Recent decades have seen an increasing emphasis on linking the content and aims of science teaching to what the average citizen requires in order to participate effectively in contemporary society, one that is heavily dependent on science and technology. However, despite attempts to define what a scientific education for citizenship should ideally involve, a comprehensive set of key aspects has yet to be clearly established. With this in mind, the present study sought to determine empirically the extent of any consensus in Spain regarding the principal aspects of scientific competence that
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TEAM MEMBERS:
Angel Blanco-LopezEnrique Espana-RamosFrancisco Jose Gonzalez-GarciaAntonio Joaquin Franco-Mariscal
"Strengthening Networks, Sparking Change: Museums and Libraries as Community Catalysts" combines findings from a literature scan and input from the library, museum and community revitalization fields with case studies about the experiences and vision of museums and libraries working to spur change in their communities. It describes the complementary conceptual frameworks of social wellbeing and collective impact and explains how libraries and museums can use these concepts to partner with community-based organizations, government agencies and other cultural or educational organizations. It
As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program supports new approaches to, and evidence-based understanding of, the design and development of STEM learning in informal environments. This project will meet this goal through rigorous research and the broad implementation of an environmental science literacy professional development and learning program for informal educators and youth engaged in outdoor science programs (OSP). With growing support from the literature and the Next Generation Science Standards (NGSS), much attention has been placed on creating and leveraging interdisciplinary science learning opportunities beyond science classrooms. As such, an estimated 300 residential OSPs currently exist in the United States. Unfortunately, the informal educators often charged with facilitating these deep and impactful science learning experiences often lack robust formal training in evidenced-based, age-appropriate environmental science content knowledge and pedagogy specific for the youth in their programs. This issue is often more pronounced in under-resourced and under-served programs and communities. This project will directly address these pervasive challenges in the field by not only providing much needed science focused professional development and resources to informal educators but also by specifically targeting and training informal leaders and educators serving youth in predominately rural areas, low-income communities, and underrepresented communities.
Approximately 200 OSP leaders at 100 OSPs around the country will participate in a week-long, intensive training in the professional development model at one of five regional residential leadership institutes. OSP leaders will then redeliver the training to the approximately 1,500 OSP educators/field instructors in their home institutions. The OSP educators/field instructors will then use what they learn through the professional development to facilitate the environmental science learning program (i.e., curriculum, field experiences, resources, pedagogy) to over 1 million youth (grades 3-8) enrolled in their residential outdoor science programs. In addition, a rigorous implementation study, efficacy study and evaluation will be conducted. The implementation study will investigate: (a) Which of the professional learning model practices were implemented and (b) What successes and challenges the programs faced implementing the model. The mixed methods efficacy study will explore: (a) if outdoor science programs contribute to the development of science learning activation and environmental literacy? and (b) what are the features of these experiences that are correlated with increases in science learning activation and environmental literacy. Approximately 25-35 youth will be randomly selected from each of 50 randomly selected sites to participate in the efficacy study. The data and findings from the research and evaluation produced by this project will contribute to a relatively sparse knowledge and research base specific to youth efficacy and implementation processes and practices across nearly 1/3 of the estimated 300 existing residential outdoor science programs in the United States.
This project is funded by the Advancing Informal STEM Learning program, which seeks to advance new approaches to, and evidence-based understandings of, the design and development of Science, Technology, Engineering, and Mathematics (STEM) learning in informal environments. Roughly one million refugees resettled in the United States in the past decade, many of whom are school-aged youth. During secondary school, resettled refugee youth are often still developing English language literacy and STEM skills needed for successful postsecondary experiences in the United States. At the same time, these youth bring rich cultural and linguistic resources that they can use as an asset as they grow their STEM skill sets, prepare for future success, and make positive impacts on U.S. society. To promote these assets and engage youth in developing STEM literacy, this after-school program engages these youth in critical STEM literacy development. The project focuses on STEM learning, specifically the relationship between human life and climate, as well as developing youths' STEM identities and agency.
