To observe art and science in interaction offered a great opportunity for me as cultural anthropologist to learn about the production of climate knowledge. Like ethnographers, artists entered the world of science, observed climate scientists and participated in their daily routines. They dissected elements of the scientific process and focused on science as a social practice. For scientists and artists, a process of “self-identification via the other” [Kramer, 1993] was set into motion. The artwork reflects this process by “mimicking” scientific procedures and by linking human sentiment and
“I hope to offer a unique artistic perspective on a topic which is hidden from our everyday view” States my application. Will I be able to fulfil this task? Here is a short summary of my experiences as a visiting artist researcher
The visiting artist researcher experiment discussed here brought together visual artists and climate scientists, amongst them my research group which studies storms. The artists’ stay led to a dialogue between our diverging perspectives and an open exchange of ideas. The exchange in my research group was more interactive than I had expected. Many conversations provided insights into ideas and work flows of the artists and, eventually, a new view on our storm studies.
The visiting artist researcher experiment discussed here brought together visual artists and climate scientists, amongst them my research group which studies storms. The artists’ stay led to a dialogue between our diverging perspectives and an open exchange of ideas. The exchange in my research group was more interactive than I had expected. Many conversations provided insights into ideas and work flows of the artists and, eventually, a new view on our storm studies.
U.S. strength in science, technology, engineering, and mathematics (STEM) disciplines has formed the basis of innovations, technologies, and industries that have spurred the nation’s economic growth throughout the last 150 years. Universities are essential to the creation and transfer of new knowledge that drives innovation. This knowledge moves out of the university and into broader society in several ways – through highly skilled graduates (i.e. human capital); academic publications; and the creation of new products, industries, and companies via the commercialization of scientific
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TEAM MEMBERS:
National Academies of Sciences, Engineering, and Medicine
Sharing scientific knowledge in conflict zones may not sound like a priority. Still science communicators can contribute to address social issues by inviting people to experience research practice, engaging them in scientific questioning and constructive dialog.
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TEAM MEMBERS:
Leila PerieLivio Riboli-SascoClaire Ribrault
A survey we carried out in upper secondary schools showed that the majority of the students consider physics as an important resource, yet as essentially connected to technology in strict terms, and not contributing “culture”, being too difficult a subject. Its appreciation tends to fade as their education progresses through the grades. The search for physics communication methods to increase interest and motivation among students prompted the Department of Physics at the University of Milan to establish the Laboratory of ScienzATeatro (SAT) in 2004. Up to May 2010, SAT staged three shows and
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TEAM MEMBERS:
Marina CarpinetiMichela CavinatoMarco GilibertiNicola LudwigLaura Perini
Science communication is less a community of researchers, but more a space where communities of research coexist to study and deal with communities of researchers. It is, as a field, a consequence of the spaces left between areas of expertise in (late) modern society. It exists to deal with the fragmentations of expertise in today’s society. In between those fragments is where it lives. It’s not an easy position, but an awareness of this unease is part of how science communication scholars can be most effective; as we examine, reflect, debate and help others manage the inescapable cultural
Scientific communication also pertains to the domain of society, where the formation of public opinion about science and technology is taking place. Concerning this process, two main points are exposed in the commentary. The first is a proposition on how the public as a social category may be conceptualized, and the second is the extent of the participation of members of the public in strengthening socialization and democratization practices in new, highly complex, contexts of scientific research. The public is conceptualized to include all citizens no matter their professional origin
Whether we like it or not, and how many difficulties this may pose, scientific research and technology are becoming the “property” of everybody and increasingly will become subject of public guidance and political decision making. Socialization happens because what people think, want and do has become central to the development of science and technology. Socialization of research is simply happening because it is the development characteristic of a society in which knowledge is becoming the main driving force. And just like in agricultural or industrial societies in the past it leads to (re-
Technoscience is deeply linked to national cultures across terrains as diverse as medicine, agricultural biotechnologies, ICTs, energy technologies, etc. Understanding the cultural dimension of technoscience is vital for the project of socialisation. This project should be embedded in technological and political cultures, taking variation in cultural approaches to technoscience, national identity and political decision-making seriously. Socialisation of science and technology in Europe should therefore approach socio-technical developments in a way that allows for the emergence of
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