and probable futures, and selecting preferable futures. Each component is explored at a personal, local, national, and global level. The framework was implemented and evaluated in three classrooms across Years 4?C12 (8 to 16-year olds) and findings suggest it has the potential to support teachers in designing engaging science programmes in which futures thinking skills can be developed.     

Learning to Read in the Digital Age

ABSTRACT—The digital age offers transformative opportunities for individualization of learning. First, modern imaging technologies have changed our understanding of learning and the sources and ranges of its diversity. Second, digital technologies make it possible to design learning environments that are responsive to individual differences. We draw on CAST's research and development on universal design for learning to suggest the potential of digital reading environments that are designed to support learning and engagement by addressing the diversity in learners' representation, strategic and affective networks. Optimal customization depends on continued advances in the digital tools of the neurosciences and the design and enactment of digital learning environments.     

Beyond Motivation: Exploring Mathematical Modeling as A Context for Deepening Students' Understandings of Curricular Mathematics

Views of mathematical modeling in empirical, expository, and curricular references typically capture a relationship between real-world phenomena and mathematical ideas from the perspective that competence in mathematical modeling is a clear goal of the mathematics curriculum. However, we work within a curricular context in which mathematical modeling is treated more as a venue for learning other mathematics than as an instructional goal in its own right. From this perspective, we are compelled to ask how learning of mathematics beyond modeling may occur as students generate and validate mathematical models. We consider a diagrammatic model of mathematical modeling as a process that allows us to identify how mathematical understandings may develop or surface while learners engage in modeling tasks. Through examples from prospective teachers' mathematical modeling work, we illustrate how our diagrammatic model serves as a tool to unpack the intricacies of students’ mathematical experience while engaging in modeling tasks.     

College student epistemological perspectives across knowledge domains: A proposed grounded theory

Scholars have studied epistemologicaldevelopment – or how one understands knowledgeand knowing – of college students for manyyears. Research in this domain has includedbenchmarking studies of epistemologicaldevelopment, examinations of how curricularinnovations impact epistemology, and somestudies of differences in epistemologicaldevelopment based on disciplinary areas. Thelatter group of studies has generally focusedon differences in epistemological beliefs forstudents who are studying in two differentdomains (e.g., nursing students versus physicsstudents). In this study, we qualitativelyinvestigate whether the epistemologicalperspectives of 60 science/engineering collegestudents differs across the disciplinary areasof the sciences and the humanities. Our resultsindicate that such differences do exist andinclude a proposed grounded theory thatdescribes how students' epistemologies may varyacross knowledge domains.     

Improving Opportunities for Bridging Social Capital: The Story of a Full-Service Community School Initiative at an Alternative High School

Abstract

This article describes the collective efforts educators and multiple community partners are taking to transform one alternative urban high school into a full-service community school. The article presents preliminary findings on the opportunities for bridging social capital that the full-service initiative has created and the impacts such opportunities have for students in urban alternative settings with multiple risk factors stacked against them.     

Leaving the Lecture Behind: Putting PubMed Instruction into the Hands of the Students

This column describes the development of a one-shot PubMed instruction class for medical students at a health sciences library. Background information on the objective is presented and discussed in the context of educational practice literature. The new course design centers on a guided group method of instruction in order to integrate more active learning. Surveyed students reported that the method was an effective way to learn how to search PubMed and that they preferred it to a traditional lecture. Pros and cons of the method are offered for other health sciences libraries interested in presenting PubMed instruction in a similar manner.