American educators and policymakers have often claimed that the arts can have powerful effects in education and that these effects may reverberate far beyond the arts. Arts education has been argued to have social, motivational, and academic repercussions. But are such claims rooted in empirical evidence, or are they unsupported advocacy? The studies in this issue review systematically what is known about the power of the arts to promote learning in non-arts domains. Thus, we focus here only on the claims that have been made about the effects of arts education on cognitive, academic outcomes
This article aims to discover evidence for the "Mozart Effect"--the observation that listening to music for brief periods temporarily enhances performance on spatial tasks.
Can reading skills be enhanced by instruction in the visual arts? Arts education researchers have sometimes made this claim and have argued that the visual arts can play a strong role in the teaching of basic skills in the kindergarten and elementary school years. There are two possible mechanisms by which visual arts instruction might enhance reading ability, one cognitive, one motivational. The cognitive mechanism would involve transfer of skill. Perhaps visual arts training strengthens visual perception skills that can be deployed in reading.
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Kristin BurgerEllen WinnerUniversity of Illinois
Progress in understanding cognitive developmental change mechanisms requires methods that yield detailed data about particular changes. The microgenetic method is an approach that can yield such data. It involves (a) observations of individual children throughout the period of the change, (b) a high density of observations relative to the rate of change within that period, and (c) intensive trial-by-trial analyses intended to infer the processes that gave rise to the change. This approach can illuminate both qualitative and quantitative aspects of change, indicate the conditions under which
The contemporary approach to art education focuses on content that is derived from a broad range of the visual arts with an emphasis on what can be learned from works of art. This is a significant departure from earlier aesthetic approaches which led to purely formalist criticism in the classroom. Based on the work of Arthur Danto, the author proposes that teachers develop student abilities to go beyond the visual level of artworks and enable them to gain access to the complexity of meanings that works of art possess. To exemplify this practice, an analysis of Adrian Piper's work entitled I
This review takes a critical position with regards to Treagust and Duit’s article, Conceptual Change: A discussion of theoretical methodological and practical challenges for science education. It is proposed that conceptual change research in science education might benefit from borrowing concepts currently being developed in the sociology of emotions. It is further suggested that the study of social interaction within evolving emotional cultures is the most promising avenue for developing and extending theories about conceptual change.
Conceptual change views of teaching and learning processes in science, and also in various other content domains, have played a significant role in research on teaching and learning as well as in instructional design since the late 1970s. An important issue is whether conceptual change can provide a powerful framework for improving instructional practice in such a way that students’ levels of scientific literacy are significantly increased. In this article, the first section provides an overview on the development of conceptual change perspectives. In sections two to six, we examine the
This paper is birthed from my lifelong experiences as student, teacher, administrator, and researcher in urban science classrooms. This includes my years as a minority student in biology, chemistry, and physics classrooms, 10 years as science teacher and high school science department chair, 5-years conducting research on youth experiences in urban science classrooms, and current work in preparing science teachers for teaching in urban schools. These experiences afford me both emic and etic lenses through which to view urban science classrooms and urban youth communities. This paper, both
This report summarizes the results of a three-year ethnographic study, funded by the John D. and Catherine T. MacArthur Foundation, into how young people are living and learning with new media in varied settings—at home, in after school programs, and in online spaces. The authors present empirical data on new media in the lives of American youth in order to reflect upon the relationship between new media and learning.
