Some 400 years after Galileo, modern telescopes have enabled humanity to "see" what the natural eye cannot. Astronomical images today contain information about incredibly large objects located across vast distances and reveal information found in "invisible" radiation ranging from radio waves to X-rays. The current generation of telescopes has created an explosion of images available for the public to explore. This has, importantly, coincided with the maturation of the Internet. Every major telescope has a web site, often with an extensive gallery of images. New and free downloadable tools
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TEAM MEMBERS:
Lisa SmithJeffrey SmithKimberly ArcandRandall SmithJay BookbinderKelly Keach
"From Earth to the Universe" (FETTU) is a collection of astronomical images that showcase some of the most popular, current views of our Universe. The images, representing the wide variety of astronomical objects known to exist, have so far been exhibited in about 500 locations throughout the world as part of the International Year of Astronomy. In the United States, over 40 FETTU exhibits have occurred in 25 states in such locations as libraries, airports, nature centers, parks and college campuses. Based on preliminary evaluations currently underway, this project – a large-scale, worldwide
Learning to see inequity in science is critical to anyone who is actively encouraging young people to invest their education, career, and life in the discipline. If the culture of science is grossly inequitable, why should students take the risk of entering this discipline over careers in other arenas? Many scholarly publications from the fields of psychology, science education, and sociology have described inequities in science; proposed theoretical frameworks for understanding them; and explored practical strategies for addressing such inequities, but progress in jettisoning these inequities
This study follows an ethnically and economically diverse sample of 33 high school students to explore why some who were once very interested in science, engineering, or medicine (SEM) majors or careers decided to leave the pipeline in high school while others persisted. Through longitudinal interviews and surveys, students shared narratives about their developing science identities, SEM participation and aspirations. In analysis, three groups emerged (High Achieving Persisters, Low Achieving Persisters, and Lost Potentials), each experiencing different interactions and experiences within
This study explored the influence of a Saturday Science program that used explicit reflective instruction through contextualized and decontextualized guided and authentic inquiry on K‐2 students’ views of nature of science (NOS). The six‐week program ran for 2.5 hours weekly and emphasized NOS in a variety of science content areas, culminating in an authentic inquiry designed and carried out by the K‐2 students. The Views of Nature of Science Form D was used to interview K‐2 students pre‐ and post‐instruction. Copies of student work were retained for content analysis. Videotapes made of each
A recognised aim of science education is to promote critical engagement with science in the media. Evidence would suggest that this is challenging for both teachers and pupils and that science education does not yet adequately prepare young people for this task. Furthermore, in the absence of clear guidance as to what this means and how this may be achieved it is difficult for teachers to develop approaches and resources that address the matter and that systematically promote such critical engagement within their teaching programmes. Twenty-six individuals with recognised expertise or interest
Elementary school children are capable of reproducing sophisticated science process skills such as observing, designing experiments, collecting data, and evaluating evidence. An understanding of the nature of scientific knowledge requires more than teaching and learning the performance of these skills. It also requires an appreciation of how these actions lead to knowledge generation and shape its durable and tentative nature. Our understanding of activities that support the teaching and learning of the nature of scientific knowledge is still growing. This study compares how scientific
In this article, we explore the Programme for International Student Assessment (PISA) with a lens informed by the socioscientific issues (SSI) movement. We consider the PISA definition of scientific literacy and how it is situated with respect to broader discussions of the aims of science education. We also present an overview of the SSI framework that has emerged in the science education community as a guide for research and practice. We then use this framework to support analysis of the PISA approach to assessment. The PISA and SSI approaches are seemingly well aligned when considering
In this article we examine educational assessment in the 21st century. Digital learning environments emphasize learning in action. In such environments, assessments need to focus on performance in context rather than on tests of abstracted and isolated skills and knowledge. Digital learning environments also provide the potential to assess performance in context, because digital tools make it possible to record rich streams of data about learning in progress. But what assessment methods will use this data to measure mastery of complex problem solving -- the kind of thinking in action that
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TEAM MEMBERS:
David Williamson ShafferDavid HatfieldGina Navoa SvarovskyPadraig NashAran NultyElizabeth BagleyKen FrankAndre RuppRobert Mislevy
New technologies, such as multi-touch tables, increasingly provide shareable interfaces where multiple people can simultaneously interact, enabling co-located groups to collaborate more flexibly than using single personal computers. Soon, these technologies will make their way into the classroom. However, little is known about what kinds of learning activities they will effectively support that other technologies, such as mobile devices, whiteboards, and personal computers, are currently unable to do. We suggest that one of the most promising uses of shareable interfaces is to support learning
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TEAM MEMBERS:
Jochen RickYvonne RogersCaroline HaigNicola Yuill
This article draws from the literature on self-determination and Universal Design for Learning principles to set forth the theory that students identified as having learning disabilities may be environmentally disadvantaged and their learning difficulties exasperated by the traditional classroom learning environment. Alternatively, the digital learning environment found in simulation video games is designed so participants can be autonomous, self-directed, goal-oriented and successful. These are, coincidentally, the salient features of a technology-enhanced learning environment designed with
Evidence for the present study derives from a sample of 574 middle-grades students that participated in the River City Project (RCP) in academic year 2006-07. Central to the RCP is an open-ended video-game-like learning innovation for teaching inquiry-based science and twenty-first century skills. Results of investigation into the students' neomillennial learning styles revealed that, on average, students who (1) prefer creating and sharing artifacts through the Internet are well-suited for learning about disease transmission and scientific problem solving skills in the RCP; and (2) students