The project will develop and implement a community-based afterschool program that provides resettled Burmese refugee youth with STEM learning experiences. By drawing upon youths' experiences, the program will engage youth in learning about climate science and developing digital stories to communicate with broader audiences. To do so, the team will implement a program that builds on principles of responsive teaching, funds of knowledge, and English literacy development in authentic meaning-making contexts. The project will examine how youth expand their STEM knowledge, develop STEM identities and agency, and develop their expertise in communicating about STEM within and beyond their participation in the after-school program. The research team will explore existing and innovative data collection and analysis methods by drawing on principles of ethnography, video ethnography, mediated discourse analysis, and phenomenological and ethnomethodological analysis of interviews. These analyses will document learning over time in informal STEM learning settings. As there is very little prior research on STEM learning in this population, this project will generate knowledge about how to support STEM sense-making and critical STEM literacy. Furthermore, by testing the designed curriculum and building a partnership with a local community organization, the project will build capacity for broadening participation in informal STEM learning practices.
In contrast to past consensus, many authors now feel that the passive voice compromises the quality of scientific writing. However, studies involving scientific articles are rare. Using a corpus of 60 scientific research articles from six journals, this study examined the proportion of passives used, and the contexts and forms in which they occurred. The results revealed that about 30% of all clauses were passive clauses. The canonical form was most pervasive, followed by the bare passive; together, they constituted more than a quarter of all clauses analyzed. Passives were typically used in
Comics are a popular art form especially among children and as such provide a potential medium for science education and communication. In an attempt to present science comics in a museum exhibit I found many science themed comics and graphic books. Here I attempt to provide an overview of already available comics that communicate science, the genre of ‘science comics’. I also provide a quick literature review for evidence that comics can indeed be efficiently used for promoting scientific literacy via education and communication. I address the issue of lack of studies about science comics and
In this article, we invite you to expand your vision of what it means to work at the intersections of formal and informal science and literacy education by describing how educators have collaborated to create programs that blend science and literacy in schools, in museums, and across these two spaces. In 2012, K–12 teachers from the National Writing Project (NWP) began working with the Association of Science-Technology Centers (ASTC) and science museum educators in the National Science Foundation–funded Intersections project, which is being evaluated by Inverness Research. NWP is a network
We inhabit an age in which economic progress in the European Union is equalized to more European research and better communication of that European research to the public. In highly developed Western democracies this implies an important role for the public as well as the mass media, both actors in a transforming public sphere. Beyond a call for more communication and more scientific literacy, the discourse has shifted to a call for more engagement and more participation on behalf of the citizen. There is a widespread sentiment however that the discipline of science communication is at a
Science and technology: these are the mainstays China wants to concentrate on in order to stabilise its future as an emerging world power. Beijing plans to have the whole, enormous Chinese population literate in the scientific field within a few years. Scientific popularization is the key to what now, due to political influences and deep social disparities, seems remote.
Nowadays, India is experiencing a widespread diffusion of science communication activities. Public institutions, non-governmental organisations and a number of associations are busy spreading scientific knowledge not only via traditional media but also through specific forms of interaction with a varied public. This report aims to provide a historical overview of the diffusion of science communication in India, illustrating its current development and its future prospects.
If there is a peculiarity in the way of doing science and in the way of communicating science in Brazil, it is in the use of the idea of "deficit" in political and economic discourses, as well as in the discourses of socio-technical networks. Our proposal here is not to affirm or reject the existence of this deficit, but rather to understand its workings and its construction as a way of bringing about networks of interest that make use of this idea. For us, this is not an idea which is restricted to the discourse of researchers or of journalists and scientific broadcasters; there is also an
Halliday has demonstrated that changes in discourse function covary with changes in the grammatical resources a language makes available to construe discourse. Specifically, he outlined the ways in which nominalisation evolved as a resource for construing scientific reality as a world of logical relations among abstract entities. In the present article, Halliday’s theory of the scientific text as process will be outlined. The founding principle of this theory, how grammatical metaphor has introduced changes in scientific English, will be illustrated through analysis of selected lexical items