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University of California, IrvineMizuko ItoBecky Herr-Stephenson
Conventional wisdom about young people's use of digital technology often equates generational identity with technology identity: today's teens seem constantly plugged in to video games, social networks sites, and text messaging. Yet there is little actual research that investigates the intricate dynamics of youth's social and recreational use of digital media. This book fills that gap, reporting on an ambitious three-year ethnographic investigation into how young people are living and learning with new media in varied settings—at home, in after school programs, and in online spaces. By
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University of California, IrvineMizuko Ito
The National Girls Collaborative Project (NGCP) seeks to maximize access to shared resources within projects and with public and private sector organizations and institutions interested in expanding girls’ participation in science, technology, engineering, and mathematics (STEM). Funded primarily by the National Science Foundation, the NGCP is a robust national network of more than 3,000 girl-serving STEM organizations. Currently, 31 Collaboratives, serving 40 states, facilitate collaboration between more than 12,800 organizations who serve more than 7.7 million girls and 4.4 million boys. The NGCP occupies a unique role in the STEM community because it facilitates collaboration with all stakeholders who benefit from increasing diversity and engagement of women in STEM. These stakeholders form Regional Collaboratives, who are connected to local girl-serving STEM programs. Regional Collaboratives are led by leadership teams and advisory boards with representatives from K-12 education, higher education, community-based organizations, professional organizations, and industry. NGCP strengthens the capacity of girl-serving STEM projects by facilitating collaboration among programs and organizations and by sharing promising practice research, program models, and products through webinars, collaboration training, and institutes. This is accomplished through a tested comprehensive program of change that uses collaboration to expand and strengthen STEM-related opportunities for girls and women. In each replication state, the NGCP model creates a network of professionals, researchers, and practitioners, facilitating collaboration within this network, and delivering high-quality research-based professional development. Participating programs can also receive mini-grant funding to develop collaborative STEM-focused projects. To date, over 27,000 participants have been served in 241 mini-grant projects, and over 17,000 practitioners have been served through in-person events and webinars. The NGCP’s collaborative model changes the way practitioners and educators work to advance girls’ participation in STEM. It facilitates the development of practitioners in their knowledge of good gender equitable educational practices, awareness of the role of K-12 education in STEM workforce development, and mutual support of peers locally and across the United States.
The National Federation of the Blind (NFB), with six science centers across the U.S., will develop, implement, and evaluate the National Center for Blind Youth in Science (NCBYS), a three-year full-scale development project to increase informal learning opportunities for blind youth in STEM. Through partnerships and companion research, the NCBYS will lead to greater capacity to engage the blind in informal STEM learning. The NCBYS confronts a critical area of need in STEM education, and a priority for the AISL program: the underrepresentation of people with disabilities in STEM. Educators are often unaware of methods to deliver STEM concepts to blind students, and students do not have the experience with which to advocate for accommodations. Many parents of blind students are ill-equipped to provide support or request accessible STEM adaptations. The NCBYS will expose blind youth to non-visual methods that facilitate their involvement in STEM; introduce science centers to additional non-visual methods that facilitate the involvement of the blind in their exhibits; educate parents as to their students' ability to be independent both inside and outside the STEM classroom; provide preservice teachers of blind students with hands-on experience with blind students in STEM; and conduct research to inform a field that is lacking in published material. The NCBYS will a) conduct six regional, two-day science programs for a total of 180 blind youth, one day taking place at a local science center; b) conduct concurrent onsite parent training sessions; c) incorporate preservice teachers of blind students in hands-on activities; and d) perform separate, week-long, advanced-study residential programs for 60 blind high school juniors and seniors focused on the design process and preparation for post-secondary STEM education. The NCBYS will advance knowledge and understanding in informal settings, particularly as they pertain to the underrepresented disability demographic; but it is also expected that benefits realized from the program will translate to formal arenas. The proposed team represents the varied fields that the project seeks to inform, and holds expertise in blindness education, STEM education, museum education, parent outreach, teacher training, disability research, and project management. The initiative is a unique opportunity for science centers and the disability population to collaborate for mutual benefit, with lasting implications in informal STEM delivery, parent engagement, and teacher training. It is also an innovative approach to inspiring problem-solving skills in blind high school students through the design process. A panel of experts in various STEM fields will inform content development. NCBYS advances the discovery and understanding of STEM learning for blind students by integrating significant research alongside interactive programs. The audience includes students and those responsible for delivering STEM content and educational services to blind students. For students, the program will demonstrate their ability to interface with science center activities. Students will also gain mentoring experience through activities paired with younger blind students. Parents and teachers of blind students, as well as science center personnel, will gain understanding in the experiences of the blind in STEM, and steps to facilitate their complete involvement. Older students will pursue design inquiries into STEM at a more advanced level, processes that would be explored in post-secondary pursuits. By engaging these groups, the NCBYS will build infrastructure in the informal and formal arenas. Society benefits from the inclusion of new scientific minds, resulting in a diverse workforce. The possibility for advanced study and eventual employment for blind students also reduces the possibility that they would be dependent upon society for daily care in the future. The results of the proposed project will be disseminated and published broadly through Web sites; e-mail lists; social media; student-developed e-portfolios of the design program; an audio-described video; and presentations at workshops for STEM educators, teachers of blind students, blind consumer groups, researchers in disability education, and museum personnel.